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WO2022151750A1 - Processing device and technology for anti-slip sole - Google Patents

Processing device and technology for anti-slip sole Download PDF

Info

Publication number
WO2022151750A1
WO2022151750A1 PCT/CN2021/118636 CN2021118636W WO2022151750A1 WO 2022151750 A1 WO2022151750 A1 WO 2022151750A1 CN 2021118636 W CN2021118636 W CN 2021118636W WO 2022151750 A1 WO2022151750 A1 WO 2022151750A1
Authority
WO
WIPO (PCT)
Prior art keywords
buffer
air
cavity
thermoplastic elastic
elastic layer
Prior art date
Application number
PCT/CN2021/118636
Other languages
French (fr)
Chinese (zh)
Inventor
彭飘林
刘昭霞
李政仕
吕美莲
Original Assignee
黎明职业大学
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 黎明职业大学 filed Critical 黎明职业大学
Priority to ZA2022/07661A priority Critical patent/ZA202207661B/en
Publication of WO2022151750A1 publication Critical patent/WO2022151750A1/en

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D35/00Producing footwear
    • B29D35/12Producing parts thereof, e.g. soles, heels, uppers, by a moulding technique
    • B29D35/122Soles

Definitions

  • the invention relates to the technical field of anti-skid shoe processing, in particular to a processing device and process for anti-skid shoe soles.
  • the existing anti-skid soles do not have a buffering function, so they cannot protect the human body by buffering the knees when walking or exercising to reduce the pressure on the knees, and the current anti-skid soles cannot achieve air exchange, and the feet will feel uncomfortable when they are stuffed in the shoes.
  • One of the purposes of the present invention is to provide a processing device for anti-slip soles, so as to solve the problem that the anti-slip soles mentioned in the background art do not have a buffer function and cannot achieve air exchange in the shoes, causing discomfort to the feet.
  • the second object of the present invention is to provide a processing technology for anti-slip soles, and the anti-slip insole processed by the processing technology has the buffering part to buffer the force on the knees when walking or exercising, so as to prevent people from slipping while walking,
  • the force on the knee is buffered, which better protects the knee part of the human body; at the same time, the buffer block has a cavity for accommodating air.
  • the buffer block subjected to the upward squeezing force will release the air in the cavity. Squeeze upward to discharge the air in the shoe.
  • the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside the shoe are gradually exchanged.
  • a processing device for anti-skid soles comprising a molding mechanism for forming a buffer portion at the bottom end of the protective layer; the molding mechanism includes an air intake device for heating and softening the thermoplastic elastic layer , and a buffer molding device that makes the thermoplastic elastic material softened by heating to form a buffer part at the bottom end of the anti-skid layer.
  • the buffer forming device includes a plurality of buffer forming parts forming each buffer block of the buffer portion.
  • the buffer molding component includes a buffer molding component for forming a buffer block after softening the thermoplastic elastic layer.
  • the buffer molding assembly includes a first mold base and a second mold base; a first cavity formed by a softened thermoplastic elastic layer and facing the second mold base is formed on the side wall of the first mold base, and the first cavity is formed on the side wall of the first mold base.
  • a second mold cavity corresponding to the first mold cavity is formed on the side wall of the two mold bases; the first mold base and the second mold base are spliced together, and the first mold cavity and the second mold cavity are communicated ;
  • the upper surface of the buffer molding component is formed with a softening thermoplastic elastic layer and a feeding part for air to enter, and the feeding part is communicated with the first cavity and the second cavity.
  • the feeding part includes a first feeding port and a second feeding port; the first feeding port is formed on the upper surface of the first mold base, and the second feeding port is formed on the the upper surface of the second mold base; the upper surface of the first mold base has a first opening facing the second mold base, the upper surface of the second mold base has a second opening facing the first mold base, the The first feed port and the second feed port are connected through the first opening and the second opening.
  • the buffer forming component further includes an opening and closing driving device for driving the buffer forming assembly to open and close.
  • the opening and closing driving device includes a sliding part, a first moving driving device for driving the first mold base to move left and right on the sliding part, and a second moving driving device for driving the second mold base to move left and right on the sliding part.
  • the sliding part includes a sliding seat, and a sliding groove for sliding the first mold seat and the second mold seat is formed on the upper surface of the sliding seat.
  • the first moving driving device includes a first rotating motor, a first sliding block and a first screw rod; the upper end of the first sliding block is connected with the first die base, and the first sliding block is slidably connected to the sliding block.
  • the first sliding block is formed with a first through hole through which the first screw rod passes, one end of the first screw rod passes through the first through hole, the other end of the first screw rod and the output end of the first rotating motor connected together;
  • the second moving drive device includes a second rotating motor, a second sliding block and a second screw rod; the upper end of the second sliding block is connected with the second die base, and the second sliding block is slidably connected
  • a second through hole through which the second screw rod passes is formed on the second sliding block, one end of the second screw rod passes through the second through hole, and the other end of the second screw rod is connected to the second through hole of the second rotating motor. The outputs are connected together.
  • a plurality of the buffer forming parts are arranged in a matrix.
  • a first lift driving device for driving the buffer forming device to move up and down.
  • the first lifting driving device includes a connecting plate, and a first lifting cylinder that drives the connecting plate to move up and down; the buffer forming device is arranged on the upper end of the connecting plate, and the output end of the first lifting cylinder is connected to the upper end of the connecting plate. The bottom ends are connected together.
  • the air intake device includes a heating device and a guide device for guiding the airflow.
  • the heating device includes a hot air blowing device.
  • the hot air blowing device includes a hot air blower.
  • the air guide device includes an air guide box; an air cavity for accommodating gas is formed in the air guide box, and a hot air pipe is arranged on the air guide box, and the hot air blower passes through the hot air pipe and the air cavity.
  • the air guide box is formed with an air outlet for blowing out the air flow on the lower surface of the air guide box.
  • the air outlet portion includes a plurality of air outlet holes corresponding to the feed portions of each buffer molding component one-to-one.
  • the lower surface of the air guide box is also formed with a limiting protrusion that is clamped on the thermoplastic elastic layer.
  • the limiting protrusions are arranged in a closed loop, the inner walls of the limiting protrusions fit with the outer walls of the thermoplastic elastic layer, and the air outlet portions are all located inside the limiting protrusions.
  • the air guide device further includes a second lift drive device that drives the wind guide box to move up and down; the output end of the second lift drive device is connected to the wind guide box.
  • the air intake device further includes a refrigerating device for cooling the formed buffer portion.
  • the refrigeration device includes a cold blowing device.
  • the cold blowing device includes a cooling fan.
  • a cold air duct is provided on the air guide box, and the air cooler is communicated with the air cavity through the cold air duct.
  • an exhaust device is also included.
  • the exhaust device includes an exhaust pipe and an exhaust fan for exhausting gas; one end of the exhaust pipe is communicated with the air cavity of the air guide box, and the other end of the exhaust pipe is connected with the exhaust fan.
  • thermoplastic layer and the anti-skid layer are also included.
  • the clamping device includes a first positioning device on one side of the sole, and a second positioning device on the other side of the sole.
  • the first positioning device includes a first positioning portion.
  • the first positioning portion includes a first positioning plate.
  • the contact surface of the first positioning plate and the outer side wall of the sole side is matched with the outer side wall of the sole side.
  • the second positioning device includes a second positioning portion.
  • the second positioning portion includes a second positioning plate.
  • the contact surface of the second positioning plate and the outer side wall of the other side of the sole matches with the outer side wall of the other side of the sole.
  • the clamping device further includes a clamping driving device for driving the first positioning device and the second positioning device to clamp the sole inward.
  • the clamping driving device includes a first moving cylinder that drives the first positioning device to move left and right, and a second moving cylinder that drives the second positioning device to move left and right; the output end of the first moving cylinder and the first positioning portion connected together, the output end of the second moving cylinder and the second positioning part are connected together.
  • a process for processing a non-slip sole comprising the following steps: (1) processing a plurality of thermoplastic elastic layers on the non-slip layer into inlets after being heated and softened; (2) stacking the anti-slip layer and the thermoplastic elastic layer on a buffer molding layer in turn (3) Corresponding the feeding part of each buffer forming part to each inlet; (4) Heating the thermoplastic elastic layer through the air inlet device, so that the softened part of the thermoplastic elastic layer enters the buffer forming component to form a buffer piece.
  • thermoplastic elastic layer is made of any one of TPU, TPE, and EVA.
  • the anti-skid layer is first placed on the buffer forming device, the anti-skid layer is preliminarily positioned by the anti-skid part at the bottom of the anti-skid layer, the buffer forming component is pressed against the gap between the adjacent anti-skid parts, and then the thermoplastic elastic layer is placed on the anti-skid layer.
  • the upper surface of the anti-skid layer is first placed on the buffer forming device, the anti-skid layer is preliminarily positioned by the anti-skid part at the bottom of the anti-skid layer, the buffer forming component is pressed against the gap between the adjacent anti-skid parts, and then the thermoplastic elastic layer is placed on the anti-skid layer. The upper surface of the anti-skid layer.
  • the buffer forming device includes a plurality of buffer forming parts forming each buffer block of the buffer portion.
  • the buffer molding component includes a buffer molding component for forming a buffer block after softening the thermoplastic elastic layer.
  • the buffer molding assembly includes a first mold base and a second mold base; a first cavity formed by a softened thermoplastic elastic layer and facing the second mold base is formed on the side wall of the first mold base, and the first cavity is formed on the side wall of the first mold base.
  • a second mold cavity corresponding to the first mold cavity is formed on the side wall of the two mold bases; the first mold base and the second mold base are spliced together, and the first mold cavity and the second mold cavity are communicated ;
  • the upper surface of the buffer molding component is formed with a softening thermoplastic elastic layer and a feeding part for air to enter, and the feeding part is communicated with the first cavity and the second cavity.
  • the feeding part includes a first feeding port and a second feeding port; the first feeding port is formed on the upper surface of the first mold base, and the second feeding port is formed on the the upper surface of the second mold base; the upper surface of the first mold base has a first opening facing the second mold base, the upper surface of the second mold base has a second opening facing the first mold base, the The first feed port and the second feed port are connected through the first opening and the second opening.
  • the buffer forming component further includes an opening and closing driving device for driving the buffer forming assembly to open and close.
  • the opening and closing driving device includes a sliding part, a first moving driving device for driving the first mold base to move left and right on the sliding part, and a second moving driving device for driving the second mold base to move left and right on the sliding part.
  • the sliding part includes a sliding seat, and a sliding groove for sliding the first mold seat and the second mold seat is formed on the upper surface of the sliding seat.
  • the first moving driving device includes a first rotating motor, a first sliding block and a first screw rod; the upper end of the first sliding block is connected with the first die base, and the first sliding block is slidably connected to the sliding block.
  • the first sliding block is formed with a first through hole through which the first screw rod passes, one end of the first screw rod passes through the first through hole, the other end of the first screw rod and the output end of the first rotating motor connected together;
  • the second moving drive device includes a second rotating motor, a second sliding block and a second screw rod; the upper end of the second sliding block is connected with the second die base, and the second sliding block is slidably connected
  • a second through hole through which the second screw rod passes is formed on the second sliding block, one end of the second screw rod passes through the second through hole, and the other end of the second screw rod is connected to the second through hole of the second rotating motor. The outputs are connected together.
  • a plurality of the buffer forming parts are arranged in a matrix.
  • a first lift driving device for driving the buffer forming device to move up and down.
  • the first lifting driving device includes a connecting plate, and a first lifting cylinder that drives the connecting plate to move up and down; the buffer forming device is arranged on the upper end of the connecting plate, and the output end of the first lifting cylinder is connected to the upper end of the connecting plate. The bottom ends are connected together.
  • thermoplastic elastic layer is preheated to soften the thermoplastic elastic layer as a whole, and then the position corresponding to the thermoplastic elastic layer and the buffer molding component is further softened in a local range, so that the local range is further softened.
  • the further softened thermoplastic elastic layer forms a bumper block within the bumper molding assembly.
  • the air intake device includes a heating device and a guide device for guiding the airflow.
  • the heating device includes a hot air blowing device.
  • the hot air blowing device includes a hot air blower.
  • the air guide device includes an air guide box; an air cavity for accommodating gas is formed in the air guide box, and a hot air pipe is arranged on the air guide box, and the hot air blower passes through the hot air pipe and the air cavity.
  • the air guide box is formed with an air outlet for blowing out the air flow on the lower surface of the air guide box.
  • the air outlet portion includes a plurality of air outlet holes corresponding to the feed portions of each buffer molding component one-to-one.
  • the lower surface of the air guide box is also formed with a limiting protrusion that is clamped on the thermoplastic elastic layer.
  • the limiting protrusions are arranged in a closed loop, the inner walls of the limiting protrusions fit with the outer walls of the thermoplastic elastic layer, and the air outlet portions are all located inside the limiting protrusions.
  • the air guide device further includes a second lift drive device that drives the wind guide box to move up and down; the output end of the second lift drive device is connected to the wind guide box.
  • the air intake device further includes a refrigerating device for cooling the formed buffer portion.
  • the refrigeration device includes a cold blowing device.
  • the cold blowing device includes a cooling fan.
  • a cold air duct is provided on the air guide box, and the air cooler is communicated with the air cavity through the cold air duct.
  • an exhaust device is also included.
  • the exhaust device includes an exhaust pipe and an exhaust fan for exhausting gas; one end of the exhaust pipe is communicated with the air cavity of the air guide box, and the other end of the exhaust pipe is connected with the exhaust fan.
  • thermoplastic elastic layer and the anti-skid layer are clamped and fixed by a clamping device.
  • the clamping device includes a first positioning device on one side of the sole, and a second positioning device on the other side of the sole.
  • the first positioning device includes a first positioning portion.
  • the first positioning portion includes a first positioning plate.
  • the contact surface of the first positioning plate and the outer side wall of the sole side is matched with the outer side wall of the sole side.
  • the second positioning device includes a second positioning portion.
  • the second positioning portion includes a second positioning plate.
  • the contact surface of the second positioning plate and the outer side wall of the other side of the sole matches with the outer side wall of the other side of the sole.
  • the clamping device further includes a clamping driving device for driving the first positioning device and the second positioning device to clamp the sole inward.
  • the clamping driving device includes a first moving cylinder that drives the first positioning device to move left and right, and a second moving cylinder that drives the second positioning device to move left and right; the output end of the first moving cylinder and the first positioning portion connected together, the output end of the second moving cylinder and the second positioning part are connected together.
  • the present invention relates to a processing device for anti-skid soles, which has at least the following beneficial effects: the thermoplastic elastic layer is heated and melted by the heating device of the air intake device, so that the heated part of the thermoplastic elastic layer is softened and then enters the buffer.
  • the thermoplastic elastic layer is heated and melted by the heating device of the air intake device, so that the heated part of the thermoplastic elastic layer is softened and then enters the buffer.
  • a buffer part is formed at the bottom end of the anti-skid layer by the buffer forming device, and the buffer block of the buffer part has a cavity for accommodating air.
  • the buffer block of the squeezing force squeezes the air in the cavity upward, so that the air in the shoe is discharged.
  • the buffer block When the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside The exchange is gradually completed; in the present invention, a buffer block is processed between the anti-skid parts at the bottom end of the anti-skid layer, so that the sole has the anti-skid performance and the function of buffering at the same time, and the buffer block moves upward after being squeezed, so that the anti-skid block contacts the ground. , friction with the ground, better protection of the buffer part from wear, and prolong the service life of the buffer part; the setting of the cavity in the buffer block keeps the air in the shoe circulating and improves the wearing comfort.
  • the invention also proposes a processing technology for anti-slip soles.
  • the anti-slip insole processed through the processing technology has the buffering part to buffer the force on the knees when walking or exercising.
  • the force of the buffer is buffered, which better protects the knee part of the human body; at the same time, the buffer block has a cavity for accommodating air.
  • the air in the shoe is exhausted. When the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged.
  • FIG. 1 is a schematic three-dimensional structural diagram of a processing device related to a processing device and process for a non-slip sole according to the present invention.
  • FIG. 2 is a schematic three-dimensional structure diagram of a buffer molding component of a processing device and process for a non-slip sole according to the present invention.
  • FIG. 3 is a schematic three-dimensional structural diagram of a first mold base and a first sliding block of a processing device and process for a non-slip sole according to the present invention.
  • FIG. 4 is a schematic bottom view of the structure of a wind guide box related to a processing device and process for a non-slip sole according to the present invention.
  • FIG. 5 is a schematic diagram of the three-dimensional structure of a shoe sole related to a processing device and process for a non-slip shoe sole according to the present invention.
  • a processing device for a non-slip sole of the present invention includes a molding mechanism for forming a buffer at the bottom end of the protective layer; the molding mechanism includes an air intake device 1 for heating and softening the thermoplastic elastic layer 6, And the buffer molding device 2 for forming a buffer portion at the bottom end of the anti-skid layer 5 with the thermoplastic elastic material softened by heating.
  • thermoplastic elastic layer 6 is heated and melted by the heating device of the air intake device 1 , the heated part of the thermoplastic elastic layer 6 is softened and then enters the buffer molding device 2 , and a buffer is formed at the bottom end of the anti-skid layer 5 by the buffer molding device 2
  • the buffer block of the buffer part has a cavity for accommodating air.
  • the buffer block subjected to the upward pressing force will squeeze the air in the cavity upward,
  • the air in the shoe is discharged, and when the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged;
  • the buffer block is processed between the two, so that the sole has the anti-skid performance and also has the function of buffering.
  • the buffer block moves upward after being squeezed, so that the anti-skid block contacts the ground and rubs against the ground, which better protects the buffer from wear and tear. It can prolong the service life of the buffer part; the setting of the cavity in the buffer block keeps the air in the shoe in a state of circulation and improves the wearing comfort.
  • the buffer forming device 2 includes a plurality of buffer forming parts 21 forming each buffer block of the buffer portion.
  • a plurality of buffer blocks are processed by the plurality of buffer molding parts 21 .
  • the buffer forming part 21 includes a buffer forming component 211 for forming a buffer block after softening the thermoplastic elastic layer 6 .
  • the buffer forming component 211 Through the buffer forming component 211, the softened thermoplastic elastic layer 6 is shaped in the cavity to form the shape of a buffer block.
  • the buffer molding assembly 211 includes a first mold base 2111 and a second mold base 2112 ; a first cavity 2113 is formed on the side wall of the first mold base 2111 and is formed with the softened thermoplastic elastic layer 6 and faces the second mold base 2112 , a second cavity corresponding to the first cavity 2113 is formed on the side wall of the second die base 2112; the first die base 2111 and the second die base 2112 are spliced together, the first cavity 2113 and the second die The cavities are communicated; the upper surface of the buffer molding component 211 is formed with the softening thermoplastic elastic layer 6 and the feeding part 2114 into which the air enters, and the feeding part 2114 communicates with the first cavity 2113 and the second cavity.
  • the first mold cavity 2113 and the second mold cavity are connected together, so that the softened thermoplastic elastic layer 6 enters the first mold cavity 2113 and the second mold cavity gradually. forming.
  • the feeding part 2114 includes a first feeding port 2115 and a second feeding port 2116; the first feeding port 2115 is formed on the upper surface of the first mold base 2111, and the second feeding port 2116 is formed in the second mold
  • the first feeding port 2115 and the second feeding port 2116 are spliced together, so that the connection structure between the buffer block and the thermoplastic elastic layer 6 is more stable, and at the same time, the speed of the softened thermoplastic elastic layer 6 entering the cavity is accelerated.
  • the buffer forming component 21 further includes an opening and closing driving device 212 for driving the buffer forming assembly 211 to open and close.
  • the opening and closing driving device 212 drives the opening and closing of the buffer forming assembly 211 , the buffer forming device 2 is closed before processing, and the buffer forming device 2 is opened after cooling, which will not affect the formed buffer block.
  • the opening and closing driving device 212 includes a sliding part 2121, a first moving driving device 2122 for driving the first mold base 2111 to move left and right on the sliding part 2121, and driving the second mold base 2112 to move The second moving driving device 2123 on the sliding part 2121 moves left and right.
  • the sliding portion 2121 includes a sliding seat, and the upper surface of the sliding seat is formed with a sliding groove for the first mold seat 2111 and the second mold seat 2112 to slide.
  • the first moving driving device 2122 includes a first rotating motor 21221, a first sliding block 21222 and a first screw 21223; the upper end of the first sliding block 21222 is connected with the first die base 2111, and the first sliding block 21222 is slidably connected In the sliding groove, the first sliding block 21222 is formed with a first through hole through which the first screw 21223 passes.
  • the output end of the second moving drive device 2123 includes a second rotating motor 21231, a second sliding block 21232 and a second screw 21233; the upper end of the second sliding block 21232 is connected with the second die base 2112, and the second sliding block 21232
  • the block 21232 is slidably connected in the sliding groove, the second sliding block 21232 is formed with a second through hole through which the second screw 21233 passes, one end of the second screw 21233 passes through the second through hole, and the other end of the second screw 21233 is connected to the second through hole.
  • the outputs of the two rotating motors 21231 are connected together.
  • the first rotating motor 21221 drives the first screw 21223 to rotate, so that the first sliding block 21222 drives the first die base 2111 to move to the left, and the second rotating motor 21231 drives the second screw 21233 to rotate, making the second sliding
  • the block 21232 drives the second die base 2112 to move to the right to achieve the purpose of demoulding.
  • a plurality of buffer forming parts 21 are arranged in a matrix.
  • a first lift driving device 3 for driving the buffer forming device 2 to move up and down is also included.
  • the first lifting driving device 3 includes a connecting plate 31 and a first lifting cylinder 32 that drives the connecting plate 31 to move up and down;
  • the buffer forming device 2 is provided on the upper end of the connecting plate 31, and the output end of the first lifting cylinder 32 is connected to the The bottom ends of the plates 31 are connected together.
  • the first lifting cylinder 32 drives the connecting plate 31 to move downward, so that the worker has enough space to move the anti-skid layer 5 and the thermoplastic elastic layer 6. Put it on the buffer forming device 2, and after it is placed, drive the lifting cylinder to move up to a predetermined position, which is convenient for the clamping device 4 to clamp.
  • the air intake device 1 includes a heating device, and a guide device 11 for guiding the airflow.
  • the hot air is input into the guiding device 11 through the heating device, and the hot air is output by the guiding device 11 to gradually soften the thermoplastic elastic layer 6 .
  • the heating device includes a hot air blower.
  • the hot air is output through the hot air blower.
  • the hot air blowing device includes a hot air blower.
  • the hot air is output through the hot air blower.
  • the air guide device 11 includes an air guide box 111; an air chamber for accommodating gas is formed in the air guide box 111, a hot air pipe 112 is arranged on the air guide box 111, and the hot air blower is communicated with the air chamber through the hot air pipe 112, and the air guide box
  • the lower surface of 111 is formed with an air outlet 113 for blowing out airflow. After the hot air enters the air cavity in the air guide box 111 , the hot air is output through the air outlet 113 .
  • the air outlet portion 113 includes a plurality of air outlet holes 1131 corresponding to the feeding portions 2114 of each buffer molding part 21 one-to-one.
  • a plurality of predetermined positions are heated, so that the thermoplastic elastic layer 6 in the predetermined positions is gradually softened and then enters the buffer molding assembly 211 to form a buffer block.
  • the lower surface of the air guide box 111 is further formed with a limiting protrusion 114 that is clamped on the thermoplastic elastic layer 6 .
  • the limiting protrusion 114 is closed-loop arranged, and the inner wall of the limiting protrusion 114 is in contact with the outer wall of the thermoplastic elastic layer 6; The inner side of the limiting protrusion 114 .
  • the air guide device 11 further includes a second lift drive device 115 that drives the wind guide box 111 to move up and down; the output end of the second lift drive device 115 is connected to the wind guide box 111 .
  • the second lift driving device 115 drives the wind guide box 111 to a predetermined height to preheat the thermoplastic elastic layer 6 to soften the thermoplastic elastic layer 6 as a whole, and then drives the wind guide box 111 to cover the thermoplastic elastic layer 6, and the predetermined local area Heating is performed; specifically, the second lift driving device 115 is driven by an air cylinder.
  • the air intake device 1 further includes a refrigeration device for cooling the formed buffer portion.
  • the formed buffer part is cooled and shaped by the refrigeration device, so as to speed up the processing efficiency of the buffer part.
  • the refrigeration device includes a cold blowing device.
  • the cold air is fed into the air cavity of the wind box 111 through the cold air blowing device.
  • the cooling blowing device includes a cooling fan. Cool air is input into the air cavity of the air box 111 through the cooling fan.
  • a cold air duct 116 is provided on the air guide box 111 , and the cooling fan communicates with the air cavity through the cold air duct 116 .
  • an exhaust device is also included.
  • the hot air is gradually discharged through the exhaust device, and the exhaust device is closed after the air guide box 111 is completely filled with cold air; when hot air is needed, the cold air is gradually discharged through the exhaust device, and the air guide box 111 is completely discharged.
  • the air guide box 111 is completely discharged.
  • the exhaust device in order to facilitate the exhaust device to exhaust gas, includes an exhaust pipe 117 and an exhaust fan for exhausting gas; one end of the exhaust pipe 117 is communicated with the air cavity of the air guide box 111, and the other end of the exhaust pipe 117 One end is connected to the exhaust fan.
  • a clamping device 4 for clamping and fixing the thermoplastic layer and the anti-skid layer 5 is also included.
  • the clamping device 4 comprises a first positioning device 41 on one side of the sole, and a second positioning device 42 on the other side of the sole.
  • the sole is clamped by the first positioning device 41 and the second positioning device 42 to better align the anti-skid layer 5 and the thermoplastic elastic layer 6 ; specifically, the sole includes the anti-skid layer 5 and the thermoplastic elastic layer 6 .
  • the first positioning device 41 includes a first positioning portion 411 .
  • the first positioning portion 411 is in contact with one side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
  • the first positioning portion 411 includes a first positioning plate.
  • the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the first positioning plate contacting one side outer wall of the sole.
  • the contact surface of a positioning plate and the outer side wall of the sole side matches with the outer side wall of the sole side.
  • the second positioning device 42 includes a second positioning portion 421 .
  • the second positioning portion 421 contacts the other side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
  • the second positioning portion 421 includes a second positioning plate.
  • the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the second positioning plate contacting the other side outer wall of the sole.
  • the contact surface between the second positioning plate and the outer sidewall on the other side of the sole matches with the outer sidewall on the other side of the sole.
  • the clamping device 4 further includes a clamping driving device 43 for driving the first positioning device 41 and the second positioning device 42 to clamp the sole inward.
  • the first positioning device 41 and the second positioning device 42 are simultaneously driven to clamp the sole inward by the clamping driving device 43 .
  • the clamping driving device 43 includes a first moving cylinder 431 that drives the first positioning device 41 to move left and right, and a second moving cylinder 432 that drives the second positioning device 42 to move left and right; the output end of the first moving cylinder 431 and the second moving cylinder 432 A positioning portion 411 is connected together, and the output end of the second moving cylinder 432 is connected with the second positioning portion 421 .
  • the first positioning portion 411 is driven to move inward by the first moving cylinder 431, and the second positioning portion 421 is driven to move inward by the second moving cylinder 432 to clamp the sole.
  • a processing technique for anti-skid soles comprising the steps: (1) on the anti-skid layer 5, a plurality of thermoplastic elastic layers 6 are processed into inlets after being heated and softened; (2) the anti-skid layer 5 and the thermoplastic elastic layer 6 are stacked successively Put it on the buffer forming device 2; (3) Corresponding the feeding part 2114 of each buffer forming part 21 to each inlet; (4) Heating the thermoplastic elastic layer 6 through the air feeding device 1 to make the thermoplastic elastic layer 6 The softened part enters the buffer forming component 211 to form a buffer block.
  • the anti-slip insole processed by this processing technology has the buffering part to buffer the force on the knee when walking or exercising, so as to prevent people from slipping while walking, buffer the force on the knee and better protect the human body
  • the buffer block subjected to the upward pressing force squeezes the air in the cavity upward, so that the air in the shoe is discharged.
  • the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged.
  • the thermoplastic elastic layer 6 is made of any one of TPU, TPE and EVA.
  • the thermoplastic elastic layer 6 is made of EVA material, and is made of EVA elastic layer, which has the advantages of lightness and elasticity, and achieves a better balance between comfort and functionality;
  • the anti-skid layer 5 is made of high hardness Made of rubber, high hardness rubber has the advantages of reducing loss and improving wear resistance.
  • the anti-skid layer 5 is first placed on the buffer forming device 2, the anti-skid layer 5 is preliminarily positioned through the anti-skid part at the bottom end of the anti-skid layer 5, the buffer forming component 211 is pressed against the gap between the adjacent anti-skid parts, and then The thermoplastic elastic layer 6 is stacked on the upper surface of the anti-slip layer 5 .
  • the buffer forming device 2 includes a plurality of buffer forming parts 21 forming each buffer block of the buffer portion.
  • a plurality of buffer blocks are processed by the plurality of buffer molding parts 21 .
  • the buffer forming part 21 includes a buffer forming component 211 for forming a buffer block after softening the thermoplastic elastic layer 6 .
  • the buffer forming component 211 Through the buffer forming component 211, the softened thermoplastic elastic layer 6 is shaped in the cavity to form the shape of a buffer block.
  • the buffer molding assembly 211 includes a first mold base 2111 and a second mold base 2112 ; a first cavity 2113 is formed on the side wall of the first mold base 2111 and is formed with the softened thermoplastic elastic layer 6 and faces the second mold base 2112 , a second cavity corresponding to the first cavity 2113 is formed on the side wall of the second die base 2112; the first die base 2111 and the second die base 2112 are spliced together, the first cavity 2113 and the second die The cavities are communicated; the upper surface of the buffer molding component 211 is formed with the softening thermoplastic elastic layer 6 and the feeding part 2114 into which the air enters, and the feeding part 2114 communicates with the first cavity 2113 and the second cavity.
  • the first mold cavity 2113 and the second mold cavity are connected together, so that the softened thermoplastic elastic layer 6 enters the first mold cavity 2113 and the second mold cavity gradually. forming.
  • the feeding part 2114 includes a first feeding port 2115 and a second feeding port 2116; the first feeding port 2115 is formed on the upper surface of the first mold base 2111, and the second feeding port 2116 is formed in the second mold
  • the first feeding port 2115 and the second feeding port 2116 are spliced together to make the connection structure between the buffer block and the thermoplastic elastic layer 6 more stable, and at the same time accelerate the speed of the softened thermoplastic elastic layer 6 entering the cavity.
  • the buffer forming component 21 further includes an opening and closing driving device 212 for driving the buffer forming assembly 211 to open and close.
  • the opening and closing driving device 212 drives the opening and closing of the buffer forming assembly 211 , the buffer forming device 2 is closed before processing, and the buffer forming device 2 is opened after cooling, which will not affect the formed buffer block.
  • the opening and closing driving device 212 includes a sliding part 2121, a first moving driving device 2122 for driving the first mold base 2111 to move left and right on the sliding part 2121, and driving the second mold base 2112 to move The second moving driving device 2123 on the sliding part 2121 moves left and right.
  • the sliding portion 2121 includes a sliding seat, and the upper surface of the sliding seat is formed with a sliding groove for the first mold seat 2111 and the second mold seat 2112 to slide.
  • the first moving driving device 2122 includes a first rotating motor 21221, a first sliding block 21222 and a first screw 21223; the upper end of the first sliding block 21222 is connected with the first die base 2111, and the first sliding block 21222 is slidably connected In the sliding groove, the first sliding block 21222 is formed with a first through hole through which the first screw 21223 passes.
  • the output end of the second moving drive device 2123 includes a second rotating motor 21231, a second sliding block 21232 and a second screw 21233; the upper end of the second sliding block 21232 is connected with the second die base 2112, and the second sliding block 21232
  • the block 21232 is slidably connected in the sliding groove, the second sliding block 21232 is formed with a second through hole through which the second screw 21233 passes, one end of the second screw 21233 passes through the second through hole, and the other end of the second screw 21233 is connected to the second through hole.
  • the outputs of the two rotating motors 21231 are connected together.
  • the first rotating motor 21221 drives the first screw 21223 to rotate, so that the first sliding block 21222 drives the first die base 2111 to move to the left, and the second rotating motor 21231 drives the second screw 21233 to rotate, making the second sliding
  • the block 21232 drives the second die base 2112 to move to the right to achieve the purpose of demoulding.
  • a plurality of buffer forming parts 21 are arranged in a matrix.
  • a first lift driving device 3 for driving the buffer forming device 2 to move up and down is also included.
  • the first lifting driving device 3 includes a connecting plate 31 and a first lifting cylinder 32 that drives the connecting plate 31 to move up and down;
  • the buffer forming device 2 is provided on the upper end of the connecting plate 31, and the output end of the first lifting cylinder 32 is connected to the The bottom ends of the plates 31 are connected together.
  • the first lifting cylinder 32 drives the connecting plate 31 to move downward, so that the worker has enough space to move the anti-skid layer 5 and the thermoplastic elastic layer 6. Put it on the buffer forming device 2, and after it is placed, drive the lifting cylinder to move up to a predetermined position, which is convenient for the clamping device 4 to clamp.
  • thermoplastic elastic layer 6 is pre-heated to soften the thermoplastic elastic layer 6 as a whole, and then the position corresponding to the thermoplastic elastic layer 6 and the buffer molding component 211 is further softened in a local range , so that the thermoplastic elastic layer 6 further softened in a local range forms a buffer block in the buffer molding component 211 .
  • the softening temperature of EVA is 70-80°C.
  • the softening temperature of EVA is 75°C.
  • the air intake device 1 includes a heating device, and a guide device 11 for guiding the airflow.
  • the hot air is input into the guiding device 11 through the heating device, and the hot air is output by the guiding device 11 to gradually soften the thermoplastic elastic layer 6 .
  • the heating device includes a hot air blower.
  • the hot air is output through the hot air blower.
  • the hot air blowing device includes a hot air blower.
  • the hot air is output through the hot air blower.
  • the air guide device 11 includes an air guide box 111; an air chamber for accommodating gas is formed in the air guide box 111, a hot air pipe 112 is arranged on the air guide box 111, and the hot air blower is communicated with the air chamber through the hot air pipe 112, and the air guide box
  • the lower surface of 111 is formed with an air outlet 113 for blowing out airflow. After the hot air enters the air cavity in the air guide box 111 , the hot air is output through the air outlet 113 .
  • the air outlet portion 113 includes a plurality of air outlet holes 1131 corresponding to the feeding portions 2114 of each buffer molding part 21 one-to-one.
  • a plurality of predetermined positions are heated, so that the thermoplastic elastic layer 6 in the predetermined positions is gradually softened and then enters the buffer molding assembly 211 to form a buffer block.
  • the lower surface of the air guide box 111 is further formed with a limiting protrusion 114 that is clamped on the thermoplastic elastic layer 6 .
  • the limiting protrusion 114 is closed-loop arranged, and the inner wall of the limiting protrusion 114 is in contact with the outer wall of the thermoplastic elastic layer 6; The inner side of the limiting protrusion 114 .
  • the air guide device 11 further includes a second lift drive device 115 that drives the wind guide box 111 to move up and down; the output end of the second lift drive device 115 is connected to the wind guide box 111 .
  • the second lift driving device 115 drives the wind guide box 111 to a predetermined height to preheat the thermoplastic elastic layer 6 to soften the thermoplastic elastic layer 6 as a whole, and then drives the wind guide box 111 to cover the thermoplastic elastic layer 6, and the predetermined local area Heating is performed; specifically, the second lift driving device 115 is driven by an air cylinder.
  • the air intake device 1 further includes a refrigeration device for cooling the formed buffer portion.
  • the formed buffer part is cooled and shaped by the refrigeration device, so as to speed up the processing efficiency of the buffer part.
  • the refrigeration device includes a cold blowing device.
  • the cold air is fed into the air cavity of the wind box 111 through the cold air blowing device.
  • the cooling blowing device includes a cooling fan. Cool air is input into the air cavity of the air box 111 through the cooling fan.
  • a cold air duct 116 is provided on the air guide box 111 , and the cooling fan communicates with the air cavity through the cold air duct 116 .
  • an exhaust device is also included.
  • the hot air is gradually discharged through the exhaust device, and the exhaust device is closed after the air guide box 111 is completely filled with cold air; when hot air is needed, the cold air is gradually discharged through the exhaust device, and the air guide box 111 is completely discharged.
  • the air guide box 111 is completely discharged.
  • the exhaust device in order to facilitate the exhaust device to exhaust gas, includes an exhaust pipe 117 and an exhaust fan for exhausting gas; one end of the exhaust pipe 117 is communicated with the air cavity of the air guide box 111, and the other end of the exhaust pipe 117 One end is connected to the exhaust fan.
  • thermoplastic elastic layer 6 and the anti-skid layer 5 are clamped and fixed by the clamping device 4 .
  • the clamping device 4 comprises a first positioning device 41 on one side of the sole, and a second positioning device 42 on the other side of the sole.
  • the sole is clamped by the first positioning device 41 and the second positioning device 42 to better align the anti-skid layer 5 and the thermoplastic elastic layer 6 ; specifically, the sole includes the anti-skid layer 5 and the thermoplastic elastic layer 6 .
  • the first positioning device 41 includes a first positioning portion 411 .
  • the first positioning portion 411 is in contact with one side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
  • the first positioning portion 411 includes a first positioning plate.
  • the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the first positioning plate contacting one side outer wall of the sole.
  • the contact surface of a positioning plate and the outer side wall of the sole side matches with the outer side wall of the sole side.
  • the second positioning device 42 includes a second positioning portion 421 .
  • the second positioning portion 421 contacts the other side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
  • the second positioning portion 421 includes a second positioning plate.
  • the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the second positioning plate contacting the other side outer wall of the sole.
  • the contact surface between the second positioning plate and the outer sidewall on the other side of the sole matches with the outer sidewall on the other side of the sole.
  • the clamping device 4 further includes a clamping driving device 43 for driving the first positioning device 41 and the second positioning device 42 to clamp the sole inward.
  • the first positioning device 41 and the second positioning device 42 are simultaneously driven to clamp the sole inward by the clamping driving device 43 .
  • the clamping driving device 43 includes a first moving cylinder 431 that drives the first positioning device 41 to move left and right, and a second moving cylinder 432 that drives the second positioning device 42 to move left and right; the output end of the first moving cylinder 431 and the second moving cylinder 432 A positioning portion 411 is connected together, and the output end of the second moving cylinder 432 is connected with the second positioning portion 421 .
  • the first positioning portion 411 is driven to move inward by the first moving cylinder 431, and the second positioning portion 421 is driven to move inward by the second moving cylinder 432 to clamp the sole.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)

Abstract

A processing device and technology for an anti-slip sole. The processing device comprises a forming mechanism for forming a buffer portion at the bottom of an anti-slip layer (5). The forming mechanism comprises an air inlet device (1) for heating and softening a thermoplastic elastic layer (6), and a buffer forming device (2) for forming a heated and softened thermoplastic elastic material into the buffer portion at the bottom of the anti-slip layer (5). By processing buffer blocks between anti-slip portions at the bottom of the anti-slip layer (5), the sole has not only anti-slip performance but also a buffering effect.

Description

一种防滑鞋底的加工装置及工艺A kind of processing device and technology of anti-skid sole 技术领域technical field
本发明涉及防滑鞋加工技术领域,具体涉及一种防滑鞋底的加工装置及工艺。The invention relates to the technical field of anti-skid shoe processing, in particular to a processing device and process for anti-skid shoe soles.
背景技术Background technique
在湿滑冻结的路面上行走,极容易因路面湿滑摔倒而受伤,老人对防滑鞋的需求更大。Walking on a slippery and frozen road is very easy to be injured by slipping and falling on the road, and the elderly have a greater demand for anti-skid shoes.
现有的防滑鞋底不具备缓冲功能,无法保护人体在行走时或者运动时对膝盖进行缓冲减轻膝盖的压力,且现在的防滑鞋底无法实现空气交换,脚闷在鞋里会有不适感。The existing anti-skid soles do not have a buffering function, so they cannot protect the human body by buffering the knees when walking or exercising to reduce the pressure on the knees, and the current anti-skid soles cannot achieve air exchange, and the feet will feel uncomfortable when they are stuffed in the shoes.
鉴于此,本案发明人对上述问题进行深入研究,遂有本案产生。In view of this, the inventor of this case has conducted in-depth research on the above-mentioned problems, and this case came into being.
技术问题technical problem
本发明的其一目的在于提供一种防滑鞋底的加工装置,以解决背景技术中提到的防滑鞋底不具备缓冲功能,且无法在鞋内实现空气交换,造成脚的不适感的问题。One of the purposes of the present invention is to provide a processing device for anti-slip soles, so as to solve the problem that the anti-slip soles mentioned in the background art do not have a buffer function and cannot achieve air exchange in the shoes, causing discomfort to the feet.
本发明的其二目的在于提供一种防滑鞋底的加工工艺,通过该加工工艺加工出的防滑鞋垫,具有通过缓冲部缓冲走路或运动时对膝盖的力,在防止人们行走时滑倒的同时,对膝盖受到的力进行缓冲,更好的保护了人体膝盖部分;同时缓冲块内部具有容置空气的空腔,当向下踩的时候,受到向上挤压力的缓冲块将空腔内的空气向上挤压,使鞋内的空气排出,当脚抬起时,缓冲块在恢复原状的同时对空气进行吸附,使鞋内的空气和外面的空气逐渐完成交换。The second object of the present invention is to provide a processing technology for anti-slip soles, and the anti-slip insole processed by the processing technology has the buffering part to buffer the force on the knees when walking or exercising, so as to prevent people from slipping while walking, The force on the knee is buffered, which better protects the knee part of the human body; at the same time, the buffer block has a cavity for accommodating air. When stepping down, the buffer block subjected to the upward squeezing force will release the air in the cavity. Squeeze upward to discharge the air in the shoe. When the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside the shoe are gradually exchanged.
技术解决方案technical solutions
为了达到上述目的,本发明采用这样的技术方案:一种防滑鞋底的加工装置,包括在防护层的底端形成缓冲部的成型机构;所述成型机构包括对热塑性弹性层加热软化的进气装置,和使加热软化后的热塑性弹性材料在防滑层的底端形成缓冲部的缓冲成型装置。In order to achieve the above purpose, the present invention adopts such a technical solution: a processing device for anti-skid soles, comprising a molding mechanism for forming a buffer portion at the bottom end of the protective layer; the molding mechanism includes an air intake device for heating and softening the thermoplastic elastic layer , and a buffer molding device that makes the thermoplastic elastic material softened by heating to form a buffer part at the bottom end of the anti-skid layer.
进一步,所述缓冲成型装置包括多个形成缓冲部的各缓冲块的缓冲成型部件。Further, the buffer forming device includes a plurality of buffer forming parts forming each buffer block of the buffer portion.
进一步,所述缓冲成型部件包括使热塑性弹性层软化后形成缓冲块的缓冲成型组件。Further, the buffer molding component includes a buffer molding component for forming a buffer block after softening the thermoplastic elastic layer.
进一步,所述缓冲成型组件包括第一模座和第二模座;所述第一模座的侧壁上形成有软化热塑性弹性层成型并朝向第二模座的第一型腔,所述第二模座的侧壁上形成有与第一型腔相对应的第二型腔;所述第一模座和第二模座拼接在一起,所述第一型腔和第二型腔相连通;所述缓冲成型组件的上表面形成有软化热塑性弹性层和空气进入的进料部,所述进料部与第一型腔和第二型腔相连通。Further, the buffer molding assembly includes a first mold base and a second mold base; a first cavity formed by a softened thermoplastic elastic layer and facing the second mold base is formed on the side wall of the first mold base, and the first cavity is formed on the side wall of the first mold base. A second mold cavity corresponding to the first mold cavity is formed on the side wall of the two mold bases; the first mold base and the second mold base are spliced together, and the first mold cavity and the second mold cavity are communicated ; The upper surface of the buffer molding component is formed with a softening thermoplastic elastic layer and a feeding part for air to enter, and the feeding part is communicated with the first cavity and the second cavity.
进一步,所述进料部包括第一进料口和第二进料口;所述第一进料口形成于所述第一模座的上表面,所述第二进料口形成于所述第二模座的上表面;所述第一模座的上表面具有朝向第二模座的第一开口,所述第二模座的上表面具有朝向第一模座的第二开口,所述第一进料口和第二进料口通过第一开口和第二开口相连接。Further, the feeding part includes a first feeding port and a second feeding port; the first feeding port is formed on the upper surface of the first mold base, and the second feeding port is formed on the the upper surface of the second mold base; the upper surface of the first mold base has a first opening facing the second mold base, the upper surface of the second mold base has a second opening facing the first mold base, the The first feed port and the second feed port are connected through the first opening and the second opening.
进一步,所述缓冲成型部件还包括驱动缓冲成型组件开合的开合驱动装置。Further, the buffer forming component further includes an opening and closing driving device for driving the buffer forming assembly to open and close.
进一步,所述开合驱动装置包括滑动部,驱动第一模座在滑动部上左右移动的第一移动驱动装置,和驱动第二模座在滑动部上左右移动的第二移动驱动装置。Further, the opening and closing driving device includes a sliding part, a first moving driving device for driving the first mold base to move left and right on the sliding part, and a second moving driving device for driving the second mold base to move left and right on the sliding part.
进一步,所述滑动部包括滑动座,所述滑动座的上表面形成有供第一模座和第二模座滑动的滑动槽。Further, the sliding part includes a sliding seat, and a sliding groove for sliding the first mold seat and the second mold seat is formed on the upper surface of the sliding seat.
进一步,所述第一移动驱动装置包括第一转动电机、第一滑动块和第一螺杆;所述第一滑动块的上端和第一模座相连接,所述第一滑动块滑动连接于滑动槽内,所述第一滑动块上形成有第一螺杆穿过的第一通孔,所述第一螺杆的一端贯穿第一通孔,第一螺杆的另一端和第一转动电机的输出端连接在一起;所述第二移动驱动装置包括第二转动电机、第二滑动块和第二螺杆;所述第二滑动块的上端和第二模座相连接,所述第二滑动块滑动连接于滑动槽内,所述第二滑动块上形成有第二螺杆穿过的第二通孔,所述第二螺杆的一端贯穿第二通孔,第二螺杆的另一端和第二转动电机的输出端连接在一起。Further, the first moving driving device includes a first rotating motor, a first sliding block and a first screw rod; the upper end of the first sliding block is connected with the first die base, and the first sliding block is slidably connected to the sliding block. In the groove, the first sliding block is formed with a first through hole through which the first screw rod passes, one end of the first screw rod passes through the first through hole, the other end of the first screw rod and the output end of the first rotating motor connected together; the second moving drive device includes a second rotating motor, a second sliding block and a second screw rod; the upper end of the second sliding block is connected with the second die base, and the second sliding block is slidably connected In the sliding groove, a second through hole through which the second screw rod passes is formed on the second sliding block, one end of the second screw rod passes through the second through hole, and the other end of the second screw rod is connected to the second through hole of the second rotating motor. The outputs are connected together.
进一步,多个所述缓冲成型部件呈矩阵排列设置。Further, a plurality of the buffer forming parts are arranged in a matrix.
进一步,还包括驱动缓冲成型装置上下运动的第一升降驱动装置。Further, it also includes a first lift driving device for driving the buffer forming device to move up and down.
进一步,所述第一升降驱动装置包括连接板,和驱动连接板上下运动的第一升降气缸;所述缓冲成型装置设于连接板的上端,所述第一升降气缸的输出端和连接板的底端连接在一起。Further, the first lifting driving device includes a connecting plate, and a first lifting cylinder that drives the connecting plate to move up and down; the buffer forming device is arranged on the upper end of the connecting plate, and the output end of the first lifting cylinder is connected to the upper end of the connecting plate. The bottom ends are connected together.
进一步,所述进气装置包括加热装置,和对气流进行导向的导流装置。Further, the air intake device includes a heating device and a guide device for guiding the airflow.
进一步,所述加热装置包括热吹风装置。Further, the heating device includes a hot air blowing device.
进一步,所述热吹风装置包括热风机。Further, the hot air blowing device includes a hot air blower.
进一步,所述导流装置包括导风箱;所述导风箱内形成容置气体的气腔,所述导风箱上设有热风管,所述热风机通过所述热风管与所述气腔相连通,所述导风箱的下表面形成有吹出气流的出气部。Further, the air guide device includes an air guide box; an air cavity for accommodating gas is formed in the air guide box, and a hot air pipe is arranged on the air guide box, and the hot air blower passes through the hot air pipe and the air cavity. The air guide box is formed with an air outlet for blowing out the air flow on the lower surface of the air guide box.
进一步,所述出气部包括多个与各缓冲成型部件的进料部一一对应的出气孔。Further, the air outlet portion includes a plurality of air outlet holes corresponding to the feed portions of each buffer molding component one-to-one.
进一步,所述导风箱的下表面还形成有卡接于热塑性弹性层上的限位凸起。Further, the lower surface of the air guide box is also formed with a limiting protrusion that is clamped on the thermoplastic elastic layer.
进一步,所述限位凸起闭环设置,所述限位凸起的内壁与热塑性弹性层的外壁相贴合;所述出气部均处于限位凸起内侧。Further, the limiting protrusions are arranged in a closed loop, the inner walls of the limiting protrusions fit with the outer walls of the thermoplastic elastic layer, and the air outlet portions are all located inside the limiting protrusions.
进一步,所述导流装置还包括驱动导风箱上下运动的第二升降驱动装置;所述第二升降驱动装置的输出端和导风箱连接在一起。Further, the air guide device further includes a second lift drive device that drives the wind guide box to move up and down; the output end of the second lift drive device is connected to the wind guide box.
进一步,所述进气装置还包括对成型后的缓冲部进行冷却的制冷装置。Further, the air intake device further includes a refrigerating device for cooling the formed buffer portion.
进一步,所述制冷装置包括冷吹风装置。Further, the refrigeration device includes a cold blowing device.
进一步,所述冷吹风装置包括冷风机。Further, the cold blowing device includes a cooling fan.
进一步,所述导风箱上设有冷风管,所述冷风机通过所述冷风管和所述气腔相连通。Further, a cold air duct is provided on the air guide box, and the air cooler is communicated with the air cavity through the cold air duct.
进一步,还包括排气装置。Further, an exhaust device is also included.
进一步,所述排气装置包括排气管,和排出气体的排气风机;所述排气管的一端和导风箱的气腔相连通,排气管的另一端和排气风机相连接。Further, the exhaust device includes an exhaust pipe and an exhaust fan for exhausting gas; one end of the exhaust pipe is communicated with the air cavity of the air guide box, and the other end of the exhaust pipe is connected with the exhaust fan.
进一步,还包括对热塑性层和防滑层进行夹紧固定的夹紧装置。Further, a clamping device for clamping and fixing the thermoplastic layer and the anti-skid layer is also included.
进一步,所述夹紧装置包括处于鞋底一侧的第一定位装置,以及处于鞋底另一侧的第二定位装置。Further, the clamping device includes a first positioning device on one side of the sole, and a second positioning device on the other side of the sole.
进一步,所述第一定位装置包括第一定位部。Further, the first positioning device includes a first positioning portion.
进一步,所述第一定位部包括第一定位板。Further, the first positioning portion includes a first positioning plate.
进一步,所述第一定位板与鞋底一侧的外侧壁的接触面与鞋底一侧的外侧壁相匹配。Further, the contact surface of the first positioning plate and the outer side wall of the sole side is matched with the outer side wall of the sole side.
进一步,所述第二定位装置包括第二定位部。Further, the second positioning device includes a second positioning portion.
进一步,所述第二定位部包括第二定位板。Further, the second positioning portion includes a second positioning plate.
进一步,所述第二定位板与鞋底另一侧的外侧壁的接触面与鞋底另一侧的外侧壁相匹配。Further, the contact surface of the second positioning plate and the outer side wall of the other side of the sole matches with the outer side wall of the other side of the sole.
进一步,所述夹紧装置还包括驱动第一定位装置和第二定位装置向内夹紧鞋底的夹紧驱动装置。Further, the clamping device further includes a clamping driving device for driving the first positioning device and the second positioning device to clamp the sole inward.
进一步,所述夹紧驱动装置包括驱动第一定位装置左右移动的第一移动气缸,和驱动第二定位装置左右移动的第二移动气缸;所述第一移动气缸的输出端和第一定位部连接在一起,所述第二移动气缸的输出端和第二定位部连接在一起。Further, the clamping driving device includes a first moving cylinder that drives the first positioning device to move left and right, and a second moving cylinder that drives the second positioning device to move left and right; the output end of the first moving cylinder and the first positioning portion connected together, the output end of the second moving cylinder and the second positioning part are connected together.
一种防滑鞋底的加工工艺,包括如下步骤:(1)在防滑层上加工出多个热塑性弹性层加热软化后进入的进入口;(2)将防滑层和热塑性弹性层依次叠放在缓冲成型装置上;(3)将各缓冲成型部件的进料部和各进入口相对应;(4)通过进气装置对热塑性弹性层进行加热,使热塑性弹性层软化的部分进入缓冲成型组件内形成缓冲块。A process for processing a non-slip sole, comprising the following steps: (1) processing a plurality of thermoplastic elastic layers on the non-slip layer into inlets after being heated and softened; (2) stacking the anti-slip layer and the thermoplastic elastic layer on a buffer molding layer in turn (3) Corresponding the feeding part of each buffer forming part to each inlet; (4) Heating the thermoplastic elastic layer through the air inlet device, so that the softened part of the thermoplastic elastic layer enters the buffer forming component to form a buffer piece.
进一步,在步骤(2)中,所述热塑性弹性层为TPU、TPE、EVA中任一种材料制成。Further, in step (2), the thermoplastic elastic layer is made of any one of TPU, TPE, and EVA.
进一步,先将防滑层放置于缓冲成型装置上,通过防滑层底端的防滑部对防滑层进行初步定位,缓冲成型组件抵顶于相邻防滑部之间的间隙内,再将热塑性弹性层叠放于防滑层的上表面。Further, the anti-skid layer is first placed on the buffer forming device, the anti-skid layer is preliminarily positioned by the anti-skid part at the bottom of the anti-skid layer, the buffer forming component is pressed against the gap between the adjacent anti-skid parts, and then the thermoplastic elastic layer is placed on the anti-skid layer. The upper surface of the anti-skid layer.
进一步,所述缓冲成型装置包括多个形成缓冲部的各缓冲块的缓冲成型部件。Further, the buffer forming device includes a plurality of buffer forming parts forming each buffer block of the buffer portion.
进一步,所述缓冲成型部件包括使热塑性弹性层软化后形成缓冲块的缓冲成型组件。Further, the buffer molding component includes a buffer molding component for forming a buffer block after softening the thermoplastic elastic layer.
进一步,所述缓冲成型组件包括第一模座和第二模座;所述第一模座的侧壁上形成有软化热塑性弹性层成型并朝向第二模座的第一型腔,所述第二模座的侧壁上形成有与第一型腔相对应的第二型腔;所述第一模座和第二模座拼接在一起,所述第一型腔和第二型腔相连通;所述缓冲成型组件的上表面形成有软化热塑性弹性层和空气进入的进料部,所述进料部与第一型腔和第二型腔相连通。Further, the buffer molding assembly includes a first mold base and a second mold base; a first cavity formed by a softened thermoplastic elastic layer and facing the second mold base is formed on the side wall of the first mold base, and the first cavity is formed on the side wall of the first mold base. A second mold cavity corresponding to the first mold cavity is formed on the side wall of the two mold bases; the first mold base and the second mold base are spliced together, and the first mold cavity and the second mold cavity are communicated ; The upper surface of the buffer molding component is formed with a softening thermoplastic elastic layer and a feeding part for air to enter, and the feeding part is communicated with the first cavity and the second cavity.
进一步,所述进料部包括第一进料口和第二进料口;所述第一进料口形成于所述第一模座的上表面,所述第二进料口形成于所述第二模座的上表面;所述第一模座的上表面具有朝向第二模座的第一开口,所述第二模座的上表面具有朝向第一模座的第二开口,所述第一进料口和第二进料口通过第一开口和第二开口相连接。Further, the feeding part includes a first feeding port and a second feeding port; the first feeding port is formed on the upper surface of the first mold base, and the second feeding port is formed on the the upper surface of the second mold base; the upper surface of the first mold base has a first opening facing the second mold base, the upper surface of the second mold base has a second opening facing the first mold base, the The first feed port and the second feed port are connected through the first opening and the second opening.
进一步,所述缓冲成型部件还包括驱动缓冲成型组件开合的开合驱动装置。Further, the buffer forming component further includes an opening and closing driving device for driving the buffer forming assembly to open and close.
进一步,所述开合驱动装置包括滑动部,驱动第一模座在滑动部上左右移动的第一移动驱动装置,和驱动第二模座在滑动部上左右移动的第二移动驱动装置。Further, the opening and closing driving device includes a sliding part, a first moving driving device for driving the first mold base to move left and right on the sliding part, and a second moving driving device for driving the second mold base to move left and right on the sliding part.
进一步,所述滑动部包括滑动座,所述滑动座的上表面形成有供第一模座和第二模座滑动的滑动槽。Further, the sliding part includes a sliding seat, and a sliding groove for sliding the first mold seat and the second mold seat is formed on the upper surface of the sliding seat.
进一步,所述第一移动驱动装置包括第一转动电机、第一滑动块和第一螺杆;所述第一滑动块的上端和第一模座相连接,所述第一滑动块滑动连接于滑动槽内,所述第一滑动块上形成有第一螺杆穿过的第一通孔,所述第一螺杆的一端贯穿第一通孔,第一螺杆的另一端和第一转动电机的输出端连接在一起;所述第二移动驱动装置包括第二转动电机、第二滑动块和第二螺杆;所述第二滑动块的上端和第二模座相连接,所述第二滑动块滑动连接于滑动槽内,所述第二滑动块上形成有第二螺杆穿过的第二通孔,所述第二螺杆的一端贯穿第二通孔,第二螺杆的另一端和第二转动电机的输出端连接在一起。Further, the first moving driving device includes a first rotating motor, a first sliding block and a first screw rod; the upper end of the first sliding block is connected with the first die base, and the first sliding block is slidably connected to the sliding block. In the groove, the first sliding block is formed with a first through hole through which the first screw rod passes, one end of the first screw rod passes through the first through hole, the other end of the first screw rod and the output end of the first rotating motor connected together; the second moving drive device includes a second rotating motor, a second sliding block and a second screw rod; the upper end of the second sliding block is connected with the second die base, and the second sliding block is slidably connected In the sliding groove, a second through hole through which the second screw rod passes is formed on the second sliding block, one end of the second screw rod passes through the second through hole, and the other end of the second screw rod is connected to the second through hole of the second rotating motor. The outputs are connected together.
进一步,多个所述缓冲成型部件呈矩阵排列设置。Further, a plurality of the buffer forming parts are arranged in a matrix.
进一步,还包括驱动缓冲成型装置上下运动的第一升降驱动装置。Further, it also includes a first lift driving device for driving the buffer forming device to move up and down.
进一步,所述第一升降驱动装置包括连接板,和驱动连接板上下运动的第一升降气缸;所述缓冲成型装置设于连接板的上端,所述第一升降气缸的输出端和连接板的底端连接在一起。Further, the first lifting driving device includes a connecting plate, and a first lifting cylinder that drives the connecting plate to move up and down; the buffer forming device is arranged on the upper end of the connecting plate, and the output end of the first lifting cylinder is connected to the upper end of the connecting plate. The bottom ends are connected together.
进一步,在步骤(4)中,先对热塑性弹性层进行预加热,使热塑性弹性层整体软化后,再对热塑性弹性层与缓冲成型组件对应的位置进行局部范围内的进一步软化,使局部范围内进一步软化的热塑性弹性层在缓冲成型组件内形成缓冲块。Further, in step (4), the thermoplastic elastic layer is preheated to soften the thermoplastic elastic layer as a whole, and then the position corresponding to the thermoplastic elastic layer and the buffer molding component is further softened in a local range, so that the local range is further softened. The further softened thermoplastic elastic layer forms a bumper block within the bumper molding assembly.
进一步,所述进气装置包括加热装置,和对气流进行导向的导流装置。Further, the air intake device includes a heating device and a guide device for guiding the airflow.
进一步,所述加热装置包括热吹风装置。Further, the heating device includes a hot air blowing device.
进一步,所述热吹风装置包括热风机。Further, the hot air blowing device includes a hot air blower.
进一步,所述导流装置包括导风箱;所述导风箱内形成容置气体的气腔,所述导风箱上设有热风管,所述热风机通过所述热风管与所述气腔相连通,所述导风箱的下表面形成有吹出气流的出气部。Further, the air guide device includes an air guide box; an air cavity for accommodating gas is formed in the air guide box, and a hot air pipe is arranged on the air guide box, and the hot air blower passes through the hot air pipe and the air cavity. The air guide box is formed with an air outlet for blowing out the air flow on the lower surface of the air guide box.
进一步,所述出气部包括多个与各缓冲成型部件的进料部一一对应的出气孔。Further, the air outlet portion includes a plurality of air outlet holes corresponding to the feed portions of each buffer molding component one-to-one.
进一步,所述导风箱的下表面还形成有卡接于热塑性弹性层上的限位凸起。Further, the lower surface of the air guide box is also formed with a limiting protrusion that is clamped on the thermoplastic elastic layer.
进一步,所述限位凸起闭环设置,所述限位凸起的内壁与热塑性弹性层的外壁相贴合;所述出气部均处于限位凸起内侧。Further, the limiting protrusions are arranged in a closed loop, the inner walls of the limiting protrusions fit with the outer walls of the thermoplastic elastic layer, and the air outlet portions are all located inside the limiting protrusions.
进一步,所述导流装置还包括驱动导风箱上下运动的第二升降驱动装置;所述第二升降驱动装置的输出端和导风箱连接在一起。Further, the air guide device further includes a second lift drive device that drives the wind guide box to move up and down; the output end of the second lift drive device is connected to the wind guide box.
进一步,所述进气装置还包括对成型后的缓冲部进行冷却的制冷装置。Further, the air intake device further includes a refrigerating device for cooling the formed buffer portion.
进一步,所述制冷装置包括冷吹风装置。Further, the refrigeration device includes a cold blowing device.
进一步,所述冷吹风装置包括冷风机。Further, the cold blowing device includes a cooling fan.
进一步,所述导风箱上设有冷风管,所述冷风机通过所述冷风管和所述气腔相连通。Further, a cold air duct is provided on the air guide box, and the air cooler is communicated with the air cavity through the cold air duct.
进一步,还包括排气装置。Further, an exhaust device is also included.
进一步,所述排气装置包括排气管,和排出气体的排气风机;所述排气管的一端和导风箱的气腔相连通,排气管的另一端和排气风机相连接。Further, the exhaust device includes an exhaust pipe and an exhaust fan for exhausting gas; one end of the exhaust pipe is communicated with the air cavity of the air guide box, and the other end of the exhaust pipe is connected with the exhaust fan.
进一步,在步骤(4)之前,通过夹紧装置将热塑性弹性层和防滑层夹紧固定。Further, before step (4), the thermoplastic elastic layer and the anti-skid layer are clamped and fixed by a clamping device.
进一步,所述夹紧装置包括处于鞋底一侧的第一定位装置,以及处于鞋底另一侧的第二定位装置。Further, the clamping device includes a first positioning device on one side of the sole, and a second positioning device on the other side of the sole.
进一步,所述第一定位装置包括第一定位部。Further, the first positioning device includes a first positioning portion.
进一步,所述第一定位部包括第一定位板。Further, the first positioning portion includes a first positioning plate.
进一步,所述第一定位板与鞋底一侧的外侧壁的接触面与鞋底一侧的外侧壁相匹配。Further, the contact surface of the first positioning plate and the outer side wall of the sole side is matched with the outer side wall of the sole side.
进一步,所述第二定位装置包括第二定位部。Further, the second positioning device includes a second positioning portion.
进一步,所述第二定位部包括第二定位板。Further, the second positioning portion includes a second positioning plate.
进一步,所述第二定位板与鞋底另一侧的外侧壁的接触面与鞋底另一侧的外侧壁相匹配。Further, the contact surface of the second positioning plate and the outer side wall of the other side of the sole matches with the outer side wall of the other side of the sole.
进一步,所述夹紧装置还包括驱动第一定位装置和第二定位装置向内夹紧鞋底的夹紧驱动装置。Further, the clamping device further includes a clamping driving device for driving the first positioning device and the second positioning device to clamp the sole inward.
进一步,所述夹紧驱动装置包括驱动第一定位装置左右移动的第一移动气缸,和驱动第二定位装置左右移动的第二移动气缸;所述第一移动气缸的输出端和第一定位部连接在一起,所述第二移动气缸的输出端和第二定位部连接在一起。Further, the clamping driving device includes a first moving cylinder that drives the first positioning device to move left and right, and a second moving cylinder that drives the second positioning device to move left and right; the output end of the first moving cylinder and the first positioning portion connected together, the output end of the second moving cylinder and the second positioning part are connected together.
有益效果beneficial effect
采用上述结构后,本发明涉及的一种防滑鞋底的加工装置,其至少有以下有益效果:通过进气装置的加热装置对热塑性弹性层进行加热融化,使热塑性弹性层的加热部分软化后进入缓冲成型装置内,通过缓冲成型装置在防滑层的底端形成缓冲部,缓冲部的缓冲块具有容置空气的空腔,通过多个缓冲块内空腔的设置,向下踩的时候,受到向上挤压力的缓冲块将空腔内的空气向上挤压,使鞋内的空气排出,当脚抬起时,缓冲块在恢复原状的同时对空气进行吸附,使鞋内的空气和外面的空气逐渐完成交换;本发明通过在防滑层底端的防滑部之间加工出缓冲块,使鞋底在具有防滑性能的同时兼备缓冲的作用,同时缓冲块在受挤压后向上运动,使防滑块接触地面,与地面发生摩擦,更好的保护了缓冲部受磨损的情况,延长缓冲部的使用寿命;缓冲块内空腔的设置使鞋内的空气保持循环流通的状态,提升穿着舒适感。After adopting the above structure, the present invention relates to a processing device for anti-skid soles, which has at least the following beneficial effects: the thermoplastic elastic layer is heated and melted by the heating device of the air intake device, so that the heated part of the thermoplastic elastic layer is softened and then enters the buffer. In the forming device, a buffer part is formed at the bottom end of the anti-skid layer by the buffer forming device, and the buffer block of the buffer part has a cavity for accommodating air. The buffer block of the squeezing force squeezes the air in the cavity upward, so that the air in the shoe is discharged. When the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside The exchange is gradually completed; in the present invention, a buffer block is processed between the anti-skid parts at the bottom end of the anti-skid layer, so that the sole has the anti-skid performance and the function of buffering at the same time, and the buffer block moves upward after being squeezed, so that the anti-skid block contacts the ground. , friction with the ground, better protection of the buffer part from wear, and prolong the service life of the buffer part; the setting of the cavity in the buffer block keeps the air in the shoe circulating and improves the wearing comfort.
本发明还提出一种防滑鞋底的加工工艺,通过该加工工艺加工出的防滑鞋垫,具有通过缓冲部缓冲走路或运动时对膝盖的力,在防止人们行走时滑倒的同时,对膝盖受到的力进行缓冲,更好的保护了人体膝盖部分;同时缓冲块内部具有容置空气的空腔,当向下踩的时候,受到向上挤压力的缓冲块将空腔内的空气向上挤压,使鞋内的空气排出,当脚抬起时,缓冲块在恢复原状的同时对空气进行吸附,使鞋内的空气和外面的空气逐渐完成交换。The invention also proposes a processing technology for anti-slip soles. The anti-slip insole processed through the processing technology has the buffering part to buffer the force on the knees when walking or exercising. The force of the buffer is buffered, which better protects the knee part of the human body; at the same time, the buffer block has a cavity for accommodating air. The air in the shoe is exhausted. When the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged.
附图说明Description of drawings
图1为本发明涉及一种防滑鞋底的加工装置及工艺的加工装置立体结构示意图。FIG. 1 is a schematic three-dimensional structural diagram of a processing device related to a processing device and process for a non-slip sole according to the present invention.
图2为本发明涉及一种防滑鞋底的加工装置及工艺的缓冲成型部件的立体结构示意图。FIG. 2 is a schematic three-dimensional structure diagram of a buffer molding component of a processing device and process for a non-slip sole according to the present invention.
图3为本发明涉及一种防滑鞋底的加工装置及工艺的第一模座和第一滑动块的立体结构示意图。3 is a schematic three-dimensional structural diagram of a first mold base and a first sliding block of a processing device and process for a non-slip sole according to the present invention.
图4为本发明涉及一种防滑鞋底的加工装置及工艺的导风箱的仰视结构示意图。FIG. 4 is a schematic bottom view of the structure of a wind guide box related to a processing device and process for a non-slip sole according to the present invention.
图5为本发明涉及一种防滑鞋底的加工装置及工艺的鞋底的立体结构示意图。5 is a schematic diagram of the three-dimensional structure of a shoe sole related to a processing device and process for a non-slip shoe sole according to the present invention.
图中:1-进气装置,2-缓冲成型装置,21-缓冲成型部件,211-缓冲成型组件,2111-第一模座,2112-第二模座,2113-第一型腔,2114-进料部,2115-第一进料口,2116-第二进料口,212-开合驱动装置,2121-滑动部,2122-第一移动驱动装置,2123-第二移动驱动装置,21221-第一转动电机,21222-第一滑动块,21223-第一螺杆,21231-第二转动电机,21232-第二滑动块,21233-第二螺杆,3-第一升降驱动装置,31-连接板,32-第一升降气缸,11-导流装置,111-导风箱,112-热风管,113-出气部,1131-出气孔,114-限位凸起,115-第二升降驱动装置,116-冷风管,117-排气管,4-夹紧装置,41-第一定位装置,42-第二定位装置,411-第一定位部,421-第二定位部,43-夹紧驱动装置,431-第一移动气缸,432-第二移动气缸,5-防滑层,6-热塑性弹性层。In the figure: 1- Air intake device, 2- Cushion molding device, 21- Cushion molding part, 211- Cushion molding component, 2111- First mold seat, 2112- Second mold seat, 2113- First cavity, 2114- Feeding part, 2115-first feeding port, 2116-second feeding port, 212-opening and closing drive device, 2121-slide part, 2122-first moving drive device, 2123-second moving drive device, 21221- First rotating motor, 21222-first sliding block, 21223-first screw, 21231-second rotating motor, 21232-second sliding block, 21233-second screw, 3-first lifting drive device, 31-connecting plate , 32- the first lift cylinder, 11- guide device, 111- air guide box, 112- hot air pipe, 113- air outlet, 1131- air outlet, 114- limit protrusion, 115- second lift drive device, 116-cold air pipe, 117-exhaust pipe, 4-clamping device, 41-first positioning device, 42-second positioning device, 411-first positioning part, 421-second positioning part, 43-clamping drive Device, 431-first moving cylinder, 432-second moving cylinder, 5-anti-skid layer, 6-thermoplastic elastic layer.
本发明的实施方式Embodiments of the present invention
为了进一步解释本发明的技术方案,下面通过具体实施例进行详细阐述。In order to further explain the technical solutions of the present invention, the following specific embodiments are described in detail.
如图1至图5所示,本发明的一种防滑鞋底的加工装置,包括在防护层的底端形成缓冲部的成型机构;成型机构包括对热塑性弹性层6加热软化的进气装置1,和使加热软化后的热塑性弹性材料在防滑层5的底端形成缓冲部的缓冲成型装置2。As shown in FIGS. 1 to 5 , a processing device for a non-slip sole of the present invention includes a molding mechanism for forming a buffer at the bottom end of the protective layer; the molding mechanism includes an air intake device 1 for heating and softening the thermoplastic elastic layer 6, And the buffer molding device 2 for forming a buffer portion at the bottom end of the anti-skid layer 5 with the thermoplastic elastic material softened by heating.
这样,通过进气装置1的加热装置对热塑性弹性层6进行加热融化,使热塑性弹性层6的加热部分软化后进入缓冲成型装置2内,通过缓冲成型装置2在防滑层5的底端形成缓冲部,缓冲部的缓冲块具有容置空气的空腔,通过多个缓冲块内空腔的设置,向下踩的时候,受到向上挤压力的缓冲块将空腔内的空气向上挤压,使鞋内的空气排出,当脚抬起时,缓冲块在恢复原状的同时对空气进行吸附,使鞋内的空气和外面的空气逐渐完成交换;本发明通过在防滑层5底端的防滑部之间加工出缓冲块,使鞋底在具有防滑性能的同时兼备缓冲的作用,同时缓冲块在受挤压后向上运动,使防滑块接触地面,与地面发生摩擦,更好的保护了缓冲部受磨损的情况,延长缓冲部的使用寿命;缓冲块内空腔的设置使鞋内的空气保持循环流通的状态,提升穿着舒适感。In this way, the thermoplastic elastic layer 6 is heated and melted by the heating device of the air intake device 1 , the heated part of the thermoplastic elastic layer 6 is softened and then enters the buffer molding device 2 , and a buffer is formed at the bottom end of the anti-skid layer 5 by the buffer molding device 2 The buffer block of the buffer part has a cavity for accommodating air. Through the arrangement of the cavities in the multiple buffer blocks, when stepping down, the buffer block subjected to the upward pressing force will squeeze the air in the cavity upward, The air in the shoe is discharged, and when the foot is lifted, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged; The buffer block is processed between the two, so that the sole has the anti-skid performance and also has the function of buffering. At the same time, the buffer block moves upward after being squeezed, so that the anti-skid block contacts the ground and rubs against the ground, which better protects the buffer from wear and tear. It can prolong the service life of the buffer part; the setting of the cavity in the buffer block keeps the air in the shoe in a state of circulation and improves the wearing comfort.
优选地,缓冲成型装置2包括多个形成缓冲部的各缓冲块的缓冲成型部件21。通过多个缓冲成型部件21加工出多个缓冲块。Preferably, the buffer forming device 2 includes a plurality of buffer forming parts 21 forming each buffer block of the buffer portion. A plurality of buffer blocks are processed by the plurality of buffer molding parts 21 .
优选地,缓冲成型部件21包括使热塑性弹性层6软化后形成缓冲块的缓冲成型组件211。通过缓冲成型组件211,使软化的热塑性弹性层6在型腔内定型,形成缓冲块的形状。Preferably, the buffer forming part 21 includes a buffer forming component 211 for forming a buffer block after softening the thermoplastic elastic layer 6 . Through the buffer forming component 211, the softened thermoplastic elastic layer 6 is shaped in the cavity to form the shape of a buffer block.
优选地,缓冲成型组件211包括第一模座2111和第二模座2112;第一模座2111的侧壁上形成有软化热塑性弹性层6成型并朝向第二模座2112的第一型腔2113,第二模座2112的侧壁上形成有与第一型腔2113相对应的第二型腔;第一模座2111和第二模座2112拼接在一起,第一型腔2113和第二型腔相连通;缓冲成型组件211的上表面形成有软化热塑性弹性层6和空气进入的进料部2114,进料部2114与第一型腔2113和第二型腔相连通。通过第一模座2111和第二模座2112拼接在一起,第一型腔2113和第二型腔连接在一起,使软化的热塑性弹性层6进入第一型腔2113和第二型腔内逐渐成型。Preferably, the buffer molding assembly 211 includes a first mold base 2111 and a second mold base 2112 ; a first cavity 2113 is formed on the side wall of the first mold base 2111 and is formed with the softened thermoplastic elastic layer 6 and faces the second mold base 2112 , a second cavity corresponding to the first cavity 2113 is formed on the side wall of the second die base 2112; the first die base 2111 and the second die base 2112 are spliced together, the first cavity 2113 and the second die The cavities are communicated; the upper surface of the buffer molding component 211 is formed with the softening thermoplastic elastic layer 6 and the feeding part 2114 into which the air enters, and the feeding part 2114 communicates with the first cavity 2113 and the second cavity. By splicing the first mold base 2111 and the second mold base 2112 together, the first mold cavity 2113 and the second mold cavity are connected together, so that the softened thermoplastic elastic layer 6 enters the first mold cavity 2113 and the second mold cavity gradually. forming.
优选地,进料部2114包括第一进料口2115和第二进料口2116;第一进料口2115形成于第一模座2111的上表面,第二进料口2116形成于第二模座2112的上表面;第一模座2111的上表面具有朝向第二模座2112的第一开口,第二模座2112的上表面具有朝向第一模座2111的第二开口,第一进料口2115和第二进料口2116通过第一开口和第二开口相连接。第一进料口2115和第二进料口2116拼接在一起,使缓冲块和热塑性弹性层6的连接结构更稳定,同时加快软化的热塑性弹性层6进入型腔内的速度。Preferably, the feeding part 2114 includes a first feeding port 2115 and a second feeding port 2116; the first feeding port 2115 is formed on the upper surface of the first mold base 2111, and the second feeding port 2116 is formed in the second mold The upper surface of the seat 2112; the upper surface of the first mold seat 2111 has a first opening toward the second mold seat 2112, the upper surface of the second mold seat 2112 has a second opening toward the first mold seat 2111, and the first feeding The port 2115 and the second feed port 2116 are connected by the first opening and the second opening. The first feeding port 2115 and the second feeding port 2116 are spliced together, so that the connection structure between the buffer block and the thermoplastic elastic layer 6 is more stable, and at the same time, the speed of the softened thermoplastic elastic layer 6 entering the cavity is accelerated.
优选地,缓冲成型部件21还包括驱动缓冲成型组件211开合的开合驱动装置212。通过开合驱动装置212,驱动缓冲成型组件211的开合,在加工前将缓冲成型装置2闭合,冷却后打开缓冲成型装置2,不会对成型的缓冲块造成影响。Preferably, the buffer forming component 21 further includes an opening and closing driving device 212 for driving the buffer forming assembly 211 to open and close. The opening and closing driving device 212 drives the opening and closing of the buffer forming assembly 211 , the buffer forming device 2 is closed before processing, and the buffer forming device 2 is opened after cooling, which will not affect the formed buffer block.
优选地,为了便于缓冲块的成型加工,开合驱动装置212包括滑动部2121,驱动第一模座2111在滑动部2121上左右移动的第一移动驱动装置2122,和驱动第二模座2112在滑动部2121上左右移动的第二移动驱动装置2123。Preferably, in order to facilitate the forming process of the buffer block, the opening and closing driving device 212 includes a sliding part 2121, a first moving driving device 2122 for driving the first mold base 2111 to move left and right on the sliding part 2121, and driving the second mold base 2112 to move The second moving driving device 2123 on the sliding part 2121 moves left and right.
优选地,为了便于缓冲块的成型加工,滑动部2121包括滑动座,滑动座的上表面形成有供第一模座2111和第二模座2112滑动的滑动槽。Preferably, in order to facilitate the forming process of the buffer block, the sliding portion 2121 includes a sliding seat, and the upper surface of the sliding seat is formed with a sliding groove for the first mold seat 2111 and the second mold seat 2112 to slide.
优选地,第一移动驱动装置2122包括第一转动电机21221、第一滑动块21222和第一螺杆21223;第一滑动块21222的上端和第一模座2111相连接,第一滑动块21222滑动连接于滑动槽内,第一滑动块21222上形成有第一螺杆21223穿过的第一通孔,第一螺杆21223的一端贯穿第一通孔,第一螺杆21223的另一端和第一转动电机21221的输出端连接在一起;第二移动驱动装置2123包括第二转动电机21231、第二滑动块21232和第二螺杆21233;第二滑动块21232的上端和第二模座2112相连接,第二滑动块21232滑动连接于滑动槽内,第二滑动块21232上形成有第二螺杆21233穿过的第二通孔,第二螺杆21233的一端贯穿第二通孔,第二螺杆21233的另一端和第二转动电机21231的输出端连接在一起。当缓冲块成型后,第一转动电机21221驱动第一螺杆21223转动,使第一滑动块21222带动第一模座2111向左移动,第二转动电机21231驱动第二螺杆21233转动,使第二滑动块21232带动第二模座2112向右移动,实现脱模的目的。Preferably, the first moving driving device 2122 includes a first rotating motor 21221, a first sliding block 21222 and a first screw 21223; the upper end of the first sliding block 21222 is connected with the first die base 2111, and the first sliding block 21222 is slidably connected In the sliding groove, the first sliding block 21222 is formed with a first through hole through which the first screw 21223 passes. The output end of the second moving drive device 2123 includes a second rotating motor 21231, a second sliding block 21232 and a second screw 21233; the upper end of the second sliding block 21232 is connected with the second die base 2112, and the second sliding block 21232 The block 21232 is slidably connected in the sliding groove, the second sliding block 21232 is formed with a second through hole through which the second screw 21233 passes, one end of the second screw 21233 passes through the second through hole, and the other end of the second screw 21233 is connected to the second through hole. The outputs of the two rotating motors 21231 are connected together. After the buffer block is formed, the first rotating motor 21221 drives the first screw 21223 to rotate, so that the first sliding block 21222 drives the first die base 2111 to move to the left, and the second rotating motor 21231 drives the second screw 21233 to rotate, making the second sliding The block 21232 drives the second die base 2112 to move to the right to achieve the purpose of demoulding.
优选地,为了提高缓冲部的缓冲效果,多个缓冲成型部件21呈矩阵排列设置。Preferably, in order to improve the buffering effect of the buffer portion, a plurality of buffer forming parts 21 are arranged in a matrix.
优选地,为了便于加工人员将防滑层5和热塑性弹性层6放于缓冲成型装置2上,还包括驱动缓冲成型装置2上下运动的第一升降驱动装置3。Preferably, in order to facilitate the processing personnel to place the anti-skid layer 5 and the thermoplastic elastic layer 6 on the buffer forming device 2 , a first lift driving device 3 for driving the buffer forming device 2 to move up and down is also included.
优选地,第一升降驱动装置3包括连接板31,和驱动连接板31上下运动的第一升降气缸32;缓冲成型装置2设于连接板31的上端,第一升降气缸32的输出端和连接板31的底端连接在一起。当需要将防滑层5和热塑性弹性层6放在缓冲成型装置2上时,第一升降气缸32驱动连接板31向下运动,使工作人员具有足够的活动空间将防滑层5和热塑性弹性层6放在缓冲成型装置2上,放好后,再驱动升降气缸向上运动到预定位置,便于夹紧装置4夹紧。Preferably, the first lifting driving device 3 includes a connecting plate 31 and a first lifting cylinder 32 that drives the connecting plate 31 to move up and down; the buffer forming device 2 is provided on the upper end of the connecting plate 31, and the output end of the first lifting cylinder 32 is connected to the The bottom ends of the plates 31 are connected together. When the anti-skid layer 5 and the thermoplastic elastic layer 6 need to be placed on the buffer forming device 2, the first lifting cylinder 32 drives the connecting plate 31 to move downward, so that the worker has enough space to move the anti-skid layer 5 and the thermoplastic elastic layer 6. Put it on the buffer forming device 2, and after it is placed, drive the lifting cylinder to move up to a predetermined position, which is convenient for the clamping device 4 to clamp.
优选地,进气装置1包括加热装置,和对气流进行导向的导流装置11。通过加热装置将热气输入导流装置11内,由导流装置11将热气输出逐渐对热塑性弹性层6进行软化处理。Preferably, the air intake device 1 includes a heating device, and a guide device 11 for guiding the airflow. The hot air is input into the guiding device 11 through the heating device, and the hot air is output by the guiding device 11 to gradually soften the thermoplastic elastic layer 6 .
优选地,加热装置包括热吹风装置。通过热吹风装置输出热气。Preferably, the heating device includes a hot air blower. The hot air is output through the hot air blower.
优选地,热吹风装置包括热风机。通过热风机输出热气。Preferably, the hot air blowing device includes a hot air blower. The hot air is output through the hot air blower.
优选地,导流装置11包括导风箱111;导风箱111内形成容置气体的气腔,导风箱111上设有热风管112,热风机通过热风管112与气腔相连通,导风箱111的下表面形成有吹出气流的出气部113。热气进入导风箱111内的气腔后,通过出气部113输出热气。Preferably, the air guide device 11 includes an air guide box 111; an air chamber for accommodating gas is formed in the air guide box 111, a hot air pipe 112 is arranged on the air guide box 111, and the hot air blower is communicated with the air chamber through the hot air pipe 112, and the air guide box The lower surface of 111 is formed with an air outlet 113 for blowing out airflow. After the hot air enters the air cavity in the air guide box 111 , the hot air is output through the air outlet 113 .
优选地,出气部113包括多个与各缓冲成型部件21的进料部2114一一对应的出气孔1131。通过出气孔1131与各进入口和各进料部2114相对应,对多个预定位置进行加热,使预定位置的热塑性弹性层6逐渐软化后进入缓冲成型组件211内形成缓冲块。Preferably, the air outlet portion 113 includes a plurality of air outlet holes 1131 corresponding to the feeding portions 2114 of each buffer molding part 21 one-to-one. Through the air outlet holes 1131 corresponding to each inlet port and each feeding part 2114, a plurality of predetermined positions are heated, so that the thermoplastic elastic layer 6 in the predetermined positions is gradually softened and then enters the buffer molding assembly 211 to form a buffer block.
优选地,为了便于出气孔1131与进入口和进料部2114相对应,导风箱111的下表面还形成有卡接于热塑性弹性层6上的限位凸起114。Preferably, in order to facilitate that the air outlet hole 1131 corresponds to the inlet port and the feeding portion 2114 , the lower surface of the air guide box 111 is further formed with a limiting protrusion 114 that is clamped on the thermoplastic elastic layer 6 .
优选地,为了便于出气孔1131与进入口和进料部2114相对应,限位凸起114闭环设置,限位凸起114的内壁与热塑性弹性层6的外壁相贴合;出气部113均处于限位凸起114内侧。Preferably, in order to facilitate that the air outlet 1131 corresponds to the inlet and the feeding portion 2114, the limiting protrusion 114 is closed-loop arranged, and the inner wall of the limiting protrusion 114 is in contact with the outer wall of the thermoplastic elastic layer 6; The inner side of the limiting protrusion 114 .
优选地,导流装置11还包括驱动导风箱111上下运动的第二升降驱动装置115;第二升降驱动装置115的输出端和导风箱111连接在一起。第二升降驱动装置115驱动导风箱111到预定高度对热塑性弹性层6进行预加热,使热塑性弹性层6整体软化,再驱动导风箱111罩设在热塑性弹性层6上,对预定的局部范围内进行加热;具体地,第二升降驱动装置115为气缸驱动。Preferably, the air guide device 11 further includes a second lift drive device 115 that drives the wind guide box 111 to move up and down; the output end of the second lift drive device 115 is connected to the wind guide box 111 . The second lift driving device 115 drives the wind guide box 111 to a predetermined height to preheat the thermoplastic elastic layer 6 to soften the thermoplastic elastic layer 6 as a whole, and then drives the wind guide box 111 to cover the thermoplastic elastic layer 6, and the predetermined local area Heating is performed; specifically, the second lift driving device 115 is driven by an air cylinder.
优选地,进气装置1还包括对成型后的缓冲部进行冷却的制冷装置。通过制冷装置对成型后的缓冲部进行冷却定型,加快缓冲部的加工效率。Preferably, the air intake device 1 further includes a refrigeration device for cooling the formed buffer portion. The formed buffer part is cooled and shaped by the refrigeration device, so as to speed up the processing efficiency of the buffer part.
优选地,制冷装置包括冷吹风装置。通过冷吹风装置向导风箱111的气腔内输入冷气。Preferably, the refrigeration device includes a cold blowing device. The cold air is fed into the air cavity of the wind box 111 through the cold air blowing device.
优选地,冷吹风装置包括冷风机。通过冷风机向导风箱111的气腔内输入冷气。Preferably, the cooling blowing device includes a cooling fan. Cool air is input into the air cavity of the air box 111 through the cooling fan.
优选地,为了便于冷风机向导风箱111内输入冷气,导风箱111上设有冷风管116,冷风机通过冷风管116和气腔相连通。Preferably, in order to facilitate the cooling fan to input cold air into the air guide box 111 , a cold air duct 116 is provided on the air guide box 111 , and the cooling fan communicates with the air cavity through the cold air duct 116 .
优选地,还包括排气装置。在需要冷气时,通过排气装置,将热气逐渐排出,等到导风箱111内完全充满冷气后,关闭排气装置;当需要热气时,通过排气装置将冷气逐渐排出,等到导风箱111内完全充满热气后,关闭排气装置。Preferably, an exhaust device is also included. When cold air is needed, the hot air is gradually discharged through the exhaust device, and the exhaust device is closed after the air guide box 111 is completely filled with cold air; when hot air is needed, the cold air is gradually discharged through the exhaust device, and the air guide box 111 is completely discharged. When full of hot air, turn off the exhaust.
优选地,为了便于排气装置排出气体,排气装置包括排气管117,和排出气体的排气风机;排气管117的一端和导风箱111的气腔相连通,排气管117的另一端和排气风机相连接。Preferably, in order to facilitate the exhaust device to exhaust gas, the exhaust device includes an exhaust pipe 117 and an exhaust fan for exhausting gas; one end of the exhaust pipe 117 is communicated with the air cavity of the air guide box 111, and the other end of the exhaust pipe 117 One end is connected to the exhaust fan.
优选地,为了使加工时的定位更准确,还包括对热塑性层和防滑层5进行夹紧固定的夹紧装置4。Preferably, in order to make the positioning during processing more accurate, a clamping device 4 for clamping and fixing the thermoplastic layer and the anti-skid layer 5 is also included.
优选地,夹紧装置4包括处于鞋底一侧的第一定位装置41,以及处于鞋底另一侧的第二定位装置42。通过第一定位装置41和第二定位装置42夹紧鞋底,使防滑层5和热塑性弹性层6更好地对齐;具体地,鞋底包括防滑层5和热塑性弹性层6。Preferably, the clamping device 4 comprises a first positioning device 41 on one side of the sole, and a second positioning device 42 on the other side of the sole. The sole is clamped by the first positioning device 41 and the second positioning device 42 to better align the anti-skid layer 5 and the thermoplastic elastic layer 6 ; specifically, the sole includes the anti-skid layer 5 and the thermoplastic elastic layer 6 .
优选地,第一定位装置41包括第一定位部411。通过第一定位部411接触鞋底的一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the first positioning device 41 includes a first positioning portion 411 . The first positioning portion 411 is in contact with one side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
优选地,第一定位部411包括第一定位板。通过第一定位板接触鞋底的一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the first positioning portion 411 includes a first positioning plate. The anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the first positioning plate contacting one side outer wall of the sole.
优选地,第为了使第一定位板的定位效果更好,一定位板与鞋底一侧的外侧壁的接触面与鞋底一侧的外侧壁相匹配。Preferably, firstly, in order to make the positioning effect of the first positioning plate better, the contact surface of a positioning plate and the outer side wall of the sole side matches with the outer side wall of the sole side.
优选地,第二定位装置42包括第二定位部421。通过第二定位部421接触鞋底的另一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the second positioning device 42 includes a second positioning portion 421 . The second positioning portion 421 contacts the other side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
优选地,第二定位部421包括第二定位板。通过第二定位板接触鞋底的另一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the second positioning portion 421 includes a second positioning plate. The anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the second positioning plate contacting the other side outer wall of the sole.
优选地,为了使第二定位板的定位效果更好,第二定位板与鞋底另一侧的外侧壁的接触面与鞋底另一侧的外侧壁相匹配。Preferably, in order to make the positioning effect of the second positioning plate better, the contact surface between the second positioning plate and the outer sidewall on the other side of the sole matches with the outer sidewall on the other side of the sole.
优选地,夹紧装置4还包括驱动第一定位装置41和第二定位装置42向内夹紧鞋底的夹紧驱动装置43。通过夹紧驱动装置43同时驱动第一定位装置41和第二定位装置42向内夹紧鞋底。Preferably, the clamping device 4 further includes a clamping driving device 43 for driving the first positioning device 41 and the second positioning device 42 to clamp the sole inward. The first positioning device 41 and the second positioning device 42 are simultaneously driven to clamp the sole inward by the clamping driving device 43 .
优选地,夹紧驱动装置43包括驱动第一定位装置41左右移动的第一移动气缸431,和驱动第二定位装置42左右移动的第二移动气缸432;第一移动气缸431的输出端和第一定位部411连接在一起,第二移动气缸432的输出端和第二定位部421连接在一起。通过第一移动气缸431驱动第一定位部411向内运动,第二移动气缸432驱动第二定位部421向内运动,将鞋底夹紧。Preferably, the clamping driving device 43 includes a first moving cylinder 431 that drives the first positioning device 41 to move left and right, and a second moving cylinder 432 that drives the second positioning device 42 to move left and right; the output end of the first moving cylinder 431 and the second moving cylinder 432 A positioning portion 411 is connected together, and the output end of the second moving cylinder 432 is connected with the second positioning portion 421 . The first positioning portion 411 is driven to move inward by the first moving cylinder 431, and the second positioning portion 421 is driven to move inward by the second moving cylinder 432 to clamp the sole.
一种防滑鞋底的加工工艺,包括如下步骤:(1)在防滑层5上加工出多个热塑性弹性层6加热软化后进入的进入口;(2)将防滑层5和热塑性弹性层6依次叠放在缓冲成型装置2上;(3)将各缓冲成型部件21的进料部2114和各进入口相对应;(4)通过进气装置1对热塑性弹性层6进行加热,使热塑性弹性层6软化的部分进入缓冲成型组件211内形成缓冲块。A processing technique for anti-skid soles, comprising the steps: (1) on the anti-skid layer 5, a plurality of thermoplastic elastic layers 6 are processed into inlets after being heated and softened; (2) the anti-skid layer 5 and the thermoplastic elastic layer 6 are stacked successively Put it on the buffer forming device 2; (3) Corresponding the feeding part 2114 of each buffer forming part 21 to each inlet; (4) Heating the thermoplastic elastic layer 6 through the air feeding device 1 to make the thermoplastic elastic layer 6 The softened part enters the buffer forming component 211 to form a buffer block.
这样,通过该加工工艺加工出的防滑鞋垫,具有通过缓冲部缓冲走路或运动时对膝盖的力,在防止人们行走时滑倒的同时,对膝盖受到的力进行缓冲,更好的保护了人体膝盖部分;同时缓冲块内部具有容置空气的空腔,当向下踩的时候,受到向上挤压力的缓冲块将空腔内的空气向上挤压,使鞋内的空气排出,当脚抬起时,缓冲块在恢复原状的同时对空气进行吸附,使鞋内的空气和外面的空气逐渐完成交换。In this way, the anti-slip insole processed by this processing technology has the buffering part to buffer the force on the knee when walking or exercising, so as to prevent people from slipping while walking, buffer the force on the knee and better protect the human body At the same time, there is a cavity for accommodating air inside the buffer block. When stepping down, the buffer block subjected to the upward pressing force squeezes the air in the cavity upward, so that the air in the shoe is discharged. When the foot lifts When starting, the buffer block absorbs the air while returning to its original state, so that the air in the shoe and the air outside are gradually exchanged.
优选地,在步骤(2)中,热塑性弹性层6为TPU、TPE、EVA中任一种材料制成。具体地,热塑性弹性层6为EVA材质制成,通过EVA弹性层制成,具有轻便和弹力的优点,在舒适性和功能性之间实现较好的平衡;具体地,防滑层5为高硬度橡胶制成,高硬度橡胶具有降低损耗,提高耐磨性的优点。Preferably, in step (2), the thermoplastic elastic layer 6 is made of any one of TPU, TPE and EVA. Specifically, the thermoplastic elastic layer 6 is made of EVA material, and is made of EVA elastic layer, which has the advantages of lightness and elasticity, and achieves a better balance between comfort and functionality; specifically, the anti-skid layer 5 is made of high hardness Made of rubber, high hardness rubber has the advantages of reducing loss and improving wear resistance.
优选地,先将防滑层5放置于缓冲成型装置2上,通过防滑层5底端的防滑部对防滑层5进行初步定位,缓冲成型组件211抵顶于相邻防滑部之间的间隙内,再将热塑性弹性层6叠放于防滑层5的上表面。Preferably, the anti-skid layer 5 is first placed on the buffer forming device 2, the anti-skid layer 5 is preliminarily positioned through the anti-skid part at the bottom end of the anti-skid layer 5, the buffer forming component 211 is pressed against the gap between the adjacent anti-skid parts, and then The thermoplastic elastic layer 6 is stacked on the upper surface of the anti-slip layer 5 .
优选地,缓冲成型装置2包括多个形成缓冲部的各缓冲块的缓冲成型部件21。通过多个缓冲成型部件21加工出多个缓冲块。Preferably, the buffer forming device 2 includes a plurality of buffer forming parts 21 forming each buffer block of the buffer portion. A plurality of buffer blocks are processed by the plurality of buffer molding parts 21 .
优选地,缓冲成型部件21包括使热塑性弹性层6软化后形成缓冲块的缓冲成型组件211。通过缓冲成型组件211,使软化的热塑性弹性层6在型腔内定型,形成缓冲块的形状。Preferably, the buffer forming part 21 includes a buffer forming component 211 for forming a buffer block after softening the thermoplastic elastic layer 6 . Through the buffer forming component 211, the softened thermoplastic elastic layer 6 is shaped in the cavity to form the shape of a buffer block.
优选地,缓冲成型组件211包括第一模座2111和第二模座2112;第一模座2111的侧壁上形成有软化热塑性弹性层6成型并朝向第二模座2112的第一型腔2113,第二模座2112的侧壁上形成有与第一型腔2113相对应的第二型腔;第一模座2111和第二模座2112拼接在一起,第一型腔2113和第二型腔相连通;缓冲成型组件211的上表面形成有软化热塑性弹性层6和空气进入的进料部2114,进料部2114与第一型腔2113和第二型腔相连通。通过第一模座2111和第二模座2112拼接在一起,第一型腔2113和第二型腔连接在一起,使软化的热塑性弹性层6进入第一型腔2113和第二型腔内逐渐成型。Preferably, the buffer molding assembly 211 includes a first mold base 2111 and a second mold base 2112 ; a first cavity 2113 is formed on the side wall of the first mold base 2111 and is formed with the softened thermoplastic elastic layer 6 and faces the second mold base 2112 , a second cavity corresponding to the first cavity 2113 is formed on the side wall of the second die base 2112; the first die base 2111 and the second die base 2112 are spliced together, the first cavity 2113 and the second die The cavities are communicated; the upper surface of the buffer molding component 211 is formed with the softening thermoplastic elastic layer 6 and the feeding part 2114 into which the air enters, and the feeding part 2114 communicates with the first cavity 2113 and the second cavity. By splicing the first mold base 2111 and the second mold base 2112 together, the first mold cavity 2113 and the second mold cavity are connected together, so that the softened thermoplastic elastic layer 6 enters the first mold cavity 2113 and the second mold cavity gradually. forming.
优选地,进料部2114包括第一进料口2115和第二进料口2116;第一进料口2115形成于第一模座2111的上表面,第二进料口2116形成于第二模座2112的上表面;第一模座2111的上表面具有朝向第二模座2112的第一开口,第二模座2112的上表面具有朝向第一模座2111的第二开口,第一进料口2115和第二进料口2116通过第一开口和第二开口相连接。第一进料口2115和第二进料口2116拼接在一起,使缓冲块和热塑性弹性层6的连接结构更稳定,同时加快软化的热塑性弹性层6进入型腔内的速度。Preferably, the feeding part 2114 includes a first feeding port 2115 and a second feeding port 2116; the first feeding port 2115 is formed on the upper surface of the first mold base 2111, and the second feeding port 2116 is formed in the second mold The upper surface of the seat 2112; the upper surface of the first mold seat 2111 has a first opening toward the second mold seat 2112, the upper surface of the second mold seat 2112 has a second opening toward the first mold seat 2111, the first feeding The port 2115 and the second feed port 2116 are connected by the first opening and the second opening. The first feeding port 2115 and the second feeding port 2116 are spliced together to make the connection structure between the buffer block and the thermoplastic elastic layer 6 more stable, and at the same time accelerate the speed of the softened thermoplastic elastic layer 6 entering the cavity.
优选地,缓冲成型部件21还包括驱动缓冲成型组件211开合的开合驱动装置212。通过开合驱动装置212,驱动缓冲成型组件211的开合,在加工前将缓冲成型装置2闭合,冷却后打开缓冲成型装置2,不会对成型的缓冲块造成影响。Preferably, the buffer forming component 21 further includes an opening and closing driving device 212 for driving the buffer forming assembly 211 to open and close. The opening and closing driving device 212 drives the opening and closing of the buffer forming assembly 211 , the buffer forming device 2 is closed before processing, and the buffer forming device 2 is opened after cooling, which will not affect the formed buffer block.
优选地,为了便于缓冲块的成型加工,开合驱动装置212包括滑动部2121,驱动第一模座2111在滑动部2121上左右移动的第一移动驱动装置2122,和驱动第二模座2112在滑动部2121上左右移动的第二移动驱动装置2123。Preferably, in order to facilitate the forming process of the buffer block, the opening and closing driving device 212 includes a sliding part 2121, a first moving driving device 2122 for driving the first mold base 2111 to move left and right on the sliding part 2121, and driving the second mold base 2112 to move The second moving driving device 2123 on the sliding part 2121 moves left and right.
优选地,为了便于缓冲块的成型加工,滑动部2121包括滑动座,滑动座的上表面形成有供第一模座2111和第二模座2112滑动的滑动槽。Preferably, in order to facilitate the forming process of the buffer block, the sliding portion 2121 includes a sliding seat, and the upper surface of the sliding seat is formed with a sliding groove for the first mold seat 2111 and the second mold seat 2112 to slide.
优选地,第一移动驱动装置2122包括第一转动电机21221、第一滑动块21222和第一螺杆21223;第一滑动块21222的上端和第一模座2111相连接,第一滑动块21222滑动连接于滑动槽内,第一滑动块21222上形成有第一螺杆21223穿过的第一通孔,第一螺杆21223的一端贯穿第一通孔,第一螺杆21223的另一端和第一转动电机21221的输出端连接在一起;第二移动驱动装置2123包括第二转动电机21231、第二滑动块21232和第二螺杆21233;第二滑动块21232的上端和第二模座2112相连接,第二滑动块21232滑动连接于滑动槽内,第二滑动块21232上形成有第二螺杆21233穿过的第二通孔,第二螺杆21233的一端贯穿第二通孔,第二螺杆21233的另一端和第二转动电机21231的输出端连接在一起。当缓冲块成型后,第一转动电机21221驱动第一螺杆21223转动,使第一滑动块21222带动第一模座2111向左移动,第二转动电机21231驱动第二螺杆21233转动,使第二滑动块21232带动第二模座2112向右移动,实现脱模的目的。Preferably, the first moving driving device 2122 includes a first rotating motor 21221, a first sliding block 21222 and a first screw 21223; the upper end of the first sliding block 21222 is connected with the first die base 2111, and the first sliding block 21222 is slidably connected In the sliding groove, the first sliding block 21222 is formed with a first through hole through which the first screw 21223 passes. The output end of the second moving drive device 2123 includes a second rotating motor 21231, a second sliding block 21232 and a second screw 21233; the upper end of the second sliding block 21232 is connected with the second die base 2112, and the second sliding block 21232 The block 21232 is slidably connected in the sliding groove, the second sliding block 21232 is formed with a second through hole through which the second screw 21233 passes, one end of the second screw 21233 passes through the second through hole, and the other end of the second screw 21233 is connected to the second through hole. The outputs of the two rotating motors 21231 are connected together. After the buffer block is formed, the first rotating motor 21221 drives the first screw 21223 to rotate, so that the first sliding block 21222 drives the first die base 2111 to move to the left, and the second rotating motor 21231 drives the second screw 21233 to rotate, making the second sliding The block 21232 drives the second die base 2112 to move to the right to achieve the purpose of demoulding.
优选地,为了提高缓冲部的缓冲效果,多个缓冲成型部件21呈矩阵排列设置。Preferably, in order to improve the buffering effect of the buffer portion, a plurality of buffer forming parts 21 are arranged in a matrix.
优选地,为了便于加工人员将防滑层5和热塑性弹性层6放于缓冲成型装置2上,还包括驱动缓冲成型装置2上下运动的第一升降驱动装置3。Preferably, in order to facilitate the processing personnel to place the anti-skid layer 5 and the thermoplastic elastic layer 6 on the buffer forming device 2 , a first lift driving device 3 for driving the buffer forming device 2 to move up and down is also included.
优选地,第一升降驱动装置3包括连接板31,和驱动连接板31上下运动的第一升降气缸32;缓冲成型装置2设于连接板31的上端,第一升降气缸32的输出端和连接板31的底端连接在一起。当需要将防滑层5和热塑性弹性层6放在缓冲成型装置2上时,第一升降气缸32驱动连接板31向下运动,使工作人员具有足够的活动空间将防滑层5和热塑性弹性层6放在缓冲成型装置2上,放好后,再驱动升降气缸向上运动到预定位置,便于夹紧装置4夹紧。Preferably, the first lifting driving device 3 includes a connecting plate 31 and a first lifting cylinder 32 that drives the connecting plate 31 to move up and down; the buffer forming device 2 is provided on the upper end of the connecting plate 31, and the output end of the first lifting cylinder 32 is connected to the The bottom ends of the plates 31 are connected together. When the anti-skid layer 5 and the thermoplastic elastic layer 6 need to be placed on the buffer molding device 2, the first lifting cylinder 32 drives the connecting plate 31 to move downward, so that the worker has enough space to move the anti-skid layer 5 and the thermoplastic elastic layer 6. Put it on the buffer forming device 2, and after it is placed, drive the lifting cylinder to move up to a predetermined position, which is convenient for the clamping device 4 to clamp.
优选地,在步骤(4)中,先对热塑性弹性层6进行预加热,使热塑性弹性层6整体软化后,再对热塑性弹性层6与缓冲成型组件211对应的位置进行局部范围内的进一步软化,使局部范围内进一步软化的热塑性弹性层6在缓冲成型组件211内形成缓冲块。Preferably, in step (4), the thermoplastic elastic layer 6 is pre-heated to soften the thermoplastic elastic layer 6 as a whole, and then the position corresponding to the thermoplastic elastic layer 6 and the buffer molding component 211 is further softened in a local range , so that the thermoplastic elastic layer 6 further softened in a local range forms a buffer block in the buffer molding component 211 .
优选地,EVA的软化温度为70-80℃。Preferably, the softening temperature of EVA is 70-80°C.
优选地,EVA的软化温度为75℃。Preferably, the softening temperature of EVA is 75°C.
优选地,进气装置1包括加热装置,和对气流进行导向的导流装置11。通过加热装置将热气输入导流装置11内,由导流装置11将热气输出逐渐对热塑性弹性层6进行软化处理。Preferably, the air intake device 1 includes a heating device, and a guide device 11 for guiding the airflow. The hot air is input into the guiding device 11 through the heating device, and the hot air is output by the guiding device 11 to gradually soften the thermoplastic elastic layer 6 .
优选地,加热装置包括热吹风装置。通过热吹风装置输出热气。Preferably, the heating device includes a hot air blower. The hot air is output through the hot air blower.
优选地,热吹风装置包括热风机。通过热风机输出热气。Preferably, the hot air blowing device includes a hot air blower. The hot air is output through the hot air blower.
优选地,导流装置11包括导风箱111;导风箱111内形成容置气体的气腔,导风箱111上设有热风管112,热风机通过热风管112与气腔相连通,导风箱111的下表面形成有吹出气流的出气部113。热气进入导风箱111内的气腔后,通过出气部113输出热气。Preferably, the air guide device 11 includes an air guide box 111; an air chamber for accommodating gas is formed in the air guide box 111, a hot air pipe 112 is arranged on the air guide box 111, and the hot air blower is communicated with the air chamber through the hot air pipe 112, and the air guide box The lower surface of 111 is formed with an air outlet 113 for blowing out airflow. After the hot air enters the air cavity in the air guide box 111 , the hot air is output through the air outlet 113 .
优选地,出气部113包括多个与各缓冲成型部件21的进料部2114一一对应的出气孔1131。通过出气孔1131与各进入口和各进料部2114相对应,对多个预定位置进行加热,使预定位置的热塑性弹性层6逐渐软化后进入缓冲成型组件211内形成缓冲块。Preferably, the air outlet portion 113 includes a plurality of air outlet holes 1131 corresponding to the feeding portions 2114 of each buffer molding part 21 one-to-one. Through the air outlet holes 1131 corresponding to each inlet port and each feeding part 2114, a plurality of predetermined positions are heated, so that the thermoplastic elastic layer 6 in the predetermined positions is gradually softened and then enters the buffer molding assembly 211 to form a buffer block.
优选地,为了便于出气孔1131与进入口和进料部2114相对应,导风箱111的下表面还形成有卡接于热塑性弹性层6上的限位凸起114。Preferably, in order to facilitate that the air outlet hole 1131 corresponds to the inlet port and the feeding portion 2114 , the lower surface of the air guide box 111 is further formed with a limiting protrusion 114 that is clamped on the thermoplastic elastic layer 6 .
优选地,为了便于出气孔1131与进入口和进料部2114相对应,限位凸起114闭环设置,限位凸起114的内壁与热塑性弹性层6的外壁相贴合;出气部113均处于限位凸起114内侧。Preferably, in order to facilitate that the air outlet 1131 corresponds to the inlet and the feeding portion 2114, the limiting protrusion 114 is closed-loop arranged, and the inner wall of the limiting protrusion 114 is in contact with the outer wall of the thermoplastic elastic layer 6; The inner side of the limiting protrusion 114 .
优选地,导流装置11还包括驱动导风箱111上下运动的第二升降驱动装置115;第二升降驱动装置115的输出端和导风箱111连接在一起。第二升降驱动装置115驱动导风箱111到预定高度对热塑性弹性层6进行预加热,使热塑性弹性层6整体软化,再驱动导风箱111罩设在热塑性弹性层6上,对预定的局部范围内进行加热;具体地,第二升降驱动装置115为气缸驱动。Preferably, the air guide device 11 further includes a second lift drive device 115 that drives the wind guide box 111 to move up and down; the output end of the second lift drive device 115 is connected to the wind guide box 111 . The second lift driving device 115 drives the wind guide box 111 to a predetermined height to preheat the thermoplastic elastic layer 6 to soften the thermoplastic elastic layer 6 as a whole, and then drives the wind guide box 111 to cover the thermoplastic elastic layer 6, and the predetermined local area Heating is performed; specifically, the second lift driving device 115 is driven by an air cylinder.
优选地,进气装置1还包括对成型后的缓冲部进行冷却的制冷装置。通过制冷装置对成型后的缓冲部进行冷却定型,加快缓冲部的加工效率。Preferably, the air intake device 1 further includes a refrigeration device for cooling the formed buffer portion. The formed buffer part is cooled and shaped by the refrigeration device, so as to speed up the processing efficiency of the buffer part.
优选地,制冷装置包括冷吹风装置。通过冷吹风装置向导风箱111的气腔内输入冷气。Preferably, the refrigeration device includes a cold blowing device. The cold air is fed into the air cavity of the wind box 111 through the cold air blowing device.
优选地,冷吹风装置包括冷风机。通过冷风机向导风箱111的气腔内输入冷气。Preferably, the cooling blowing device includes a cooling fan. Cool air is input into the air cavity of the air box 111 through the cooling fan.
优选地,为了便于冷风机向导风箱111内输入冷气,导风箱111上设有冷风管116,冷风机通过冷风管116和气腔相连通。Preferably, in order to facilitate the cooling fan to input cold air into the air guide box 111 , a cold air duct 116 is provided on the air guide box 111 , and the cooling fan communicates with the air cavity through the cold air duct 116 .
优选地,还包括排气装置。在需要冷气时,通过排气装置,将热气逐渐排出,等到导风箱111内完全充满冷气后,关闭排气装置;当需要热气时,通过排气装置将冷气逐渐排出,等到导风箱111内完全充满热气后,关闭排气装置。Preferably, an exhaust device is also included. When cold air is needed, the hot air is gradually discharged through the exhaust device, and the exhaust device is closed after the air guide box 111 is completely filled with cold air; when hot air is needed, the cold air is gradually discharged through the exhaust device, and the air guide box 111 is completely discharged. When full of hot air, turn off the exhaust.
优选地,为了便于排气装置排出气体,排气装置包括排气管117,和排出气体的排气风机;排气管117的一端和导风箱111的气腔相连通,排气管117的另一端和排气风机相连接。Preferably, in order to facilitate the exhaust device to exhaust gas, the exhaust device includes an exhaust pipe 117 and an exhaust fan for exhausting gas; one end of the exhaust pipe 117 is communicated with the air cavity of the air guide box 111, and the other end of the exhaust pipe 117 One end is connected to the exhaust fan.
优选地,为了使加工时的定位更准确,在步骤(4)之前,通过夹紧装置4将热塑性弹性层6和防滑层5夹紧固定。Preferably, in order to make the positioning during processing more accurate, before step (4), the thermoplastic elastic layer 6 and the anti-skid layer 5 are clamped and fixed by the clamping device 4 .
优选地,夹紧装置4包括处于鞋底一侧的第一定位装置41,以及处于鞋底另一侧的第二定位装置42。通过第一定位装置41和第二定位装置42夹紧鞋底,使防滑层5和热塑性弹性层6更好地对齐;具体地,鞋底包括防滑层5和热塑性弹性层6。Preferably, the clamping device 4 comprises a first positioning device 41 on one side of the sole, and a second positioning device 42 on the other side of the sole. The sole is clamped by the first positioning device 41 and the second positioning device 42 to better align the anti-skid layer 5 and the thermoplastic elastic layer 6 ; specifically, the sole includes the anti-skid layer 5 and the thermoplastic elastic layer 6 .
优选地,第一定位装置41包括第一定位部411。通过第一定位部411接触鞋底的一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the first positioning device 41 includes a first positioning portion 411 . The first positioning portion 411 is in contact with one side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
优选地,第一定位部411包括第一定位板。通过第一定位板接触鞋底的一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the first positioning portion 411 includes a first positioning plate. The anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the first positioning plate contacting one side outer wall of the sole.
优选地,第为了使第一定位板的定位效果更好,一定位板与鞋底一侧的外侧壁的接触面与鞋底一侧的外侧壁相匹配。Preferably, firstly, in order to make the positioning effect of the first positioning plate better, the contact surface of a positioning plate and the outer side wall of the sole side matches with the outer side wall of the sole side.
优选地,第二定位装置42包括第二定位部421。通过第二定位部421接触鞋底的另一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the second positioning device 42 includes a second positioning portion 421 . The second positioning portion 421 contacts the other side outer wall of the sole, so that the anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned.
优选地,第二定位部421包括第二定位板。通过第二定位板接触鞋底的另一侧外壁,使防滑层5和热塑性弹性层6更好地对齐。Preferably, the second positioning portion 421 includes a second positioning plate. The anti-skid layer 5 and the thermoplastic elastic layer 6 are better aligned by the second positioning plate contacting the other side outer wall of the sole.
优选地,为了使第二定位板的定位效果更好,第二定位板与鞋底另一侧的外侧壁的接触面与鞋底另一侧的外侧壁相匹配。Preferably, in order to make the positioning effect of the second positioning plate better, the contact surface between the second positioning plate and the outer sidewall on the other side of the sole matches with the outer sidewall on the other side of the sole.
优选地,夹紧装置4还包括驱动第一定位装置41和第二定位装置42向内夹紧鞋底的夹紧驱动装置43。通过夹紧驱动装置43同时驱动第一定位装置41和第二定位装置42向内夹紧鞋底。Preferably, the clamping device 4 further includes a clamping driving device 43 for driving the first positioning device 41 and the second positioning device 42 to clamp the sole inward. The first positioning device 41 and the second positioning device 42 are simultaneously driven to clamp the sole inward by the clamping driving device 43 .
优选地,夹紧驱动装置43包括驱动第一定位装置41左右移动的第一移动气缸431,和驱动第二定位装置42左右移动的第二移动气缸432;第一移动气缸431的输出端和第一定位部411连接在一起,第二移动气缸432的输出端和第二定位部421连接在一起。通过第一移动气缸431驱动第一定位部411向内运动,第二移动气缸432驱动第二定位部421向内运动,将鞋底夹紧。Preferably, the clamping driving device 43 includes a first moving cylinder 431 that drives the first positioning device 41 to move left and right, and a second moving cylinder 432 that drives the second positioning device 42 to move left and right; the output end of the first moving cylinder 431 and the second moving cylinder 432 A positioning portion 411 is connected together, and the output end of the second moving cylinder 432 is connected with the second positioning portion 421 . The first positioning portion 411 is driven to move inward by the first moving cylinder 431, and the second positioning portion 421 is driven to move inward by the second moving cylinder 432 to clamp the sole.
本发明的产品形式并非限于本案图示和实施例,任何人对其进行类似思路的适当变化或修饰,皆应视为不脱离本发明的专利范畴。The product form of the present invention is not limited to the illustrations and examples in this case, and any appropriate changes or modifications of similar ideas by anyone should be deemed not to depart from the scope of the present invention.

Claims (10)

  1. 一种防滑鞋底的加工装置,其特征在于:包括在防护层的底端形成缓冲部的成型机构;所述成型机构包括对热塑性弹性层加热软化的进气装置,和使加热软化后的热塑性弹性材料在防滑层的底端形成缓冲部的缓冲成型装置。A processing device for anti-skid soles, characterized in that: it includes a molding mechanism for forming a buffer at the bottom end of a protective layer; the molding mechanism includes an air intake device for heating and softening a thermoplastic elastic layer, and a thermoplastic elastic layer after heating and softening. A buffer molding device that forms a buffer at the bottom end of the anti-skid layer.
  2. 根据权利要求1所述的一种防滑鞋底的加工装置,其特征在于:所述缓冲成型装置包括多个形成缓冲部的各缓冲块的缓冲成型部件。The processing device for a non-slip sole according to claim 1, wherein the buffer forming device comprises a plurality of buffer forming parts forming each buffer block of the buffer part.
  3. 根据权利要求2所述的一种防滑鞋底的加工装置,其特征在于:所述缓冲成型部件包括使热塑性弹性层软化后形成缓冲块的缓冲成型组件。The device for processing a non-slip sole according to claim 2, wherein the buffer forming component comprises a buffer forming component for softening the thermoplastic elastic layer to form a buffer block.
  4. 根据权利要求3所述的一种防滑鞋底的加工装置,其特征在于:所述缓冲成型组件包括第一模座和第二模座;所述第一模座的侧壁上形成有软化热塑性弹性层成型并朝向第二模座的第一型腔,所述第二模座的侧壁上形成有与第一型腔相对应的第二型腔;所述第一模座和第二模座拼接在一起,所述第一型腔和第二型腔相连通;所述缓冲成型组件的上表面形成有软化热塑性弹性层和空气进入的进料部,所述进料部与第一型腔和第二型腔相连通。The processing device for non-slip soles according to claim 3, wherein: the buffer molding component comprises a first mold base and a second mold base; a softened thermoplastic elastomer is formed on the side wall of the first mold base The layer is formed and faces the first cavity of the second mold base, a second cavity corresponding to the first cavity is formed on the side wall of the second mold base; the first mold base and the second mold base spliced together, the first cavity and the second cavity are connected; the upper surface of the buffer molding component is formed with a softening thermoplastic elastic layer and a feeding part for air to enter, and the feeding part is connected to the first cavity. communicated with the second cavity.
  5. 根据权利要求4所述的一种防滑鞋底的加工装置,其特征在于:所述进料部包括第一进料口和第二进料口;所述第一进料口形成于所述第一模座的上表面,所述第二进料口形成于所述第二模座的上表面;所述第一模座的上表面具有朝向第二模座的第一开口,所述第二模座的上表面具有朝向第一模座的第二开口,所述第一进料口和第二进料口通过第一开口和第二开口相连接。The processing device for anti-skid soles according to claim 4, wherein the feeding part comprises a first feeding port and a second feeding port; the first feeding port is formed in the first feeding port the upper surface of the die base, the second feeding port is formed on the upper surface of the second die base; the upper surface of the first die base has a first opening facing the second die base, the second die base The upper surface of the base has a second opening facing the first die base, and the first feed port and the second feed port are connected through the first opening and the second opening.
  6. 根据权利要求5所述的一种防滑鞋底的加工装置,其特征在于:所述缓冲成型部件还包括驱动缓冲成型组件开合的开合驱动装置。The processing device for a non-slip sole according to claim 5, wherein the buffer forming component further comprises an opening and closing driving device for driving the buffer forming assembly to open and close.
  7. 根据权利要求6所述的一种防滑鞋底的加工装置,其特征在于:所述开合驱动装置包括滑动部,驱动第一模座在滑动部上左右移动的第一移动驱动装置,和驱动第二模座在滑动部上左右移动的第二移动驱动装置。The processing device for anti-skid soles according to claim 6, wherein the opening and closing driving device comprises a sliding part, a first moving driving device for driving the first mold base to move left and right on the sliding part, and a first moving driving device for driving the first mold base to move left and right on the sliding part The second moving driving device for the two mold bases to move left and right on the sliding part.
  8. 根据权利要求7所述的一种防滑鞋底的加工装置,其特征在于:所述滑动部包括滑动座,所述滑动座的上表面形成有供第一模座和第二模座滑动的滑动槽。The processing device for non-slip soles according to claim 7, wherein the sliding part comprises a sliding seat, and a sliding groove is formed on the upper surface of the sliding seat for the first mold seat and the second mold seat to slide .
  9. 根据权利要求8所述的一种防滑鞋底的加工装置,其特征在于:所述第一移动驱动装置包括第一转动电机、第一滑动块和第一螺杆;所述第一滑动块的上端和第一模座相连接,所述第一滑动块滑动连接于滑动槽内,所述第一滑动块上形成有第一螺杆穿过的第一通孔,所述第一螺杆的一端贯穿第一通孔,第一螺杆的另一端和第一转动电机的输出端连接在一起;所述第二移动驱动装置包括第二转动电机、第二滑动块和第二螺杆;所述第二滑动块的上端和第二模座相连接,所述第二滑动块滑动连接于滑动槽内,所述第二滑动块上形成有第二螺杆穿过的第二通孔,所述第二螺杆的一端贯穿第二通孔,第二螺杆的另一端和第二转动电机的输出端连接在一起。A processing device for anti-skid soles according to claim 8, characterized in that: the first moving driving device comprises a first rotating motor, a first sliding block and a first screw; the upper end of the first sliding block and the The first die base is connected, the first sliding block is slidably connected in the sliding groove, the first sliding block is formed with a first through hole through which the first screw rod passes, and one end of the first screw rod penetrates the first screw rod. a through hole, the other end of the first screw is connected with the output end of the first rotating motor; the second moving driving device includes a second rotating motor, a second sliding block and a second screw; The upper end is connected with the second die base, the second sliding block is slidably connected in the sliding groove, the second sliding block is formed with a second through hole through which the second screw rod passes, and one end of the second screw rod passes through In the second through hole, the other end of the second screw and the output end of the second rotating motor are connected together.
  10. 根据权利要求9所述的一种防滑鞋底的加工装置,其特征在于:多个所述缓冲成型部件呈矩阵排列设置。The processing device for a non-slip sole according to claim 9, wherein a plurality of the buffer forming parts are arranged in a matrix.
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