CN220591291U - Concave-convex mould forming tool - Google Patents

Abstract

The utility model belongs to the technical field of concave-convex die forming, and particularly relates to a concave-convex die forming tool, which comprises: the forming tool comprises a forming tool body and a male die, wherein the male die is fixedly connected to the forming tool body, a base is fixedly connected to the forming tool body, two slots are formed in the top surface of the base, a female die is arranged on the top surface of the base, two grooves in the female die are communicated with the bottom surface of the female die, two fixing blocks are fixedly connected to the bottom surface of the female die, and the two fixing blocks are respectively located in the two slots; the fixing component is positioned in the base and used for respectively fixing the two fixing blocks on the bottom surface of the female die in the two slots; the utility model solves the problems that a user needs to consume a great deal of time and energy when taking out the product, and reduces the working efficiency, and solves the problem that the female die on the traditional female and male die forming tool is mostly fixed on the female and male die forming tool through bolts, so that the user cannot quickly replace the female die.

Description

Concave-convex mould forming tool

Technical Field

The utility model belongs to the technical field of concave-convex die forming, and particularly relates to a concave-convex die forming tool.

Background

The concave-convex die forming tool is a tool or a device for manufacturing concave-convex die forming products. It is generally composed of a female mold, a mold clamp, and other mating parts for molding, cooling, curing, and demolding the material during the manufacturing process.

After the product is molded by the traditional concave-convex die molding tool, the product needs to be demolded by a user, and the product is mostly closely attached to the die after molding, so that the user needs to consume a great deal of time and energy when taking out the product, the working efficiency is reduced, and the concave die is easy to wear, deform or break due to the fact that the concave die needs to bear high pressure, high temperature and frequent use for a long time, the concave die needs to be replaced by the user, and the concave die on the traditional concave-convex die molding tool is mostly fixed on the concave-convex die molding tool through bolts, so that the user cannot replace the concave die quickly. In view of this, we propose a concave-convex mold forming tool.

Disclosure of Invention

The utility model aims at solving the technical problems, and provides a concave-convex die forming tool, which solves the problems that a user needs to consume a great deal of time and energy when taking out a product and reduces the working efficiency, and solves the problem that a female die on the traditional concave-convex die forming tool is mostly fixed on the female-convex die forming tool through bolts, so that the user cannot quickly replace the female die.

In view of the above, the present utility model provides a concave-convex mold forming tool, comprising:

the forming tool comprises a forming tool body and a male die, wherein the male die is fixedly connected to the forming tool body, a base is fixedly connected to the forming tool body, two slots are formed in the top surface of the base, a female die is arranged on the top surface of the base, two grooves in the female die are communicated with the bottom surface of the female die, two fixing blocks are fixedly connected to the bottom surface of the female die, and the two fixing blocks are respectively located in the two slots;

the fixing component is positioned in the base and used for respectively fixing the two fixing blocks on the bottom surface of the female die in the two slots;

the two pushing plates are respectively and slidably connected in the two grooves on the concave die, and a pushing groove communicated with the bottom surface of the concave die is formed in the bottom surface of the pushing plate;

the pushing assembly is positioned in the base and used for pushing the two pushing plates to move in the two grooves of the female die.

Based on the structure, through push pedal, promote groove and the promotion subassembly that sets up, after the product shaping, the user can drive two push pedals respectively along two recesses on the concave mould through promoting subassembly and two promote grooves, let two push pedals push out the product of shaping in two recesses on the concave mould, through slot and concave mould that set up, let two fixed blocks of concave mould utensil bottom surface can insert in two slots, through the fixed subassembly that sets up, the user can fix respectively at two slots with two fixed blocks of concave mould utensil bottom surface through the fixed subassembly, ensure that concave mould utensil can be fixed on the base and can not remove, or when two fixed blocks of concave mould utensil bottom surface are fixed respectively in two slots, the user can release the restriction to two fixed blocks of concave mould utensil bottom surface through the fixed subassembly, let two fixed blocks of concave mould utensil bottom surface can follow two slots respectively in extracting, change concave mould utensil.

Preferably, the fixing assembly includes:

the first rotating groove is formed in the base and is communicated with the outside, two first sliding grooves are formed in the inner wall of the first rotating groove and are respectively communicated with the two slots, the rotating rod is rotationally connected to the first rotating groove, the rotating rod is connected with the two inserting blocks in a threaded mode, and one ends of the two inserting blocks extend into the two fixing blocks on the bottom surface of the female die respectively.

Further, it is ensured that the user can quickly replace worn, deformed or broken female dies.

Preferably, the two screw thread structures on the rotating rod are opposite screw thread structures, and one end of each of the two inserting blocks is in insertion fit with the two fixing blocks on the bottom surface of the female die.

Further, when the rotating rod is ensured to rotate, the two insert blocks can be mutually close to and mutually far away from each other under the action of the threads of the rotating rod, and one ends of the two insert blocks can be ensured to be normally inserted into the two fixed blocks on the bottom surface of the female die.

Preferably, the pushing assembly includes:

the second rotates the groove, the second rotates the groove and sets up in the base and be linked together with the external world, two circular grooves have been seted up on the inner wall in second rotates the groove, set up the second spout that is linked together with the promotion groove on the inner wall in circular groove, the second rotates the inslot internal rotation and is connected with the worm, one side meshing of worm has two worm wheels, worm wheel internal thread connection has the screw thread push rod, and the top of screw thread push rod extends to corresponding promotion inslot.

Further, the user is ensured to be relaxed when collecting the formed product, and the working efficiency is improved.

Preferably, the worm wheel is located in the corresponding circular groove and is rotationally connected with the corresponding circular groove, the threaded push rod is located in the corresponding second sliding groove and is slidably connected with the second sliding groove, and the top end of the threaded push rod is in plug-in fit with the corresponding pushing groove.

Further, the worm wheel can be guaranteed to normally rotate in the corresponding round groove, the threaded push rod can normally slide in the corresponding second sliding groove, and the top end of the threaded push rod can be guaranteed to normally insert into the corresponding pushing groove.

Preferably, the two fixing blocks on the bottom surface of the female die are respectively in plug-in fit with the two slots.

Further, it is ensured that the two fixing blocks on the bottom surface of the female die can be normally inserted into the two slots.

The beneficial effects of the utility model are as follows:

1. this unsmooth mould shaping frock, through push pedal, the promotion groove that sets up and promotion subassembly, after the product shaping, the user can drive two push pedals respectively through pushing the subassembly and two promote the groove and upwards remove along two recesses on the concave mould, lets two push pedals release the fashioned product in two recesses on the concave mould, has solved the user when taking out the product, needs consume a large amount of time and energy, has reduced work efficiency's problem.

2. This concave-convex die shaping frock, through slot and concave mould that sets up, let two fixed blocks of concave die utensil bottom surface can insert in two slots, through the fixed subassembly that sets up, the user can be fixed respectively in two slots with two fixed blocks of concave die utensil bottom surface through fixed subassembly, ensure that concave mould can be fixed on the base unable removal, or when two fixed blocks of concave die utensil bottom surface are fixed respectively in two slots, the user can remove the restriction to two fixed blocks of concave die utensil bottom surface through fixed subassembly, let two fixed blocks of concave die utensil bottom surface can follow respectively in two slots and take out, change the concave die utensil, the problem that the concave die utensil on traditional concave-convex die shaping frock was mostly fixed on concave die shaping frock through the bolt, lead to the user unable quick change the concave die utensil.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a partial explosion structure in the present utility model;

FIG. 3 is a schematic cross-sectional view of a base of the present utility model;

FIG. 4 is a schematic view of the internal structure of the base of the present utility model;

FIG. 5 is a schematic view of a region of a base according to the present utility model;

FIG. 6 is a second schematic view of the area structure of the base of the present utility model.

The label in the figure is:

1. forming a tool body; 2. a male die; 3. a base; 4. a slot; 5. a concave die; 6. a push plate; 7. a pushing groove; 8. a first rotating groove; 9. a first chute; 10. a rotating rod; 11. inserting blocks; 12. a second rotating groove; 13. a circular groove; 14. a second chute; 15. a worm; 16. a worm wheel; 17. a threaded push rod.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-6.

In the present application, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe the present application and its embodiments and are not intended to limit the indicated device, element or component to a particular orientation or to be constructed and operated in a particular orientation.

The embodiment of the application discloses unsmooth mould shaping frock includes:

the forming tool comprises a forming tool body 1 and a male die 2, wherein the male die 2 is fixedly connected to the forming tool body 1, a base 3 is fixedly connected to the forming tool body 1, two slots 4 are formed in the top surface of the base 3, a female die 5 is arranged on the top surface of the base 3, two grooves in the female die 5 are communicated with the bottom surface of the female die 5, two fixing blocks are fixedly connected to the bottom surface of the female die 5, and the two fixing blocks are respectively located in the two slots 4;

the fixing component is positioned in the base 3 and is used for respectively fixing two fixing blocks on the bottom surface of the concave mould 5 in the two slots 4;

the two pushing plates 6 are respectively and slidably connected in the two grooves on the female die 5, and a pushing groove 7 communicated with the bottom surface of the female die 5 is formed in the bottom surface of the pushing plate 6;

the pushing assembly is positioned in the base 3 and is used for pushing the two pushing plates 6 to move in the two grooves of the concave die 5.

In one embodiment, the securing assembly includes:

the first rotating groove 8 is formed in the base 3 and is communicated with the outside, two first sliding grooves 9 are formed in the inner wall of the first rotating groove 8, the two first sliding grooves 9 are respectively communicated with the two slots 4, the rotating rod 10 is rotationally connected to the first rotating groove 8, the two inserting blocks 11 are in threaded connection with the rotating rod 10, and one ends of the two inserting blocks 11 extend into the two fixing blocks on the bottom surface of the female die 5 respectively.

Specifically, when the female die 5 is worn, deformed or broken, the user rotates the rotating rod 10 by hand, so that the rotating rod 10 rotates in the first rotating groove 8, when the rotating rod 10 rotates, one ends of the two insert blocks 11 are subjected to the action of threads of the rotating rod 10, respectively, along the two first sliding grooves 9 to move away from the two slots 4, so that one ends of the two insert blocks 11 respectively move from the two fixed blocks on the bottom surface of the female die 5 to the two first sliding grooves 9, at the moment, the two insert blocks 11 release the fixation of the female die 5, then the user pulls the female die 5 by hand, so that the two fixed blocks on the bottom surface of the female die 5 are respectively pulled out of the two slots 4, and the female die 5 is replaced, after the replacement is completed, the user places the replaced female die 5 on the top surface of the base 3, so that the two fixed blocks on the bottom surface of the female die 5 are respectively moved into the two slots 4, then the user reversely rotates the rotating rod 10 by hand in the first rotating groove 8, and when the rotating rod 10 reversely rotates the two fixed blocks on the bottom surface of the female die 5, the two insert blocks 11 are subjected to the action of the two insert blocks 10 to move from the two top surfaces of the two insert blocks 9 to the two slots 3 respectively, and the two fixed blocks 10 are moved from the top surfaces of the two insert blocks 3 in the directions along the two first sliding grooves 9.

In this embodiment, it is ensured that the user can quickly replace the worn, deformed or broken female die 5.

In one embodiment, the two screw structures on the rotating rod 10 are opposite screw structures, and one end of the two inserting blocks 11 is in inserting fit with the two fixing blocks on the bottom surface of the female die 5.

In this embodiment, when the rotating rod 10 rotates, the two insert blocks 11 can be close to or far from each other under the action of the threads of the rotating rod 10, so that one end of the two insert blocks 11 can be normally inserted into the two fixed blocks on the bottom surface of the concave mold 5.

In one embodiment, the pushing assembly comprises:

the second rotates the groove 12, the second rotates the groove 12 and sets up in the base 3 and be linked together with the external world, has set up two circular grooves 13 on the inner wall of second rotates the groove 12, has set up the second spout 14 that is linked together with pushing groove 7 on the inner wall of circular groove 13, and the second rotates the inslot 12 internal rotation and is connected with worm 15, and one side meshing of worm 15 has two worm wheels 16, and worm wheel 16 internal thread connection has screw thread push rod 17, and the top of screw thread push rod 17 extends to corresponding pushing inslot 7.

Specifically, when the product is formed, the user rotates the worm 15 by hand, let worm 15 rotate in second rotary groove 12, make worm 15 drive two worm wheels 16 respectively at two circular grooves 13 internal rotation, when worm wheel 16 rotates, screw thread push rod 17 can receive the effect of corresponding worm wheel 16 screw thread and upwards move along corresponding second spout 14, when screw thread push rod 17 upwards moves, the top of screw thread push rod 17 can drive corresponding push pedal 6 upwards through corresponding thrust groove 7, let two push pedals 6 drive the product of shaping and upwards move, when screw thread push rod 17 moves to the position that can't move, the top surface of two push pedals 6 and the top surface of concave mould 5 are in same horizontal plane at this moment, simultaneously the product of shaping also can follow die 5 internal movement to external world, at this moment the user alright take down the product of shaping, after the completion of collection, the user reversely rotates worm 15 by hand, make worm 15 drive two 16 respectively at two circular grooves 13 internal reverse rotations, when 16 reverse rotation, screw thread push rod 17 can receive the effect of corresponding worm wheel 16 screw thread and can receive the second spout 14 of the corresponding worm wheel 16 down, can't move to the corresponding push rod 6 when the position that can't move to the screw thread push rod 17 down, can't move to the user when the corresponding push rod 17 moves down.

In this embodiment, ensure that the user can relax more when collecting the fashioned product, improved work efficiency.

In one embodiment, the worm wheel 16 is located in the corresponding circular groove 13 and is rotationally connected with the corresponding circular groove 13, the threaded push rod 17 is located in the corresponding second sliding groove 14 and is slidingly connected with the second sliding groove 14, and the top end of the threaded push rod 17 is in plug-in fit with the corresponding pushing groove 7.

In this embodiment, the worm wheel 16 is ensured to normally rotate in the corresponding circular groove 13, the threaded push rod 17 is ensured to normally slide in the corresponding second sliding groove 14, and the top end of the threaded push rod 17 is ensured to normally insert into the corresponding pushing groove 7.

In one embodiment, two fixing blocks on the bottom surface of the female die 5 are respectively in plug-in fit with two slots 4.

In this embodiment, it is ensured that two fixing blocks on the bottom surface of the female die 5 can be normally inserted into two slots 4.

When the concave-convex mould forming tool of the embodiment is used for forming a product, a user rotates the worm 15 by hand, so that the worm 15 rotates in the second rotating groove 12, the worm 15 drives the two worm gears 16 to rotate in the two circular grooves 13 respectively, when the worm gears 16 rotate, the threaded push rod 17 can move upwards along the corresponding second sliding groove 14 under the action of the threads of the corresponding worm gears 16, when the threaded push rod 17 moves upwards, the top ends of the threaded push rod 17 can drive the corresponding push plate 6 to move upwards through the corresponding push grooves 7, the two push plates 6 drive the formed product to move upwards, when the threaded push rod 17 moves to a position at which the worm rod 17 cannot move, the top surfaces of the two push plates 6 and the top surfaces of the concave mould 5 are positioned on the same horizontal plane, and simultaneously the formed product can also move from the concave mould 5 to the outside, at this moment, so that the user can take down the formed product, the user can easily collect the formed product, after the collection is completed, the user reversely rotates the worm 15 by hand in the second rotating groove 12, the worm 15 drives the two worm gears 16 to move upwards respectively in the corresponding push plate 6 through the corresponding push grooves 7, the corresponding push plate 6, the two push rods are deformed by the action of the threads 10 when the corresponding push rod 16 rotates downwards, the corresponding push rod 10 moves downwards, the two push rods 10 can be deformed by the action of the threads 10, when the user moves downwards through the corresponding push rod 16, the corresponding push rod 10 moves downwards, when the corresponding push rod 10 moves downwards through the corresponding push rod 10, and the threads when the corresponding push rod 10 moves downwards, and the user moves down by the corresponding push rod 10 can not move by the action of the threads, when the user is deformed by the corresponding push rod 10 is deformed by the threads, and when the user is deformed by the user, when the user is deformed by the screw rod 10, and when the user is deformed by the threads and can be deformed by the threads and can be deformed, the two first sliding grooves 9 are respectively moved along the directions of being far away from the two slots 4, one ends of the two inserting blocks 11 are respectively moved into the two first sliding grooves 9 from the two fixed blocks on the bottom surface of the female die 5, at the moment, the two inserting blocks 11 are released from fixing the female die 5, then a user pulls the female die 5 by hand, the two fixed blocks on the bottom surface of the female die 5 are respectively pulled out of the two slots 4 and replace the female die 5, after the replacement is finished, the user places the replaced female die 5 on the top surface of the base 3, the two fixed blocks on the bottom surface of the female die 5 are respectively moved into the two slots 4 from the outside, then the user reversely rotates the rotating rod 10 by hand, the rotating rod 10 reversely rotates in the first rotating groove 8, and when the rotating rod 10 reversely rotates, one ends of the two inserting blocks 11 are subjected to the action of the threads of the rotating rod 10, the two inserting blocks 11 are respectively moved along the directions of the two first sliding grooves 9 to the two slots 4, the one ends of the two inserting blocks 11 are respectively moved into the two fixed blocks on the bottom surface of the female die 5 from the two first sliding grooves 9, and the two inserting blocks 11 are respectively worn out of the two fixed blocks on the bottom surface of the female die 5, and the two female die 5 can be quickly deformed or broken by the user, and the base 5 can be quickly deformed, and the top surface of the female die 5 can be quickly deformed and deformed, and the base can be quickly deformed.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a concave-convex mould shaping frock which characterized in that includes:

the forming tool comprises a forming tool body (1) and a male die (2), wherein the male die (2) is fixedly connected to the forming tool body (1), a base (3) is fixedly connected to the forming tool body (1), two slots (4) are formed in the top surface of the base (3), a female die (5) is arranged on the top surface of the base (3), two grooves in the female die (5) are communicated with the bottom surface of the female die (5), two fixing blocks are fixedly connected to the bottom surface of the female die (5), and the two fixing blocks are respectively located in the two slots (4);

the fixing component is positioned in the base (3) and used for respectively fixing two fixing blocks on the bottom surface of the concave mould (5) in the two slots (4);

the two pushing plates (6), the two pushing plates (6) are respectively and slidably connected in the two grooves on the female die (5), and a pushing groove (7) communicated with the bottom surface of the female die (5) is formed in the bottom surface of the pushing plate (6);

the pushing assembly is positioned in the base (3) and used for pushing the two pushing plates (6) to move in the two grooves of the female die (5).

2. The embossing tooling of claim 1, wherein the securing assembly comprises:

the novel die comprises a base (3), a first rotating groove (8), two first sliding grooves (9) are formed in the inner wall of the first rotating groove (8), the two first sliding grooves (9) are respectively communicated with two slots (4), a rotating rod (10) is rotationally connected to the first rotating groove (8), two inserting blocks (11) are connected to the rotating rod (10) in a threaded mode, and one ends of the two inserting blocks (11) extend into two fixing blocks on the bottom surface of the die (5) respectively.

3. The embossing die forming tool as set forth in claim 2, wherein: two thread structures on the rotating rod (10) are opposite thread structures, and one end of each inserting block (11) is in inserting fit with two fixing blocks on the bottom surface of the female die (5).

4. The embossing tooling of claim 1, wherein the pushing assembly comprises:

the second rotates groove (12), second rotates groove (12) and sets up in base (3) and be linked together with the external world, set up two circular slot (13) on the inner wall in second rotation groove (12), set up second spout (14) that are linked together with pushing groove (7) on the inner wall in circular slot (13), second rotates groove (12) internal rotation and is connected with worm (15), one side meshing of worm (15) has two worm wheels (16), worm wheel (16) internal thread connection has screw push rod (17), and in the top of screw push rod (17) extends to corresponding pushing groove (7).

5. The embossing die forming tool of claim 4, wherein: the worm wheel (16) is positioned in the corresponding circular groove (13) and is rotationally connected with the corresponding circular groove (13), the threaded push rod (17) is positioned in the corresponding second sliding groove (14) and is in sliding connection with the second sliding groove (14), and the top end of the threaded push rod (17) is in plug-in fit with the corresponding push groove (7).

6. The embossing die forming tool as set forth in claim 1, wherein: two fixed blocks on the bottom surface of the female die (5) are respectively in plug-in fit with two slots (4).