CN109371481B - Intelligent multifunctional polyester fiber production equipment - Google Patents

Abstract

The invention provides intelligent multifunctional polyester fiber production equipment which comprises a protective outer cover, a left side fiber supply box, a right side fiber supply box, a left side fiber guide pipe, a right side fiber guide pipe, a spinning nozzle, an air drying circulating dust cover structure, a high-pressure suction pump, an adjustable control frame structure, an air exhaust cover, a polyester fiber strip guiding beam splitting frame structure, a conveying belt, a conveying driven wheel, a conveying motor, a conveying driving wheel, a conveying guide roller, a polyester fiber strip collecting frame structure, a multistage buffering pressure frame structure and a conveying driving belt, wherein the left side fiber supply box is mounted on the upper left side of the inner wall of the protective outer cover through bolts. The arrangement of the winding roller, the winding driven wheel, the bottom shield, the top shield and the winding motor, and the arrangement of the winding driving roller and the winding driving belt are favorable for collecting the processed polyester fiber strips; the arrangement of the beam splitting piece is beneficial to playing a beam splitting role on the polyester fiber strip, so that the polyester fiber strip is more stably conveyed on the conveying belt.

Description

Intelligent multifunctional polyester fiber production equipment

Technical Field

The invention belongs to the technical field of polyester fiber production equipment, and particularly relates to intelligent multifunctional polyester fiber production equipment.

Background

The main raw materials of the polyester fiber product are PTA, MEG and PET in petrochemical products, and account for about 85% of the product cost. PTA production sites are mainly concentrated in asia, north america and western europe, where: the productivity in Asia region accounts for about 81% of the total global productivity, and the production capacity in North America and Western Europe is far lower than that in Asia. With the increasing demand of domestic PTA, the demand of PTA is intensified by the construction of a large amount of civil polyester production energy, and the continuous increase of PTA production energy in China is promoted, the contradiction between supply and demand of domestic PTA is relieved, and the PTA production energy in China reaches about 2000 million tons in 2011. Terylene is an important variety in synthetic fibers and is the trade name of polyester fibers in China. The fiber is prepared by using Purified Terephthalic Acid (PTA) or dimethyl terephthalate (DMT) and ethylene glycol (MEG) as raw materials, performing esterification or ester exchange and polycondensation reaction to prepare fiber-forming high polymer, namely polyethylene terephthalate (PET), and spinning and post-processing the fiber.

The invention provides a production device of polyester fibers, which is named 201711141602.9 and is invented and created by the invention, wherein the polyester fibers consist of different polyester fibers and comprise at least a first polyester fiber and a second polyester fiber, and the production device comprises a first fiber extruder, a second fiber extruder, a first fiber feeder, a second fiber feeder, a spinning nozzle, a conveying belt, a pressing roller and a heating forming device.

However, the existing polyester fiber production equipment still has the problems that the existing polyester fiber production equipment does not have the function of collecting the processed polyester fiber lines, does not have the function of splitting the polyester fiber lines, has poor air cooling effect on the polyester fiber lines, is easy to enter dust, cannot play an auxiliary positioning role on the polyester fiber lines and cannot adjust the angle of the controller.

Therefore, the invention of an intelligent multifunctional polyester fiber production device is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides intelligent multifunctional polyester fiber production equipment, which aims to solve the problems that the existing polyester fiber production equipment does not have the function of collecting processed polyester fiber lines, does not have the function of splitting the polyester fiber lines, has poor air cooling effect on the polyester fiber lines, is easy to enter dust, cannot play an auxiliary positioning role on the polyester fiber lines and cannot adjust the angle of a controller. An intelligent multifunctional polyester fiber production device comprises a protective outer cover, a left side fiber supply box, a right side fiber supply box, a left side fiber guide pipe, a right side fiber guide pipe, a spinning nozzle, an air drying circulating dust cover structure, a high-pressure suction pump, an adjustable control frame structure, an air exhaust cover, a polyester fiber strip guiding and beam splitting frame structure, a conveying belt, a conveying driven wheel, a conveying motor, a conveying driving wheel, a conveying guide roller, a polyester fiber strip collecting frame structure, a multi-stage buffering pressing frame structure and a conveying driving belt, wherein the left side fiber supply box is mounted on the upper left side of the inner wall of the protective outer cover through a bolt; the right fiber supply box is arranged on the right side of the left fiber supply box and is connected with the inner wall of the protective outer cover through bolts; one end of the left fiber conduit is in threaded connection with the lower part of the left fiber supply box, and the other end of the left fiber conduit is in threaded connection with the left upper side of the spinning nozzle; one end of the right fiber conduit is in threaded connection with the lower part of the right fiber supply box, and the other end of the right fiber conduit is in threaded connection with the upper part of the spinning nozzle; the spinneret bolt is arranged on the upper left side of the middle part of the inner wall of the protective outer cover; the air-drying circulating dust cover structure is arranged at the lower part of the spinning nozzle; the high-pressure suction pump is arranged on the left side of the suction hood and is connected with the inner wall of the protective outer cover through bolts; the adjustable control frame structure is arranged on the left lower side of the inner wall of the protective outer cover; the air extraction cover is arranged at the lower part of the spinning nozzle and is connected with the protective outer cover through bolts; the polyester fiber strip guiding beam splitting frame structure is arranged on the left side of the lower part of the air exhaust cover; the conveying belt is sleeved on the outer side of the conveying driven wheel; the conveying driven wheel shafts are connected to the left side and the right side of the middle lower part of the inner wall of the protective outer cover; the conveying motor is mounted at the lower part of the inner side of the protective outer cover through a bolt; the conveying driving wheel is connected to an output shaft of the conveying motor in a key mode; the conveying guide roller is arranged on the right upper side of the conveying belt and is in shaft connection with the inner wall of the protective outer cover; the polyester fiber strip collecting frame structure is arranged on the right lower side of the inner wall of the protective outer cover; the multi-stage buffer pressing frame structure is arranged above the conveying belt and is connected with the right side of the air exhaust cover; the conveying transmission belt is sleeved outside the conveying driven wheel and the conveying transmission wheel; the polyester fiber strip collecting frame structure comprises a mounting base, a bottom shield, a top shield, a winding roller, a winding driven wheel, a winding motor, a winding driving roller and a winding driving belt, wherein the mounting base is mounted at the right lower part inside the protective outer cover through a bolt; the bottom shield bolt is arranged at the upper part of the mounting base; the top shield is connected to the upper part of the bottom shield in a shaft mode; the winding roller is connected with the outer side of the winding driven wheel in a key way; the winding driven wheel is connected to the middle position inside the bottom shield and the top shield in a shaft connection mode; the winding motor bolt is arranged in the middle of the upper side of the front part of the mounting base; the winding driving roller is connected to an output shaft of the winding motor in a key manner; the winding transmission belt is sleeved on the outer sides of the winding driven wheel and the winding transmission roller.

Preferably, the polyester fiber strip guiding and beam splitting frame structure comprises an installation lug plate, a longitudinal support, an adjusting frame, a bolt shaft and a beam splitting sheet, wherein the longitudinal support is longitudinally welded at the middle lower part of the installation lug plate; the adjusting frame is arranged at the lower part of the longitudinal bracket through a bolt shaft.

Preferably, the multi-stage buffering pressing frame structure comprises a transverse fixing frame, a positioning sleeve, a positioning support rod, a limiting plate, a pressing roller and a buffering spring, wherein a transverse bolt of the transverse fixing frame is arranged at the lower part of the right side of the air exhaust cover; the positioning sleeves are longitudinally welded at the lower part of the transverse fixing frame from left to right in sequence; the positioning support rod is inserted at the lower part of the inner side of the positioning sleeve; the limiting plate is welded at the lower part of the positioning support rod; the buffer spring is sleeved outside the positioning sleeve and the positioning support rod.

Preferably, the air-drying circulating dust cover structure comprises a dust-proof frame, a fan and an air cooling pipe, wherein the fan frame is mounted on the left side of the inner wall of the dust-proof frame through bolts; the blower bolt is arranged in the fan frame; the air cooling pipe bolt is arranged at the lower part of the dustproof frame.

Preferably, the adjustable control frame structure comprises a fixing plate, a connecting seat, a fixing rod, a bolt and a nut, an installation frame, a touch screen and a controller, wherein the fixing plate is installed on the lower part of the left side of the protective outer cover through a bolt; the connecting seat is welded in the middle of the front part of the fixing plate; the fixed rod is welded at the middle lower part of the connecting seat; the mounting frame is welded at the lower part of the fixed rod; the touch screen is embedded in the upper part of the front surface of the mounting frame; the controller is embedded in the mounting frame.

Preferably, the air-cooled pipe is also provided with a water-cooled tank, a circulating pump and a circulating pipe, and the water-cooled tank is embedded into the top of the air-cooled pipe; the circulating pump bolt is arranged on the right side of the front part of the water cooling tank; the circulating pipe is sleeved outside the air cooling pipe and is respectively in threaded connection with the left side of the upper part of the water cooling tank and the water outlet at the front part of the circulating pump at two ends.

Preferably, the bottom protective cover is further provided with an auxiliary guide roller and a longitudinal connecting frame, and the longitudinal connecting frame is mounted on the front side and the rear side of the auxiliary guide roller through bolts; the auxiliary guide rollers are respectively connected to the upper left part of the bottom shield and the lower left part of the top shield in a shaft mode.

Preferably, buffer spring's the outside still be provided with the silica gel bellows, the silica gel bellows splice with the lower part of horizontal mount and the upper portion of limiting plate at upper and lower both ends respectively.

Preferably, the upper part of the transverse fixing frame is also provided with a reinforcing frame, and the reinforcing frame is welded at the left end and the right end on the right side of the middle part of the air exhaust cover and the right side of the middle upper part of the transverse fixing frame respectively.

Preferably, the winding roller is connected at the middle position of the bottom shield and the top shield through a winding driven wheel.

Preferably, the bundling piece is provided with a plurality of bundling pieces, and the bundling pieces are sequentially welded at the right end of the adjusting frame from front to back.

Preferably, the dustproof frame bolt is arranged on the outer sides of the spinneret and the air extraction cover.

Preferably, the press rolls are arranged in a plurality, and the press rolls are connected to the lower parts of the positioning support rods in a rolling mode.

Preferably, two fixing rods are arranged; the bolt and the nut are arranged at the connecting position between the fixing rods.

Preferably, the mounting lug plate bolt is mounted on the left side of the lower part of the air exhaust cover.

Preferably, the controller specifically adopts a PLC with the model number of FX2N-48, and the touch screen is electrically connected with the input end of the controller; the high-pressure suction pump, the conveying motor, the blower, the circulating pump and the winding motor are respectively electrically connected with the output end of the controller.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the winding roller is connected to the middle position of the bottom shield and the top shield through the winding driven wheel shaft, and the winding driven roller and the winding driving belt are matched with the winding motor, so that the polyester fiber strip processed can be collected.

2. According to the invention, the beam splitting pieces are sequentially welded at the right end of the adjusting frame from front to back, so that the beam splitting effect on the polyester fiber strips is favorably realized, and the polyester fiber strips are more stably conveyed on the conveying belt.

3. In the invention, the circulating pipe is sleeved outside the air cooling pipe and is respectively in threaded connection with the left side of the upper part of the water cooling tank and the water outlet at the front part of the circulating pump at two ends, so that the cooling effect on air in the air cooling pipe is favorably realized, the cooling effect of blowing air by a blower is conveniently increased, and the air cooling effect on the polyester fiber strips is further improved.

4. In the invention, the dustproof frame bolt is arranged on the outer sides of the spinning nozzle and the air exhaust cover, so that dust can be prevented from entering the dustproof frame bolt when the dustproof frame bolt is used, and the dustproof effect is further improved.

5. According to the invention, the compression roller is connected to the lower part of the positioning support rod, and is matched with the arrangement of the buffer spring and the limiting plate, so that the auxiliary positioning effect on the polyester fiber strip on the conveying belt is favorably realized, and the limiting strip is prevented from deviating outwards.

6. In the invention, the bolt and the nut are arranged at the connecting part between the fixing rods, which is beneficial to adjusting the angle of the mounting frame according to the use requirement.

7. In the invention, the auxiliary guide rollers are respectively connected to the left upper part of the bottom shield and the left lower part of the top shield in a shaft mode, so that the auxiliary guide rollers can help to guide polyester fiber strips entering the bottom shield and the top shield.

8. According to the invention, the upper end and the lower end of the silica gel corrugated pipe are respectively glued with the lower part of the transverse fixing frame and the upper part of the limiting plate, so that sundries can be prevented from entering the inner side of the buffer spring, and the buffer spring is prevented from being damaged.

9. In the invention, the reinforcing frame is respectively welded at the left end and the right end on the right side of the middle part of the air exhaust cover and the right side of the middle upper part of the transverse fixing frame, which is favorable for well fixing the transverse fixing frame.

10. According to the invention, the mounting lug plate bolt is mounted on the left side of the lower part of the air exhaust cover, so that the polyester fiber strip guiding beam splitting frame structure can be conveniently disassembled according to use requirements.

11. In the invention, the high-pressure suction pump, the conveying motor, the blower, the circulating pump and the winding motor are respectively electrically connected with the output end of the controller, thereby being beneficial to improving the intelligent degree.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the air drying cycle dust cover structure of the present invention.

Fig. 3 is a schematic structural view of an adjustable control frame structure of the present invention.

FIG. 4 is a schematic structural diagram of a polyester fiber strip guiding beam splitter structure according to the present invention.

Fig. 5 is a schematic structural diagram of a polyester fiber strip collecting rack structure of the invention.

Fig. 6 is a schematic structural view of a multi-stage buffer pressing frame structure of the present invention.

Fig. 7 is a schematic electrical wiring diagram of the present invention.

In the figure:

1. a protective outer cover; 2. a left fiber supply box; 3. a right fiber supply box; 4. a left side fiber conduit; 5. a right fibrous conduit; 6. a spinneret; 7. an air-drying circulating dust cover structure; 71. a dust-proof frame; 72. a fan frame; 73. a blower; 74. an air-cooled pipe; 741. a water cooling tank; 742. a circulation pump; 743. a circulation pipe; 8. a high pressure suction pump; 9. the structure of the adjustable control frame; 91. a fixing plate; 92. a connecting seat; 93. fixing the rod; 94. a bolt and a nut; 95. installing a frame; 96. a touch screen; 97. a controller; 10. an air extraction hood; 11. the polyester fiber strip guiding beam splitting frame structure; 111. mounting an ear plate; 112. a longitudinal support; 113. an adjusting bracket; 114. a bolt shaft; 115. splitting a beam; 12. a conveyor belt; 13. conveying the driven wheel; 14. a conveying motor; 15. a conveying transmission wheel; 16. a conveying guide roller; 17. a polyester fiber strip collecting rack structure; 171. mounting a base; 172. a bottom shield; 1721. an auxiliary guide roller; 1722. a longitudinal connecting frame; 173. a top shield; 174. a winding roller; 175. winding a driven wheel; 176. winding a motor; 177. winding a driving roller; 178. winding a transmission belt; 18. a multi-stage buffer pressing frame structure; 181. a transverse fixing frame; 1811. a reinforcing frame; 182. positioning the sleeve; 183. positioning the supporting rod; 184. a limiting plate; 185. a compression roller; 186. a buffer spring; 1861. a silica gel bellows; 19. a conveyor belt.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7

The invention provides intelligent multifunctional polyester fiber production equipment, which comprises a protective outer cover 1, a left fiber supply box 2, a right fiber supply box 3, a left fiber guide pipe 4, a right fiber guide pipe 5, a spinning nozzle 6, an air-drying circulating dust cover structure 7, a high-pressure suction pump 8, an adjustable control frame structure 9, an air suction cover 10, a polyester fiber strip guiding and splitting frame structure 11, a conveying belt 12, a conveying driven wheel 13, a conveying motor 14, a conveying driving wheel 15, a conveying guide roller 16, a polyester fiber strip collecting frame structure 17, a multi-stage buffering pressing frame structure 18 and a conveying driving belt 19, wherein the left fiber supply box 2 is arranged on the left upper side of the inner wall of the protective outer cover 1 through bolts; the right fiber supply box 3 is arranged on the right side of the left fiber supply box 2 and is connected with the inner wall of the protective outer cover 1 through bolts; one end of the left fiber conduit 4 is in threaded connection with the lower part of the left fiber supply box 2, and the other end is in threaded connection with the left upper side of the spinning nozzle 6; one end of the right fiber conduit 5 is in threaded connection with the lower part of the right fiber supply box 3, and the other end is in threaded connection with the upper part of the spinning nozzle 6; the spinneret 6 is arranged at the left upper side of the middle part of the inner wall of the protective outer cover 1 through a bolt; the air-drying circulating dust cover structure 7 is arranged at the lower part of the spinning nozzle 6; the high-pressure suction pump 8 is arranged on the left side of the air extraction cover 10 and is connected with the inner wall of the protective outer cover 1 through bolts; the adjustable control frame structure 9 is arranged at the left lower side of the inner wall of the protective outer cover 1; the air extraction cover 10 is arranged at the lower part of the spinning nozzle 6 and is connected with the protective outer cover 1 through bolts; the polyester fiber strip guiding beam splitting frame structure 11 is arranged on the left side of the lower part of the air exhaust hood 10; the conveying belt 12 is sleeved on the outer side of the conveying driven wheel 13; the conveying driven wheels 13 are connected to the left side and the right side of the middle lower part of the inner wall of the protective outer cover 1 in a shaft mode; the conveying motor 14 is mounted at the lower part of the inner side of the protective outer cover 1 through bolts; the conveying transmission wheel 15 is connected to an output shaft of the conveying motor 14 in a key mode; the conveying guide roller 16 is arranged at the right upper side of the conveying belt 12 and is in shaft connection with the inner wall of the protective outer cover 1; the polyester fiber strip collecting frame structure 17 is arranged at the right lower side of the inner wall of the protective outer cover 1; the multi-stage buffer pressing frame structure 18 is arranged above the conveying belt 12 and is connected with the right side of the air suction cover 10; the conveying transmission belt 19 is sleeved outside the conveying driven wheel 13 and the conveying transmission wheel 15; the polyester fiber strip collecting frame structure 17 comprises a mounting base 171, a bottom shield 172, a top shield 173, a winding roller 174, a winding driven wheel 175, a winding motor 176, a winding driving roller 177 and a winding driving belt 178, wherein the mounting base 171 is installed at the right lower part of the interior of the protective housing 1 through bolts; the bottom shield 172 is mounted on the upper part of the mounting base 171 through bolts; the top shield 173 is axially connected to the upper part of the bottom shield 172; the winding roller 174 is connected with the outer side of the winding driven wheel 175; the winding driven wheel 175 is axially connected to the inner middle positions of the bottom shield 172 and the top shield 173; the winding motor 176 is mounted at the middle position of the front upper side of the mounting base 171 through bolts; the winding driving roller 177 is connected to the output shaft of the winding motor 176 in a key way; the winding transmission belt 178 is sleeved outside the winding driven wheel 175 and the winding transmission roller 177.

In the above embodiment, specifically, the polyester fiber strip guiding and beam splitting frame structure 11 includes a mounting ear plate 111, a longitudinal support 112, an adjusting frame 113, a bolt shaft 114 and a splitting sheet 115, where the longitudinal support 112 is longitudinally welded at the middle lower part of the mounting ear plate 111; the adjusting bracket 113 is mounted on the lower portion of the longitudinal bracket 112 through a bolt shaft 114.

In the above embodiment, specifically, the multi-stage buffer pressing frame structure 18 includes a transverse fixing frame 181, a positioning sleeve 182, a positioning support rod 183, a limiting plate 184, a pressing roller 185 and a buffer spring 186, and the transverse fixing frame 181 is installed at the lower part of the right side of the air extraction hood 10 by a transverse bolt; the positioning sleeve 182 is longitudinally welded at the lower part of the transverse fixing frame 181 from left to right in sequence; the positioning support rod 183 is inserted into the lower part of the inner side of the positioning sleeve 182; the limiting plate 184 is welded at the lower part of the positioning support rod 183; the buffer spring 186 is sleeved outside the positioning sleeve 182 and the positioning strut 183.

In the above embodiment, specifically, the dust cover structure 7 for the air drying cycle comprises a dust-proof frame 71, a blower frame 72, a blower 73 and an air-cooling pipe 74, wherein the blower frame 72 is mounted on the left side of the inner wall of the dust-proof frame 71 through bolts; the blower 73 is mounted in the blower frame 72 through bolts; the air-cooled pipe 74 is bolted to the lower part of the dust-proof frame 71.

In the above embodiment, specifically, the adjustable control frame structure 9 includes a fixing plate 91, a connecting seat 92, a fixing rod 93, a bolt and nut 94, an installation frame 95, a touch screen 96 and a controller 97, wherein the fixing plate 91 is installed at the lower part of the left side of the protective outer cover 1 by a bolt; the connecting seat 92 is welded at the middle position of the front part of the fixing plate 91; the fixing rod 93 is welded at the middle lower part of the connecting seat 92; the mounting frame 95 is welded at the lower part of the fixing rod 93; the touch screen 96 is embedded in the upper part of the front surface of the mounting frame 95; the controller 97 is embedded inside the mounting frame 95.

In the above embodiment, specifically, the air-cooled pipe 74 is further provided with a water-cooled tank 741, a circulating pump 742 and a circulating pipe 743, and the water-cooled tank 741 is embedded in the top of the air-cooled pipe 74; the circulating pump 742 is mounted on the right front side of the water cooling tank 741 through bolts; the circulating pipe 743 is sleeved outside the air cooling pipe 74, and is respectively in threaded connection with the left side of the upper part of the water cooling tank 741 and the water outlet at the front part of the circulating pump 742 at two ends.

In the above embodiment, specifically, the bottom shield 172 is further provided with an auxiliary guide roller 1721 and a longitudinal connecting frame 1722, and the longitudinal connecting frame 1722 is mounted on the front side and the rear side of the auxiliary guide roller 1721 through bolts; the auxiliary guide rollers 1721 are respectively coupled to the upper left portion of the bottom cover 172 and the lower left portion of the top cover 173.

In the above embodiment, specifically, a silicone corrugated tube 1861 is further disposed outside the buffer spring 186, and the silicone corrugated tube 1861 is respectively bonded to the lower portion of the transverse fixing frame 181 and the upper portion of the limiting plate 184 at the upper and lower ends.

In the above embodiment, specifically, the upper portion of the transverse fixing frame 181 is further provided with a reinforcing frame 1811, and the reinforcing frame 1811 is welded at the left end and the right end on the right side of the middle portion of the suction hood 10 and the right side of the upper portion of the transverse fixing frame 181.

In the above embodiment, specifically, the winding roller 174 is coupled to the bottom shield 172 and the top shield 173 at an intermediate position by the winding driven pulley 175.

In the above embodiment, specifically, a plurality of the splitting sheets 115 are provided, and the splitting sheets 115 are sequentially welded to the right end of the adjusting frame 113 from front to back.

In the above embodiment, specifically, the dust-proof frame 71 is bolted to the outer sides of the spinneret 6 and the suction hood 10.

In the above embodiment, specifically, the pressing roller 185 is provided in plurality, and the pressing roller 185 is coupled to the lower portion of the positioning rod 183.

In the above embodiment, specifically, two fixing rods 93 are provided; the bolt and nut 94 is installed at the connection between the fixing rods 93.

In the above embodiment, specifically, the mounting lug plate 111 is bolted to the left side of the lower part of the suction hood 10.

In the above embodiment, specifically, the controller 97 specifically adopts a PLC of model FX2N-48, and the touch screen 96 is electrically connected to an input end of the controller 97; the high pressure suction pump 8, the conveying motor 14, the blower 73, the circulating pump 742 and the winding motor 176 are electrically connected to the output end of the controller 97.

Principle of operation

In the working process of the invention, firstly, heated limit positions are respectively poured into a left fiber supply box 2 and a right fiber supply box 3, then the limit positions are respectively transmitted into a spinneret 6 for spinning through a left fiber conduit 4 and a right fiber conduit 5, a touch screen 96 is controlled to control a blower 73 to rotate through a controller 97, the spun polyester fiber strips are air-cooled, meanwhile, the touch screen 96 is controlled to control a circulating pump 742 to be opened through the controller 97, so that water liquid in a water cooling box 741 circulates from a circulating pipe 743, air in an air cooling pipe 74 is cooled, the air cooling effect of the blower 73 is improved, then, the touch screen 96 is controlled to control a high-pressure suction pump 8 through the controller 97, the water liquid is downwards sucked out of the spinneret 6 through an air suction hood 10 and is discharged to a conveying belt 12 at the lower side, and then, the touch screen 96 is controlled to control a conveying motor 14 to rotate through the controller 97, make it through carrying drive wheel 15, carry and drive conveyer belt 12 rotation from driving wheel 13 and transport drive belt 19, and to right side transmission polyester fiber strip, utilize compression roller 185 to play the positioning action that compresses tightly to it simultaneously, polyester fiber strip passes on the conveying deflector roll 16 next, make it pass through controller 97 control winding motor 176 through controlling touch-sensitive screen 96 at last, make it pass through winding driving roller 177, wind from driving wheel 175 and winding drive belt 178 drive winding roller 174 rotation and carry out winding polyester fiber strip, can unscrew bolt and nut 94 as required according to the use, thereby the angle of touch-sensitive screen 96 is adjusted to the angle of peaceful rotatory dead lever 93, it can to screw up bolt and nut 94 at last.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. An intelligent multifunctional polyester fiber production device is characterized by comprising a protective outer cover (1), a left fiber supply box (2), a right fiber supply box (3), a left fiber conduit (4), a right fiber conduit (5), a spinning nozzle (6), an air-drying circulating dust cover structure (7) and a high-pressure suction pump (8), an adjustable control frame structure (9), an air exhaust hood (10), a polyester fiber strip guiding beam splitting frame structure (11), a conveying belt (12), a conveying driven wheel (13), a conveying motor (14), a conveying driving wheel (15), a conveying guide roller (16), a polyester fiber strip collecting frame structure (17), a multi-stage buffering pressing frame structure (18) and a conveying driving belt (19), the left fiber supply box (2) is mounted on the left upper side of the inner wall of the protective outer cover (1) through bolts; the right fiber supply box (3) is arranged on the right side of the left fiber supply box (2) and is connected with the inner wall of the protective outer cover (1) through bolts; one end of the left fiber conduit (4) is in threaded connection with the lower part of the left fiber supply box (2), and the other end of the left fiber conduit is in threaded connection with the left upper side of the spinning nozzle (6); one end of the right fiber conduit (5) is in threaded connection with the lower part of the right fiber supply box (3), and the other end of the right fiber conduit is in threaded connection with the upper part of the spinning nozzle (6); the screw bolt of the spinning nozzle (6) is arranged at the left upper side of the middle part of the inner wall of the protective outer cover (1); the air-drying circulating dust cover structure (7) is arranged at the lower part of the spinning nozzle (6); the high-pressure suction pump (8) is arranged on the left side of the air extraction cover (10) and is in bolted connection with the inner wall of the protective outer cover (1); the adjustable control frame structure (9) is arranged at the left lower side of the inner wall of the protective outer cover (1); the air extraction cover (10) is arranged at the lower part of the spinning nozzle (6) and is in bolt connection with the protective outer cover (1); the polyester fiber strip guiding beam splitting frame structure (11) is arranged on the left side of the lower part of the air exhaust cover (10); the conveying belt (12) is sleeved on the outer side of the conveying driven wheel (13); the conveying driven wheels (13) are coupled on the left side and the right side of the middle lower part of the inner wall of the protective outer cover (1) in a shaft manner; the conveying motor (14) is arranged at the lower part of the inner side of the protective outer cover (1) through bolts; the conveying driving wheel (15) is connected to an output shaft of the conveying motor (14) in a key mode; the conveying guide roller (16) is arranged at the right upper side of the conveying belt (12) and is in shaft connection with the inner wall of the protective housing (1); the polyester fiber strip collecting frame structure (17) is arranged on the right lower side of the inner wall of the protective outer cover (1); the multi-stage buffer pressing frame structure (18) is arranged above the conveying belt (12) and is connected with the right side of the air extraction cover (10); the conveying transmission belt (19) is sleeved on the outer sides of the conveying driven wheel (13) and the conveying transmission wheel (15); the terylene fiber strip collecting frame structure (17) comprises a mounting base (171), a bottom shield (172), a top shield (173), a winding roller (174), a winding driven wheel (175), a winding motor (176), a winding driving roller (177) and a winding transmission belt (178), wherein the mounting base (171) is arranged at the right lower part of the inside of the protective outer cover (1) through a bolt; the bottom shield (172) is mounted on the upper part of the mounting base (171) through bolts; the top shield (173) is axially connected to the upper part of the bottom shield (172); the winding roller (174) is connected with the outer side of the winding driven wheel (175) in a key way; the winding driven wheel (175) is axially connected with the inner middle positions of the bottom shield (172) and the top shield (173); the winding motor (176) is mounted at the middle position of the upper side of the front part of the mounting base (171) through a bolt; the winding driving roller (177) is connected to an output shaft of the winding motor (176) in a key mode; the winding transmission belt (178) is sleeved on the outer sides of the winding driven wheel (175) and the winding transmission roller (177).

2. The intelligent multifunctional polyester fiber production equipment according to claim 1, wherein the adjustable control frame structure (9) comprises a fixing plate (91), a connecting seat (92), a fixing rod (93), a bolt and nut (94), a mounting frame (95), a touch screen (96) and a controller (97), wherein the fixing plate (91) is mounted at the lower part of the left side of the protective outer cover (1) in a bolt mode; the connecting seat (92) is welded at the middle position of the front part of the fixing plate (91); the fixing rod (93) is welded at the middle lower part of the connecting seat (92); the mounting frame (95) is welded at the lower part of the fixing rod (93); the touch screen (96) is embedded in the upper part of the front surface of the mounting frame (95); the controller (97) is embedded in the mounting frame (95).

3. The intelligent multifunctional polyester fiber production equipment according to claim 1, wherein the multi-stage buffer pressing frame structure (18) comprises a transverse fixing frame (181), a positioning sleeve (182), a positioning support rod (183), a limiting plate (184), a pressing roller (185) and a buffer spring (186), and the transverse fixing frame (181) is transversely installed at the lower part of the right side of the air extraction hood (10) through bolts; the positioning sleeves (182) are sequentially and longitudinally welded on the lower part of the transverse fixing frame (181) from left to right; the positioning support rod (183) is inserted into the lower part of the inner side of the positioning sleeve (182); the limiting plate (184) is welded at the lower part of the positioning support rod (183); the buffer spring (186) is sleeved outside the positioning sleeve (182) and the positioning support rod (183).

4. The intelligent multifunctional polyester fiber production equipment according to claim 1, wherein the air drying circulation dust cover structure (7) comprises a dust cover frame (71), a blower frame (72), a blower (73) and an air cooling pipe (74), wherein the blower frame (72) is installed on the left side of the inner wall of the dust cover frame (71) through bolts; the blower (73) is mounted in the blower frame (72) through bolts; the air cooling pipe (74) is mounted at the lower part of the dustproof frame (71) through bolts.

5. The intelligent multifunctional polyester fiber production equipment according to claim 1, wherein the polyester fiber strip guiding and splitting frame structure (11) comprises a mounting ear plate (111), a longitudinal support (112), an adjusting frame (113), a bolt shaft (114) and a splitting sheet (115), wherein the longitudinal support (112) is longitudinally welded at the middle lower part of the mounting ear plate (111); the adjusting frame (113) is arranged at the lower part of the longitudinal bracket (112) through a bolt shaft (114).

6. The intelligent multifunctional polyester fiber production equipment according to claim 4, wherein the air-cooled pipe (74) is further provided with a water-cooled tank (741), a circulating pump (742) and a circulating pipe (743), and the water-cooled tank (741) is embedded in the top of the air-cooled pipe (74); the circulating pump (742) is mounted on the right side of the front part of the water cooling tank (741) through bolts; the circulating pipe (743) is sleeved outside the air cooling pipe (74) and is in threaded connection with the left side of the upper part of the water cooling tank (741) and the water outlet at the front part of the circulating pump (742) at two ends respectively.

7. The intelligent multifunctional polyester fiber production equipment as claimed in claim 1, wherein the bottom shield (172) is further provided with an auxiliary guide roller (1721) and a longitudinal connecting frame (1722), and the longitudinal connecting frame (1722) is mounted on the front side and the rear side of the auxiliary guide roller (1721) through bolts; the auxiliary guide rollers (1721) are arranged in two numbers, and the two auxiliary guide rollers (1721) are respectively connected to the upper left portion of the bottom shield (172) and the lower left portion of the top shield (173) in a shaft mode.

8. The intelligent multifunctional polyester fiber production equipment according to claim 3, wherein a silicone corrugated pipe (1861) is further arranged on the outer side of the buffer spring (186), and the silicone corrugated pipe (1861) is respectively bonded with the lower portion of the transverse fixing frame (181) and the upper portion of the limiting plate (184) at the upper end and the lower end.

9. The intelligent multifunctional polyester fiber production equipment according to claim 3, wherein a reinforcing frame (1811) is further arranged at the upper part of the transverse fixing frame (181), and the reinforcing frames (1811) are respectively welded at the left end and the right end on the right side of the middle part of the air exhaust cover (10) and the right side of the upper part of the transverse fixing frame (181).

10. The intelligent multifunctional polyester fiber production equipment according to claim 1, wherein the winding roller (174) is coupled to the middle position of the bottom shield (172) and the top shield (173) through a winding driven wheel (175).

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