CN111851082A

CN111851082A - Synthetic leather production is moulded type and is cooled off processing system afterwards

Info

Publication number: CN111851082A
Application number: CN202010736031.9A
Authority: CN
Inventors: 张�浩; 刘敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-28
Filing date: 2020-07-28
Publication date: 2020-10-30

Abstract

The invention relates to a cooling treatment system after molding in synthetic leather production, which comprises a bottom plate, a jacking device, an extrusion device, a cooling device and a winding device, wherein the jacking device is arranged on the bottom plate, the extrusion device and the cooling device are arranged on the jacking device, and the winding device is arranged at the right end of the bottom plate; secondly, when current leather cools off, often take place the phenomenon that the leather can not tension completely, the surface can be the wave face, influences the production quality of leather, can improve the cooling efficiency and the effect of leather.

Description

Synthetic leather production is moulded type and is cooled off processing system afterwards

Technical Field

The invention relates to the technical field of leather production and processing, in particular to a cooling treatment system after molding in synthetic leather production.

Background

Leather is more and more appeared in daily life of people, high-quality leather can be smooth, does not wrinkle and has clear lines generally through a plurality of technological processes, and in the existing leather manufacturing process, the leather surface temperature of the leather is higher and reaches about 170 ℃ after being rolled by an embossing machine, and the leather surface needs to be cooled.

However, the conventional leather equipment has the following problems that when the leather is cooled, a worker stands beside a plurality of rotating rollers to observe the leather at any time, when the leather is observed to be wrinkled or deviated, the position of the leather on the rotating rollers needs to be adjusted, and when the worker operates, clothes on the body of the worker or the arm of the worker are easily rolled between the rotating rollers, so that the worker is injured, and a great potential safety hazard exists; secondly, when current leather cools off, often take place the phenomenon that the leather can not tension completely, the surface can be the wave face, cold and hot uneven problem when causing the leather cooling influences the production quality of leather, can improve the cooling efficiency and the effect of leather.

Disclosure of Invention

Technical problem to be solved

The invention provides a cooling treatment system after molding of synthetic leather production, which can solve the problems in the leather production cooling process.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the cooling treatment system after the molding of the synthetic leather production comprises a bottom plate, a jacking device, an extruding device, a cooling device and a winding device, wherein the jacking device is installed on the bottom plate, the extruding device and the cooling device are installed on the jacking device, and the winding device is installed at the right end of the bottom plate.

The jacking device comprises a supporting plate, a first motor, a rotating round rod, a flat plate, a cam, a sliding round rod, a jacking rod, a positioning gear, a positioning cylinder and a positioning plate, wherein the supporting plate is symmetrically arranged at the left end and the right end of the middle part of the bottom plate, the flat plate is arranged at the upper end of the supporting plate, sliding holes are uniformly formed in the flat plate, the first motor is arranged on the outer wall of the left end of the supporting plate positioned at the middle end of the bottom plate, the rotating round rod is arranged at the output end of the first motor by penetrating through the supporting plate, the positioning gear is arranged at the right end of the rotating round rod by penetrating through the supporting plate positioned at the right end of the supporting plate, the cam is uniformly arranged on the rotating round rod, a power groove is formed in the circumferential direction of the cam, the sliding round rod is arranged in the power groove in a sliding fit manner, the, the bottom plate is provided with a positioning cylinder at the lower side of the positioning gear, the positioning plate is arranged at the output end of the positioning cylinder, and the U-shaped plate on the jacking rod is driven by the cam to move to a position with staggered height, so that the leather can be tensioned, and the cooling efficiency of the leather is improved.

The heat dissipation mechanism comprises a U-shaped plate, a rotating circular rod, a rotating roller, balls, a first gear, a second gear, a connecting circular rod and a heat dissipation plate, wherein the U-shaped plate is installed on the jacking rod, the rotating circular rod is symmetrically installed on the inner walls of the front end and the rear end of the U-shaped plate through bearings, the rotating circular rod is provided with the rotating circular plate, the outer wall of the rotating circular plate is provided with a concave ring groove along the circumferential direction of the rotating circular plate, the rotating roller is provided with a hollow groove, the front end and the rear end of the hollow groove are symmetrically provided with annular grooves, the balls are installed at the joint between the annular grooves and the U-shaped ring groove, the inner walls of the front end and the rear end of the hollow groove are symmetrically provided with tooth-shaped grooves along the circumferential direction of the hollow groove, the first gear is uniformly installed on the inner wall of the rotating circular plate along, and No. two gears and a gear intermeshing use, are connected through connecting the round bar between No. two gears, evenly install the heating panel along its circumference direction on the connecting the round bar, and the heating panel can carry out the radiating operation to the leather, has improved the radiating efficiency of leather.

Extrusion device include L template, buffering spring lever, slider, squeeze roll and rubber slab, dull and stereotyped about both ends the symmetry install the L template, the straight flute has been seted up on the L template, install the slider through sliding fit's mode in the straight flute, buffering spring lever is all installed at the slider both ends, buffering spring lever connects on the straight flute inner wall, there is the squeeze roll through round pin hub connection between the slider at both ends around being located the straight flute, install the rubber slab along its circumference direction on the squeeze roll for be in the tensioning state when leather rolling and heat dissipation, leather fold and skew can not take place.

Cooling device include square plate, cardboard, No. three gears, cooling round bar, flabellum, No. two motors, U form board and internal tooth belt, dull and stereotyped middle part around the symmetry install the square plate, install the cardboard on the square plate, the round hole has evenly been seted up to the cardboard middle-end, install the cooling round bar through the bearing in the round hole, the flabellum is installed to cooling round bar lower extreme, No. three gears are installed to cooling round bar upper end, be connected through internal tooth belt between the No. three gears, U form board is installed to the cardboard left end, install No. two motors on the inboard wall of U form board upside, No. two motor output ends are connected on being located the No. three gears of cardboard leftmost cooling round bar, can carry out comprehensive cooling operation to the leather, guaranteed the cooling quality of leather.

The rolling device comprises a straight plate, a third motor, a rolling circular roller, a rolling circular plate, a flat block, a rolling spring rod and an arc plate, wherein the straight plate is symmetrically installed around the right end of the bottom plate, the rolling circular plate is installed between the inner walls of the straight plate through a pin shaft, a rolling groove is evenly formed in the inner wall of the rolling circular plate along the circumferential direction of the rolling circular plate, the inner walls of the rolling circular plate are connected through the rolling circular roller, the rolling spring rod is evenly installed on the outer wall of the rolling circular roller along the circumferential direction of the rolling circular plate, the arc plate is installed on the rolling spring rod, the flat block is symmetrically installed on the outer walls of the front end and the rear end of the arc plate, the flat block is installed in the rolling groove in a sliding fit mode, the third motor is installed on the outer wall of the straight plate located at the front end of the bottom plate, the output end.

As a preferred technical scheme of the invention, the left end of the bottom plate is symmetrically provided with the long strip plates in front and back, and the guide rollers are arranged between the inner walls of the long strip plates through the pin shafts, so that stable guide is provided for cooling the leather.

As a preferred technical scheme of the invention, the lower end of the bottom plate is uniformly provided with the supporting rods, so that a stable environment is provided for cooling the leather.

As a preferred technical scheme of the invention, the upper end of the positioning plate is arc-shaped, gear grooves are uniformly arranged on the arc-shaped surface of the positioning plate along the circumferential direction of the arc-shaped surface, and the gear grooves and the positioning gears are matched with each other for use, so that the positioning plate can perform positioning operation on the positioning gears.

As a preferable technical scheme of the invention, the cam is in an oval shape as a whole, and the heights of the cams are installed in a staggered mode, so that the tension degree of leather is improved.

(III) advantageous effects

1. The invention can solve the following problems existing in the cooling of the existing leather production, namely, when the leather is cooled, the traditional leather equipment needs workers to stand beside a plurality of rotating rollers to observe at any time, when the leather is observed to have wrinkles or offset, the position of the leather on the rotating rollers needs to be adjusted, when the workers operate, clothes on the bodies of the workers or the arms of the workers are easily rolled between the rotating rollers, so that the workers are injured, and the potential safety hazard is very large; secondly, when current leather cools off, often take place the phenomenon that the leather can not tension completely, the surface can be the wave face, cold and hot uneven problem when causing the leather cooling influences the production quality of leather, can improve the cooling efficiency and the effect of leather.

2. The jacking device provided by the invention drives the rotary round rod to rotate through the first motor, so that the rotary round rod can drive the U-shaped plate on the jacking rod to move to a height-staggered position through the mutual matching operation among the cam, the sliding round rod and the jacking rod, the leather can be tensioned, the cooling efficiency of the leather is improved, the rotary round rod can be positioned through the mutual matching operation among the positioning gear, the positioning cylinder and the positioning plate, the phenomenon that the jacking rod cannot slide is ensured, and a stable environment is provided for cooling the leather.

3. According to the heat dissipation mechanism, the rotating roller is driven to rotate when the leather is rolled, so that the rotating roller can drive the first gear, the second gear, the connecting round rod and the heat dissipation plate to rotate, the heat dissipation plate can conduct heat dissipation operation on the leather, and the heat dissipation efficiency of the leather is improved.

4. The extruding device designed by the invention ensures that the leather is in a tensioning state during rolling and heat dissipation through the matching operation among the L-shaped plate, the buffer spring rod, the sliding block, the extruding roller and the rubber plate, leather wrinkles and deviation cannot occur, and a stable working environment is provided for the heat dissipation and rolling of the leather.

5. The winding device provided by the invention drives the winding circular plate to rotate through the third motor, the winding circular plate drives the winding circular roller, the flat block, the winding spring rod and the arc plate to rotate, so that the cooled leather is wound by the arc plate, the leather is wound more tightly through the buffer action of the winding spring rod, and the phenomenon of loosening of the wound leather is avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of FIG. 1 of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 2 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic view of a portion of the jacking apparatus of the present invention;

fig. 7 is a partial structural schematic view of the cooling device of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a cooling treatment system after molding is moulded in synthetic leather production, includes bottom plate 1, jacking device 2, extrusion device 3, cooling device 4 and coiling mechanism 5, bottom plate 1 on install jacking device 2, install extrusion device 3 and cooling device 4 on the jacking device 2, coiling mechanism 5 is installed to bottom plate 1 right-hand member.

Winding device 5 include straight board 51, No. three motor 52, rolling circle roller 53, rolling plectane 54, plain bumper 55, rolling spring pole 56 and

arc

57, 1 right-hand member of bottom plate around the symmetry install straight board 51, install rolling plectane 54 through the round pin axle between the straight board 51 inner wall, evenly seted up the coiling groove along its circumference direction on the rolling plectane 54 inner wall, be connected through rolling circle roller 53 between the rolling plectane 54 inner wall, evenly install rolling spring pole 56 along its circumference direction on the rolling circle roller 53 outer wall, install arc 57 on the rolling spring pole 56, plain bumper 55 is installed to the symmetry on the outer wall of arc 57 front and back both ends, and plain bumper 55 installs in the coiling groove through sliding fit's mode, be located and install No. three motor 52 on the straight board 51 outer wall of bottom plate 1 front end, No. three motor 52 outputs are connected on rolling plectane 54.

When the leather rolling machine works specifically, leather is manually connected to the arc plate 57 after passing through the guide roller 13 and the rotating roller 214, the third motor 52 drives the rolling circular plate 54 to rotate, the rolling circular plate 54 drives the rolling circular roller 53 to rotate, and the rolling circular roller 53 drives the arc plate 57 to roll the leather after heat dissipation through the rolling spring rod 56.

The jacking device 2 comprises a supporting plate 2a, a first motor 2b, a rotary round rod 2c, a flat plate 2d, a cam 2e, a sliding round rod 2f, a jacking rod 2g, a positioning gear 2h, a positioning cylinder 2i and a positioning plate 2j, wherein the supporting plate 2a is symmetrically arranged at the left end and the right end of the middle part of the bottom plate 1, the flat plate 2d is arranged at the upper end of the supporting plate 2a, sliding holes are uniformly formed in the flat plate 2d, the first motor 2b is arranged on the outer wall of the left end of the supporting plate 2a at the middle end of the bottom plate 1, the rotary round rod 2c is arranged at the output end of the first motor 2b by penetrating through the supporting plate 2a, the positioning gear 2h is arranged at the right end of the rotary round rod 2c by penetrating through the supporting plate 2a at the right end of the supporting plate 2a, the cam 2e is uniformly arranged on the rotary round rod 2e, a power groove is, install lifting rod 2g on the slip pole 2f, and lifting rod 2g installs in the sliding hole through sliding fit's mode, and heat dissipation mechanism 21 is installed to lifting rod 2g upper end, and the locating cylinder 2i is installed to the position gear 2h downside on bottom plate 1, and locating plate 2j is installed to the locating cylinder 2i output.

The left end of the bottom plate 1 is symmetrically provided with long strips 12 in front and back, and guide rollers 13 are arranged between the inner walls of the long strips 12 through pin shafts.

The upper end of the positioning plate 2j is arc-shaped, gear grooves are uniformly formed in the arc-shaped surface of the positioning plate 2j along the circumferential direction of the positioning plate, and the gear grooves and the positioning gears 2h are matched with each other for use.

The cam 2e is oval as a whole, and the heights of the cams 2e are staggered.

During specific work, the positioning cylinder 2i drives the positioning plate 2j to move towards the lower end, so that the positioning plate 2j removes positioning operation on the positioning gear 2h, the first motor 2b drives the rotary round rod 2c to rotate, the rotary round rod 2c drives the cam 2e to rotate, the cam 2e drives the sliding round rod 2f to slide in the power groove, and the sliding round rod 2f drives the jacking rod 2g to move.

The heat dissipation mechanism 21 comprises a U-shaped plate 211, a rotating circular plate 212, a rotating circular rod 213, a rotating roller 214, balls 215, a first gear 216, a second gear 217, a connecting circular rod 218 and a heat dissipation plate 219, wherein the U-shaped plate 211 is installed on the jacking rod 2g, the rotating circular rod 213 is symmetrically installed on the inner walls of the front end and the rear end of the U-shaped plate 211 through bearings, the rotating circular rod 213 is provided with the rotating circular plate 212, the outer wall of the rotating circular plate 212 is provided with a concave ring groove along the circumferential direction, the rotating roller 214 is provided with a hollow groove, the front end and the rear end of the hollow groove are symmetrically provided with annular grooves, the balls 215 are installed at the joint between the annular grooves and the U-shaped ring groove, the inner walls of the front end and the rear end of the hollow groove are symmetrically provided with tooth-shaped grooves along the circumferential direction, the inner wall of the rotating circular plate 212 is uniformly provided with the first, a second gear 217 is installed at the circle center position of the inner wall of the rotating circular plate 212 through a pin shaft, the second gear 217 and the first gear 216 are meshed with each other for use, the second gear 217 is connected with each other through a connecting circular rod 218, and heat dissipation plates 219 are evenly installed on the connecting circular rod 218 along the circumferential direction of the connecting circular rod.

During specific work, the sliding round rod 2f drives the U-shaped plate 211 to move to a proper heat dissipation position through the jacking rod 2g, when the arc plate 57 performs rolling operation on the leather after heat dissipation, the leather drives the rotating roller 214 to rotate, the rotating roller 214 drives the first gear 216 to rotate through the tooth-shaped groove, the first gear 216 drives the second gear 217 to rotate through a gear meshing mode, the second gear 217 drives the connecting round rod 218 to rotate, the connecting round rod 218 drives the heat dissipation plate 219 to rotate, and the heat dissipation plate 219 performs heat dissipation operation on the leather.

Extrusion device 3 include L template 31, buffer spring pole 32, slider 33, squeeze roll 34 and rubber slab 35, dull and stereotyped 2d about both ends the symmetry install L template 31, the straight slot has been seted up on the L template 31, slider 33 is installed through sliding fit's mode in the straight slot, buffer spring pole 32 is all installed at slider 33 both ends, buffer spring pole 32 is connected on the straight slot inner wall, be located and have squeeze roll 34 through the round pin hub connection between the slider 33 at both ends around the straight slot, rubber slab 35 is installed along its circumferential direction on the squeeze roll 34.

During specific work, the leather extrudes the squeeze roll 34 during rolling, the squeeze roll 34 drives the sliding block 33 to move towards the inner end, and the sliding block 33 drives the buffer spring rod 32 to extrude towards the inner end, so that the leather is in a tight state during rolling, and the rolling effect of leather rolling is improved.

Cooling device 4 include square plate 41, cardboard 42, No. three gear 43, cooling round bar 44, flabellum 45, No. two motor 46, U form board 47 and internal toothed belt 48, dull and stereotyped 2d middle part front and back symmetry install square plate 41, install cardboard 42 on the square plate 41, the round hole has evenly been seted up to cardboard 42 middle-end, install cooling round bar 44 through the bearing in the round hole, flabellum 45 is installed to cooling round bar 44 lower extreme, No. three gear 43 is installed to cooling round bar 44 upper end, be connected through internal toothed belt 48 between No. three gear 43, U form board 47 is installed to cardboard 42 left end, install No. two motor 46 on the inboard wall of U form board 47 upside, No. two motor 46 output are connected on No. three gear 43 on the cooling round bar 44 that is located cardboard 42 leftmost end.

During specific work, No. two motors 46 drive No. three gears 43 and rotate, through 48 mutual transmission of internal tooth belt between No. three gears 43 for No. three gears 43 drive cooling round bar 44 and rotate, and cooling round bar 44 drives flabellum 45 and rotates, makes flabellum 45 can cool off the operation to the leather, and is so repeated, can carry out rolling heat dissipation operation to the leather.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a cooling processing system after type is moulded in synthetic leather production, includes bottom plate (1), jacking device (2), extrusion device (3), cooling device (4) and coiling mechanism (5), its characterized in that: the lifting device (2) is installed on the bottom plate (1), the extrusion device (3) and the cooling device (4) are installed on the lifting device (2), and the winding device (5) is installed at the right end of the bottom plate (1); wherein:

the jacking device (2) comprises a supporting plate (2a), a first motor (2b), a rotary round rod (2c), a flat plate (2d), a cam (2e), a sliding round rod (2f), a jacking rod (2g), a positioning gear (2h), a positioning cylinder (2i) and a positioning plate (2j), wherein the supporting plate (2a) is symmetrically arranged at the left end and the right end of the middle part of the bottom plate (1), the flat plate (2d) is arranged at the upper end of the supporting plate (2a), sliding holes are uniformly formed in the flat plate (2d), the first motor (2b) is arranged on the outer wall of the left end of the supporting plate (2a) at the middle end of the bottom plate (1), the output end of the first motor (2b) penetrates through the supporting plate (2a) to be provided with the rotary round rod (2c), and the positioning gear (2h) is arranged at the right end of the rotary round rod (2c) through the, the rotary round bar (2c) is uniformly provided with cams (2e), the cams (2e) are provided with power grooves along the circumferential direction, sliding round bars (2f) are arranged in the power grooves in a sliding fit manner, jacking rods (2g) are arranged on the sliding round bars (2f), the jacking rods (2g) are arranged in sliding holes in a sliding fit manner, the upper ends of the jacking rods (2g) are provided with heat dissipation mechanisms (21), the bottom plate (1) is provided with positioning cylinders (2i) on the lower sides of the positioning gears (2h), and the output ends of the positioning cylinders (2i) are provided with positioning plates (2 j);

the heat dissipation mechanism (21) comprises a U-shaped plate (211), a rotary circular plate (212), a rotary circular rod (213), a rotary roller (214), balls (215), a first gear (216), a second gear (217), a connecting circular rod (218) and a heat dissipation plate (219), wherein the U-shaped plate (211) is installed on the jacking rod (2g), the rotary circular rods (213) are symmetrically installed on the inner walls of the front end and the rear end of the U-shaped plate (211) through bearings, the rotary circular plate (212) is installed on the rotary circular rod (213), a concave annular groove is formed in the outer wall of the rotary circular plate (212) along the circumferential direction of the rotary circular plate, a hollow groove is formed in the rotary roller (214), annular grooves are symmetrically formed in the front end and the rear end of the hollow groove, the balls (215) are installed at the joints between the annular groove and the U-shaped groove, toothed grooves are symmetrically formed in the inner walls of the front end and the rear end of the hollow groove along the circumferential direction of the hollow, the first gear (216) and the toothed groove are matched with each other for use, a second gear (217) is mounted at the circle center position of the inner wall of the rotating circular plate (212) through a pin shaft, the second gear (217) and the first gear (216) are meshed with each other for use, the second gear (217) is connected with each other through a connecting circular rod (218), and heat dissipation plates (219) are uniformly mounted on the connecting circular rod (218) along the circumferential direction of the connecting circular rod;

the extrusion device (3) comprises an L-shaped plate (31), a buffer spring rod (32), sliding blocks (33), extrusion rollers (34) and rubber plates (35), the L-shaped plate (31) is symmetrically arranged at the left end and the right end of the flat plate (2d) front and back, straight grooves are formed in the L-shaped plate (31), the sliding blocks (33) are arranged in the straight grooves in a sliding fit mode, the buffer spring rods (32) are arranged at the two ends of each sliding block (33), the buffer spring rods (32) are connected on the inner wall of the straight grooves, the extrusion rollers (34) are connected between the sliding blocks (33) at the front end and the rear end of the straight grooves through pin shafts, and the rubber plates (35) are arranged on the extrusion rollers (34) along;

the cooling device (4) comprises a square plate (41), a clamping plate (42), a third gear (43), a cooling round rod (44), fan blades (45), a second motor (46), a U-shaped plate (47) and an internal toothed belt (48), dull and stereotyped (2d) middle part front and back symmetry install square plate (41), install cardboard (42) on square plate (41), the round hole has evenly been seted up to cardboard (42) middle-end, install cooling round bar (44) through the bearing in the round hole, flabellum (45) are installed to cooling round bar (44) lower extreme, No. three gear (43) are installed to cooling round bar (44) upper end, be connected through internal toothed belt (48) between No. three gear (43), U form board (47) are installed to cardboard (42) left end, install No. two motor (46) on U form board (47) upside inner wall, No. two motor (46) output is connected on No. three gear (43) on cooling round bar (44) that are located cardboard (42) leftmost end.

2. The post-cooling treatment system for the synthetic leather production molding according to claim 1, wherein: the winding device (5) comprises a straight plate (51), a third motor (52), a winding round roller (53), a winding round plate (54), a flat block (55), a winding spring rod (56) and an arc plate (57), the straight plate (51) is symmetrically installed at the front and the back of the right end of the bottom plate (1), the winding round plate (54) is installed between the inner walls of the straight plate (51) through a pin shaft, winding grooves are evenly formed in the inner walls of the winding round plate (54) along the circumferential direction of the winding round plate, the inner walls of the winding round plate (54) are connected with each other through the winding round roller (53), the winding spring rod (56) is evenly installed on the outer wall of the winding round roller (53) along the circumferential direction of the winding round roller, the arc plate (57) is installed on the winding spring rod (56), the flat blocks (55) are symmetrically installed on the outer walls of the front and the back ends of the arc plate (57), the flat blocks (55) are installed in the winding grooves in a sliding fit mode, the third, the output end of the third motor (52) is connected to the rolling round plate (54).

3. The post-cooling treatment system for the synthetic leather production molding according to claim 1, wherein: the lower end of the bottom plate (1) is uniformly provided with a support rod (11).

4. The post-cooling treatment system for the synthetic leather production molding according to claim 1, wherein: the left end of the bottom plate (1) is symmetrically provided with long strips (12) in front and back, and guide rollers (13) are arranged between the inner walls of the long strips (12) through pin shafts.

5. The post-cooling treatment system for the synthetic leather production molding according to claim 1, wherein: the upper end of the positioning plate (2j) is arc-shaped, gear grooves are uniformly formed in the arc-shaped surface of the positioning plate (2j) along the circumferential direction of the positioning plate, and the gear grooves and the positioning gears (2h) are matched with each other for use.

6. The post-cooling treatment system for the synthetic leather production molding according to claim 1, wherein: the cam (2e) is oval in shape as a whole, and the height of the cam (2e) is staggered with each other.