CN221112859U - Pattern processor for resin synthetic leather experiment - Google Patents
Pattern processor for resin synthetic leather experiment Download PDFInfo
- Publication number
- CN221112859U CN221112859U CN202322950096.5U CN202322950096U CN221112859U CN 221112859 U CN221112859 U CN 221112859U CN 202322950096 U CN202322950096 U CN 202322950096U CN 221112859 U CN221112859 U CN 221112859U
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- CN
- China
- Prior art keywords
- embossing
- semicircular
- synthetic leather
- resin synthetic
- bracket
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- 239000002649 leather substitute Substances 0.000 title claims abstract description 36
- 239000011347 resin Substances 0.000 title claims abstract description 34
- 229920005989 resin Polymers 0.000 title claims abstract description 34
- 238000002474 experimental method Methods 0.000 title claims abstract description 20
- 238000004049 embossing Methods 0.000 claims abstract description 53
- 238000010438 heat treatment Methods 0.000 claims abstract description 11
- 239000007921 spray Substances 0.000 claims description 4
- 238000007599 discharging Methods 0.000 claims description 2
- 238000001125 extrusion Methods 0.000 abstract description 10
- 238000000034 method Methods 0.000 abstract description 7
- 230000000694 effects Effects 0.000 description 2
- 238000013461 design Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000004381 surface treatment Methods 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
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- Shaping Of Tube Ends By Bending Or Straightening (AREA)
Abstract
The utility model relates to a pattern processor for resin synthetic leather experiments, in particular to the technical field of synthetic leather embossing devices. Comprises a bracket, a conveyor belt, a steam nozzle, a top plate, an infrared heating pipe, a knurling roller, a connecting plate, a chute, a motor support, a sliding block, a fixed plate, a rotating shaft and a knurling mechanism. The problem that safety accidents easily occur because an embossing template is manually clamped to be contacted with resin synthetic leather and put into an embossing roller for extrusion molding in the embossing process is solved; and the problem that the existing pattern processor can not meet the requirements of resin synthetic leather embossing experiments with different thicknesses in a laboratory.
Description
Technical Field
The utility model relates to the technical field of embossing devices for synthetic leather, in particular to a pattern processor for resin synthetic leather experiments.
Background
The resin synthetic leather can be made into bags, clothes and shoes, has been increasingly confirmed in the market, and in the field of resin synthetic leather production, the surface treatment process technology of the resin synthetic leather is increasingly valued in the market because the grade and the added value of the product can be greatly improved. In order to evaluate the surface aesthetics of the obtained product, embossing tests are required in the laboratory to see whether the designed embossing templates can meet the design requirements.
The existing pattern processor equipment generally adopts a mode of extrusion molding after heating, however, in the extrusion molding process, a rubber embossing template is required to be manually clamped, the rubber embossing template is contacted with resin synthetic leather to be printed and put into an embossing roller for extrusion molding, and because the resin synthetic leather is generally subjected to a heating step before extrusion, safety accidents easily occur during manual operation. In addition, the existing pattern processor cannot meet the requirements of resin synthetic leather embossing experiments with different thicknesses in laboratories, so that the prior art is still to be improved and developed.
Disclosure of utility model
(1) Technical problem to be solved
The utility model provides a pattern processor for resin synthetic leather experiments, which solves the problem that safety accidents are easy to occur because an embossing template is manually clamped to be contacted with resin synthetic leather and put into an embossing roller for extrusion molding in the embossing process; and the problem that the existing pattern processor can not meet the requirements of resin synthetic leather embossing experiments with different thicknesses in a laboratory.
(2) Technical proposal
In order to solve the technical problems, the utility model provides a pattern processor for resin synthetic leather experiments, which comprises a bracket, a conveyor belt, a steam nozzle, a top plate, an infrared heating pipe, a pattern roller, a connecting plate, a chute, a motor support, a sliding block, a fixed plate, a rotating shaft and an embossing mechanism;
The bracket is provided with a pair of brackets; the conveyor belt is arranged between the brackets; the inner walls of the two sides of the bracket are provided with the steam spray heads positioned above the conveyor belt; the top plate is fixedly connected above the bracket; the infrared heating pipe is arranged on one surface of the top plate facing the conveyor belt; the embossing roller is rotatably arranged on the bracket in the direction of the discharge end of the conveyor belt; the connecting plates extend outwards from the pair of brackets; the connecting plate is provided with the sliding chute; the bottom of the motor support is fixedly connected with the sliding block; the sliding block is positioned in the sliding groove; the motor support is in sliding connection with the sliding chute through the sliding block; one side of the motor support is fixedly connected with the fixing plate; the fixing plate can be fixed on the chute through bolts; the motor support is provided with a driving motor; the two motor supports are rotatably provided with the rotating shafts; the embossing mechanism for fixing the rubber embossing pad is arranged on the rotating shaft.
Preferably, scale marks are arranged on the sliding groove.
Preferably, the embossing mechanism comprises a shaft lever, a semicircular sleeve, a first semicircular sleeve, a second semicircular sleeve, a limit bar, a limit groove, a first step, a second step and a fixed semicircular ring;
The shaft lever is sleeved on the rotating shaft, and a pair of stepped semicircular sleeves are sleeved on the shaft lever; a pair of said semicircular sleeves including said first semicircular sleeve and said second semicircular sleeve; the first semicircular sleeve is provided with the limit strip; the second semicircular sleeve is provided with the limit groove; the limiting strip is clamped in the limiting groove; the two ends of the semicircular sleeve are provided with the first steps, and the middle part of the semicircular sleeve is provided with the second steps; two fixed semicircular rings are sleeved on the first step; the two fixed semicircular rings are fixedly connected together through bolts.
(3) Advantageous effects
The utility model provides a pattern processor for resin synthetic leather experiments, which solves the problem that safety accidents are easy to occur because an embossing template is manually clamped to be contacted with the resin synthetic leather and put into an embossing roller for extrusion molding; and the problem that the existing pattern processor can not meet the requirements of resin synthetic leather embossing experiments with different thicknesses in a laboratory.
1. According to the utility model, the embossing mechanism is arranged, the template to be embossed is directly arranged on the extrusion molding device, and an operator does not need to contact with the thermoprinting equipment, so that the safety coefficient can be greatly improved.
2. According to the utility model, different pattern templates can be arranged in the sleeve, and different patterns can be hot stamped at one time, so that the comparison and selection of different patterns in an experiment are facilitated.
3. According to the utility model, through the arrangement of the sliding groove and the sliding block, the motor support can move left and right, and the requirements of the laboratory on resin synthetic leather embossing experiments with different thicknesses can be met.
4. The sliding groove is provided with scale marks, so that the distance that the motor support needs to be moved can be adjusted more clearly.
Drawings
FIG. 1 is a schematic diagram of a pattern processor for resin synthetic leather experiments;
FIG. 2 is a schematic view of the structure of the shaft and the rubber embossing mat in the embossing mechanism of the present utility model;
FIG. 3 is a schematic view of the structure of a semicircular sleeve and a fixed semicircular ring in the embossing mechanism of the present utility model;
Reference numerals: 1-support, 2-conveyer belt, 3-steam nozzle, 4-roof, 5-infrared heating pipe, 6-knurling roller, 7-connecting plate, 8-spout, 9-motor support, 10-slider, 11-fixed plate, 12-pivot, 13-knurling mechanism, 131-axostylus axostyle, 132-semicircle sleeve, 133-first semicircle sleeve, 134-second semicircle sleeve, 135-spacing, 136-spacing groove, 137-first step, 138-second step, 139-fixed semicircle ring, 14-rubber knurling pad.
Detailed Description
The utility model will be further described with reference to the accompanying drawings and examples.
As shown in fig. 1 to 3, the pattern processor for resin synthetic leather experiments of the utility model comprises a bracket 1, a conveyor belt 2, a steam nozzle 3, a top plate 4, an infrared heating pipe 5, a pattern roller 6, a connecting plate 7, a chute 8, a motor support 9, a sliding block 10, a fixed plate 11, a rotating shaft 12 and an embossing mechanism 13;
The bracket 1 is provided with a pair; the conveyor belt 2 is arranged between the brackets 1; the inner walls of the two sides of the bracket 1 are provided with the steam spray heads 3 positioned above the conveyor belt 2; the top plate 4 is fixedly connected above the bracket 1; the infrared heating pipe 5 is arranged on one surface of the top plate 4 facing the conveyor belt 2; the embossing roller 6 is rotatably arranged on the bracket 1 in the direction of the discharging tail end of the conveyor belt 2; a pair of the brackets 1 are outwardly extended with the connecting plates 7; the connecting plate 7 is provided with the chute 8; the bottom of the motor support 9 is fixedly connected with the sliding block 10; the sliding block 10 is positioned in the sliding groove 8; the motor support 9 is in sliding connection with the chute 8 through the sliding block 10; the fixed plate 11 is fixedly connected to one side of the motor support 9; the fixing plate 11 can be fixed on the chute 8 through bolts; the motor support 9 is provided with a driving motor; the two motor supports 9 are rotatably provided with the rotating shafts 12; the rotating shaft 12 is provided with an embossing mechanism 13 for fixing a rubber embossing pad 14. Through setting up spout 8 and slider 10 for motor support 9 can be from side to side removed, can satisfy the demand to the resin synthetic leather knurling experiment of different thickness in the laboratory.
Graduation marks are arranged on the sliding groove 8. The chute 8 is provided with scale marks, so that the distance between the embossing mechanism 13 and the embossing roller 6 can be conveniently adjusted according to the thickness of the resin synthetic leather.
The embossing mechanism 13 comprises a shaft lever 131, a semicircular sleeve 132, a first semicircular sleeve 133, a second semicircular sleeve 134, a limit strip 135, a limit groove 136, a first step 137, a second step 138 and a fixed semicircular ring 139;
The shaft lever 131 is sleeved on the rotating shaft 12, and a pair of stepped semicircular sleeves 132 are sleeved on the shaft lever 131; a pair of the half sleeves 132 includes the first half sleeve 133 and the second half sleeve 134; the first semicircular sleeve 133 is provided with the limit strip 135; the second semicircular sleeve 134 is provided with the limit groove 136; the limiting strip 135 is clamped in the limiting groove 136; the two ends of the semicircular sleeve 132 are provided with the first steps 137, and the middle part of the semicircular sleeve 132 is provided with the second steps 138; two fixed semicircular rings 139 are sleeved on the first step 137; the two fixed semicircular rings 139 are fixedly connected together through bolts. By arranging the embossing mechanism 13, the template to be embossed is directly arranged on the extrusion molding device, and an operator does not need to contact with thermoprinting equipment, so that the safety coefficient can be greatly improved; different pattern templates are arranged in the semicircular sleeve 132, and different patterns can be hot stamped at one time, so that comparison and selection of different patterns in an experiment are facilitated.
Working principle: the rubber embossing mats 14 are curled and pressed on the surfaces of the second step 138 and the first step 137 of the semicircular sleeve 132, then the semicircular rings 139 are fixed to fix the rubber embossing mats 14 on the first steps 137 at the two ends, a stretching effect is achieved on the rubber embossing mats 14, the two semicircular sleeves 132 are sleeved on the shaft rod 131, then the semicircular rings 139 are fixed by bolts, and therefore the semicircular sleeve 132 and the rubber embossing mats 14 on the semicircular sleeve 132 are fixed. In the embossing process, the distance between the embossing roller 6 and the embossing mechanism 13 can be adjusted on the chute 8 according to the thickness of the resin synthetic leather to be printed, the resin synthetic leather is conveyed from one end of the conveyor belt 2 to one end close to the embossing roller 6, the infrared heating pipe 5 on the top plate heats the resin synthetic leather, and the steam nozzle 3 on the bracket 1 sprays steam to soften the surface of the resin synthetic leather, so that the patterns on the rubber embossing pad 14 better infiltrate into the resin synthetic leather in the extrusion process. The resin synthetic leather is fed between the embossing roller 6 and the semicircular sleeve 132 on the embossing mechanism 13, and the two rotating shafts have different rotating directions, so that the resin synthetic leather is extruded and printed in the rotating process. What is not described in detail in this specification is prior art known to those skilled in the art.
The examples described above only represent preferred embodiments of the present utility model, which are described in more detail, but the present utility model is not limited to these examples, and it should be noted that it is obvious to those skilled in the art that the present utility model is not limited to these examples. Any modifications thereof fall within the scope of the present utility model without departing from the spirit of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.
Claims (3)
1. The pattern processor for the resin synthetic leather experiment is characterized by comprising a bracket (1), a conveyor belt (2), a steam nozzle (3), a top plate (4), an infrared heating pipe (5), a pattern roller (6), a connecting plate (7), a chute (8), a motor support (9), a sliding block (10), a fixed plate (11), a rotating shaft (12) and an embossing mechanism (13);
The bracket (1) is provided with a pair of brackets; the conveyor belt (2) is arranged between the brackets (1); the inner walls of the two sides of the bracket (1) are provided with the steam spray heads (3) positioned above the conveyor belt (2); the top plate (4) is fixedly connected above the bracket (1); the infrared heating pipe (5) is arranged on one surface of the top plate (4) facing the conveyor belt (2); the bracket (1) is rotatably provided with the embossing roller (6) in the direction of the discharging tail end of the conveyor belt (2); the pair of brackets (1) are outwards extended with the connecting plates (7); the connecting plate (7) is provided with the sliding chute (8); the bottom of the motor support (9) is fixedly connected with the sliding block (10); the sliding block (10) is positioned in the sliding groove (8); the motor support (9) is connected with the chute (8) in a sliding way through the sliding block (10); one side of the motor support (9) is fixedly connected with the fixing plate (11); the fixing plate (11) can be fixed on the chute (8) through bolts; the motor support (9) is provided with a driving motor; the rotating shaft (12) is arranged between the two motor supports (9); the rotating shaft (12) is provided with an embossing mechanism (13) for fixing a rubber embossing pad (14).
2. Pattern processor for resin synthetic leather experiments according to claim 1, characterized in that the chute (8) is provided with graduation marks.
3. A pattern processor for resin synthetic leather experiment according to claim 1, characterized in that the embossing mechanism (13) comprises a shaft lever (131), a semicircular sleeve (132), a first semicircular sleeve (133), a second semicircular sleeve (134), a limit bar (135), a limit groove (136), a first step (137), a second step (138) and a fixed semicircular ring (139);
The shaft lever (131) is sleeved on the rotating shaft (12), and the pair of stepped semicircular sleeves (132) are sleeved on the shaft lever (131); -a pair of said semicircular sleeves (132) comprising said first semicircular sleeve (133) and said second semicircular sleeve (134); the first semicircular sleeve (133) is provided with the limit strip (135); the second semicircular sleeve (134) is provided with the limit groove (136); the limit strips (135) are clamped in the limit grooves (136); the two ends of the semicircular sleeve (132) are provided with the first steps (137), and the middle part of the semicircular sleeve (132) is provided with the second steps (138); two fixed semicircular rings (139) are sleeved on the first step (137); the two fixed semicircular rings (139) are fixedly connected together through bolts.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322950096.5U CN221112859U (en) | 2023-11-01 | 2023-11-01 | Pattern processor for resin synthetic leather experiment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322950096.5U CN221112859U (en) | 2023-11-01 | 2023-11-01 | Pattern processor for resin synthetic leather experiment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221112859U true CN221112859U (en) | 2024-06-11 |
Family
ID=91372561
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322950096.5U Active CN221112859U (en) | 2023-11-01 | 2023-11-01 | Pattern processor for resin synthetic leather experiment |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221112859U (en) |
-
2023
- 2023-11-01 CN CN202322950096.5U patent/CN221112859U/en active Active
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