CN220057340U - Efficient flattening device for clothing fabric - Google Patents

Abstract

The utility model relates to the technical field of clothing fabric flattening, and particularly discloses a high-efficiency clothing fabric flattening device which comprises a flattening platform; the pressing platform is fixedly connected with a supporting seat, and the supporting seat is rotationally connected with a flattening roller; a sliding groove arranged on the flattening roller, wherein the sliding groove is connected with an extrusion block and a sliding block in a sliding way; a compression cavity arranged in the flattening roller, wherein a compression plate is connected in a sliding manner in the compression cavity and is fixedly connected with the extrusion block through a support plate; the convex strips are fixedly connected in the sliding grooves, telescopic cavities are formed in the convex strips, and ejector rods are connected in the telescopic cavities in a sliding mode; according to the utility model, the flattening roller rotates clockwise and slides relative to the fabric sliding above the flattening table, so that the moving direction of the fabric can be flattened, and the sliding block connected with the flattening roller in a sliding manner can further smooth and flatten the vertical direction of the moving direction of the fabric, thereby avoiding the problem that partial wrinkles of the fabric possibly occur in the flattening process.

Description

Efficient flattening device for clothing fabric

Technical Field

The utility model relates to the technical field of garment fabric flattening, in particular to a high-efficiency garment fabric flattening device.

Background

The garment is made of fabric, the fabric is a material for making the garment, and as one of three factors of the garment, the fabric can not only explain the style and the characteristics of the garment, but also directly control the color and the modeling of the garment.

In the prior art, when the fabric is flattened, the fabric flattening device is needed, the fabric is flattened on the workbench, then the fabric is fixed through the fixing mechanism, and then the flattening mechanism is adopted to flatten the fabric, so that the aim of flattening the fabric can be achieved, and the fabric is rolled or cut later.

The fabric is flattened to a certain extent by the prior art, but due to the softness of the fabric, when the fabric is flattened, part of wrinkles possibly exist after the fabric is flattened, and when the flattening mechanism is used for flattening at the moment, the wrinkles appear on the fabric, so that great trouble is brought to people.

Disclosure of Invention

The utility model aims to provide a high-efficiency garment fabric flattening device which solves the following technical problems:

how to avoid the problem that partial wrinkles possibly occur in the process of flattening the fabric.

The aim of the utility model can be achieved by the following technical scheme:

a high-efficiency garment material flattening device comprises a flattening platform;

the pressing platform is fixedly connected with a supporting seat, and the supporting seat is rotationally connected with a flattening roller;

the sliding groove is arranged on the flattening roller and is connected with an extrusion block and a sliding block in a sliding way;

the compression cavity is arranged in the flattening roller, a compression plate is connected in a sliding mode in the compression cavity, and the compression plate is fixedly connected with the extrusion block through a support plate;

the convex strips are fixedly connected in the sliding grooves, a telescopic cavity is formed in the convex strips, a push rod is connected in the telescopic cavity in a sliding mode, and one end of the push rod extends out of the telescopic cavity and is fixedly connected with the sliding block;

the compression cavity is communicated with the telescopic cavity through the air hole group.

In an embodiment, the steam conduit is fixedly connected to the supporting seat, the flattening roller is rotatably connected to the steam conduit, the steam conduit is provided with an air vent, the inner wall of the flattening roller is provided with an annular circulation groove communicated with the air vent, and the annular circulation groove is communicated with the compression cavity through an air charging hole.

Further, the air hole group comprises a sealing hole, a communication hole and a driving hole which are formed in the flattening roller, the sealing hole is communicated with the communication hole and the driving hole in sequence, the sealing hole is communicated with the compression cavity, and the driving hole is communicated with the telescopic cavity.

Further, two sealing holes are formed, a first sealing pipe and a second sealing pipe which correspond to the two sealing holes are fixedly connected to the compression plate, vent holes are symmetrically formed in the side walls of the first sealing pipe and the second sealing pipe, the vent holes correspond to the communication holes, and a pressure valve is arranged in the second sealing pipe;

the air holes are formed in the flattening roller and are communicated with the communication holes through the air release holes, the air holes are formed in a plurality of the air holes, and the air holes are communicated through the dispersing holes.

Further, the telescopic cavity is internally fixedly connected with a supporting ring, the supporting ring is fixedly connected with a tension spring, and one end, far away from the supporting ring, of the tension spring is fixedly connected with the ejector rod.

In an embodiment, the bottom of the flattening table is symmetrically and fixedly connected with a fixing plate, a winding roller is rotationally connected to the fixing plate, and the winding roller is rotationally connected with the flattening roller through a linkage assembly;

the motor is fixedly connected to the fixing plate, and the output end of the motor is fixedly connected with the winding roller

Further, the interlock subassembly includes first guide pulley and second guide pulley, second guide pulley fixed connection is on the wind-up roll, first guide pulley rotates to be connected on the supporting seat, first guide pulley passes through the drive belt and rotates with the second guide pulley to be connected, fixedly connected with gear on the first guide pulley, fixedly connected with ring gear on the flattening roller, ring gear meshes with the gear.

The utility model has the beneficial effects that:

(1) According to the utility model, the flattening roller rotates clockwise and slides relative to the fabric sliding above the flattening table, so that the moving direction of the fabric can be flattened, and the sliding block connected with the flattening roller in a sliding manner can further smooth and flatten the vertical direction of the moving direction of the fabric, thereby avoiding the problem that partial wrinkles of the fabric possibly occur in the flattening process.

(2) According to the utility model, the steam extruded by the other part in the compression cavity enters the dispersion holes through the second sealing pipe, the communication hole and the air leakage holes and is ejected through the plurality of air injection holes, the plurality of air injection holes are distributed on two sides of the extrusion block on the flattening roller at equal intervals, and at the moment, the ejected steam can heat the fabric being flattened, so that the effect of flattening the fabric can be further improved.

(3) According to the utility model, the push rod and the sliding block are pulled, contracted and reset through the tension spring in a stretching state, steam in the telescopic cavity can enter the dispersing holes through the driving holes, the communication holes and the air leakage holes and is sprayed out through the air spraying holes, so that the fabric to be flattened by the flattening roller can be preheated, and the flattening effect of the fabric in the process of being extruded by the flattening roller is improved.

Drawings

The utility model is further described below with reference to the accompanying drawings.

FIG. 1 is a front view of a high-efficiency garment material flattening device according to the present utility model;

FIG. 2 is a right side view of a garment material efficient flattening device according to the present utility model;

FIG. 3 is a top view of a high-efficiency garment material flattening device according to the present utility model;

FIG. 4 is a schematic view of a structure of a flattening roller portion of a high-efficiency flattening device for clothing fabric according to the present utility model;

fig. 5 is a schematic structural diagram of a flattening roller part of the efficient garment fabric flattening device according to the second embodiment of the present utility model;

FIG. 6 is an enlarged view of a partial structure of the area A of FIG. 5 in accordance with the present utility model;

fig. 7 is a schematic structural diagram III of a flattening roller part of the efficient garment fabric flattening device provided by the utility model;

FIG. 8 is an enlarged view of a portion of the structure of the present utility model at area B of FIG. 7;

FIG. 9 is an enlarged view of a portion of the structure of the area D of FIG. 8 in accordance with the present utility model;

fig. 10 is an enlarged view of a partial structure of the region C of fig. 7 according to the present utility model.

Reference numerals: 1. a pressing platform; 11. a fixing plate; 12. a support base; 2. a flattening roller; 21. a toothed ring; 22. a chute; 23. a compression chamber; 231. an air filling hole; 232. an annular flow channel; 233. sealing the hole; 234. a communication hole; 235. a drive hole; 236. a vent hole; 24. a gas injection hole; 241. dispersing holes; 25. a telescopic chamber; 3. the first guide wheel; 31. a gear; 32. a transmission belt; 4. a wind-up roll; 41. the second guide wheel; 42. a motor; 5. a steam conduit; 51. an air guide hole; 6. extruding a block; 61. a support plate; 62. a compression plate; 63. a first sealing tube; 64. a second sealing tube; 641. a pressure valve; 65. a vent hole; 7. a slide block; 71. a push rod; 72. a tension spring; 73. and a support ring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 10 of the drawings, a high-efficiency garment fabric flattening device in an embodiment of the utility model comprises a flattening platform 1;

the pressing platform 1 is fixedly connected with a supporting seat 12, and the supporting seat 12 is rotationally connected with a flattening roller 2;

a sliding groove 22 arranged on the flattening roller 2, wherein an extrusion block 6 and a sliding block 7 are connected in a sliding way in the sliding groove 22;

a compression cavity 23 arranged in the flattening roller 2, a compression plate 62 is connected in a sliding manner in the compression cavity 23, and the compression plate 62 is fixedly connected with the extrusion block 6 through a support plate 61;

the convex strips are fixedly connected in the sliding grooves 22, a telescopic cavity 25 is formed in the convex strips, a push rod 71 is connected in a sliding manner in the telescopic cavity 25, and one end of the push rod 71 extends out of the telescopic cavity 25 and is fixedly connected with the sliding block 7;

the compression chamber 23 communicates with the expansion chamber 25 through a set of air holes.

As an embodiment of the present utility model, referring to fig. 3-10 of the drawings, a steam conduit 5 is fixedly connected to a supporting seat 12, a flattening roller 2 is rotatably connected to the steam conduit 5, an air vent 51 is provided on the steam conduit 5, an annular circulation groove 232 communicated with the air vent 51 is provided on the inner wall of the flattening roller 2, the annular circulation groove 232 is communicated with a compression cavity 23 through an air filling hole 231, and steam in the steam conduit 5 can enter the compression cavity 23 through the air vent 51, the annular circulation groove 232 and the air filling hole 231 to fill high-pressure steam into the compression cavity 23.

Further, in order to introduce the gas in the compression chamber 23 into the expansion chamber 25, the gas hole group includes a seal hole 233, a communication hole 234 and a driving hole 235 which are formed in the flattening roller 2, the seal hole 233 is communicated with the communication hole 234 and the driving hole 235 in sequence, the seal hole 233 is communicated with the compression chamber 23, and the driving hole 235 is communicated with the expansion chamber 25.

Further, in order to intermittently introduce the steam in the compression chamber 23 into the expansion chamber 25 and the gas injection hole 24, two sealing holes 233 are provided, a first sealing tube 63 and a second sealing tube 64 corresponding to the two sealing holes 233 are fixedly connected to the compression plate 62, vent holes 65 are symmetrically formed in the side walls of the first sealing tube 63 and the second sealing tube 64, the vent holes 65 correspond to the communication holes 234, and a pressure valve 641 is installed in the second sealing tube 64;

the air holes 24 are formed in the flattening roller 2, the air holes 24 are communicated with the communication holes 234 through the air release holes 236, the plurality of air holes 24 are formed, and the plurality of air holes 24 are communicated through the dispersion holes 241.

Further, in order to facilitate the steam in the telescopic cavity 25 to be discharged and drive the sliding block 7 to reset, a supporting ring 73 is fixedly connected in the telescopic cavity 25, a tension spring 72 is fixedly connected to the supporting ring 73, and one end, away from the supporting ring 73, of the tension spring 72 is fixedly connected with the ejector rod 71.

As an embodiment of the present utility model, referring to fig. 1-3 of the accompanying drawings, a fixing plate 11 is symmetrically and fixedly connected to the bottom of a platen 1, a wind-up roller 4 is rotatably connected to the fixing plate 11, and the wind-up roller 4 is rotatably connected to a flattening roller 2 through a linkage assembly;

a motor 42 is fixedly connected to the fixed plate 11, and the output end of the motor 42 is fixedly connected with the wind-up roll 4

Further, in order to be convenient for drive flattening roller rotates, the interlock subassembly includes first guide pulley 3 and second guide pulley 41, and second guide pulley 41 fixed connection is on wind-up roll 4, and first guide pulley 3 rotates to be connected on supporting seat 12, and first guide pulley 3 passes through drive belt 32 and second guide pulley 41 rotation to be connected with gear 31 on the first guide pulley 3, fixedly connected with ring gear 21 on the flattening roller 2, ring gear 21 meshes with gear 31.

The working principle of the utility model is as follows: in the use process of the device, the fabric to be flattened can be placed from the left side of the upper surface of the flattening table 1, passes through the lower part of the flattening table 2, is reversely wound on the surface of the winding roller 4 through the supporting roller on the right side of the flattening table 1, steam with proper air pressure is externally connected to the steam guide pipe 5, the winding roller 4 and the second guide wheel 41 are driven by the starting motor 42 to rotate anticlockwise, the fabric is wound by the rotation of the winding roller 4, the first guide wheel 3 is driven by the rotation of the second guide wheel 41 to rotate in the same direction through the driving belt 32, so that the gear 31 rotates anticlockwise, and the toothed ring 21 and the flattening roller 2 are meshed, so that the toothed ring 21 and the flattening roller 2 can be driven to rotate clockwise in the rotation process of the gear 31, the fabric can slide relatively to the fabric sliding above the flattening table 1, and the sliding block 7 in the sliding connection on the flattening roller 2 can further smooth and flatten the fabric in the vertical direction of the movement direction, thereby avoiding the possible part of the fabric in the flattening process.

The specific process of smoothing and flattening the fabric in the front-back direction by the flattening roller 2 is that in the rotating process of the flattening roller 2, a plurality of extrusion blocks 6 on the flattening roller 2 can be driven to sequentially extrude the fabric on the flattening table 1, and the extrusion blocks 6 slide into the sliding grooves 22 under the action of the reaction force of the flattening table 1, so that the compression plates 62 are driven to move in the axis direction of the flattening roller 2 through the supporting plates 61, as the first sealing pipes 63 and the second sealing pipes 64 are sealed at two ends, the side walls of the two ends are provided with round hollow columns with vent holes 65, in the moving process of the compression plates 62 in the axis direction of the flattening roller 2, the first sealing pipes 63 and the second sealing pipes 64 can block the steam in the compression chamber 23 at first, so that the compression plates 62 extrude the steam in the compression chamber 23, when the extrusion blocks 6 rotate to be positioned right above the flattening table 1, the surfaces of the flattening roller 2 are extruded to be flush, at this time, the sliding block 7 is fully attached to the fabric, the sliding block 7 is made of rubber, the friction force between the sliding block 7 and the fabric is larger than the friction force between the extrusion block 6 and the fabric, at this time, the contact surface of the flattening roller 2 and the fabric is a regular arc surface, and the sliding block slides relatively to the fabric, so that the fabric can be flattened in the moving direction, meanwhile, the first sealing tube 63 and the second sealing tube 64 are driven by the compression plate 62 to the position closest to the axis direction of the flattening roller 2, at this time, one vent hole 65 on the first sealing tube 63 and the second sealing tube 64 is communicated with the communication hole 234, one vent hole 65 is communicated with the compression cavity 23, a part of compressed steam in the compression cavity 23 enters the telescopic cavity 25 through the first sealing tube 63, the communication hole 234 and the driving hole 235, and pushes the ejector rod 71 and the sliding block 7 towards the two ends of the flattening roller 2 against the tension of the tension spring 72, until the air pressure in the expansion cavity 25 and the compression cavity 23 reaches the air pressure value blocked by the pressure valve 641, the friction force between the sliding blocks 7 and the diameter of the fabric is larger than the friction force between the extrusion block 6 and the diameter of the fabric, so that the two sliding blocks 7 can pull the fabric extruded by the extrusion block 6 towards the two ends of the flattening roller 2, the fabric can be fully unfolded in the sliding vertical direction, wrinkles generated by the sufficient unfolding of the fabric in the moving vertical direction in the flattening process of the fabric through the flattening roller 2 are avoided, the air pressure in the compression cavity 23 is synchronous, the steam extruded by the other part of the compression cavity 23 can enter the dispersing hole 241 through the second sealing tube 64, the communication hole 234 and the air release hole 236, and is sprayed out through the plurality of air release holes 24, the plurality of air release holes 24 are distributed on the two sides of the flattening roller 2 at equal intervals, the fabric being flattened can be heated by the steam sprayed out simultaneously at the moment, the effect of flattening the fabric can be further improved, the effect of flattening is required to be explained, the fact that the vent holes 65 formed in the first sealing tube 63 and the second sealing tube 64 are arranged in the opposite directions, the fact that the vent holes 65 formed in the flattening roller 2 are formed in the vertical direction is, the fact that the fabric is fully unfolded in the moving vertical direction is avoided, the compression process is carried out, the air pressure is fully, the compressed by the other part of the fabric is compressed into the sealing cavity 23 through the compression cavity through the second sealing tube 23, the air release holes are sprayed out into the air release holes 24 and the air pressure holes 24, and the air pressure is sprayed out to the air pressure into the air pressure state, and the air pressure is compressed into the air pressure by the air pressure through the compression cavity 7, and the air pressure is compressed.

Along with the continuous rotation of the flattening roller 2, when the extruded extrusion block 6 moves in the direction away from the flattening roller 1, steam in the steam conduit 5 enters the annular circulation groove 232 through the air guide hole 51 and enters the compression cavity 23 through the air filling hole 231, so that the compression plate 62 is pushed in the direction away from the axis of the flattening roller 2, the extrusion block 6 is reset, in the process, the first sealing tube 63 and the second sealing tube 64 synchronously move along with the movement of the compression plate 62 like moving away from the axis of the flattening roller 2, the sealing interrupted by the communication hole 234 is canceled, at the moment, the tension spring 72 in a stretching state can pull and shrink the ejector rod 71 and the sliding block 7 for resetting, and the steam in the telescopic cavity 25 enters the dispersing hole 241 through the driving hole 235, the communication hole 234 and the air leakage hole 236 and is sprayed out through the air injection hole 24, so that the fabric to be flattened by the flattening roller 2 can be preheated, and the flattening effect of the fabric in the extrusion process of the flattening roller 2 is improved.

The foregoing describes one embodiment of the present utility model in detail, but the disclosure is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by the present utility model.

Claims (7)

1. The high-efficiency garment fabric flattening device is characterized by comprising a flattening platform (1);

a supporting seat (12) is fixedly connected to the flattening table (1), and a flattening roller (2) is rotatably connected to the supporting seat (12);

a sliding groove (22) arranged on the flattening roller (2), wherein an extrusion block (6) and a sliding block (7) are connected in a sliding manner in the sliding groove (22);

a compression cavity (23) arranged in the flattening roller (2), a compression plate (62) is connected in a sliding manner in the compression cavity (23), and the compression plate (62) is fixedly connected with the extrusion block (6) through a support plate (61);

the sliding chute is characterized in that a raised line is fixedly connected in the sliding chute (22), a telescopic cavity (25) is formed in the raised line, a push rod (71) is connected in the telescopic cavity (25) in a sliding mode, and one end of the push rod (71) extends out of the telescopic cavity (25) and is fixedly connected with the sliding block (7);

the compression cavity (23) is communicated with the telescopic cavity (25) through an air hole group.

2. The efficient garment fabric flattening device according to claim 1, wherein the steam conduit (5) is fixedly connected to the supporting seat (12), the flattening roller (2) is rotatably connected to the steam conduit (5), the steam conduit (5) is provided with the air vent (51), the inner wall of the flattening roller (2) is provided with the annular circulating groove (232) communicated with the air vent (51), and the annular circulating groove (232) is communicated with the compression cavity (23) through the air vent (231).

3. The efficient garment fabric flattening device according to claim 2, wherein the air hole group comprises a sealing hole (233), a communication hole (234) and a driving hole (235) which are formed in the flattening roller (2), the sealing hole (233), the communication hole (234) and the driving hole (235) are sequentially communicated, the sealing hole (233) is communicated with the compression cavity (23), and the driving hole (235) is communicated with the expansion cavity (25).

4. The efficient garment fabric flattening device according to claim 3, wherein two sealing holes (233) are formed, a first sealing tube (63) and a second sealing tube (64) corresponding to the two sealing holes (233) are fixedly connected to the compression plate (62), vent holes (65) are symmetrically formed in the side walls of the first sealing tube (63) and the second sealing tube (64), the vent holes (65) correspond to the communication holes (234), and a pressure valve (641) is installed in the second sealing tube (64);

the air injection holes (24) are formed in the flattening roller (2), the air injection holes (24) are communicated with the communication holes (234) through the air release holes (236), a plurality of air injection holes (24) are formed in the air injection holes, and a plurality of air injection holes (24) are communicated through the dispersing holes (241).

5. The efficient garment fabric flattening device according to claim 4, wherein a supporting ring (73) is fixedly connected in the telescopic cavity (25), a tension spring (72) is fixedly connected to the supporting ring (73), and one end, far away from the supporting ring (73), of the tension spring (72) is fixedly connected with the ejector rod (71).

6. The efficient garment fabric flattening device according to claim 1, wherein a fixing plate (11) is symmetrically and fixedly connected to the bottom of the flattening table (1), a wind-up roller (4) is rotatably connected to the fixing plate (11), and the wind-up roller (4) is rotatably connected with the flattening roller (2) through a linkage assembly;

the motor (42) is fixedly connected to the fixing plate (11), and the output end of the motor (42) is fixedly connected with the winding roller (4).

7. The efficient garment fabric flattening device according to claim 6, wherein the linkage assembly comprises a first guide wheel (3) and a second guide wheel (41), the second guide wheel (41) is fixedly connected to the winding roller (4), the first guide wheel (3) is rotatably connected to the supporting seat (12), the first guide wheel (3) is rotatably connected with the second guide wheel (41) through the driving belt (32), the first guide wheel (3) is fixedly connected with the gear (31), the flattening roller (2) is fixedly connected with the toothed ring (21), and the toothed ring (21) is meshed with the gear (31).