CN220859526U - Punching hot-melting clothes making equipment - Google Patents

Abstract

The utility model discloses punching hot-melting clothing equipment which is suitable for punching and hot-melting at least one polyester fiber clothing. The punching and hot melting clothing manufacturing equipment comprises a base, a conveying belt, a first cloth, a second cloth and a template device. The method comprises the steps of carrying out hot fusion bonding on a first cloth and a second cloth, conveying the first cloth and the second cloth to a bottom die structure of a template device through a conveying belt, separating parts of iron sheets, which need to be reserved, pressing the first cloth and the second cloth when the die structure is pressed down to the bottom die structure, carrying out hot fusion bonding on the first cloth and the second cloth through a heating rod arranged at a position which is consistent with the shape of a garment, and lifting the die structure to be original position through an air pressure rod after heating is finished, so that the manufacturing of polyester fiber garment can be completed.

Description

Punching hot-melting clothes making equipment

Technical Field

The utility model relates to punching and hot-melting clothing equipment, in particular to equipment capable of hot-melting cloth and combining the cloth through a punching die structure and a bottom die structure to quickly produce clothing.

Background

The general ready-made clothes processing procedure is to design and make a edition, cloth select, tailor, make up partially, sew up, lock button, nail knot, repair line, examine mend, arrangement, ironing, check, pack, because need make, sew up through the car line, so need repair line, examine mend with the arrangement, lead to ready-made clothes machining efficiency not good, can influence during the preparation a large amount of ready-made clothes and make efficiency and delivery time, in addition, the car line makes the clothes have the line easily, the line of taking off can lead to the condition that a plurality of positions of clothes damaged, and current ready-made clothes processing procedure does not have the innovative method that can promote efficiency and avoid using the car line yet, the reality is unfortunately.

In summary, how to provide a novel device for producing clothing by stamping similar to a special thermal fusion bonding polyester fiber cloth, which can bond front and back cloth of clothing through a heating rod inside the template, independently melt the needed connection parts of a collar, cuffs and a lower hem, and set an iron sheet template to keep the collar, cuffs and the lower hem from completely sealing the clothing by thermal fusion, so that the device not only can reduce the use of a sewing thread, but also can improve the production efficiency of finished clothing, which is worth thinking of people with ordinary skill in the art.

Disclosure of utility model

The stamping and hot-melting clothing manufacturing equipment is characterized by stamping and hot-melting at least one polyester fiber clothing, and comprises a base, a conveying belt, a first cloth, a second cloth and a template device. The conveyer belt is connected with the base and is arranged on the base. The first cloth and the second cloth are placed on the conveying belt, and the first cloth is stacked on the second cloth and moves on the conveying belt. The template device is connected with the base and is arranged at the tail end of the conveying belt, and the template device comprises a stamping die structure, a bottom die structure, a plurality of air pressure rods, an iron sheet template and a plurality of heating rods. The die structure is arranged above the template device. The bottom die structure is arranged below the die structure. The pneumatic rod penetrates through the die structure and the bottom die structure, and is characterized in that the die structure is pressed down to the bottom die structure. The iron sheet template is connected with the bottom die structure and is characterized in that the iron sheet template is clamped in the middle by the first cloth and the second cloth. The heating rod is arranged on the stamping die structure, the bottom die structure and the iron sheet template, and is characterized in that the first cloth and the second cloth are combined in an up-down hot-melting way to form the polyester fiber coating.

The above-mentioned punching press hot melt clothing equipment, characterized in that the conveyer belt is characterized in that first cloth and second cloth are moved to the inside of the template device, and the first cloth is transported to the top of the iron sheet template, and the second cloth is transported to the bottom of the iron sheet template.

The punching and hot-melting clothing manufacturing equipment is characterized in that the template device is characterized in that the first cloth and the second cloth are hot-melted in an up-down clamping mode.

The stamping and hot melting clothing manufacturing equipment is characterized in that the heating rod is heated in an electric heating mode.

The punching hot-melting clothing manufacturing equipment is characterized in that the first cloth and the second cloth are 100% polyester fiber cloth.

In order to make the above objects, features and advantages of the present utility model more comprehensible, embodiments accompanied with figures are described in detail below. It should be noted that the components in the drawings are schematic and are not drawn to actual scale.

Drawings

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

Fig. 2 is a schematic diagram of a template apparatus.

Fig. 3 is an embodiment of the present utility model.

Reference numerals illustrate:

10. The device comprises a pressing and hot melting clothing manufacturing device, namely 11A, a first cloth, 11B and a second cloth;

100. A base, 200, a conveyer belt, 300 and a template device;

310. a die structure 320, a bottom die structure 330 and an air pressure rod;

340. iron sheet, 350, heating rod.

Detailed Description

In order to describe the technical content, constructional features, achieved objects and effects of the technical solution in detail, the following description is made in connection with the specific embodiments in conjunction with the accompanying drawings.

The utility model relates to punching hot-melting clothing equipment, which utilizes a punching principle, presses down a bottom die structure through a punching die structure, enables first cloth and second cloth clamped between templates to be electrically heated through heating rods arranged in the punching die structure and the bottom die structure to finish hot-melting combination of the first cloth and the second cloth, and can produce polyester fiber clothing after finishing, thereby reducing time of complex sewing, trimming, checking and the like, and achieving the effects of improving clothing manufacturing efficiency and productivity.

Referring to fig. 1, fig. 1 is a side view of the present utility model. The punching and hot-melting garment manufacturing apparatus 10 of the present utility model is suitable for punching and hot-melting at least one polyester fiber garment 20, and the punching and hot-melting garment manufacturing apparatus 10 comprises a base 100, a conveyor belt 200, a first cloth 11A, a second cloth 11B and a template device 300. The base 100 is a base of the apparatus for the present utility model, and can be used for installing the conveyor 200 and the template device 300. The conveyor 200 is connected to the base 100 and is disposed on the base 100. In short, the conveyor 200 is a conveying device disposed on the base 100 and is suitable for conveying the first cloth 11A and the second cloth 11B into the template device 300, in this embodiment, the conveyor 200 has an upper independent conveyor structure and a lower independent conveyor structure, the upper conveyor is suitable for conveying the first cloth 11A, and the lower conveyor is suitable for conveying the second cloth 11B, but not limited thereto, in other embodiments, the conveyor 200 may be an independent conveyor structure, and the first cloth 11A is stacked on the second cloth 11B and moved by the conveyor 200. The first cloth 11A and a second cloth 11B are adapted to be placed on the conveyor belt 200, and the first cloth 11A is stacked on the second cloth 11B and moves on the conveyor belt 200. Further, in the present embodiment, the first cloth 11A and the second cloth 11B are 100% polyester fiber cloth, the first cloth 11A is placed on the upper conveyor belt 200, and the second cloth 11B is placed on the lower conveyor belt 200, so that the conveyor belt 200 can send the cloth to be heat-fused into the template device 300 for punching and heat-fusing.

With continued reference to fig. 2, fig. 2 is a schematic diagram of a template device. The template device 300 is connected to the base 100 and is disposed at the end of the conveyor 200. In detail, the die plate apparatus 300 is a press-and-fuse apparatus according to the present invention, and is connected to the base 100 and disposed at the end of the conveyor 200 in the conveying direction, so that the first cloth 11A and the second cloth 11B can be moved into the die plate apparatus 300. The die plate apparatus 300 includes a die structure 310, a bottom die structure 320, a gas pressure bar 330, an iron sheet die 340, and a heating bar 350, and the structure and components of the die plate apparatus 300 are described below.

The die structure 310 is disposed above the stencil apparatus 300. In brief, the die structure 310 is the upper half of the die plate apparatus 300 and is adapted to be depressed toward the bottom die structure 320. The bottom die structure 320 is disposed below the die structure 3110. Further, the bottom die structure 320 is a lower half of the die plate device 300, and is disposed directly under the die structure 310, and when the first cloth 11A and the second cloth 11B are moved toward the die plate device 300 by the conveyor belt 200, the first cloth 11A and the second cloth 11B are moved onto the bottom die structure 320 to wait for the hot melting process.

A plurality of pneumatic rods 330 are disposed between the die structure 310 and the bottom die structure 320, and the pneumatic rods 330 are adapted to press the die structure 310 down onto the bottom die structure 320. In detail, the air pressure rod 330 is an air pressure rod for moving the die structure 310 to push down and lift back toward the bottom die structure 320, when the die device 300 is started, the die structure 310 can push down to the bottom die structure 320 through the air pressure rod 330 to perform the hot melting operation of the first cloth 11A and the second cloth 11B, and after the hot melting operation is completed, the die structure is lifted back to the original position through the air pressure rod 330 to wait for the next start to push down.

The iron sheet mold 340 is connected to the bottom mold structure 320, and the iron sheet mold 340 is adapted to be clamped between the first cloth 11A and the second cloth 11B. In short, when the first cloth 11A and the second cloth 11B are sent to the bottom mold structure 320 through the conveyer 200, the first cloth 11A is located above the iron sheet mold 340, and the second cloth 11B is located below the iron sheet mold 340, so that the iron sheet mold 340 is clamped between the first cloth 11A and the second cloth 11B, which can make the neckline, the cuffs and the hem of the polyester fiber garment 20 (not shown in fig. 2) have a space, and when the die structure 310 is pressed down to the first cloth 11A and the second cloth 11B on the bottom mold structure 320 for heat fusion, the space can be prevented from being heat fused.

The heating rod 350 is disposed on the surface of the die structure 310 and the bottom die structure 320, and is adapted to heat-fuse the first cloth 11A and the second cloth 11B up and down to form the polyester fiber garment 20 (not shown in fig. 2). Further, the heating rod 350 is an electric heating structure disposed on the surfaces of the die structure 310 and the bottom die structure 320, when the die structure 310 is pressed down onto the bottom die structure 320 when the die plate device 300 is started, the heating rod 350 can heat the joint of the first cloth 11A and the second cloth 11B to perform hot melt bonding, and the heating rod 350 is disposed on the lower surface of the die structure 310 and the upper surface of the bottom die structure 320, so that the first cloth 11A and the second cloth 11B can be pressed and heated up and down to bond the first cloth 11A and the second cloth 11B into the polyester fiber garment 20 (not shown in fig. 2). In this embodiment, the heating rod 350 disposed on the die structure 310 and used for the hot-melt collar is placed in a different shape from the heating rod 350 disposed on the bottom die structure 320 and used for the hot-melt collar, wherein the heating rod 350 disposed on the die structure 310 and used for the hot-melt collar is slightly smaller than the heating rod 350 disposed on the bottom die structure 320 and used for the hot-melt collar, and the heating rod 350 is independently hot-melted for the collar, the cuffs and the hem.

With continued reference to fig. 3, fig. 3 illustrates an embodiment of the present utility model. In this embodiment, the heating rod 350 is disposed on the front and back sides of the seam of the short sleeve garment, so that the first cloth 11A (not shown in fig. 3) and the second cloth 11B (not shown in fig. 3) are required to be overlapped and then conveyed onto the bottom mold structure 320 (not shown in fig. 3), and the first cloth 11A (not shown in fig. 3) and the second cloth 11B (not shown in fig. 3) clamp the iron sheet mold 340 between the cloths, and when the die mold structure 310 is pressed down onto the bottom mold structure 320 (not shown in fig. 3), the polyester fiber garment 20 can be manufactured by performing heat fusion bonding according to the position of the heating rod 350.

The conventional garment processing process is complicated and needs sewing and stitching through a sewing thread, so that the sewing thread and the heel checking finishing are needed, the garment processing efficiency is poor, the manufacturing efficiency and the delivery time can be influenced when a large number of garments are manufactured, the garment is easy to take off by using the sewing thread, and the damage to a plurality of parts of the garment can be caused by taking off the sewing thread.

The first cloth 11A and the second cloth 11B are thermally fused by a mode similar to a stamping die, the first cloth 11A and the second cloth 11B are sent to a bottom die structure 320 of a die plate device 300 by a conveying belt 200, a part needing to keep space is separated by an iron sheet die plate 340, the first cloth 11A and the second cloth 11B are pressed by a die structure 310 when the die structure 320 is pressed down, the first cloth 11A and the second cloth 11B are thermally fused by a heating rod 350 arranged at a position conforming to the shape of a garment, and after the heating, the die structure 310 is lifted back to the original position by a pneumatic rod 330, so that the polyester fiber garment 20 after the thermal fusion is taken out.

The present utility model is a breakthrough in that it shows different features from the prior art in terms of purpose, means and effect. It should be noted, however, that the above-mentioned embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the scope of the utility model. Modifications and variations may be made to the disclosed embodiments by those skilled in the art without departing from the principles and spirit of the utility model. The protection scope of the present utility model is as set forth in the claims that follow.

The above embodiments are for convenience of description only, and modifications may be made by those skilled in the art without departing from the scope of the invention as claimed.

Claims (5)

1. A stamping and hot-melt garment apparatus, characterized by stamping and hot-melt at least one polyester fiber garment, the stamping and hot-melt garment apparatus comprising:

A base;

The conveying belt is connected with the base and is arranged on the base;

a first cloth and a second cloth are arranged on the conveyer belt; and

A template device, with the base is connected, set up in the tail end of conveyer belt, the template device includes:

a die structure arranged above the template device;

a bottom die structure arranged below the die structure;

The air pressure rods penetrate through the stamping die structure and the bottom die structure, and enable the stamping die structure to be pressed down onto the bottom die structure;

The iron sheet template is connected with the bottom die structure and is clamped between the first cloth and the second cloth; and

And the heating rods are arranged on the surfaces of the stamping die structure, the bottom die structure and the iron sheet template, and are used for carrying out up-and-down thermal fusion bonding on the first cloth and the second cloth to form the polyester fiber garment.

2. The apparatus according to claim 1, wherein the conveyor belt moves the first cloth and the second cloth to the inside of the die plate device, and the first cloth is conveyed to the upper side of the iron plate die plate, and the second cloth is conveyed to the lower side of the iron plate die plate.

3. The apparatus according to claim 1, wherein the die plate device heat-melts the first cloth and the second cloth in a vertically nip manner.

4. The stamping and hot-melting clothes-making apparatus of claim 1 wherein the heating rod is heated by electrical heating.

5. The apparatus of claim 1, wherein the first cloth and the second cloth are 100% polyester fiber cloth.