CN115976782B - Ironing device, three-point fabric ironing method and three-point fabric automatic production equipment - Google Patents

Abstract

The invention relates to a ironing and folding device, a three-point fabric ironing and folding method and automatic three-point fabric production equipment. The ironing and folding device comprises a workbench, a lower die mechanism, an upper die mechanism and a shoveling and folding mechanism. The edge of the workbench is provided with a hot folding station. The ironing station inwards concave from the edge to form a triangular forming groove. The lower die mechanism comprises a lower die driving part and a pressing part. The upper surface of the lower die component is triangular, and the pressing component is embedded in the triangular forming groove. The lower die driving part is used for driving the pressing part to lift. The upper die mechanism comprises an upper die driving part and an upper die pressing plate. The upper die pressing plate is of a triangular structure. The upper die driving part is used for driving the upper die pressing plate to be pressed on the lower die part or reset. The shovel folding mechanism comprises a shovel folding driving part and a shovel folding plate. The edge of the shovel folded plate of the shovel folding driving part is inwards concave to form a triangular shovel folding groove, and the shovel folding driving part is used for driving the shovel folded plate to extend or reset towards the ironing station. The ironing device can reduce labor cost and improve production efficiency.

Description

Ironing device, three-point fabric ironing method and three-point fabric automatic production equipment

Technical Field

The invention relates to the technical field of textile machinery equipment, in particular to a ironing and folding device, a three-point fabric ironing and folding method and three-point fabric automatic production equipment.

Background

In the production process of clothing, it is necessary to produce a three-point fabric which is formed by folding square cut pieces and has a triangular shape. At present, the production of three-point fabrics needs to manually fold square cut pieces, and then the folded fabrics are put into a pressing machine to be respectively pressed into two folding lines, so that the forming and shaping of the fabrics are realized. However, the traditional manual production mode has high labor cost and lower production efficiency.

Disclosure of Invention

Based on the above, it is necessary to provide a ironing device, a three-point fabric ironing method and an automatic three-point fabric production device, so as to reduce labor cost and improve production efficiency.

A ironing device comprising:

The device comprises a workbench, a pressing and folding station and a pressing and folding device, wherein the edge of the workbench is provided with the pressing and folding station, and the pressing and folding station inwards concave from the edge to form a triangular forming groove;

the lower die mechanism comprises a lower die driving part and a pressing part, the upper surface of the pressing part is triangular, the size of the triangular forming groove is matched with that of the pressing part, the pressing part is embedded in the triangular forming groove, and the lower die driving part is used for driving the pressing part to lift;

The upper die driving part is used for driving the upper die pressing plate to be pressed on the upper surface of the pressing part or reset; and

The shovel folding mechanism is arranged on the workbench and comprises a shovel folding driving part and a shovel folding plate, the shovel folding plate faces towards one end of the ironing station to form a triangular shovel folding groove in a concave mode, the size of the triangular shovel folding groove is matched with that of the triangular forming groove, and the shovel folding driving part drives the shovel folding plate to extend or reset towards the ironing station.

In one embodiment, the pressing component comprises a pressing element, and a heating element, wherein the upper surface of the pressing element forms the upper surface of the pressing component, and the heating element is used for heating the pressing element.

In one embodiment, the upper die driving part comprises an upper die lifting driver and an upper die translation driver which are connected, wherein the upper die lifting driver is used for driving the upper die pressing plate to lift, and the upper die translation driver is used for driving the upper die pressing plate to translate.

In one embodiment, the shovel folded plate and the upper die pressing plate are respectively arranged on two opposite sides of the ironing station, the upper die translation driver is used for driving the upper die pressing plate to move along a first direction, and the shovel folded driving component is used for driving the shovel folded plate to move along the first direction.

In one embodiment, the upper die lifting driver is a cylinder.

In one embodiment, the upper die translation actuator is a cylinder.

In one embodiment, the lower die driving part is a cylinder.

In one embodiment, the shovel fold driving component is a cylinder.

The method for ironing and folding the three-point fabric by using the ironing and folding device of any embodiment, the method for ironing and folding the three-point fabric comprises the following steps:

Placing the cut pieces to be processed in the ironing station;

controlling the upper die driving part to drive the upper die pressing plate to act so as to press the upper die pressing plate on the to-be-processed cutting piece on the pressing part;

controlling the shoveling and folding driving part to drive the shoveling and folding plate to extend so as to shovel and fold the part of the cut piece to be processed, which is not pressed by the upper die pressing plate, to obtain a folded cut piece;

Controlling the upper die driving part to drive the upper die pressing plate to reset;

controlling the lower die driving part to drive the pressing part to ascend so as to clamp the folded cut piece between the pressing part and the shovel folded plate;

And carrying out pressing on the folding cut pieces through the pressing component to obtain the tricuspid fabric.

The automatic production equipment for the three-point fabric is characterized by comprising a feeding device and the ironing and folding device in any embodiment, wherein the feeding device is used for conveying cut pieces to be processed to the ironing and folding station.

In one embodiment, the feeding device comprises a guiding and conveying component, a pressing driving component and a pressing component, wherein the guiding and conveying component is arranged on the workbench, the pressing driving component is arranged on the guiding and conveying component and can move along the guiding and conveying component, and the pressing driving component is connected with the pressing component and is used for driving the pressing component to press on the to-be-processed cut piece.

In one embodiment, the lower end of the pressing part is in a sawtooth structure.

Compared with the traditional scheme, the ironing device, the three-point fabric ironing method and the three-point fabric automatic production equipment have the following beneficial effects:

when the ironing and folding device is used for producing the three-point fabric, the working steps are as follows:

And placing the cut pieces to be processed in a ironing station, wherein the cut pieces to be processed cover the triangular forming groove and the ironing component embedded in the triangular forming groove. And then controlling the upper die driving part to drive the upper die pressing plate to act, so that the upper die pressing plate presses the cut pieces to be processed on the pressing part. The pressing member is suitably lowered under the pressure of the upper die plate at this time. And then controlling the shovel folding driving part to drive the shovel folding plate to extend so as to shovel and fold the part of the cut piece to be processed which is not pressed by the upper die pressing plate, thereby obtaining the folded cut piece. The upper die driving part is controlled to drive the upper die pressing plate to reset, and the lower die driving part is controlled to drive the pressing part to ascend so as to clamp the folded cut piece between the pressing part and the shovel folded plate. And (3) pressing the folding cut pieces through a pressing part to obtain the three-point fabric.

The ironing device can automatically complete folding forming and ironing shaping of the three-point fabric, the quality of the produced three-point fabric is superior, the labor cost can be reduced, and the production efficiency is improved.

The automatic three-point fabric production equipment is provided with the ironing and folding device in any embodiment, so that corresponding technical effects can be obtained. The automatic production equipment for the three-point fabric further comprises a feeding device, wherein the feeding device is used for conveying the cut pieces to be processed to the ironing and folding station, and the automatic feeding function can be realized.

Drawings

FIG. 1 is a schematic structural view of a ironing device according to an embodiment;

FIG. 2 is a schematic view of the ironing device shown in FIG. 1 from another view;

FIG. 3 is a schematic structural view of an automatic three-point fabric production apparatus including the ironing device shown in FIG. 1;

FIG. 4 is a schematic view of the three-point fabric automatic production apparatus of FIG. 3 from another perspective;

FIG. 5 is a top view of the automated three-point fabric manufacturing apparatus of FIG. 3;

FIG. 6 is a schematic view of the structure of the dividing device in the automatic three-point fabric production apparatus shown in FIG. 3;

FIG. 7 is a schematic view of a pressing mechanism of the singulation apparatus of FIG. 6;

FIG. 8 is a schematic view of a fusing mechanism in the singulation apparatus of FIG. 6;

FIG. 9 is a schematic view of the structure of a feeding device in the automatic three-point fabric production equipment shown in FIG. 3;

fig. 10 is a schematic view of a structure of another view of the feeding device shown in fig. 9.

Reference numerals illustrate:

100. A ironing and folding device; 120. a work table; 121. a ironing station; 1212. a triangular forming groove; 122. a relief hole; 130. a lower die mechanism; 131. a lower die driving part; 132. a pressing part; 1321. a pressing member; 1322. a heat generating member; 140. an upper die mechanism; 141. an upper die driving part; 1411. an upper die lifting driver; 1412. an upper die translation driver; 142. an upper die pressing plate; 150. a shoveling and folding mechanism; 151. a shovel fold driving part; 152. a shovel folded plate; 1521. triangular shovel folding grooves; 10. automatic production equipment for three-point fabrics; 200. a feeding device; 210. a guide conveying member; 211. a guide rail; 212. a slide block; 213. a conveying motor; 220. pressing down the driving part; 230. a pressing part; 231. a second protrusion; 232. triangle abdicating groove; 300. a base; 400. a dividing device; 420. a limiting mechanism; 421. a limit groove; 422. a compaction hole; 423. a first side position; 424. a second side position; 430. a compressing mechanism; 431. a first lifting member; 432. a pressing member; 4321. a first protrusion; 440. a fusing mechanism; 441. a second elevating member; 442. a heat generating component; 4421. an insulating base; 4422. a positive electrode conductive rod; 4423. a negative electrode conductive rod; 4424. a heating strip; 500. and a storage device.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

In the description of the present invention, it should be understood that the terms "first" and "second" are used for descriptive purposes only and are not to be interpreted as indicating or implying a relative importance or order of such features.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, an ironing device 100 of an embodiment includes a workbench 120, a lower die mechanism 130, an upper die mechanism 140 and a shoveling mechanism 150.

The edge of the table 120 has a ironing station 121. The ironing station 121 forms a triangular shaped molding slot 1212 from the edge concave inward.

The lower die mechanism 130 includes a lower die driving part 131 and a pressing part 132. The upper surface of the pressing part 132 is triangular, the size of which is matched with that of the triangular forming groove 1212, and the pressing part 132 is embedded in the triangular forming groove 1212. The lower die driving part 131 is used for driving the pressing part 132 to lift.

The upper die mechanism 140 includes an upper die driving part 141 and an upper die pressing plate 142. The upper die plate 142 has a triangular configuration that matches the size of the triangular shaped molding slot 1212. The upper mold driving part 141 is used for driving the upper mold plate 142 to be pressed against the upper surface of the pressing part 132 or reset.

The folding shovel mechanism 150 is provided on the table 120. The shovel fold mechanism 150 includes a shovel fold driving member 151 and a shovel fold 152. The shovel folding driving part 151 is connected to the shovel folding plate 152, so as to drive the shovel folding plate 152 to extend or reset towards the ironing station 121, and one end of the shovel folding plate 152 facing the ironing station 121 is concavely provided with a triangular shovel folding groove 1521, and the size of the triangular shovel folding groove 1521 is matched with that of the triangular forming groove 1212.

When the ironing device 100 is used for producing the three-point fabric, the working steps are as follows:

The cut-parts to be processed are placed in the ironing station 121, and at this time, the cut-parts to be processed cover the triangular molding groove 1212 and the ironing member 132 embedded in the triangular molding groove 1212. The upper die driving part 141 is controlled to drive the upper die pressing plate 142 to act, so that the upper die pressing plate 142 presses the cut pieces to be processed on the pressing part 132. The pressing member 132 is suitably lowered under the pressure of the upper die platen 142 at this time. And then the shovel folding driving part 151 is controlled to drive the shovel folding plate 152 to extend so as to shovel and fold the part of the cut piece to be processed, which is not pressed by the upper die pressing plate 142, so as to obtain the folded cut piece. The upper die driving part 141 is controlled to drive the upper die pressing plate 142 to reset, and the lower die driving part 131 is controlled to drive the pressing part 132 to rise so as to clamp the folded cut piece between the pressing part 132 and the shovel flap 152. The folded cut pieces are pressed by the pressing part 132 to obtain a tricuspid fabric.

The ironing device 100 can automatically complete the folding forming and the ironing shaping of the three-point fabric, and the quality of the produced three-point fabric is superior, so that the labor cost can be reduced, and the production efficiency can be improved.

In one example, the pressing member 132 includes a pressing member 1321 and a heat generating member 1322. The upper surface of the pressing member 1321 forms the upper surface of the pressing member 132, and the heating member 1322 is used for heating the pressing member 1321.

The lower die driving part 131 and the shovel driving part 151 may be, but not limited to, cylinders.

In one example, upper die drive member 141 includes upper die lifting drive 1411 and upper die translation drive 1412. The upper die lifting/lowering drive 1411 is connected to the upper die translation drive 1412 to cooperatively drive the upper die platen 142. The upper die lifting/lowering driver 1411 is used to lift and lower the upper die platen 142, and the upper die translation driver 1412 is used to translate, i.e., move in the horizontal direction, the upper die platen 142.

In one example, the tucker flap 152 and the upper die platen 142 are disposed on opposite sides of the tucker station 121, respectively. The upper die translation driver 1412 is configured to drive the upper die platen 142 in a first direction, and the shovel fold driving part 151 is configured to drive the shovel fold 152 in the first direction.

Upper die lifting drive 1411 and upper die translation drive 1412 may be, but are not limited to, air cylinders.

Further, the present invention also provides a method for ironing a three-point fabric, which uses the ironing device 100 of any one of the above examples.

The method for ironing and folding the three-point fabric in one embodiment comprises the following steps:

Placing the cut pieces to be processed in the ironing station 121 of the upper die pressing plate 142;

The upper die driving part 141 of the upper die pressing plate 142 is controlled to drive the upper die pressing plate 142 of the upper die pressing plate 142 to act so as to enable the upper die pressing plate 142 to press the upper die pressing plate 142 on the upper die pressing plate 142 pressing part 132 to process the cut pieces;

Controlling the upper die pressing plate 142 shoveling and folding driving component 151 to drive the upper die pressing plate 142 shoveling and folding plate 152 to extend so as to shoveling and folding the part, which is not pressed by the upper die pressing plate 142 of the upper die pressing plate 142, of the cut piece to be processed of the upper die pressing plate 142, so that a folded cut piece is obtained;

the upper die driving part 141 of the upper die pressing plate 142 is controlled to drive the upper die pressing plate 142 to reset;

The upper die plate 142 lower die driving part 131 is controlled to drive the upper die plate 142 pressing part 132 to rise so as to clamp the upper die plate 142 folding cut piece between the upper die plate 142 pressing part 132 and the upper die plate 142 shovel folded plate 152;

The upper die pressing plate 142 folding cut pieces are pressed and ironed through the upper die pressing plate 142 pressing part 132, and the tricuspid fabric is obtained.

Referring to fig. 3 to 5, the present invention further provides an automatic three-point fabric production apparatus 10, which includes a feeding device 200 and the ironing and folding device 100 according to any of the foregoing embodiments. The feeding device 200 is used for conveying the cut pieces to be processed to the ironing station 121.

The automatic three-point fabric producing apparatus 10 has the ironing device 100 according to any of the embodiments described above, and thus can obtain the corresponding technical effects. The automatic production equipment 10 for three-point fabrics further comprises a feeding device 200, which is used for conveying the cut pieces to be processed to the ironing and folding station 121, so that an automatic feeding function can be realized.

In one example, the triple-point automatic fabric producing apparatus 10 further includes a base 300, and the ironing device 100 is disposed on the base 300.

Referring further to fig. 6-8, in one example, the automated three-point fabric manufacturing apparatus 10 further includes a dividing device 400 for dividing the webbing into sections to obtain cut-pieces to be processed.

The singulation device 400 includes a spacing mechanism 420, a compaction mechanism 430 and a fusing mechanism 440.

Wherein, the limiting mechanism 420 is disposed on the workbench 120. The limiting mechanism 420 is provided with a limiting groove 421 on a side facing the workbench 120. The limiting groove 421 is used for passing through the webbing and limiting the webbing. In addition, the limiting mechanism 420 is further provided with a pressing hole 422, and the pressing hole 422 is communicated with the limiting groove 421.

The pressing mechanism 430 includes a first elevating member 431 and a pressing member 432. Wherein the first elevating member 431 is disposed on the base 300. The first lifting member 431 is connected to the pressing member 432 for driving the pressing member 432 to lift. The pressing member 432 passes through the pressing hole 422 after being lowered, and is pressed against the webbing in the limiting groove 421.

The fusing mechanism 440 is located downstream of the stop mechanism 420 in the direction of travel of the webbing. The fusing mechanism 440 includes a second elevating member 441 and a heat generating member 442. Wherein the second elevating member 441 is disposed on the base 300. The second lifting member 441 is connected to the heat generating member 442 for driving the heat generating member 442 to lift. The heat generating component 442 rises to contact the webbing and thereby fuse the webbing.

When the above-mentioned dividing device 400 divides the webbing, the webbing is introduced into the limiting groove 421, and then the first lifting member 431 is controlled to drive the pressing member 432 to descend through the pressing hole 422 and press the webbing in the limiting groove 421. In this manner, the webbing is straightened under traction and pressure from the hold-down 432. Then, the second elevating member 441 is controlled to drive the heat generating member 442 to ascend and contact the webbing, thereby fusing the webbing. The splitting device 400 in the above example splits the webbing by fusing, so that the webbing can be prevented from being scattered.

In one example, the spacing mechanism 420 includes a first leg 423 and a second leg 424, with the first leg 423 and the second leg 424 being disposed opposite one another. The first side 423 is provided with a first side groove facing the workbench 120, the second side 424 is provided with a second side groove facing the workbench 120, and the first side groove and the second side groove are matched to form a limit groove 421.

The first side portion 423 and the second side portion 424 cooperate to restrain the webbing so that the webbing can only move in the extending direction of the limit groove 421, and the webbing is kept under a certain tension when the webbing is moved by friction between the webbing and the side portions.

Further, the position of at least one of the first side position 423 and the second side position 424 on the table 120 is adjustable. Thus, the distance between the first side portion 423 and the second side portion 424 is adjustable, so that the width of the limiting groove 421 is adjustable to adapt to various webbings with different widths.

The position-adjustable attachment means is, for example, a screw connection with the table 120. Specifically, corresponding waist-shaped holes can be formed on the side position and the workbench 120 respectively, and then bolts are used to penetrate through the waist-shaped holes for connection.

As shown, in one example, the lower end of the hold down 432 is a saw tooth structure to provide friction against the webbing. More specifically, the pressing member 432 is provided at a lower end thereof with a plurality of first protrusions 4321 arranged at intervals. Further, the arrangement direction of the plurality of protrusions is perpendicular to the extending direction of the limiting groove 421.

In one example, the first elevating member 431 is a cylinder.

As shown, in one example, the heat generating component 442 includes an insulating base 4421, a positive electrode collector bar 4422, a negative electrode collector bar 4423, and a heat generating strip 4424. The insulating base 4421 is connected to the second elevating member 441. The positive electrode collector bar 4422 and the negative electrode collector bar 4423 are disposed opposite to and spaced apart from each other on the insulating base 4421. Both ends of the heat-generating strip 4424 are connected to the positive electrode collector bar 4422 and the negative electrode collector bar 4423, respectively. After the positive electrode collector bar 4422 and the negative electrode collector bar 4423 are powered on, the heat-generating strip 4424 generates heat.

In one example, the workbench 120 is provided with a yielding hole 122, and the second lifting component 441 is used for driving the heat generating component 442 to ascend through the yielding hole 122 and contact with the webbing. In this example, the second elevating member 441 is mounted on the base 300.

In one example, the second elevating member 441 is a cylinder.

In one example, the triple-point fabric automatic production apparatus 10 further includes a storage device 500, where the storage device 500 employs a roll rack, for example, for placing rolls.

As shown in fig. 9 and 10, in one example, the feeding device 200 includes a guide conveying member 210, a pressing driving member 220, and a pressing member 230. The guide and conveying part 210 is disposed on the table 120, and the pressing driving part 220 is disposed on the guide and conveying part 210 and is movable along the guide and conveying part 210, and the pressing driving part 220 is connected to the pressing part 230 for driving the pressing part 230 to press down.

In one example, the guide and transport unit 210 includes a guide rail 211, a slider 212, and a transport motor 213, the slider 212 being provided on the guide rail 211 for connection with the push-down driving unit 220, and the transport motor 213 for driving the slider 212 to move on the guide rail 211.

In one example, the conveying direction of the guide conveying member 210 is the second direction, i.e., the push-down driving member 220 moves on the guide conveying member 210 in the second direction. The second direction is a horizontal direction and is perpendicular to the first direction.

As shown, in one example, the lower end of the nip 230 is a saw tooth configuration to enhance the friction against the panel. More specifically, the lower end of the pressing member 230 is provided with a plurality of second protrusions 231 arranged at intervals, and the arrangement direction of the plurality of second protrusions 231 is the same as the conveying direction of the guide conveying member 210.

As shown, in one example, the press 230 is provided with a triangular relief groove 232, the triangular relief groove 232 being sized to match the triangular forming groove 1212 to avoid the two-step positioning mechanism from interfering or requiring repositioning to cause the cut pieces to deflect during the handoff.

Taking the three-point fabric automatic production apparatus 10 as an example of the specific example illustrated, the workflow thereof is as follows:

the webbing is led out from the material roll on the material storage device 500, and the webbing is pulled by the feeding device 200 through the limit groove 421 of the limit mechanism 420.

The first lifting member 431 drives the pressing member 432 to descend through the pressing hole 422 and press the fabric tape in the limiting groove 421. The second lifting member 441 drives the heating member 442 to lift and contact the webbing, thereby fusing the webbing to obtain a cut-piece to be processed.

The feeding device 200 then conveys the cut-parts to be processed to the ironing station 121 on the workbench 120, and at this time, the cut-parts to be processed cover the triangular molding groove 1212 and the ironing member 132 embedded in the triangular molding groove 1212.

The upper die driving part 141 drives the upper die pressing plate 142 to act, so that the upper die pressing plate 142 presses the cut pieces to be processed on the pressing part 132. The pressing member 132 is suitably lowered under the pressure of the upper die platen 142 at this time.

The shovel folding driving part 151 drives the shovel folding plate 152 to extend so as to shovel and fold the part of the cut piece to be processed which is not pressed by the upper die pressing plate 142, thereby obtaining a folded cut piece.

The upper die driving part 141 drives the upper die pressing plate 142 to be reset and drawn out, and the lower die driving part 131 drives the pressing part 132 to be lifted up so as to clamp the folded cut piece between the pressing part 132 and the shovel flap 152. The ironing part 132 is used for ironing the folded cut pieces to obtain the three-point fabric.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A ironing device, comprising:

The device comprises a workbench, a pressing and folding station and a pressing and folding device, wherein the edge of the workbench is provided with the pressing and folding station, and the pressing and folding station inwards concave from the edge to form a triangular forming groove;

the lower die mechanism comprises a lower die driving part and a pressing part, the upper surface of the pressing part is triangular, the size of the triangular forming groove is matched with that of the pressing part, the pressing part is embedded in the triangular forming groove, and the lower die driving part is used for driving the pressing part to lift;

The upper die driving part is used for driving the upper die pressing plate to be pressed on the upper surface of the pressing part or reset; and

The shovel folding mechanism is arranged on the workbench and comprises a shovel folding driving part and a shovel folding plate, the shovel folding plate faces towards one end of the ironing station to form a triangular shovel folding groove in a concave mode, the size of the triangular shovel folding groove is matched with that of the triangular forming groove, and the shovel folding driving part drives the shovel folding plate to extend or reset towards the ironing station.

2. The ironing apparatus as recited in claim 1, wherein the pressing member includes a pressing member, an upper surface of which constitutes an upper surface of the pressing member, and a heat generating member for heating the pressing member.

3. The ironing apparatus of claim 1, wherein the upper die drive means comprises an upper die lifting drive and an upper die translation drive connected, the upper die lifting drive being for driving the upper die platen to lift and the upper die translation drive being for driving the upper die platen to translate.

4. A ironing device as claimed in claim 3, characterized in that the shovel flap and the upper die press plate are respectively arranged on opposite sides of the ironing station, the upper die translation driver is used for driving the upper die press plate to move along a first direction, and the shovel flap driving component is used for driving the shovel flap to move along the first direction.

5. A ironing device as claimed in claim 3, characterized in that the upper die lifting drive and/or the upper die translation drive are/is a cylinder.

6. The ironing device according to any one of claims 1-5, characterized in that the lower die driving means and/or the turnout driving means are air cylinders.

7. A method for ironing a tricuspid fabric, characterized in that it comprises the steps of:

Placing the cut pieces to be processed in the ironing station;

controlling the upper die driving part to drive the upper die pressing plate to act so as to press the upper die pressing plate on the to-be-processed cutting piece on the pressing part;

controlling the shoveling and folding driving part to drive the shoveling and folding plate to extend so as to shovel and fold the part of the cut piece to be processed, which is not pressed by the upper die pressing plate, to obtain a folded cut piece;

Controlling the upper die driving part to drive the upper die pressing plate to reset;

controlling the lower die driving part to drive the pressing part to ascend so as to clamp the folded cut piece between the pressing part and the shovel folded plate;

And carrying out pressing on the folding cut pieces through the pressing component to obtain the tricuspid fabric.

8. An automatic production device for three-point fabrics, which is characterized by comprising a feeding device and the ironing and folding device according to any one of claims 1-6, wherein the feeding device is used for conveying cut pieces to be processed to the ironing and folding station.

9. The automated three-point fabric production apparatus of claim 8, wherein the feeding device comprises a guide conveying member, a pressing driving member, and a pressing member, the guide conveying member is disposed on the table, the pressing driving member is disposed on the guide conveying member and is movable along the guide conveying member, and the pressing driving member is connected to the pressing member for driving the pressing member to press down on the cut piece to be processed.

10. The automated three-point fabric production device of claim 9, wherein the lower end of the nip member is a saw tooth structure.