CN110574984B - Ironing cylinder equipment and ironing cylinder method - Google Patents

Abstract

The invention relates to a cylinder ironing device and a cylinder ironing method, wherein a cylinder strip cutting piece is folded through a folding device, the cylinder strip cutting piece and a shirt body cutting piece paved on the cylinder strip cutting piece are transferred to a cylinder ironing area to be subjected to compression ironing and bonding through synchronous movement of a compression ironing mechanism provided with a first air suction hole and a compression conveying mechanism, and then the compression conveying mechanism conveys the compression-ironing bonded cutting piece to a material receiving area, so that the automation degree of a cylinder ironing process is improved, material is conveniently received piece by piece, and the requirement of single piece flow in production is met.

Description

Ironing cylinder equipment and ironing cylinder method

Technical Field

The invention relates to the field of textile machinery equipment, in particular to a cylinder ironing device and a cylinder ironing method.

Background

As shown in fig. 1, in the ironing process of the front panel of the shirt, the button gate strip cut-off piece 1 needs to be folded, then the shirt body cut-off piece 2 is paved on the folded button gate strip cut-off piece 1, one side of the shirt body cut-off piece 2 is aligned with the button gate strip cut-off piece 1, the other side of the shirt body cut-off piece 2 is paved on the platform, and an adhesive tape is arranged between the button gate strip cut-off piece 1 and the shirt body cut-off piece 2, and the button gate strip cut-off piece 1 and the shirt body cut-off piece 2 are glued together by pressing. At present, the ironing process is more in manual operation, and the material receiving mode is a whole stack of material receiving mode, which does not meet the requirement of single piece flow in production.

Disclosure of Invention

Based on this, it is necessary to provide a cylinder ironing device and a cylinder ironing method, so as to solve the problems that the current cylinder ironing process has more manual operations, and the material receiving mode is a whole stack of material receiving, which does not meet the requirement of single piece flow in production.

The ironing cylinder equipment is used for carrying out ironing bonding on a cylinder strip cut piece and a shirt body cut piece and comprises a machine base, a folding device and an ironing receiving device, wherein the folding device and the ironing receiving device are arranged on the machine base;

the table top of the machine seat sequentially comprises a folding area, a pressing area and a material receiving area from the upstream to the downstream in the feeding direction, wherein the folding device is arranged on the folding area and is used for folding two sides of the cut piece of the tubular strip to obtain a folding tubular strip;

the pressing and collecting device comprises a pressing and collecting driving mechanism, a pressing mechanism and a pressing and conveying mechanism, wherein the pressing and collecting mechanism and the pressing and conveying mechanism are respectively connected with the pressing and collecting driving mechanism; the lower side of the pressing mechanism is provided with first air suction holes, the pressing and collecting driving mechanism can drive the pressing mechanism to act so as to absorb the overlapped part of the overlapped cut pieces obtained by overlapping the folded cut pieces and the shirt body cut pieces, the pressing and collecting driving mechanism can also drive the pressing and conveying mechanism to act so as to press the non-overlapped part of the shirt body cut pieces, the pressing and collecting driving mechanism can also drive the pressing mechanism and the pressing and conveying mechanism to synchronously move so as to transfer the overlapped cut pieces from the folding area to the pressing area, the pressing and collecting driving mechanism can also drive the pressing mechanism to press the overlapped part of the overlapped cut pieces to obtain the glued cut pieces, and the pressing and collecting driving mechanism can also drive the pressing and conveying mechanism to move so as to transfer the glued cut pieces from the pressing and collecting area to the collecting area.

In one embodiment, the ironing mechanism is disposed upstream of the nip mechanism in the feed direction.

In one embodiment, the pressing and receiving driving mechanism comprises a transfer driving part, a pressing driving part and a pressing and conveying driving part; the transfer driving part is connected with the pressing mechanism, the pressing driving part and the pressing driving part, the transfer driving part is used for driving the pressing mechanism, the pressing driving part and the pressing driving part to synchronously transfer from the folding area to the pressing area and from the pressing area to the receiving area, the pressing driving part is connected with the pressing mechanism for driving the pressing mechanism to ascend or descend, and the pressing driving part is connected with the pressing mechanism for driving the pressing mechanism to ascend or descend.

In one embodiment, the stand is provided with a guiding mechanism, the guiding mechanism extends along the feeding direction, and the pressing mechanism is movably connected to the guiding mechanism.

In one embodiment, the guiding mechanism comprises at least two sets of guide rails which are arranged in parallel, a sliding block which is connected with the guide rails in a sliding way and a mounting plate, two ends of the mounting plate are respectively connected with the two sliding blocks, the ironing driving part is arranged above the mounting plate, the ironing mechanism is arranged below the mounting plate, and a driving shaft of the ironing driving part penetrates through the mounting plate and is connected with the ironing mechanism.

In one embodiment, the guiding mechanism further comprises a connecting plate, the connecting plate is connected with the mounting plate, the pressure feeding driving component is arranged above the connecting plate, the pressure feeding mechanism is arranged below the connecting plate, and a driving shaft of the pressure feeding driving component penetrates through the connecting plate and is connected with the pressure feeding mechanism.

In one embodiment, a support frame is erected above the material receiving area, the transfer driving part is arranged on the support frame, the transfer driving part is a telescopic cylinder, and a telescopic shaft of the transfer driving part can extend out along the opposite direction of the feeding direction.

In one embodiment, the mounting plate and the connecting plate are connected by a fixing member to which an end of the telescopic shaft of the transfer drive member is connected.

In one embodiment, the folding device comprises an air suction panel, a first shovel folded plate and a second shovel folded plate, wherein the air suction panel is provided with second air suction holes, the first shovel folded plate and the second shovel folded plate are respectively and movably connected to two opposite sides of the air suction panel, and the first shovel folded plate and the second shovel folded plate can extend out or reset towards the air suction panel.

In one embodiment, the air suction panel is long, the lower bottom surface of the pressing mechanism is long, the length extending direction of the air suction panel is consistent with the length extending direction of the lower bottom surface of the pressing mechanism, and the air suction panel is parallel to the lower side surface of the pressing mechanism.

A method of ironing a can using the ironing can apparatus of any of the preceding embodiments, the method comprising the steps of:

the cut pieces of the barrel strip are placed on the folding device to be folded to obtain a folding barrel strip, and the cut pieces of the shirt body are paved on the folding barrel strip to obtain overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing mechanism to act and absorb the overlapped part of the overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing and conveying mechanism to act and presses the non-overlapped part of the shirt body cut pieces on the overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing mechanism and the pressing and conveying mechanism to synchronously move, so that the overlapped cut pieces are transferred from the folding area to the pressing area;

the pressing and collecting driving mechanism drives the pressing mechanism to press and glue the overlapped parts of the overlapped cut pieces to obtain glued cut pieces;

the pressing and collecting driving mechanism drives the pressing and conveying mechanism to move, and the glued cut pieces are transferred from the pressing area to the collecting area.

Compared with the prior art, the cylinder ironing equipment and the cylinder ironing method have the following beneficial effects:

according to the ironing cylinder equipment and the ironing cylinder method, the cylinder strip cut pieces are folded through the folding device, the cylinder strip cut pieces and the shirt body cut pieces paved on the cylinder strip cut pieces are transferred to the ironing area to be subjected to ironing bonding through the ironing mechanism with the first air suction holes and the pressing mechanism to perform synchronous movement, and then the pressing mechanism sends the pressed bonded cut pieces to the receiving area, so that the automation degree of the ironing cylinder procedure is improved, the receiving is convenient, and the requirement of single piece flow in production is met.

Drawings

FIG. 1 is a schematic illustration of a press bonding of a button top strip panel and a body panel in a front panel ironing process;

fig. 2 is a schematic structural view of a ironing pot apparatus according to an embodiment;

FIG. 3 is a schematic view of the ironing base assembly of FIG. 2 from another perspective;

fig. 4 is a schematic structural view of a pressing and collecting device in the pressing cylinder device shown in fig. 2;

fig. 5 is a schematic structural view of the ironing pot apparatus shown in fig. 2 from another view angle.

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.

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. 2 to 5, the present invention provides a ironing device 10 for pressing and bonding a strip cut piece and a shirt body cut piece.

The ironing cylinder device 10 comprises a machine base 100, a folding device 200 and an ironing receiving device 300, wherein the folding device 200 and the ironing receiving device 300 are arranged on the machine base 100.

The table top of the stand 100 sequentially comprises a folding area 110, a ironing area 120 and a material receiving area 130 from upstream to downstream in the feeding direction. Folding device 200 is disposed over folding region 110. The folding device 200 is used for folding both sides of the cut piece of the bobbin to obtain a folded bobbin.

The laying mode is shown in fig. 1, one side of the cut-parts of the shirt body is aligned with the folding barrel strip, and the other side of the cut-parts of the shirt body is laid on one side of the folding barrel strip, which is close to the ironing area 120. An adhesive tape is arranged between the folding barrel strip and the shirt body cut piece, and the adhesive tape can be pre-adhered on the folding barrel strip or the shirt body cut piece.

As shown in fig. 4 and 5, the pressing and receiving device 300 includes a pressing and receiving driving mechanism, a pressing mechanism 310 and a pressing and sending mechanism 320, where the pressing mechanism 310 and the pressing and sending mechanism 320 are respectively connected to the pressing and receiving driving mechanism.

The lower side of the ironing mechanism 310 is provided with first air suction holes 212, and the first air suction holes 212 can suck up the lower cut pieces through air suction.

The pressing and collecting driving mechanism can drive the pressing mechanism 310 to act so as to suck the overlapped part of the overlapped cut pieces obtained by overlapping the cut pieces of the tubular strip and the cut pieces of the shirt body through air suction. The pressing and collecting driving mechanism can also drive the pressing and conveying mechanism 320 to act so as to press the non-overlapped part of the shirt body cut pieces on the overlapped cut pieces. The tucking attachment drive mechanism is also capable of driving the tucking attachment 310 and the tucking attachment 320 to simultaneously transfer from the folding area 110 to the tucking area 120 to transfer overlapping cut pieces from the folding area 110 to the tucking area 120. The pressing and receiving driving mechanism can also drive the pressing mechanism to press and glue the overlapped part of the overlapped cut pieces to obtain glued cut pieces. The ironing and receiving drive mechanism is also capable of driving the nip mechanism 320 to transfer from the ironing zone 120 to the receiving zone 130 to transfer the glued cut pieces from the ironing zone 120 to the receiving zone 130.

The glued cut pieces that are pressed each time are sent to the receiving area 130, and the glued cut pieces can be transferred to the next process step by a manual work or a receiving device.

In one embodiment, the ironing mechanism 310 is disposed upstream of the nip mechanism 320 in the feed direction.

As shown in fig. 1, in one embodiment, folding device 200 includes a suction panel 210, a first scoop flap 220, and a second scoop flap 230. The air suction panel 210 is distributed with second air suction holes 312, and the first shovel flap 220 and the second shovel flap 230 are respectively movably connected to opposite sides of the air suction panel 210, specifically, may be close to or far from the ironing area 120 of the air suction panel 210. When the first shovel flap 220 and the second shovel flap 230 can extend or reset towards the air suction panel 210 and fold, the edges of the two sides of the cut piece of the barrel strip are lapped on the first shovel flap 220 and the second shovel flap 230, the middle part of the cut piece of the barrel strip is laid on the air suction panel 210, the first shovel flap 220 and the second shovel flap 230 extend towards the central line of the air suction panel 210, the two sides of the cut piece of the barrel strip are folded, and the cut piece of the barrel strip is kept in a folded state under the action of air suction. The first and second spade flaps 220, 230 are reset to complete the folding of the can strip cut pieces to obtain a folded can strip.

The upper surface of the suction panel 210 is preferably slightly below the floor of the fold region 110 to facilitate the tucking of the first tucking flap 220 and the second tucking flap 230.

The first shovel flap 220 and the second shovel flap 230 can be driven by the driving member to realize automatic folding, and workers only need to place the barrel strip cut pieces and the shirt body cut pieces, so that the follow-up process can be automatically carried out.

In the illustrated embodiment, the second suction holes 312 on the suction panel 210 are distributed in an array.

The suction panel 210 is elongated to accommodate the shape of the sliver cut pieces. The lower bottom surface of the ironing mechanism 310 is also long, the length extending direction of the air suction panel 210 is consistent with the length extending direction of the lower bottom surface of the ironing mechanism 310, and the air suction panel 210 is parallel to the lower side surface of the ironing mechanism 310.

The ironing mechanism 310 descends to approach the folding device 200, and at this time, the suction panel 210 stops sucking air, and the ironing mechanism 310 sucks the overlapped portion of the overlapped cut pieces through the first suction hole 212. The pressing mechanism 310 is raised to bring the overlapped portion of the overlapped cut pieces away from the suction panel 210. At this point, the pinch mechanism 320 downwardly pinches the non-overlapping portions of the body panel on the overlapping panels. The pressing mechanism 310 and the pressing mechanism 320 then move synchronously to transfer the overlapped cut pieces integrally to the pressing area 120 while remaining in the stacked state.

In one embodiment, the pressing mechanism 310 is a cavity structure having a hollow cavity in communication with the first suction aperture 212. Meanwhile, the pressing mechanism 310 can be heated to raise the temperature, and the lower bottom surface of the heating presses the cut pieces downwards to realize pressing.

As shown in fig. 5, in one embodiment, the first air suction holes 212 on the ironing mechanism 310 are linearly distributed along the length extension direction of the lower bottom surface of the ironing mechanism 310.

Specifically, the pressing and collecting driving mechanism includes a transfer driving part 330, a pressing driving part 340, and a pressing and conveying driving part 350. The transfer driving part 330 is connected to the ironing mechanism 310, the pressing mechanism 320, the ironing driving part 340 and the pressing driving part 350, and the transfer driving part 330 is used for driving the ironing mechanism 310, the pressing mechanism 320, the ironing driving part 340 and the pressing driving part 350 to synchronously transfer from the folding area 110 to the ironing area 120 and synchronously transfer from the ironing area 120 to the receiving area 130. The pressing driving part 340 is connected to the pressing mechanism 310 for driving the pressing mechanism 310 to ascend or descend, and the pressing driving part 350 is connected to the pressing mechanism 320 for driving the pressing mechanism 320 to ascend or descend.

As shown in fig. 4 and 5, in one embodiment, the housing 100 is provided with a guide mechanism extending in the feeding direction. The guide mechanism includes a guide rail 410 and a slider 420. The guide rail 410 is disposed on the table top of the stand 100, the slider 420 is slidably matched with the guide rail 410, and the pressing mechanism 310 is movably connected to the slider 420. In the particular embodiment illustrated, the rail 410 extends from the fold region 110 to the press region 120.

The guide mechanism comprises two sets of guide rails 410 and sliding blocks 420, and further comprises a mounting plate 430, wherein two ends of the mounting plate 430 are respectively connected with the two sliding blocks 420. The pressing driving part 340 is disposed above the mounting plate 430, the pressing mechanism 310 is disposed below the mounting plate 430, and a driving shaft of the pressing driving part 340 passes through the mounting plate 430 and is connected to the pressing mechanism 310.

In the particular embodiment illustrated, the compression drive component 340 is a telescoping cylinder. The ironing drive parts 340 are arranged at two opposite intervals.

The guide mechanism further includes a connection plate 440, the connection plate 440 is connected to the mounting plate 430, the pressing and feeding driving part 350 is disposed above the connection plate 440, the pressing and feeding mechanism 320 is disposed below the connection plate 440, and a driving shaft of the pressing and feeding driving part 350 passes through the connection plate 440 and is connected to the pressing and feeding mechanism 320.

In the particular embodiment illustrated, the pumping drive 350 is a telescoping cylinder. The pressure feed driving part 350 has two and is disposed at a relatively spaced apart position.

As shown in fig. 4 and 5, a supporting frame 500 is erected above the material receiving area 130, the transfer driving part 330 is arranged on the supporting frame 500, the transfer driving part 330 is a telescopic cylinder, and a telescopic shaft of the transfer driving part 330 can extend out along the opposite direction of the feeding direction.

The support frame 500 includes a mounting bar 510 and two fixing bars 520. The mounting rod 510 is disposed above the receiving area 130, the transfer driving part 330 is connected to the mounting rod 510, two fixing rods 520 are respectively connected to both ends of the mounting rod 510, and the two fixing rods 520 are respectively connected to the supporting columns 450 of the guide rail 410. During material collection, the glued cut pieces can pass through the lower part of the mounting rod 510.

The mounting plate 430 and the connection plate 440 are connected by a fixing member 460, and an end of the telescopic shaft of the transfer driving part 330 is connected to the fixing member 460. More specifically, the fixing member 460 includes a first fixing plate and a second fixing plate vertically disposed and connected, the first fixing plate being fixed to the upper surface of the mounting plate 430, the second fixing plate being fixed to the connection plate 440, and an end of the telescopic shaft of the transfer driving part 330 being connected to the second fixing plate.

Further, the present invention provides a ironing shoe method using the ironing shoe apparatus 10 of any one of the above embodiments, comprising the steps of:

the cut pieces of the taking barrel strip are placed on the folding device 200 to be folded to obtain folding barrel strips, and the cut pieces of the taking shirt body are paved on the folding barrel strips to obtain overlapped cut pieces.

The pressing and collecting driving mechanism drives the pressing mechanism 310 to act, and the overlapped part of the overlapped cut pieces is sucked.

The pressing and collecting driving mechanism drives the pressing and conveying mechanism 320 to act so as to press the non-overlapped part of the overlapped cut pieces.

The ironing and receiving driving mechanism drives the ironing mechanism 310 and the pressing and delivering mechanism 320 to synchronously move, so that the overlapped cut pieces are transferred from the folding area 110 to the ironing area 120.

The pressing and receiving driving mechanism drives the pressing mechanism 310 to press and glue the overlapped parts of the overlapped cut pieces to obtain glued cut pieces.

The pressing and receiving driving mechanism drives the pressing and delivering mechanism 320 to move so as to transfer the glued cut pieces from the pressing area 120 to the receiving area 130.

The invention will be further described by taking a method of ironing a cylinder of a ironing machine as an example, which illustrates a specific embodiment.

Taking the cut section of thick bamboo strip and placing on folding device 200, the both sides edge of cut section of thick bamboo strip is taken on first shovel folded plate 220 and second shovel folded plate 230, and the mid portion is laid on induced draft panel 210, opens induced draft panel 210 and induced drafts, and first shovel folded plate 220 and second shovel folded plate 230 stretch out the edge of cut section of thick bamboo strip and fold, under the effect of induced drafts, the cut section of thick bamboo strip keeps folding state, and first shovel folded plate 220 and second shovel folded plate 230 reset, accomplishes the folding of cut section of thick bamboo strip, obtains folding section of thick bamboo strip.

The cut pieces of the shirt body are paved on the folding barrel strip, one side of the cut pieces of the shirt body is aligned with the folding barrel strip, and the other side of the cut pieces of the shirt body is paved on one side of the folding barrel strip, which is close to the ironing area 120, so that overlapped cut pieces are obtained.

The ironing driving part 340 drives the ironing mechanism 310 to descend to approach the folding device 110, at this time, the air suction panel 210 stops sucking air, and the ironing mechanism 310 sucks the overlapped portion of the overlapped cut pieces through the first air suction hole 212. The pressing mechanism 310 is raised to bring the overlapped portion of the suction overlapped cut pieces away from the suction panel 210.

The push-up driving part 350 drives the push-up mechanism 320 to press down the non-overlapped portion of the body panels on the overlapped panel.

The transfer driving part 330 drives the pressing mechanism 310 and the pressing mechanism 320 to move synchronously, and integrally transfers the overlapped cut pieces onto the pressing area 120 in a state of being kept stacked.

The pressing driving part 340 drives the pressing mechanism 310 to press down, presses the cut pieces on the pressing area 120, and stops the suction. The pressing mechanism 310 generates heat to press and glue the overlapped parts of the overlapped cut pieces to obtain glued cut pieces.

The transfer driving mechanism drives the ironing mechanism 310 and the pressing mechanism 320 to transfer from the ironing area 120 to the receiving area 130, and drives the ironing mechanism 310 and the pressing mechanism 320 to lift away from the glued cut pieces, and the glued cut pieces can be transferred to the next process by the manipulator.

According to the ironing cylinder equipment 10 and the ironing cylinder method, the cylinder strip cut pieces are folded through the folding device 200, the cylinder strip cut pieces and the shirt body cut pieces paved on the cylinder strip cut pieces are transferred to the ironing area 120 to be subjected to ironing bonding through the ironing mechanism 310 provided with the first air suction holes 212 and the pressing and conveying mechanism 320 to be subjected to pressing bonding, and then the pressing and conveying mechanism 320 sends the pressed bonded cut pieces to the material receiving area 130, so that the automation degree of the ironing cylinder procedure is improved, the material is conveniently received piece by piece, and the requirement of single piece flow in production is met.

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. The ironing cylinder equipment is used for carrying out ironing bonding on cylinder strip cut pieces and shirt body cut pieces and is characterized by comprising a machine base, a folding device and an ironing receiving device, wherein the folding device and the ironing receiving device are arranged on the machine base;

the table top of the machine seat sequentially comprises a folding area, a pressing area and a material receiving area from the upstream to the downstream in the feeding direction, wherein the folding device is arranged on the folding area and is used for folding two sides of the cut piece of the tubular strip to obtain a folding tubular strip;

the pressing and collecting device comprises a pressing and collecting driving mechanism, a pressing mechanism and a pressing and conveying mechanism, wherein the pressing and collecting mechanism and the pressing and conveying mechanism are respectively connected with the pressing and collecting driving mechanism; the lower side of the ironing mechanism is provided with first air suction holes, the ironing and receiving driving mechanism can drive the ironing mechanism to act so as to absorb the overlapped part of the overlapped cut pieces obtained by overlapping the folding cylinder strip and the shirt body cut pieces, the ironing and receiving driving mechanism can also drive the pressing and feeding mechanism to act so as to press the non-overlapped part of the shirt body cut pieces, the ironing and receiving driving mechanism can also drive the ironing mechanism and the pressing and feeding mechanism to synchronously move so as to transfer the overlapped cut pieces from the folding area to the ironing area, the ironing and receiving driving mechanism can also drive the ironing mechanism to press and bond the overlapped part of the overlapped cut pieces to obtain bonded cut pieces, and the pressing and receiving driving mechanism can also drive the pressing and feeding mechanism to move so as to transfer the bonded cut pieces from the ironing area to the receiving area;

the pressing and receiving driving mechanism comprises a transfer driving part, a pressing driving part and a pressing and conveying driving part; the transfer driving part is connected with the pressing mechanism, the pressing driving part and the pressing driving part, the transfer driving part is used for driving the pressing mechanism, the pressing driving part and the pressing driving part to synchronously transfer from the folding area to the pressing area and from the pressing area to the receiving area, the pressing driving part is connected with the pressing mechanism for driving the pressing mechanism to ascend or descend, and the pressing driving part is connected with the pressing mechanism for driving the pressing mechanism to ascend or descend.

2. The ironing shoe apparatus of claim 1, wherein the ironing press mechanism is disposed upstream of the nip feed mechanism in the feed direction.

3. The ironing shoe apparatus of claim 1, wherein the stand is provided with a guide mechanism extending in the feed direction, the ironing mechanism being movably coupled to the guide mechanism.

4. A ironing shoe apparatus as claimed in claim 3, characterized in that the guide mechanism comprises at least two sets of parallel arranged guide rails, a slider slidably connected to the guide rails, and a mounting plate, both ends of the mounting plate being connected to the two sliders respectively, the ironing drive member being arranged above the mounting plate, the ironing mechanism being arranged below the mounting plate, and a drive shaft of the ironing drive member passing through the mounting plate and being connected to the ironing mechanism.

5. The ironing shoe apparatus according to claim 4, wherein the guide mechanism further comprises a connection plate connected to the mounting plate, the nip driving member is disposed above the connection plate, the nip mechanism is disposed below the connection plate, and a drive shaft of the nip driving member passes through the connection plate and is connected to the nip mechanism.

6. The ironing shoe apparatus according to claim 5, wherein a support frame is provided above the material receiving area, the transfer driving member is provided on the support frame, the transfer driving member is a telescopic cylinder, and a telescopic shaft of the transfer driving member can extend in a direction opposite to the feeding direction.

7. The ironing shoe apparatus according to claim 6, wherein the mounting plate and the connection plate are connected by a fixing member to which an end portion of the telescopic shaft of the transfer drive member is connected.

8. The ironing board of any one of claims 1-7, wherein the folding device comprises an air suction panel, a first shovel flap and a second shovel flap, wherein the air suction panel is provided with second air suction holes, the first shovel flap and the second shovel flap are respectively and movably connected to two opposite sides of the air suction panel, and the first shovel flap and the second shovel flap can extend or reset towards the air suction panel.

9. The ironing shoe apparatus according to claim 8, wherein the suction panel is elongated, the lower bottom surface of the ironing machine is elongated, and the length extension direction of the suction panel is identical to the length extension direction of the lower bottom surface of the ironing machine, and the suction panel is parallel to the lower side surface of the ironing machine.

10. A ironing shoe method, characterized in that it uses the ironing shoe apparatus according to any one of claims 1 to 9, the ironing shoe method comprising the steps of:

the cut pieces of the barrel strip are placed on the folding device to be folded to obtain a folding barrel strip, and the cut pieces of the shirt body are paved on the folding barrel strip to obtain overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing mechanism to act and absorb the overlapped part of the overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing and conveying mechanism to act and presses the non-overlapped part of the shirt body cut pieces on the overlapped cut pieces;

the pressing and collecting driving mechanism drives the pressing mechanism and the pressing and conveying mechanism to synchronously move, so that the overlapped cut pieces are transferred from the folding area to the pressing area;

the pressing and collecting driving mechanism drives the pressing mechanism to press and glue the overlapped parts of the overlapped cut pieces to obtain glued cut pieces;

the pressing and collecting driving mechanism drives the pressing and conveying mechanism to move, and the glued cut pieces are transferred from the pressing area to the collecting area.