CN109930307B - Patch pocket sewing machine and patch pocket die - Google Patents

Abstract

The invention discloses a patch pocket die, which comprises a folding component for folding a flanging of a cut piece of an outlet pocket, a material moving component for transferring the cut piece of clothing, and a plurality of groups of die components with different specifications, wherein the die components are alternatively arranged between the folding component and the material moving component; the folding female die is detachably and fixedly arranged at the bottom of the folding assembly so as to press the pocket cutting pieces to the supporting template along with the folding assembly before the flanging is folded, so that the pocket cutting pieces are extruded to be in the same shape as the supporting template; and the pressing template is matched with the material moving component to press the pocket cutting piece with the flanging to the clothing cutting piece. Because the die assembly has multiple specification, every pocket of changing a specification only need one set of die assembly can, need not to change other spare parts, the spare part quantity that needs to be changed is less, and the change time is shorter, and change speed is very fast, consequently can be when promoting production efficiency reduction in production cost. The invention also discloses a patch pocket sewing machine comprising the patch pocket die.

Description

Patch pocket sewing machine and patch pocket die

Technical Field

The invention relates to the field of clothing equipment, in particular to a patch pocket die. The invention also relates to a patch pocket sewing machine comprising the patch pocket die.

Background

In order to meet the development requirements of automation and intellectualization of clothing equipment, the existing clothing equipment needs to be continuously structurally modified or upgraded, but the manufacturing cost of the clothing equipment needs to be considered in the improvement and upgrading processes so as to meet the market requirements and enhance the market competitiveness.

In the field of garment processing, most shirts, coats, trousers and the like are not provided with pockets, so that the pocket pasting process becomes a key link of garment processing. The existing pocket sewing machine usually comprises a pocket die, even the clothes of the same style can be matched with the pocket die of multiple specifications due to the difference of sizes because of the multiple types of pockets of the existing clothes, and each pocket die usually comprises parts for realizing the functions of film pressing, edge folding, cut-parts fixing and the like. However, the existing pocket mold has a defect in structural design, so that the number of parts to be replaced is large when the pocket specification is replaced each time, the replacement time is long, the replacement speed is slow, the production efficiency is seriously affected, and the production cost is increased due to the fact that a large amount of capital is required to invest for manufacturing the mold.

Therefore, how to reduce the production cost while improving the production efficiency is an urgent technical problem to be solved by those skilled in the art.

Disclosure of Invention

In view of the above, the present invention is directed to a patch pocket sewing machine and a patch pocket mold, which have a small number of parts to be replaced each time, a short replacement time, and a fast replacement speed, so as to improve the production efficiency and reduce the production cost.

The specific scheme is as follows:

the invention provides a patch pocket die, which comprises a folding component for folding flanging of cut pieces of an outlet pocket, a material moving component for transferring the cut pieces of clothing, and a plurality of groups of die components with different specifications which are alternatively arranged between the folding component and the material moving component, wherein each group of die components comprises:

a support template for supporting the pocket cut pieces;

the folding female die is detachably and fixedly arranged at the bottom of the folding assembly and used for pressing the folding assembly to the supporting template along with the folding assembly before folding and flanging so as to extrude the pocket cutting pieces to be in the same shape as the supporting template;

and the pressing template is matched with the material moving component to press the pocket cutting piece with the flanging to the clothing cutting piece.

Preferably, folding assembly includes die holder plate, and die holder plate's bottom has the die fixed slot that is used for fixed folding die, and folding assembly still includes a plurality of sides along die holder plate and gathers together or disperse with the turn-ups driving piece of the optionally folding extruded pocket cut-parts to die holder plate's center along setting up.

Preferably, the groove edge of the female die fixing groove is flush with the bottom surface of the folding female die, and the plurality of flanging driving pieces slide along the groove edge of the female die fixing groove.

Preferably, the supporting template comprises a plurality of pocket contour edges which are connected with each other end to form the required pocket, a plurality of flanging driving pieces are provided with flanging extrusion plates corresponding to the pocket contour edges, and a plurality of rotary driving pieces which are correspondingly connected with the flanging driving pieces and can be rotatably arranged on the female die fixing plate to adjust the angle of the flanging extrusion plates according to the pocket contour edges.

Preferably, the method further comprises the following steps:

a plurality of angle detection pieces which are correspondingly arranged on the plurality of flanging extrusion plates to detect whether the flanging extrusion plates are arranged in parallel with the corresponding pocket outline edges;

and the controller is respectively connected with the angle detection devices and the rotary driving piece so as to control the corresponding rotary driving piece to rotate until the flanging extrusion plate is parallel to the corresponding pocket contour edge according to signals sent by the angle detection devices.

Preferably, the bottom of pressing the template is equipped with the pressing groove that is used for pressing the support template, moves the material subassembly including removing the clamp plate, removes the clamp plate and is equipped with the holding tank that is used for holding the pressing template, and the outer edge of pressing the template is equipped with spacing arch and the spacing groove of mutually supporting in order to inject the pressing template position between the groove edge of holding tank.

Preferably, the method further comprises the following steps:

the mistake-proofing component is arranged among any group of mutually matched supporting templates, the folding female die and the pressing template and used for preventing the wrong assembly of the supporting templates, the folding female die and the pressing template.

Preferably, still include the template backup pad that is used for the installation support template and locate the template clamping assembly between support template and the template backup pad, template clamping assembly includes:

at least one group of upper clamping arms and lower clamping arms which are matched with each other to clamp or release the supporting template;

the clamping driving part is respectively connected with the upper clamping arm and the lower clamping arm and is used for driving the upper clamping arm and the lower clamping arm to open or close;

and the control button is arranged on the clamping driving piece and is used for controlling the opening and closing of the clamping driving piece.

Preferably, the folding die further comprises an upper magnetic block and a lower magnetic block which are fixedly arranged on the die fixing groove and the folding die respectively and have different polarities, a pressing support plate for mounting the pressing die plate, and a pressing clamping assembly arranged between the pressing die plate and the pressing support plate, wherein the structure of the pressing clamping assembly is the same as that of the die plate clamping assembly.

The invention also provides a patch pocket sewing machine which comprises a machine needle and the patch pocket die as above, wherein the patch pocket die synchronously moves the pocket cutting piece and the clothing cutting piece to the position below the machine needle along the guide assembly.

Against this background, the present invention provides a pocket die comprising a folding assembly, a material transfer assembly, and a plurality of die assemblies that are alternatively used.

When the pocket cut pieces are sewed, the pocket cut pieces are firstly placed on the supporting template; then, the folding assembly is used for driving the folding female die to press the supporting template, so that the pocket cutting pieces on the supporting template form a required pocket shape; then, starting the folding component to fold the flanging of the cut piece of the outlet bag; then, pressing the pocket cut pieces with the turned edges to the garment cut pieces by using the pressing template; and finally, transferring the clothing cut pieces by using the material moving assembly so as to subsequently sew the pocket cut pieces on the clothing cut pieces, thus completing the sewing of the pocket cut pieces.

Because the die assemblies have various specifications, one of the die assemblies can be selected according to the shape of the pocket, and only one die assembly is needed when the pocket with one specification is replaced, other parts are not needed to be replaced, the number of the parts to be replaced is small, the replacement time is short, and the replacement speed is high.

The invention also provides a patch pocket sewing machine comprising the patch pocket die, which has the same beneficial effects.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is an exploded view of a patch pocket mold according to an embodiment of the present invention;

FIG. 2 is a block diagram of the folding assembly of FIG. 1;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is a block diagram of the folding matrix of FIG. 1;

FIG. 5 is a block diagram of the support template of FIG. 1;

fig. 6 is a structural view of the pressing template in fig. 1.

The reference numbers are as follows:

the device comprises a folding assembly 1, a material moving assembly 2 and a pressing module 3;

the device comprises a female die fixing plate 11, a flanging driving piece 12 and a flanging extrusion plate 13;

a female die fixing groove 111;

the movable platen 21 and the accommodation groove 22;

a limit groove 211;

a supporting template 31, a folding female die 32 and a pressing template 33;

a pressing recess 331 and a stopper protrusion 332.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order that those skilled in the art will better understand the disclosure, the invention will be described in further detail with reference to the accompanying drawings and specific examples.

Referring to fig. 1 to 6, fig. 1 is an exploded view of a patch pocket mold according to an embodiment of the present invention; FIG. 2 is a block diagram of the folding assembly of FIG. 1; FIG. 3 is a top view of FIG. 2; FIG. 4 is a block diagram of the folding matrix of FIG. 1; FIG. 5 is a block diagram of the support template of FIG. 1; fig. 6 is a structural view of the pressing template in fig. 1.

The embodiment of the invention discloses a pocket pasting mould which comprises a folding assembly 1, a material moving assembly 2 and a pressing mould assembly 3.

Wherein, folding assembly 1 can be used for folding the turn-ups of export bag cut-parts to guarantee that the pocket cut-parts of sewing on the clothing cut-parts are pleasing to the eye neat. Move material subassembly 2 and can be used for shifting the clothing cut-parts, make the clothing cut-parts can reach the eedle below, provide probably for the sewing of follow-up pocket cut-parts. The die assembly 3 comprises a plurality of groups, the specifications of each group of die assemblies 3 are different, the die assemblies are specifically set according to the required pocket shapes, and only one group of die assemblies 3 needs to be selected to be arranged between the folding assembly 1 and the material moving assembly 2 when the die assembly is used.

In order to facilitate the sewing of the pocket, each set of die assemblies 3 comprises a supporting die plate 31, a folding die 32 and a pressing die plate 33. Wherein the support template 31 is used to support the pocket cut pieces. To quickly remove the support platen 31, in this particular embodiment, the present invention preferably further includes a platen support plate for mounting the support platen 31 and a platen clamping assembly disposed between the support platen 31 and the platen support plate. Specifically, the template clamping assembly comprises an upper clamping arm, a lower clamping arm, a clamping driving piece and a control button. The upper and lower clamp arms comprise at least one set, and each set of upper and lower clamp arms are oppositely arranged so as to clamp or release the supporting template 31. The clamping driving piece is respectively connected with one end of the upper clamping arm and one end of the lower clamping arm so as to drive the upper clamping arm and the lower clamping arm to open or close. The clamp drive may be a dual piston cylinder, but is not limited thereto. Control button installs in pressing from both sides tight driving piece, and the mode control that the user accessible point touched presss from both sides tight driving piece and opens and close, and then control upper clamping arm and lower clamping arm press from both sides tightly or loosen supporting template 31.

Of course, the formwork clamping assembly may further include an upper clamping arm, a lower clamping arm, a hinge rotating shaft passing through the upper clamping arm and the lower clamping arm respectively to rotatably connect the upper clamping arm and the lower clamping arm, a reset torsion spring sleeved on the hinge rotating shaft and respectively abutting against the upper clamping arm and the lower clamping arm, and a locking assembly disposed between the upper clamping arm and the lower clamping arm and locking the upper clamping arm and the lower clamping arm after clamping the supporting formwork 31, wherein the locking assembly may be a quick clamp, which is not limited herein. However, the structure of the formwork clamping assembly is not limited to the above two structures, and the adoption of other similar structures does not affect the achievement of the object of the invention.

The folding female die 32 is detachably and fixedly arranged at the bottom of the folding assembly 1, and before the folding flanging is folded by using the folding assembly 1, the folding female die 32 can press the supporting template 31 along with the folding assembly 1, so that the folding female die 32 extrudes the pocket cut pieces arranged on the supporting template 31 until the pocket cut pieces form the same shape as the supporting template 31. The folding female die 32 is provided with a female die groove matched with the supporting template 31 so as to prevent the pocket cutting pieces from shifting or deforming when the flanging is folded.

The pressing template 33 is matched with the material moving component 2 so as to press the pocket cutting piece with the flanging to the pressing template 33 of the clothing cutting piece. In this embodiment, it is preferable that the bottom of the pressing template 33 is provided with a pressing groove 331 for pressing the supporting template 31, so that the pocket panel having the hemmed edge is limited by the pressing groove 331 to be deformed, thereby improving the sewing quality of the pocket panel. The contour of the pressing template 33 conforms to the contour of the supporting template 31 in order to fully compact the pocket panels. Specifically, the pressing template 33 is provided with a thread running groove for sewing a thread so that the needle sews the pocket cut piece to the garment cut piece through the thread running groove. Move material subassembly 2 including moving clamp plate 21, moving clamp plate 21 is equipped with the holding tank 22 that is used for holding pressing template 33, and the outer edge of pressing template 33 is equipped with spacing arch 332 and spacing recess 211 of mutually supporting between the groove edge of holding tank 22 to the position of injecing pressing template 33, thereby guarantee that the pocket cut-parts accurately presses on the clothing cut-parts.

When sewing the pocket cut pieces, firstly, placing the pocket cut pieces on the supporting template 31; then, the folding component 1 is used for driving the folding female die 32 to press the supporting template 31, so that the pocket cutting pieces on the supporting template 31 form the required pocket shape; then, the folding component 1 is started to fold the flanging of the pocket cutting piece; then, the pocket cutting piece with the turned edge is pressed to the clothing cutting piece by using the pressing template 33; finally, the pocket cutting piece and the clothing cutting piece are transferred simultaneously by the material transferring component 2, so that the pocket cutting piece can be sewn on the clothing cutting piece in the following process, and the pocket cutting piece sewing is completed.

In conclusion, the die assemblies 3 have various specifications, only one set of die assembly 3 is needed for replacing a pocket with one specification without replacing other parts, the number of parts to be replaced is small, the replacement time is short, and the replacement speed is high, so that the pocket pasting die can improve the production efficiency and reduce the production cost.

Preferably, in this embodiment, the folding assembly 1 includes a die fixing plate 11, and a die fixing groove 111 for fixing the folding die 32 is provided at the bottom of the die fixing plate 11 so as to restrict movement of the folding die 32. For realizing folding turn-ups smoothly, folding assembly 1 still includes a plurality of turn-ups driving piece 12, and a plurality of turn-ups driving piece 12 are along the side edge setting of cavity plate 11 to can gather together or disperse to the center of cavity plate 11, so that the optionally folding pocket cut-parts that receive the extrusion on being located support template 31. The flanging driving parts 12 drive the air cylinders at a high speed, and when the flanging is folded, piston rods of the flanging driving parts 12 simultaneously extend towards the center of the female die fixing plate 11 so as to push cut pieces positioned on the outer edge of the supporting template 31 to be abutted against the bottom surface of the supporting template 31, so that the flanging is formed; when the pocket cut piece with the flanging is pressed on the garment cut piece, the piston rods of the flanging driving pieces 12 are simultaneously contracted towards the center far away from the female die fixing plate 11 so as to loosen the pocket cut piece and facilitate sewing by a machine needle.

In order to improve the appearance of the bag flanging, the groove edge of the female die fixing groove 111 is preferably flush with the bottom surface of the folding female die 32, so that the flanging driving pieces 12 can slide tightly against the groove edge of the female die fixing groove 111, and the flanging is prevented from deforming in the sewing process.

Preferably, in this particular embodiment, the support template 31 includes a plurality of pocket profile edges that are interconnected end-to-end to form the desired pocket. The pocket can be a bevel pocket, a circular pocket, a right-angled pocket, etc., and in this particular embodiment, the pocket is preferably a bevel pocket, the bevel pocket comprising a first contour edge and a second contour edge arranged with respect to each other, and further comprising a third contour edge and a fourth contour edge connected to the first contour edge and the second contour, respectively, and forming an obtuse angle therebetween. Correspondingly, the flanging driving parts 12 are provided with flanging extrusion plates 13 corresponding to the outline edges of the pockets, each flanging extrusion plate 13 comprises a pushing plate arranged parallel to the bottom surface of the female die fixing plate 11 and a connecting plate connected between the pushing plate and the flanging driving part 12, and the pushing plate and the connecting plate are vertically connected. Specifically, the flange extrusion plate 13 includes a first flange extrusion plate, a second flange extrusion plate, a third flange extrusion plate, and a fourth flange extrusion plate that are respectively disposed corresponding to the first profile edge, the second profile edge, the third profile edge, and the fourth profile edge, and similarly, the flange driving member 12 includes a first flange driving member, a second flange driving member, a third flange driving member, and a fourth flange driving member.

In order to make the flanging extrusion plate 13 adapt to the shape of the pocket, the invention also comprises a plurality of rotary driving parts which are correspondingly connected with the plurality of flanging driving parts 12 and can be rotatably arranged on the female die fixing plate 11, so that the angle of the flanging extrusion plate 13 can be adjusted according to the outline of the pocket, and the flanging extrusion plate 13 is suitable for the pockets with different specifications and shapes, thereby being beneficial to improving the adaptability and naturally reducing the production cost. The rotary drive preferably drives a cylinder, but is not limited thereto.

In order to improve the production efficiency and the production quality, in the embodiment, the invention further comprises a plurality of angle detection pieces and a controller, wherein the angle detection pieces are correspondingly arranged on the plurality of flanging extrusion plates 13, so as to detect whether the corresponding flanging extrusion plates 13 are arranged in parallel with the corresponding pocket profile edges one by one. Preferably, the angle detecting member is preferably an infrared detector, an obstacle detecting sensor, or the like, which is not limited herein. The controller is respectively connected with the angle detection devices and the rotary driving pieces, so that the controller controls the corresponding rotary driving pieces to rotate according to signals sent by the angle detection devices. Detect turn-ups stripper plate 13 and the pocket profile nonparallel that corresponds when certain angle detection piece, angle detection piece send signal to controller, the rotatory driving piece that the controller control corresponds is rotatory, it is parallel to each other with the pocket profile limit that corresponds to rotate driving piece drive turn-ups stripper plate 13, thereby make turn-ups stripper plate 13 adjust according to the pocket shape, in order to adapt to the pocket shape of different shapes, the range of application further becomes wide, adaptability increases naturally, a frequency reduction for changing moulding-die subassembly 3, and make the turn-ups shape more be close to the pocket shape, make production efficiency and production quality all promote to some extent.

The invention also comprises an error-proofing component arranged on any group of die assemblies 3, namely, the error-proofing components which are mutually matched are arranged among each group of supporting templates 31, folding female dies 32 and pressing templates 33, so as to prevent pocket cut pieces from being sewn by using the unmatched die assemblies 3. Preferably, the mistake proofing subassembly can be located and contact the contact surface of the two and the protruding and discernment recess of the discernment of mutually supporting, and the protruding and discernment recess of discernment of the same group of die assembly 3 are the same, and the protruding and structure of discernment recess of the discernment of the different group of die assembly 3 are different to whether the user judges die assembly 3 of installation directly perceived and fast to support, is favorable to reducing fault rate and rejection rate. Of course, the structure and the error-proofing manner of the error-proofing assembly are not limited thereto.

In order to realize the quick disassembly of the pressing die assembly 3, the invention also comprises an upper magnet and a lower magnet which are respectively fixedly arranged on the concave die fixing groove 111 and the folding concave die 32 and have different polarities, so that the folding concave die 32 is fixed by magnetic force, and the folding concave die 32 is convenient and quick to disassemble and assemble. Further, the present invention further includes a pressing support plate for mounting the pressing template 33 and a pressing clamping assembly disposed between the pressing template 33 and the pressing support plate, and the structure of the pressing clamping assembly is the same as that of the template clamping assembly, and will not be described in detail herein.

The invention also provides a patch pocket sewing machine which comprises a machine needle and the patch pocket die, wherein the patch pocket die synchronously moves the pocket cutting piece and the clothing cutting piece to the position below the machine needle along the guide assembly, so that the patch pocket sewing machine has the same beneficial effect as the patch pocket die.

The patch pocket sewing machine and the patch pocket die provided by the invention are described in detail, and the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the examples is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (9)

1. The utility model provides a pocket die, its characterized in that, including folding assembly (1) that is used for folding export bag cut-parts turn-ups, be used for shifting that cut-parts of clothing moved material subassembly (2) and a plurality of groups have different specifications and locate alternatively folding assembly (1) with move moulding-die subassembly (3) between material subassembly (2), every group moulding-die subassembly (3) include:

a support template (31) for supporting the pocket cut pieces;

the folding female die (32) is detachably and fixedly arranged at the bottom of the folding assembly (1) and used for pressing the folding assembly (1) to the supporting template (31) to extrude the pocket cutting pieces to the folding female die (32) with the same shape as the supporting template (31) before folding and flanging, and the folding female die (32) is provided with a female die groove matched with the supporting template (31);

the pressing template (33) is matched with the material moving component (2) to press the pocket cutting piece with the flanging to the clothing cutting piece, and the pressing template (33) is provided with a wiring groove for sewing a sewing thread; the bottom of pressing template (33) is equipped with and is used for pressing support recess (331) of template (31), move material subassembly (2) including moving clamp plate (21), it is equipped with and is used for holding to move clamp plate (21) holding tank (22) of pressing template (33), press the outer edge of template (33) with the groove of holding tank (22) is followed and is equipped with between mutually supporting in order to inject spacing arch (332) and spacing recess (211) of pressing template (33) position.

2. The pocket die according to claim 1, characterized in that the folding assembly (1) comprises a female die fixing plate (11), the bottom of the female die fixing plate (11) is provided with a female die fixing groove (111) for fixing the folding female die (32), the folding assembly (1) further comprises a plurality of flanging driving members (12) which are arranged along the side edges of the female die fixing plate (11) and gather or scatter towards the center of the female die fixing plate (11) to selectively fold the extruded pocket cut pieces.

3. A patch pocket mould according to claim 2, characterized in that the groove edge of the female mould holding groove (111) is flush with the bottom surface of the folding female mould (32), and that several of the flap drivers (12) slide along the groove edge of the female mould holding groove (111).

4. A pocket mould according to claim 3, characterized in that said supporting template (31) comprises a plurality of pocket profile edges interconnected end to form a desired pocket, a plurality of said flanging drivers (12) having flanging squeeze plates (13) corresponding to said pocket profile edges, and a plurality of rotary drivers connected to a plurality of said flanging drivers (12) and rotatably mounted to said matrix retainer plate (11) for adjusting the angle of said flanging squeeze plates (13) according to said pocket profile edges.

5. The patch pocket mold of claim 4, further comprising:

a plurality of angle detection pieces which are correspondingly arranged on the plurality of flanging extrusion plates (13) to detect whether the flanging extrusion plates (13) are arranged in parallel with the corresponding pocket contour edge;

and the controller is respectively connected with the angle detection pieces and the rotary driving piece so as to control the corresponding rotary driving piece to rotate until the flanging extrusion plate (13) is parallel to the corresponding pocket contour edge according to a signal sent by the angle detection piece.

6. The patch pocket mold of claim 2, further comprising:

the mistake-proofing assembly is arranged among any group of the supporting template (31), the folding female die (32) and the pressing template (33) which are matched with each other and is used for preventing the wrong assembly of the supporting template, the folding female die and the pressing template.

7. Patch pocket mould according to any one of the claims 2 to 6, further comprising a template support plate for mounting the support template (31) and a template clamping assembly provided between the support template (31) and the template support plate, the template clamping assembly comprising:

at least one set of upper and lower clamping arms cooperating to clamp or unclamp said support template (31);

the clamping driving part is respectively connected with the upper clamping arm and the lower clamping arm and is used for driving the upper clamping arm and the lower clamping arm to open or close;

and the control button is arranged on the clamping driving piece and is used for controlling the opening and closing of the clamping driving piece.

8. The patch pocket die according to claim 7, further comprising an upper magnet and a lower magnet which are respectively fixed on the die fixing groove (111) and the folding die (32) and have different polarities, a pressing support plate for mounting the pressing template (33), and a pressing clamping assembly arranged between the pressing template (33) and the pressing support plate, wherein the structure of the pressing clamping assembly is the same as that of the template clamping assembly.

9. A patch pocket sewing machine comprising a needle and a patch pocket mould as claimed in any one of claims 1 to 8, said patch pocket mould moving the pocket panel and garment panel synchronously along a guide assembly to below said needle.

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