阅读说明：本技术 一种缝编无纺布生产用缝编成布机 (Stitch-bonding ready-made fabric machine for producing stitch-bonding non-woven fabric ) 是由 李海梅 于 2021-09-23 设计创作，主要内容包括：本发明公开了一种缝编无纺布生产用缝编成布机,包括缝编机壳体机构,所述缝编机壳体机构内设有用于无纺布缝编工作的工作腔,所述工作腔左侧的前后侧壁体上转动设有多个无纺布轮,所述无纺布轮上缠绕有用于无纺布缝编成布的多种组合布料；本发明可快速完成无纺布之间挤压贴合和组合无纺布的缝编成衣,本发明通过送布机构上的第一送料箱和第二送料箱使夹持的无纺布进行快速集中,从而使组合箱能够通过转动轮和移动夹持箱对集中的无纺布进行快速贴合,以及布头夹持,再通过电动推杆驱动抓取爪对集中的布头进行家,然后送入挤压机构内的挤压合成腔,从而对无纺布进行快速挤压合成,从而大大提高了无纺布之间的合成效率。(The invention discloses a stitch-bonding fabric-forming machine for producing stitch-bonded non-woven fabrics, which comprises a stitch-bonding machine shell mechanism, wherein a working cavity for the stitch-bonding work of the non-woven fabrics is arranged in the stitch-bonding machine shell mechanism, a plurality of non-woven fabric wheels are rotatably arranged on the front side wall body and the rear side wall body on the left side of the working cavity, and a plurality of combined fabrics for the stitch-bonding fabric-forming of the non-woven fabrics are wound on the non-woven fabric wheels; the invention can rapidly complete extrusion lamination between non-woven fabrics and stitch-bonding ready-made clothes of combined non-woven fabrics, the clamped non-woven fabrics are rapidly centralized through the first feeding box and the second feeding box on the cloth feeding mechanism, so that the combined box can rapidly laminate the centralized non-woven fabrics through the rotating wheel and the movable clamping box and clamp the cloth head, the centralized cloth head is driven to carry out home operation through the electric push rod, and then the centralized cloth head is fed into the extrusion lamination forming cavity in the extrusion mechanism, thereby rapidly extruding and synthesizing the non-woven fabrics, and greatly improving the synthesis efficiency between the non-woven fabrics.)

1. A stitch-bonding fabric-forming machine for producing stitch-bonded non-woven fabrics comprises a stitch-bonding machine shell mechanism, wherein a working cavity for the stitch-bonding work of the non-woven fabrics is arranged in the stitch-bonding machine shell mechanism, a plurality of non-woven fabric wheels are rotatably arranged on the front side wall body and the rear side wall body on the left side of the working cavity, a plurality of combined fabrics for the stitch-bonding fabric-forming work are wound on the non-woven fabric wheels, a fabric feeding mechanism capable of gathering a plurality of fabrics to an intermediate position is arranged on the front side wall body and the rear side wall body on the right side of the working cavity in a sliding manner, a combined extruding mechanism for gathering the non-woven fabrics and feeding materials is arranged on the left side and the right side of the fabric feeding mechanism of the non-woven fabrics wheels, a supporting plate is fixedly arranged on the right side wall body of the non-woven fabrics on the right side of the combined extruding mechanism part on the right side of the fabric feeding mechanism, and a supporting plate for collecting the non-woven fabrics after stitch-bonding is arranged on the supporting plate, the left side of the supporting plate is fixedly provided with a stitching box, and a stitching mechanism used for stitching the combined non-woven fabric is arranged in the stitching box.

2. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the stitch-knitting machine shell mechanism further comprises a fixed pulley which is arranged between the cloth feeding mechanism and the non-woven fabric wheels and is rotatably arranged on the front side wall body and the rear side wall body of the working cavity, the number of the fixed pulley corresponds to that of the non-woven fabric wheels, the fixed pulley is used for guiding and sliding the non-woven fabrics which are combined between the non-woven fabric wheels, the upper side of the support plate on the left side of the stitch-knitting box is fixedly provided with a cloth combining box, and a combined extrusion mechanism which is used for extruding and laminating various non-woven fabrics is arranged in the cloth combining box.

3. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the cloth feeding mechanism comprises two sliding cavities which are arranged in the front side wall body and the rear side wall body of the working cavity and are arranged on the lower side of the middle position of the non-woven fabric wheel, the two sliding cavities are respectively used for transporting non-woven fabrics on the upper side and the lower side of the working cavity on the non-woven fabric wheel, a forward and reverse rotating motor is fixedly arranged in one side wall body of the sliding cavity far away from the middle position of the non-woven fabric wheel, a threaded rotating shaft is fixedly arranged on a power output shaft of the forward and reverse rotating motor, a first feeding box connected with the threaded rotating shaft in a threaded engagement manner is arranged in the sliding cavity far away from the middle position of the non-woven fabric wheel in a sliding manner, a second feeding box is arranged in the sliding cavity close to one side of the middle position of the non-woven fabric wheel in a sliding manner, the same cloth clamping mechanism is arranged in the left side wall body of the first feeding box and the second feeding box, a rotating cavity is arranged in the left side wall body of the first feeding box, the improved non-woven fabric feeding device is characterized in that reset rotating rods are arranged on the front side and the rear side of the rotating cavity in a rotating mode, the reset rotating rods can rotate under the control of a motor, electric fabric feeding wheels used for feeding non-woven fabrics are fixedly arranged on the reset rotating rods, the reset rotating rods are arranged between the reset rotating rods and can clamp the fed non-woven fabrics, a contact sensor II is arranged in the upper side wall body of the first feeding box, a contact sensor I is arranged in the lower side wall body of the second feeding box, a slip box is arranged in the right side wall body of the second feeding box, a hydraulic cylinder is fixedly arranged in the right side wall body of the slip cavity on the right side of the slip box, and a thread sleeve component device capable of being electrically started and clamping the thread rotating shaft is arranged in the second feeding box, so that the second feeding box and the thread sleeve component device in threaded connection with the thread rotating shaft are connected.

4. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the lateral wall is internal around the working chamber be equipped with a set of work feed mechanism that carries out the centre gripping to non-woven fabrics width direction's front and back side both sides respectively in the sliding chamber, just contact sensor one with during the contact of contact sensor two, just reverse motor stall works as the pneumatic cylinder break away from and the back is accomplished in the removal of thread bush subassembly device, just can be restarted to just reverse motor, and works as after the transportation is accomplished to combination extrusion mechanism, the reverse rotation of just reverse motor can make first pay-off case with the second pay-off case resets.

5. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the combined extrusion mechanism comprises two groups of slide rails which are symmetrically arranged in the front and rear side wall bodies of the working cavity between the cloth feeding mechanism and the fixed pulley, the two groups of slide rails are respectively used for clamping the upper edge and the lower edge of the non-woven fabric, an electric slider controlled by an electric motor is arranged in the slide rails in a sliding manner, a combined box is fixedly arranged between the electric sliders, the combined box is close to a rotating wheel cavity in the wall body between the non-woven fabric wheels, the front and rear side wall bodies of the rotating wheel cavity are rotatably provided with a concentrated laminating for the non-woven fabric, a movable clamping box cavity is arranged in the wall body on the right side of the combined box, an electromagnet is fixedly arranged in the left side wall body of the movable clamping box cavity, a movable clamping box capable of being fixed by the electromagnet is arranged in the movable clamping box cavity in a sliding manner, a connecting rod for connection is arranged between the movable clamping boxes, and an extrusion plate for clamping the concentrated non-woven fabric is arranged on the lower side of the movable clamping box, the movable clamping box and the extrusion plate can enable concentrated non-woven fabrics to be more conveniently conveyed.

6. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the combination extrusion mechanism still including set up in work feed mechanism right side the internal crowded pressfitting synthetic chamber that is equipped with of lateral wall about the synthetic case of cloth, the synthetic intracavity of extrusion is equipped with the mechanism that is used for the extrusion combination between the non-woven fabrics, the synthetic case of cloth is left the internal chamber that slides in that is equipped with of lateral wall about the synthetic chamber of extrusion, slide in and be equipped with the electric putter who removes about the wall body in chamber right side through electric promotion, the electric putter left side set firmly can with remove the centre gripping case keep away from in a lateral wall body cunning of non-woven fabrics wheel intermediate position inserts fixed claw of snatching.

7. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the synthetic case of cloth be equipped with the conveyer belt chamber in the stripper plate downside wall body, the conveyer belt intracavity is equipped with the non-woven fabrics that is used for the combination and carries out the cloth conveyer of transportation, cloth conveyer's hold-in range upside rotate around the stripper plate on the lateral wall body and be equipped with the non-woven fabrics that is used for the combination and carry out extruded pay-off laminating runner, be equipped with the extrusion runner that is used for the non-woven fabrics secondary degree of depth to extrude in the stripper plate upside wall body.

8. The stitchbonded fabric-forming machine of claim 1 for the production of stitchbonded nonwoven fabric which is characterized in that: the stitch-bonding mechanism comprises an upper side driving box arranged on the upper side of the stitch-bonding box, a stitch-bonding cavity between the stitch-bonding box and the upper side driving box, a lower side cloth stitch-bonding box is arranged on the lower side of the upper side driving box, an upper side driving box used for stitch-bonding combined non-woven fabrics is arranged on the lower side of the lower side cloth stitch-bonding box in an array mode, and an auxiliary feeding wheel used for assisting stitch-bonding of non-woven fabric ready-made clothes is arranged between needle heads on the lower side of the lower side cloth stitch-bonding box.

Technical Field

The invention relates to the technical field related to non-woven fabric production equipment, in particular to a stitch-bonding fabric forming machine for producing stitch-bonded non-woven fabrics.

Background

Nonwoven fabrics, also known as non-woven fabrics, needle punched cotton, and the like, are composed of oriented or random fibers. It is called a cloth because of its appearance and certain properties. The stitch-bonding non-woven fabric (also called Lixin fabric and Lixin fabric) is one kind of dry non-woven fabric, the raw material selects high-quality plastic bottle sheet, the recovered material chemical fiber is formed by processing, then the fiber web, the yarn layer and the non-woven material (such as plastic sheet, plastic thin metal foil and the like) are reinforced by using 80% -95% of regenerated material polyester staple fiber and 5% -20% of high-quality polyester filament warp-knitted coil structure through the stitch-bonding method in the non-woven fabric process, so as to prepare RECYCLEDPET non-woven fabric; traditional stitch-bonding non-woven fabrics is when the traditional stitch-bonding non-woven fabrics of multilayer is combined, and efficiency is generally lower, moreover when stitch-bonding, owing to carry out stitch-bonding simultaneously through many needles to hardly fix and transport the combination of hem does not have the hindrance cloth, thereby lead to ready-made clothes efficiency ratio lower, so need design a stitch-bonding non-woven fabrics production with stitch-bonding ready-made clothe machine.

Disclosure of Invention

The invention aims to solve the technical problem of providing a stitch-bonding ready-made fabric machine for producing stitch-bonded non-woven fabrics, and solves the problems of low combination efficiency and low stitch-bonding ready-made clothes efficiency among multiple layers of non-woven fabrics.

The invention is realized by the following technical scheme.

The invention relates to a stitch-bonding fabric-forming machine for producing stitch-bonded non-woven fabrics, which comprises a stitch-bonding machine shell mechanism, wherein a working cavity for the stitch-bonding work of the non-woven fabrics is arranged in the stitch-bonding machine shell mechanism, a plurality of non-woven fabric wheels are rotatably arranged on the front side wall body and the rear side wall body on the left side of the working cavity, a plurality of combined fabrics for the stitch-bonding fabric-forming work of the non-woven fabrics are wound on the non-woven fabric wheels, a fabric feeding mechanism capable of gathering the plurality of fabrics to the middle position is arranged in the front side wall body and the rear side wall body of the working cavity on the right side of the non-woven fabric wheels in a sliding manner, a combined extrusion mechanism for gathering the plurality of fabrics and feeding is arranged on the left side and the right side of the fabric feeding mechanism of the non-woven fabrics, a support plate is fixedly arranged on the right side wall body of the non-woven fabric wheels on the right side of the combined extrusion mechanism part on the right side of the fabric feeding mechanism, and a support plate for gathering the non-woven fabrics after stitch-bonding is arranged on the support plate, the left side of the supporting plate is fixedly provided with a stitching box, and a stitching mechanism used for stitching the combined non-woven fabric is arranged in the stitching box.

Preferably, the stitch-bonding machine shell mechanism further comprises a fixed pulley which is arranged between the cloth feeding mechanism and the non-woven fabric wheels and is rotatably arranged on the front side wall body and the rear side wall body of the working cavity, the number of the fixed pulley corresponds to that of the non-woven fabric wheels, the fixed pulley is used for guiding and sliding the non-woven fabrics which are combined between the non-woven fabric wheels, a cloth combining box is fixedly arranged on the upper side of the supporting plate on the left side of the stitch-bonding box, and a combined extrusion mechanism which is used for extruding and laminating various non-woven fabrics is arranged in the cloth combining box.

Preferably, the cloth feeding mechanism comprises two sliding cavities arranged in the front and rear side walls of the working cavity and on the lower side of the middle position of the non-woven fabric wheel, the two sliding cavities are respectively used for transporting non-woven fabrics on the upper side of the non-woven fabric wheel above and below the working cavity, a forward and reverse rotating motor is fixedly arranged in one side wall of the sliding cavity far away from the middle position of the non-woven fabric wheel, a threaded rotating shaft is fixedly arranged on a power output shaft of the forward and reverse rotating motor, a first feeding box connected with the threaded rotating shaft in a threaded engagement manner is arranged in the sliding cavity far away from the middle position of the non-woven fabric wheel in a sliding manner, a second feeding box is slidably arranged in the sliding cavity close to one side of the middle position of the non-woven fabric wheel, the same cloth clamping mechanism is arranged in the left side wall body of the first feeding box, a rotating cavity is arranged in the left side wall body of the first feeding box, the improved non-woven fabric feeding device is characterized in that reset rotating rods are arranged on the front side and the rear side of the rotating cavity in a rotating mode, the reset rotating rods can rotate under the control of a motor, electric fabric feeding wheels used for feeding non-woven fabrics are fixedly arranged on the reset rotating rods, the reset rotating rods are arranged between the reset rotating rods and can clamp the fed non-woven fabrics, a contact sensor II is arranged in the upper side wall body of the first feeding box, a contact sensor I is arranged in the lower side wall body of the second feeding box, a slip box is arranged in the right side wall body of the second feeding box, a hydraulic cylinder is fixedly arranged in the right side wall body of the slip cavity on the right side of the slip box, and a thread sleeve component device capable of being electrically started and clamping the thread rotating shaft is arranged in the second feeding box, so that the second feeding box and the thread sleeve component device in threaded connection with the thread rotating shaft are connected.

Preferably, the lateral wall is internal around the working chamber be equipped with a set of work feed mechanism that carries out the centre gripping to non-woven fabrics width direction's front and back side both sides respectively in the sliding chamber, just contact sensor one with when contact sensor two contacts, positive reverse motor stall, work as the pneumatic cylinder breaks away from and the back is accomplished in the removal of thread bush subassembly device, positive reverse motor just can be restarted, and work as after the transportation is accomplished to combination extrusion mechanism, positive reverse motor reversal can make first pay-off case with the second pay-off case resets.

Preferably, the combined extrusion mechanism comprises two sets of slide rails symmetrically arranged in the front and rear side wall bodies of the working cavity between the cloth feeding mechanism and the fixed pulley, the two sets of slide rails are respectively used for clamping the upper and lower edges of the non-woven fabric, an electric slider controlled by an electric motor is arranged in the slide rails in a sliding manner, a combined box is fixedly arranged between the electric sliders, the combined box is close to a rotating wheel cavity in the wall body between the non-woven fabric wheels, the front and rear side wall bodies of the rotating wheel cavity are rotationally provided with a centralized laminating mechanism for the non-woven fabric, a movable clamping box cavity is arranged in the wall body on the right side of the combined box, an electromagnet is fixedly arranged in the left side wall body of the movable clamping box cavity, a movable clamping box capable of being fixed by the electromagnet is arranged in the movable clamping box cavity in a sliding manner, and a connecting rod for connection is arranged between the movable clamping boxes, remove centre gripping case downside and be equipped with the stripper plate that is used for concentrated non-woven fabrics to carry out the centre gripping, remove the centre gripping case with the subassembly of stripper plate can make concentrated non-woven fabrics transport more convenient.

Preferably, the combination extrusion mechanism still including set up in work feed mechanism right side the internal crowded press synthetic chamber that is equipped with of lateral wall about the synthetic case of cloth, the synthetic intracavity of extrusion is equipped with the mechanism that is used for the extrusion combination between the non-woven fabrics, the synthetic case of cloth is left the internal chamber that slides in that is equipped with of lateral wall about the synthetic chamber of extrusion, slide in and be equipped with the electric putter who removes about the wall body in chamber right side through electric promotion, electric putter left side set firmly can with remove the centre gripping case keep away from in a lateral wall body cunning of non-woven fabric wheel intermediate position inserts fixed claw of snatching.

Preferably, the synthetic case of cloth be equipped with the conveyer belt chamber in the stripper plate downside wall body, the conveyer belt intracavity is equipped with the non-woven fabrics that is used for the combination and carries out the cloth conveyer of transporting, cloth conveyer's hold-in range upside rotate around the stripper plate on the lateral wall body and be equipped with the non-woven fabrics that is used for the combination and carry out extruded pay-off laminating runner, be equipped with the extrusion runner that is used for the non-woven fabrics secondary degree of depth to extrude in the stripper plate upside wall body.

Preferably, the stitch-bonding mechanism comprises an upper side driving box arranged on the upper side of the stitch-bonding box, the stitch-bonding box and a stitch-bonding cavity between the upper side driving boxes, a lower side cloth stitch-bonding box is arranged on the lower side of the upper side driving box, an upper side driving box used for combining non-woven fabrics to perform stitch-bonding is arranged on the lower side of the lower side cloth stitch-bonding box in an array mode, and an auxiliary feeding wheel used for assisting in stitch-bonding of non-woven fabric ready-made clothes is arranged between needles on the lower side of the lower side cloth stitch-bonding box.

The invention has the beneficial effects that: the invention can rapidly complete extrusion lamination between non-woven fabrics and stitch-bonding ready-made clothes of combined non-woven fabrics, the clamped non-woven fabrics are rapidly centralized through the first feeding box and the second feeding box on the cloth feeding mechanism, so that the combined box can rapidly laminate the centralized non-woven fabrics through the rotating wheel and the movable clamping box and clamp a cloth head, the centralized cloth head is driven by the electric push rod to carry out home operation on the centralized cloth head, and then the centralized cloth head is fed into an extrusion lamination forming cavity in the extrusion mechanism, so that the non-woven fabrics are rapidly extruded and synthesized, thereby greatly improving the synthesis efficiency between the non-woven fabrics and the synthesis flatness; and the auxiliary feeding wheel can be controllably adjusted according to the thickness of the fabric synthesis, the auxiliary feeding wheel can enable the extruded non-woven fabric to be rapidly interpenetrated for sewing, and the dislocation of the combined non-woven fabric can be effectively prevented, so that the success efficiency of processing the non-woven fabric into the garment is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of a stitchbonded fabric-forming machine for the production of a stitchbonded nonwoven fabric;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a cross-sectional view taken at "B-B" in FIG. 2;

FIG. 4 is a cross-sectional view taken at "C-C" in FIG. 2;

FIG. 5 is a cross-sectional view of a feed mechanism in a stitchbonded fabric-forming machine for the production of stitchbonded nonwoven fabrics;

FIG. 6 is an enlarged schematic view at D of FIG. 5;

FIG. 7 is an enlarged schematic view at E in FIG. 5;

fig. 8 is a schematic structural view of the movable clamping box, the connecting rod and the pressing plate.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The stitch-bonding fabric-forming machine for producing stitch-bonded non-woven fabrics described in conjunction with the attached fig. 1-8 comprises a stitch-bonding machine shell mechanism 001, a working chamber 102 for the stitch-bonding work of non-woven fabrics is arranged in the stitch-bonding machine shell mechanism 001, a plurality of non-woven fabric wheels 103 are rotatably arranged on the front and rear side wall bodies on the left side of the working chamber 102, a plurality of combined fabrics for the stitch-bonding fabric-forming are wound on the non-woven fabric wheels 103, a fabric feeding mechanism 002 capable of gathering a plurality of fabrics to the middle position is slidably arranged in the front and rear side wall bodies on the right side of the working chamber 102 on the right side of the non-woven fabric wheels 103, a combined extruding mechanism 003 for gathering non-woven fabrics and feeding materials is arranged on the left and right sides of the fabric feeding mechanism 002, a support plate 106 is fixedly arranged on the right side wall body of the non-woven fabric wheel 103 on the right side of the combined extruding mechanism 003 part on the right side of the fabric feeding mechanism 002, a support plate 104 used for collecting the stitched non-woven fabric is arranged on the support plate 106, a stitching box 402 is fixedly arranged on the upper side of the support plate 106 on the left side of the support plate 104, and a stitching mechanism 004 used for stitching the combined non-woven fabric is arranged in the stitching box 402; the cloth on the upper side of the non-woven fabric wheel 103 is manually fed to each component of the cloth feeding mechanism 002 for clamping, then, the respective components of the cloth feeding mechanism 002 are activated to concentrate the held nonwoven fabric to the middle position, in the portion where the combined pressing mechanism 003 located on the left side of the cloth feeding mechanism 002 is activated, thereby the nonwoven fabric between the nonwoven fabric wheel 103 and the fabric feeding mechanism 002 is intensively bonded, so that the subsequent combination and feeding of the non-woven fabrics can be more efficient, after the combination extrusion mechanism 003 at the left side of the cloth feeding mechanism 002 finishes the concentrated clamping, then the combined extrusion mechanism 003 at the right side of the cloth feeding mechanism 002 is started to convey the concentrated non-woven fabrics to the mechanical part for extrusion and lamination, so that the non-woven fabrics can be combined more firmly, and then the non-woven fabric which is extruded and attached is subjected to stitch-bonding by the stitch-bonding mechanism 004 to form a garment.

Beneficially, the casing mechanism 001 of the knitting machine further comprises fixed pulleys 108 rotatably disposed on front and rear side wall bodies of the working chamber 102 between the feeding mechanism 002 and the non-woven wheels 103, the number of the fixed pulleys 108 corresponds to the number of the non-woven wheels 103, the fixed pulleys 108 are used for guiding and sliding the non-woven fabrics combined between the non-woven fabrics of the non-woven wheels 103, a fabric combining box 109 is fixedly disposed on the upper side of the supporting plate 106 on the left side of the knitting box 107, and a combined pressing mechanism 003 for pressing and attaching various non-woven fabrics is disposed in the fabric combining box 109.

Advantageously, the cloth feeding mechanism 002 includes two upper and lower sliding cavities 202 in the front and rear side walls of the working chamber 102 at the lower side of the middle position of the nonwoven fabric wheel 103, the cloth feeding mechanism 002 is used for transporting the nonwoven fabric at the upper side of the nonwoven fabric wheel 103 above and below the working chamber 102, a forward and reverse motor 203 is fixedly arranged in one side wall of the sliding cavity 202 far away from the middle position of the nonwoven fabric wheel 103, a threaded rotating shaft 206 is fixedly arranged on the power output shaft of the forward and reverse motor 203, a first feeding box 204 in threaded engagement with the threaded rotating shaft 206 is slidably arranged in the sliding cavity 202 far away from the middle position of the nonwoven fabric wheel 103, a second feeding box 210 is slidably arranged in the sliding cavity 202 near to the middle position of the nonwoven fabric wheel 103 of the first feeding box 204, and the same cloth clamping mechanism is arranged in the left side of the first feeding box 204 and the second feeding box 210, a rotating cavity 207 is arranged in the left side wall body of the first feeding box 204, a reset rotating rod 208 is arranged on the front side and the rear side of the rotating cavity 207 in a rotating way, the reset rotating rod 208 can be controlled by a motor to rotate, an electric cloth feeding wheel 209 for feeding non-woven cloth is fixedly arranged on the reset rotating rod 208, a 214 capable of clamping the fed non-woven fabric is arranged between the reset rotating rods 208, a second contact sensor 205 is arranged in the upper side wall body of the first feeding box 204, a first contact sensor 201 is arranged in the lower side wall body of the second feeding box 210, a sliding insertion box 213 is arranged in the right side wall body of the second feeding box 210, a hydraulic cylinder 212 is fixedly arranged in the right side wall body of the sliding cavity 202 on the right side of the sliding insertion box 213, the second feed magazine 210 is provided with a clamping mechanism that can be electrically actuated to clamp the threaded shaft 206, a threaded sleeve assembly means 211 for threadably connecting said second hopper 210 to said threaded shaft 206; when the clamped non-woven fabrics are concentrated, the forward and reverse rotation motor 203 is started firstly, the forward and reverse rotation motor 203 is started to drive the thread rotating shaft 206 to rotate, the thread rotating shaft 206 rotates to drive the first feeding box 204 to slide along the sliding cavity 202, when the non-woven fabrics move to a certain position, the second contact sensor 205 is contacted with the first contact sensor 201, the thread sleeve assembly device 211 is started to push the thread sleeve assembly of the semi-arc-shaped row to move, so that the second feeding box 210 and the thread sleeve assembly device 211 in threaded connection with the thread rotating shaft 206 are enabled, meanwhile, the hydraulic cylinder 212 is started to enable the hydraulic push rod on the hydraulic cylinder 212 to move out of the sliding insertion box 213, and then the forward and reverse rotation motor 203 is started, so that the first feeding box 204 and the second feeding box 210 can simultaneously move the non-woven fabrics, and the non-woven fabrics on the upper side of the non-woven fabrics wheel 103 are concentrated, thereby the combination of non-woven fabrics is more convenient.

Advantageously, a pair of cloth feeding mechanisms 002 for clamping the front and rear sides of the nonwoven fabric in the width direction are respectively arranged in the sliding cavities 202 in the front and rear side wall bodies of the working cavity 102, and when the first contact sensor 201 contacts with the second contact sensor 205, the forward and reverse rotating motor 203 stops rotating, when the hydraulic cylinder 212 is disengaged and the movement of the thread bush assembly device 211 is completed, the forward and reverse rotating motor 203 is restarted, and when the combined extrusion mechanism 003 is transported, the forward and reverse rotating motor 203 reversely rotates to reset the first feeding box 204 and the second feeding box 210.

Beneficially, the combined pressing mechanism 003 includes two sets of slide rails 314 symmetrically disposed in front and rear side walls of the working chamber 102 between the cloth feeding mechanism 002 and the fixed pulley 108, the two sets of slide rails 314 are disposed up and down for clamping upper and lower edges of the non-woven fabric, an electric slider 315 electrically controlled is slidably disposed in the slide rails 314, a combined box 301 is fixedly disposed between the electric sliders 315, a rotating wheel cavity 302 is disposed in a wall body between the combined box 301 and the non-woven fabric wheel 103, a centralized bonding for the non-woven fabric is rotatably disposed on the front and rear side walls of the rotating wheel cavity 302, a movable clamping box cavity 304 is disposed in a right side wall body of the combined box 301, an electromagnet 305 is fixedly disposed in a left side wall body of the movable clamping box cavity 304, a movable clamping box 306 capable of being adsorbed and fixed by the electromagnet 305 is slidably disposed in the movable clamping box cavity 304, remove and be equipped with the connecting rod 316 that is used for connecting between the centre gripping case 306, it is equipped with the stripper plate 317 that is used for concentrated non-woven fabrics to carry out the centre gripping to remove centre gripping case 306 downside, remove centre gripping case 306 with the subassembly of stripper plate 317 can make concentrated non-woven fabrics transport more convenient.

Beneficially, the combined extrusion mechanism 003 further includes an extrusion pressing forming cavity 318 disposed inside the left and right side wall bodies of the cloth combining box 109 disposed on the right side of the cloth feeding mechanism 002, a mechanism for extrusion combining between non-woven fabrics is disposed inside the extrusion pressing forming cavity 318, a slide-in cavity 307 is disposed inside the upper and lower side wall bodies of the extrusion pressing forming cavity 318 on the left side of the cloth combining box 109, an electric push rod 309 which is electrically pushed to move left and right is disposed inside a wall body on the right side of the slide-in cavity 307, and a grabbing claw 308 which can be slidably inserted and fixed with a side wall body of the movable clamping box 306 away from the middle position of the non-woven wheel 103 is fixedly disposed on the left side of the electric push rod 309; when the rotation wheel 303 carries out the centre gripping to the non-woven fabrics, start the combination case 301 upside remove the centre gripping case 306 to can pass through remove the centre gripping case 306 and promote the stripper plate 317 non-woven fabrics carries out the centre gripping fixed, then starts electric putter 309, electric putter 309 drives grab claw 308 moves left, thereby makes grab claw 308 with remove the combination of centre gripping case 306, then electric putter 309 moves to the right side, thereby drives remove the centre gripping case 306 and move to in the chamber 307 of sliding into, thereby convenient in the mechanism that is used for the extrusion combination between the non-woven fabrics in the extrusion composition chamber 318 carries out the extrusion transportation of non-woven fabrics.

Beneficially, a conveyor belt cavity 310 is arranged in a lower side wall body of the extrusion plate 317 of the cloth synthesizing box 109, a cloth conveying device 311 for conveying combined non-woven fabrics is arranged in the conveyor belt cavity 310, a feeding and attaching rotating wheel 313 for extruding the combined non-woven fabrics is rotatably arranged on front and rear side wall bodies of the extrusion plate 317 on the upper side of a synchronous belt of the cloth conveying device 311, and an extrusion rotating wheel 312 for secondary deep extrusion of the non-woven fabrics is arranged in an upper side wall body of the extrusion plate 317; when the non-woven fabric is fed into the space between the feeding and attaching rotating wheels 313 of the fabric conveying device 311 by the squeezing plate 317, the movable clamping box 306 is started to release the clamping of the squeezing plate 317 on the combined non-woven fabric, so that the non-woven fabric is squeezed and reinforced by the feeding and attaching rotating wheels 313 and the squeezing rotating wheels 312, and the non-woven fabric is fed into the stitching mechanism 004 to be stitched into a garment.

Beneficially, the stitching mechanism 004 comprises an upper driving box 401 arranged on the upper side of the stitching box 107, a stitching cavity 405 between the stitching box 107 and the upper driving box 401, a lower cloth stitching box 403 arranged on the lower side of the upper driving box 401, an upper driving box 401 arranged on the lower side of the lower cloth stitching box 403 in an array manner for stitching non-woven fabrics, and an auxiliary feeding wheel 406 arranged between the needles 404 arranged on the lower side of the lower cloth stitching box 403 for assisting in stitching non-woven fabric ready-made clothes; the supporting rod 407 can drive the auxiliary feeding wheel 406 to be controllably adjusted according to the thickness of the fabric, the auxiliary feeding wheel 406 can assist the extruded non-woven fabric to perform penetrating sewing driven by the needle 404, and the auxiliary feeding wheel 406 can fix and feed the non-woven fabric when the needle 404 penetrates, so that the success efficiency of processing the non-woven fabric into garments is greatly improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.