CN111589542A

CN111589542A - A abandonment cloth recovery unit for shirt processing

Info

Publication number: CN111589542A
Application number: CN202010412788.2A
Authority: CN
Inventors: 李贺
Original assignee: Anhui Hengyi Textile Technology Co ltd
Current assignee: Anhui Hengyi Textile Technology Co ltd
Priority date: 2020-05-15
Filing date: 2020-05-15
Publication date: 2020-08-28

Abstract

The invention discloses a waste cloth recovery device for shirt processing, a motor bracket is fixedly arranged on a feeding rack, a vertical plate is fixedly arranged on the motor bracket, a first driving motor is fixedly arranged on the motor bracket, the gear box is fixedly arranged on the motor bracket, a gear set in meshing connection is arranged in the gear box, the input end of the gear box is connected with the output shaft of the first driving motor, two groups of output shafts are arranged on the gear box, the invention primarily minces the rag thrown into the feed hopper through two groups of mincer shafts, the cloth is primarily ground before being conveyed to the cloth grinding mechanism, so that the cloth grinding recovery efficiency of the cloth is effectively improved, the ground cloth falls onto the conveying belt, the cloth falls into the recovery cloth chopping mechanism through the conveying of the conveying belt, and the efficient recovery of the cloth is effectively ensured.

Description

A abandonment cloth recovery unit for shirt processing

Technical Field

The invention relates to the technical field of textile equipment, in particular to a waste cloth recovery device for shirt processing.

Background

In-process at shirt processing, can produce some unqualified products, including whole book feed back and tailor rim charge etc, if directly abandon these unqualified products and can cause the waste of resource, consequently need retrieve the waste material, recycle unqualified cloth, but some feed back devices at present are when utilizing the feed back, will carry the operation platform with the waste material through the manual work on, then with the waste material unified put into the melting barrel inside by the feed back machine traction, this process is not only wasted time and energy, and because artifical handling efficiency is low, unusual can take place unqualified cloth and pile up on the ground a large amount, make on-the-spot various cloth disorderly and have no chapter.

Disclosure of Invention

The invention aims to provide a waste cloth recovery device for shirt processing, which primarily rubs cloth thrown into a feed hopper through two rubbing cutter shafts, and primarily rubs the cloth before the cloth is conveyed to a cloth rubbing mechanism, so that the cloth rubbing recovery efficiency is effectively improved, the rubble cloth falls onto a conveying belt, and falls into a cloth rubbing recovery mechanism through the conveying of the conveying belt, and the high-efficiency recovery of the cloth is effectively ensured.

The purpose of the invention can be realized by the following technical scheme:

a waste cloth recovery device for shirt processing comprises a recovery feeding mechanism and a recovery cloth crushing mechanism; the recycling feeding mechanism and the recycling cloth shredding mechanism are arranged on the ground side by side, the recycling feeding mechanism comprises a feeding rack, a motor support, a first driving motor, a gear box, a driving chain wheel, a driven chain wheel, a driving shaft, a first driving gear, a first driven gear, a feeding hopper, a mincing knife shaft, a conveying trough and a conveying belt, the feeding rack is formed by welding square steel, the feeding rack is of a structure with one high end and one low end, a plurality of groups of supporting feet are uniformly and fixedly arranged at the bottom of the feeding rack, and anti-skidding and shock-absorbing foot pads are arranged on the supporting feet; the feeding machine comprises a feeding rack, a motor support, a gear box, a transmission groove, a conveying groove, a plurality of groups of guide rollers, a feeding groove and a discharging groove, wherein the motor support is fixedly arranged on the feeding rack, a vertical plate is fixedly arranged on the motor support, a first driving motor is fixedly arranged on the motor support, the gear box is fixedly arranged on the motor support, a gear set connected in a meshing manner is arranged in the gear box, the input end of the gear box is connected with the output shaft of the first driving motor, two groups of output shafts are arranged on the gear box, one group of output shafts is fixedly connected with the driving chain wheel, the driving chain wheel and the driven chain wheel are rotatably connected with the vertical plate arranged on the motor support, the driving shaft is connected with the driven chain wheel through a, the conveying belt is connected to a plurality of groups of guide rollers, the feeding hopper is fixedly installed on the conveying trough, the discharging port of the feeding hopper is positioned right above the conveying belt, at least two groups of mincing cutter shafts are rotationally connected in the feeding hopper, the two groups of mincing cutter shafts are arranged in parallel, a plurality of groups of mincing cutters are uniformly distributed on the periphery of the mincing cutter shafts, the end parts of one end shafts of the two groups of mincing cutter shafts extend out of the feeding hopper, one group of mincing cutter shafts are connected with a first driving gear, the end parts of the other group of mincing cutter shafts are connected with a first driven gear, the first driving gear is meshed with the first driven gear, the first driving gear is connected with a driving shaft, the cloth recovering and crushing mechanism comprises a cloth crushing rack, a cloth crushing hopper is arranged on the cloth crushing rack, the feeding end of the cloth crushing hopper is positioned, the inside cloth crushing mechanism that is provided with of cloth crushing hopper.

Preferably, the cloth chopping mechanism comprises a cloth chopping box body, a first knife chopping shaft, a second knife chopping shaft, a first connecting shaft, a second driven gear and a second driving gear; the cloth chopping machine comprises a cloth chopping machine frame, a cloth chopping box body, a first cloth chopping shaft, a second cloth chopping shaft, a first connecting shaft, a second driven gear, a cloth chopping hopper, a cloth chopping box body, a discharging pipe, a first cloth chopping shaft, a second cloth chopping shaft, a plurality of groups of cloth chopping knives, a plurality of, and the second driven gear is meshed with the second driving gear.

Preferably, the two ends of the cloth chopping box body are fixedly provided with bearing seats, the bearing seats are internally and fixedly provided with connecting bearings, and the end parts of the first and second chopping shafts extend out of the cloth chopping box body and are fixedly connected with inner rings of the connecting bearings arranged in the bearing seats.

Preferably, a plurality of groups of fixed shredding knives are fixedly mounted on two sides of the shredding box body, and the fixed shredding knives are distributed in a crossed manner with the shredding knives arranged on the peripheries of the first shredding knife shaft and the second shredding knife shaft.

Preferably, the rag actuating mechanism includes shaft coupling, speed reducer and second driving motor, second driving motor fixed mounting is in the rag frame, second driving motor output shaft links to each other with the speed reducer, the speed reducer output passes through the connecting axle and links to each other with the shaft coupling, the shaft coupling links to each other with the second driving gear.

Preferably, the inlet of the feed hopper is uniformly and rotatably connected with a plurality of groups of feeding baffle rods, and the feeding baffle rods are perpendicular to the mincing cutter shaft.

Preferably, a plurality of groups of conveying baffle plates are uniformly arranged on the conveying belt, and a conveying cover plate is installed at the upper end of the conveying groove.

Preferably, the use method of the recovery device comprises the following specific steps,

the method comprises the following steps: the method comprises the steps that rag generated by shirt processing is thrown onto a feeding hopper, a feeding blocking rod rotatably arranged on the feeding hopper facilitates uniform feeding of the rag, a first driving motor works to drive a gear set in a gear box to rotate, the gear set in the gear box drives a driving chain wheel and a guide roller in a conveying groove to rotate, the guide roller in the conveying groove drives a conveying belt to rotate, the driving chain wheel drives a driven chain wheel to rotate through a chain, the driven chain wheel drives a first driving gear to rotate through a driving shaft, the first driving gear drives the first driven gear to rotate through meshing connection, so that two sets of rubbing cutter shafts are driven to rotate, the rag thrown into the feeding hopper is primarily rubbed through the two sets of rubbing cutter shafts, the rag falls onto the conveying belt, and the rag falls into a rag recovery mechanism through conveying;

step two: the rag falls into the rag hopper through retrieving feed mechanism, second driving motor work drives speed reducer work, the speed reducer passes through the shaft coupling and drives the second connecting axle and rotate, the second connecting axle drives second driven gear through the second driving gear and rotates, thereby drive first garrulous arbor and the rotation of second garrulous arbor, the rag sword through first garrulous arbor and the criss-cross setting of second garrulous arbor periphery rubs the recovery to the cloth that falls into in the rag box, the fixed garrulous sword that sets up at rag box both ends rubs the cloth with the rag sword of first garrulous arbor and the criss-cross setting of second garrulous arbor periphery, the cloth after rubbing is taken in the collection box and is concentrated recovery processing after discharging through the discharging pipe.

The invention has the beneficial effects that:

the rag produced by shirt processing is put on the feeding hopper, a feeding baffle rod which is rotatably arranged on the feeding hopper is convenient for evenly feeding the rag, the feeding baffle rod is evenly and rotatably connected at the inlet of the feeding hopper to ensure that the cloth is more evenly distributed when entering the feeding hopper, thereby improving the preliminary rubbing effect on the cloth, a first driving motor works to drive a gear set in a gear box to rotate, the gear set in the gear box drives a driving chain wheel and a guide roller in a conveying groove to rotate, the driving chain wheel drives a driven chain wheel to rotate through a chain by the gear set arranged in the gear box, the driving of the conveying belt and the driving shaft by the first driving motor can be realized, the use of the motor is effectively saved, thereby saving the cost, the guide roller in the conveying groove rotates to drive the conveying belt to rotate, the driving chain wheel drives a driven chain wheel to rotate through the chain, the driven chain, the grinding device comprises a gear mesh transmission device, a driving shaft, a grinding cutter shaft, a grinding mechanism, a cloth conveying mechanism, a cloth grinding mechanism and a cloth grinding mechanism, wherein the gear mesh transmission device drives two groups of gears and the grinding cutter shaft to rotate, so that the grinding effect on cloth is ensured, the driving shaft drives the two groups of grinding cutter shafts to rotate, the two groups of grinding cutter shafts preliminarily grind the cloth thrown into a feeding hopper, and preliminarily grind the cloth before the cloth is conveyed to the cloth grinding mechanism, so that the cloth grinding recovery efficiency on the cloth is effectively improved, the ground cloth falls onto a conveying belt and falls into the cloth recovering mechanism through conveying of the conveying belt, a plurality of groups;

the cloth is put into a cloth crushing hopper through a recovery feeding mechanism, the second driving motor works to drive a speed reducer to work, the speed reducer effectively reduces the output rotating speed of the second driving motor, so that the first and second cloth crushing shafts are protected, the speed reducer drives a second connecting shaft to rotate through a coupler, the second connecting shaft drives a second driven gear to rotate through a second driving gear, two groups of cloth crushing shafts are driven to rotate through gear meshing to crush and recover the cloth, the two groups of rubbing cutters are driven by one group of motor to work, the efficiency of crushing and recovering the cloth is effectively improved, the first and second cloth crushing shafts are driven to rotate through the second driving motor, the cloth falling into the cloth crushing box body is crushed and recovered through the cloth crushing cutters which are arranged in a crossed mode on the peripheries of the first and second cloth crushing shafts, the effect of crushing on the cloth is improved through the cloth crushing cutters which are arranged in a crossed mode on the peripheries of the first and second cloth crushing shafts, the cloth is rubbed to the rag sword of fixed garrulous sword and first garrulous arbor and the crisscross rag sword that sets up of second garrulous arbor periphery that rag box both ends set up, and the rag sword cooperation of connecting on fixed garrulous sword and the rotation garrulous arbor further improves the efficiency of rubbing and rub the effect to the cloth, and the cloth after rubbing is taken in to the collection box after discharging through the discharging pipe and is concentrated recovery processing, effectively ensures the high-efficient recovery to the cloth.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of a recycling feeding mechanism according to the present invention;

FIG. 3 is a perspective view of the recovery feed mechanism of the present invention;

FIG. 4 is an isometric view of the recovery feed mechanism of the present invention;

FIG. 5 is a schematic structural view of a cloth recovering and breaking mechanism according to the present invention;

FIG. 6 is an isometric view of the recovery rag mechanism of the present invention;

FIG. 7 is a schematic structural view of the cloth chopping box body of the invention;

FIG. 8 is a top view of the rag box body of the present invention;

in the figure: 1. a material recycling and feeding mechanism; 2. a cloth-cutting recovery mechanism; 3. a feeding rack; 4. a motor bracket; 5. a first drive motor; 6. a gear case; 7. a drive sprocket; 8. a driven sprocket; 9. a drive shaft; 10. a first drive gear; 11. a first driven gear; 12. a feed hopper; 13. a feeding stop lever; 14. mincing the cutter shaft; 15. a conveying trough; 16. a conveyor belt; 17. a conveying baffle; 18. a conveying cover plate; 19. a cloth chopping machine frame; 20. a cloth crushing hopper; 21. a cloth shredding box body; 22. fixing a crushing cutter; 23. a first chopping knife shaft; 24. a second chopping cutter shaft; 25. a bearing seat; 26. a first connecting shaft; 27. a second connecting shaft; 28. a second driven gear; 29. a second driving gear; 30. a discharge pipe; 31. a coupling; 32. a speed reducer; 33. a second drive motor.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

Referring to fig. 1-8, a waste cloth recycling device for shirt processing includes a recycling feeding mechanism 1 and a recycling cloth shredding mechanism 2; the recycling feeding mechanism 1 and the recycling cloth shredding mechanism 2 are arranged on the ground side by side, the recycling feeding mechanism 1 comprises a feeding frame 3, a motor support 4, a first driving motor 5, a gear box 6, a driving chain wheel 7, a driven chain wheel 8, a driving shaft 9, a first driving gear 10, a first driven gear 11, a feeding hopper 12, a mincing knife shaft 14, a conveying groove 15 and a conveying belt 16, the feeding frame 3 is formed by welding square steel, the feeding frame 3 is of a structure with one high end and one low end, a plurality of groups of supporting bottom feet are uniformly and fixedly installed at the bottom of the feeding frame 3, and anti-skidding and shock-absorbing foot pads are arranged on the supporting bottom feet; the motor bracket 4 is fixedly arranged on the feeding rack 3, a vertical plate is fixedly arranged on the motor bracket 4, a first driving motor 5 is fixedly arranged on the motor bracket 4, a gear box 6 is fixedly arranged on the motor bracket 4, a gear set which is meshed and connected is arranged in the gear box 6, the input end of the gear box 6 is connected with the output shaft of the first driving motor 5, two groups of output shafts are arranged on the gear box 6, one group of output shafts is fixedly connected with a driving chain wheel 7, the driving chain wheel 7 and a driven chain wheel 8 are rotationally connected on the vertical plate arranged on the motor bracket 4, the driving chain wheel 7 and the driven chain wheel 8 are connected through chain transmission, a driving shaft 9 is connected on the driven chain wheel 8, a conveying groove 15 is fixedly arranged on the feeding rack 3, a plurality of groups of guide rollers are rotationally connected on the conveying groove 15, one end of the guide roller positioned at, the conveyer belt 16 is connected on a plurality of groups of guide rollers, the feed hopper 12 is fixedly arranged on the conveyer trough 15, the discharge port of the feed hopper 12 is positioned right above the conveyer belt 16, at least two groups of mincing knife shafts 14 are rotationally connected in the feed hopper 12, the two groups of mincing knife shafts 14 are arranged in parallel and are uniformly distributed with a plurality of groups of mincing knives on the periphery, the shaft end parts of one ends of the two groups of mincing knife shafts 14 extend out of the feed hopper 12, the end part of one group of mincing knife shafts 14 is connected with a first driving gear 10, the end part of the other group of mincing knife shafts 14 is connected with a first driven gear 11, the first driving gear 10 is engaged with the first driven gear 11, the first driving gear 10 is connected with a driving shaft 9, the cloth recovering and crushing mechanism 2 comprises a cloth rack 19, a cloth crushing hopper 20 is arranged on the cloth rack 19, the feed end, the inside of the cloth crushing hopper 20 is provided with a cloth crushing mechanism.

The cloth crushing mechanism comprises a cloth crushing box body 21, a first crushing cutter shaft 23, a second crushing cutter shaft 24, a first connecting shaft 26, a second connecting shaft 27, a second driven gear 28 and a second driving gear 29; a cloth chopping box body 21 is fixedly arranged on a cloth chopping frame 19, a feed inlet of the cloth chopping box body 21 is connected with a discharge outlet of a cloth chopping hopper 20, a discharge outlet of the cloth chopping box body 21 is connected with a feed inlet of a discharge pipe 30, a first cloth chopping shaft 23 and a second cloth chopping shaft 24 are rotatably connected in the cloth chopping box body 21, the first cloth chopping shaft 23 and the second cloth chopping shaft 24 are arranged in parallel side by side, a plurality of groups of cloth chopping knives are uniformly distributed on the peripheries of the first cloth chopping shaft 23 and the second cloth chopping shaft 24, the cloth chopping knives arranged on the first cloth chopping shaft 23 and the cloth chopping knives arranged on the second cloth chopping shaft 24 are distributed in a crossing way, a first connecting shaft 26 is fixedly connected with the first cloth chopping shaft 23, one end of a second connecting shaft 27 is fixedly connected with the second cloth chopping shaft 24, the other end of the second connecting shaft 27 is connected with a cloth chopping driving mechanism, a second driving gear 29 is fixedly connected on the second connecting shaft, the second driven gear 28 is engaged with the second driving gear 29.

Bearing seats 25 are fixedly arranged at two ends of the cloth chopping box body 21, connecting bearings are fixedly arranged in the bearing seats 25, and the end parts of the first chopping knife shaft 23 and the second chopping knife shaft 24 extend out of the cloth chopping box body 21 to be fixedly connected with inner rings of the connecting bearings arranged in the bearing seats 25.

A plurality of groups of fixed shredding knives 22 are fixedly arranged on two sides of the shredding box body 21, and the fixed shredding knives 22 are distributed in a crossed manner with the shredding knives arranged on the peripheries of the first shredding knife shaft 23 and the second shredding knife shaft 24.

The cloth chopping driving mechanism comprises a coupler 31, a speed reducer 32 and a second driving motor 33, the second driving motor 33 is fixedly installed on the cloth chopping rack 19, an output shaft of the second driving motor 33 is connected with the speed reducer 32, an output end of the speed reducer 32 is connected with the coupler 31 through a connecting shaft, and the coupler 31 is connected with the second driving gear 29.

A plurality of groups of feeding baffle rods 13 are uniformly and rotatably connected at the inlet of the feed hopper 12, and the feeding baffle rods 13 are vertical to the mincing knife shaft 14.

A plurality of groups of conveying baffle plates 17 are uniformly arranged on the conveying belt 16, and a conveying cover plate 18 is arranged at the upper end of the conveying groove 15.

The using method of the recovery device comprises the following specific steps,

the method comprises the following steps: the rag produced by shirt processing is put on a feed hopper 12, a feed blocking rod 13 which is rotatably arranged on the feed hopper 12 is convenient for evenly feeding the rag, a first drive motor 5 works to drive a gear set in a gear box 6 to rotate, the gear set in the gear box 6 drives a drive sprocket 7 and a guide roller in a conveying groove 15 to rotate, the guide roller in the conveying groove 15 drives a conveyer belt 16 to rotate, the drive sprocket 7 drives a driven sprocket 8 to rotate through a chain, the driven sprocket 8 drives a first drive gear 10 to rotate through a drive shaft 9, the first drive gear 10 drives a first driven gear 11 to rotate through meshing connection, thereby driving the two groups of mincing knife shafts 14 to rotate, primarily mincing the rag put into the feed hopper 12 through the two groups of mincing knife shafts 14, and leading the minced rag to fall onto the conveyer belt 16 and fall into the rag recovery mechanism 2 through the conveying of the conveyer belt 16;

step two: the rag falls into rag hopper 20 through retrieving feed mechanism 1, second driving motor 33 work drives speed reducer 32 work, speed reducer 32 drives second connecting axle 27 through shaft coupling 31 and rotates, second connecting axle 27 drives second driven gear 28 through second driving gear 29 and rotates, thereby drive first rag arbor 23 and second rag arbor 24 and rotate, rag sword through first rag arbor 23 and second rag arbor 24 periphery cross arrangement rubs the recovery to the cloth that falls into rag box 21, the rag sword that fixed rag sword 22 and first rag arbor 23 and second rag arbor 24 periphery cross arrangement that sets up of rag box 21 both ends ground the cloth, the cloth after rubbing is taken in the collection box and is concentrated recovery processing through discharging pipe 30 back income after discharging.

The invention has the beneficial effects that:

the rag produced by shirt processing is thrown onto the feeding hopper 12, the feeding blocking rod 13 which is rotatably arranged on the feeding hopper 12 facilitates uniform feeding of the rag, the feeding blocking rod 13 is uniformly rotatably connected at the inlet of the feeding hopper 12 to ensure that the rag is more uniformly distributed when entering the feeding hopper, thereby improving the preliminary rubbing effect on the rag, the first driving motor 5 works to drive the gear set in the gear box 6 to rotate, the gear set in the gear box 6 drives the driving chain wheel 7 and the guide roller in the conveying groove 15 to rotate, the first driving motor 5 can simultaneously drive the conveying belt 16 and the driving shaft 9 to rotate through the gear set arranged in the gear box 6, the use of the motor is effectively saved, thereby saving the cost, the guide roller in the conveying groove 15 rotates to drive the conveying belt 16 to rotate, the driving chain wheel 7 drives the driven chain wheel 8 to rotate through a chain, the driven chain wheel 8 drives the first driving gear, the first driving gear 10 drives the first driven gear 11 to rotate through meshing connection, gear meshing transmission drives two groups of gears and the mincing cutter shafts 14 to rotate, so that the mincing effect on cloth is ensured, the driving shaft 9 drives the two groups of mincing cutter shafts 14 to rotate, minced cloth put into the feeding hopper 12 is primarily minced through the two groups of mincing cutter shafts 14, and the cloth is primarily minced before being conveyed to the cloth mincing mechanism, so that the cloth mincing recovery efficiency on the cloth is effectively improved, the minced cloth falls onto the conveying belt 16 and falls into the cloth recovering mechanism 2 through the conveying of the conveying belt 16, a plurality of groups of conveying baffle plates 17 arranged on the conveying belt 16 play a role in stopping the cloth conveying, the anti-skidding effect on the cloth conveying is effectively realized, and the conveying cover plate 18 arranged on the conveying groove 15 prevents the cloth from falling off in the conveying process;

the cloth is fallen into the cloth crushing hopper 20 through the recovery feeding mechanism 1, the second driving motor 33 works to drive the speed reducer 32 to work, the speed reducer 32 effectively reduces the output rotation speed of the second driving motor 33, so as to ensure that the first and second knife shafts 23 and 24 are protected, the speed reducer 32 drives the second connecting shaft 27 to rotate through the coupler 31, the second connecting shaft 27 drives the second driven gear 28 to rotate through the second driving gear 29, the cloth is crushed and recovered by driving the two sets of knife shafts to rotate through gear engagement, the two sets of rubbing knives are driven to work through one set of motor, the recovery efficiency of the cloth is effectively improved, the first knife shaft 23 and the second knife shaft 24 are driven to rotate through the second driving motor 33, the cloth fallen into the cloth crushing box body 21 is crushed and recovered through the cloth crushing knives which are crossed on the peripheries of the first knife shaft 23 and the second knife shaft 24, the rag sword of 24 periphery cross arrangement of first garrulous arbor 23 and second garrulous arbor improves the effect of rubbing to the cloth, the rag sword of fixed garrulous sword 22 and first garrulous arbor 23 and the 24 periphery cross arrangement of second garrulous arbor that sets up at rag box 21 both ends sets up rubs the cloth, the cooperation of the rag sword of connecting on fixed garrulous sword 22 and the rotation garrulous arbor further improves the efficiency of rubbing and rubbing the effect to the cloth, the cloth after rubbing is taken in the collection box and is concentrated recovery processing after discharging through discharging pipe 30, effectively ensure the high-efficient recovery to the cloth.

When the shirt feeding device is used, rag generated by shirt processing is put on the feeding hopper 12, the feeding stop lever 13 rotatably arranged on the feeding hopper 12 is convenient for uniformly feeding the rag, the first driving motor 5 works to drive the gear set in the gear box 6 to rotate, the gear set in the gear box 6 drives the driving chain wheel 7 and the guide roller in the conveying groove 15 to rotate, the guide roller in the conveying groove 15 rotates to drive the conveying belt 16 to rotate, the driving chain wheel 7 drives the driven chain wheel 8 to rotate through a chain, the driven chain wheel 8 drives the first driving gear 10 to rotate through the driving shaft 9, the first driving gear 10 drives the first driven gear 11 to rotate through meshing connection, thereby driving the two groups of mincing knife shafts 14 to rotate, primarily mincing the rag put into the feed hopper 12 through the two groups of mincing knife shafts 14, and leading the minced rag to fall onto the conveyer belt 16 and fall into the rag recovery mechanism 2 through the conveying of the conveyer belt 16; the rag falls into rag hopper 20 through retrieving feed mechanism 1, second driving motor 33 work drives speed reducer 32 work, speed reducer 32 drives second connecting axle 27 through shaft coupling 31 and rotates, second connecting axle 27 drives second driven gear 28 through second driving gear 29 and rotates, thereby drive first rag arbor 23 and second rag arbor 24 and rotate, rag sword through first rag arbor 23 and second rag arbor 24 periphery cross arrangement rubs the recovery to the cloth that falls into rag box 21, the rag sword that fixed rag sword 22 and first rag arbor 23 and second rag arbor 24 periphery cross arrangement that sets up of rag box 21 both ends ground the cloth, the cloth after rubbing is taken in the collection box and is concentrated recovery processing through discharging pipe 30 back income after discharging.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A waste cloth recovery device for shirt processing is characterized by comprising a recovery feeding mechanism (1) and a recovery cloth crushing mechanism (2); the recycling feeding mechanism (1) and the recycling cloth shredding mechanism (2) are arranged on the ground side by side, the recycling feeding mechanism (1) comprises a feeding rack (3), a motor support (4), a first driving motor (5), a gear box (6), a driving chain wheel (7), a driven chain wheel (8), a driving shaft (9), a first driving gear (10), a first driven gear (11), a feeding hopper (12), a mincing cutter shaft (14), a conveying groove (15) and a conveying belt (16), the feeding rack (3) is formed by welding square steel, the feeding rack (3) is of a structure with one high end and one low end, a plurality of groups of supporting bottom feet are uniformly and fixedly mounted at the bottom of the feeding rack (3), and anti-skidding and shock absorption foot pads are arranged on the supporting bottom feet; the feeding mechanism is characterized in that the motor support (4) is fixedly mounted on the feeding rack (3), a vertical plate is fixedly mounted on the motor support (4), a first driving motor (5) is fixedly mounted on the motor support (4), the gear box (6) is fixedly mounted on the motor support (4), a gear set connected in a meshed mode is arranged in the gear box (6), the input end of the gear box (6) is connected with the output shaft of the first driving motor (5), two groups of output shafts are arranged on the gear box (6), one group of output shafts is fixedly connected with the driving chain wheel (7), the driving chain wheel (7) and the driven chain wheel (8) are rotatably connected onto the vertical plate arranged on the motor support (4), the driving chain wheel (7) and the driven chain wheel (8) are connected through chain transmission, and the driving shaft (9) is connected onto the driven chain wheel (8), the conveying trough (15) is fixedly installed on the feeding rack (3), a plurality of groups of guide rollers are connected to the conveying trough (15) in a rotating mode, one end of each guide roller positioned at the end part below the conveying trough is connected with an output shaft on the other group of gear boxes (6), the conveying belt (16) is connected to the plurality of groups of guide rollers, the feeding hopper (12) is fixedly installed on the conveying trough (15), a discharge hole of the feeding hopper (12) is positioned right above the conveying belt (16), at least two groups of mincing cutter shafts (14) are connected in the feeding hopper (12) in a rotating mode, the two groups of mincing cutter shafts (14) are arranged in parallel, a plurality of groups of mincing cutters are uniformly distributed on the periphery of the mincing cutter shafts, the end parts of the shaft at one ends of the two groups of mincing cutter shafts (14) extend out of the feeding hopper (12), the end parts of the mincing cutter shafts (14) are connected with the first driving gear (10), first driving gear (10) are connected with first driven gear (11) meshing, first driving gear (10) link to each other with drive shaft (9), retrieve rag mechanism (2) and include rag frame (19), be provided with rag hopper (20) on rag frame (19), rag hopper (20) feed end is located under conveyer trough (15) discharge gate, rag hopper (20) discharge gate is connected with discharging pipe (30), rag hopper (20) inside is provided with rag mechanism.

2. The waste cloth recycling device for shirt processing according to claim 1, wherein the cloth shredding mechanism comprises a cloth shredding box body (21), a first shredding cutter shaft (23), a second shredding cutter shaft (24), a first connecting shaft (26), a second connecting shaft (27), a second driven gear (28) and a second driving gear (29); the cloth chopping machine is characterized in that the cloth chopping box body (21) is fixedly arranged on the cloth chopping rack (19), a feed inlet of the cloth chopping box body (21) is connected with a discharge outlet of a cloth chopping hopper (20), a discharge outlet of the cloth chopping box body (21) is connected with a feed inlet of a discharge pipe (30), a first cloth chopping shaft (23) and a second cloth chopping shaft (24) are rotatably connected in the cloth chopping box body (21), the first cloth chopping shaft (23) and the second cloth chopping shaft (24) are arranged side by side in parallel, a plurality of groups of cloth chopping knives are uniformly distributed on the peripheries of the first cloth chopping shaft (23) and the second cloth chopping shaft (24), the cloth chopping knives arranged on the first cloth chopping shaft (23) and the second cloth chopping shaft (24) are distributed in a crossed manner, a first connecting shaft (26) is fixedly connected with the first cloth chopping shaft (23), one end of a second connecting shaft (27) is fixedly connected with the second cloth chopping shaft (24), and the other end of the second connecting shaft (27) is connected with a cloth chopping driving mechanism, the second driving gear (29) is fixedly connected to the second connecting shaft (27), the second driven gear (28) is fixedly connected to the first connecting shaft (26), and the second driven gear (28) is meshed with the second driving gear (29).

3. The waste cloth recycling device for shirt processing according to claim 2, wherein bearing seats (25) are fixedly mounted at both ends of the cloth chopping box body (21), connecting bearings are fixedly mounted in the bearing seats (25), and the end portions of the first and second chopping shafts (23, 24) extend out of the cloth chopping box body (21) and are fixedly connected with inner rings of the connecting bearings arranged in the bearing seats (25).

4. The waste cloth recycling device for shirt processing according to claim 2, wherein a plurality of groups of fixed shredding knives (22) are fixedly installed on two sides of the shredding box body (21), and the fixed shredding knives (22) are distributed in a crossed manner with the shredding knives arranged on the peripheries of the first shredding knife shaft (23) and the second shredding knife shaft (24).

5. The waste cloth recycling device for shirt processing according to claim 2, wherein the cloth chopping driving mechanism comprises a coupler (31), a speed reducer (32) and a second driving motor (33), the second driving motor (33) is fixedly mounted on the cloth chopping rack (19), an output shaft of the second driving motor (33) is connected with the speed reducer (32), an output end of the speed reducer (32) is connected with the coupler (31) through a connecting shaft, and the coupler (31) is connected with the second driving gear (29).

6. The waste cloth recycling device for shirt processing according to claim 1, wherein a plurality of sets of feeding bars (13) are rotatably connected to the inlet of the feeding hopper (12), and the feeding bars (13) are perpendicular to the mincing knife shaft (14).

7. The waste cloth recycling device for shirt processing according to claim 1, wherein a plurality of groups of conveying baffles (17) are uniformly arranged on the conveying belt (16), and a conveying cover plate (18) is installed at the upper end of the conveying groove (15).

8. The waste cloth recycling device for shirt processing according to claim 1, wherein the recycling device is used in a method comprising the steps of,

the method comprises the following steps: the rag produced by shirt processing is thrown onto a feed hopper (12), a feeding blocking rod (13) rotatably arranged on the feed hopper (12) is convenient for evenly feeding the rag, a first driving motor (5) works to drive a gear group in a gear box (6) to rotate, the gear group in the gear box (6) drives a driving chain wheel (7) and a guide roller in a conveying groove (15) to rotate, the guide roller in the conveying groove (15) rotates to drive a conveying belt (16) to rotate, the driving chain wheel (7) drives a driven chain wheel (8) to rotate through a chain, the driven chain wheel (8) drives a first driving gear (10) to rotate through a driving shaft (9), the first driving gear (10) drives a first driven gear (11) to rotate through meshing connection, so as to drive two sets of mincing cutter shafts (14) to rotate, and the rag thrown into the feed hopper (12) is primarily minced through the two sets of mincing cutter shafts (14), the minced cloth falls onto a conveyer belt (16) and falls into a cloth recovery and crushing mechanism (2) through the conveying of the conveyer belt (16);

step two: the rag falls into the rag hopper (20) through the recovery feeding mechanism (1), the second driving motor (33) works to drive the speed reducer (32) to work, the speed reducer (32) drives the second connecting shaft (27) to rotate through the coupler (31), the second connecting shaft (27) drives the second driven gear (28) to rotate through the second driving gear (29), thereby drive first garrulous arbor (23) and second garrulous arbor (24) and rotate, grind the recovery through the rag sword of first garrulous arbor (23) and second garrulous arbor (24) periphery cross arrangement to the cloth that falls into rag box (21), the rag sword that fixed garrulous sword (22) and first garrulous arbor (23) and second garrulous arbor (24) periphery cross arrangement that sets up of rag box (21) both ends set up rubs the cloth, the cloth is received to the collection box after discharging through discharging pipe (30) and is concentrated recovery processing.