CN112742568B - Waste cloth processing device for processing broken cloth into regenerated cotton - Google Patents

Abstract

The invention discloses a waste cloth processing device for processing broken cloth into regenerated cotton, which comprises a machine body, wherein a cutting cavity is arranged in the upper side wall of the machine body, a cutting device for cutting waste cloth is arranged in the cutting cavity, and the cutting device comprises a belt wheel cavity arranged at the rear side of the cutting cavity; the invention is provided with the shredding device, and waste cloth can be shredded by driving the shredding rotating wheel II and the shredding rotating wheel I to rotate, so that the subsequent processing of regenerated cotton is more convenient; the pneumatic device is arranged, and the crushed cloth in the pneumatic cavity can be transported into the vibration cavity for processing regenerated cotton by rotating the power fan, so that the transportation of the cloth is more sufficient; the invention is provided with the conveying device and the extrusion device, and can continuously carry out step-by-step extrusion and transmission by driving the conveying belt to carry out continuous transmission of the regenerated cotton extrusion by the regenerated cotton conveying and extrusion block, thereby greatly improving the extrusion efficiency of the pair and enabling the cotton pad to carry out high-quality output.

Description

Waste cloth processing device for processing broken cloth into regenerated cotton

Technical Field

The invention relates to the technical field related to cloth processing, in particular to a waste cloth processing device for processing broken cloth into regenerated cotton.

Background

The cloth is a material commonly used in decorative materials; including various fabrics such as chemical fiber carpets, non-woven wallcoverings, linen, nylon fabrics, colored rubberized fabrics, flannelette and the like; the traditional flowering machine can not cut up the waste cloth, so that the efficiency of the waste cloth is lower during treatment; the common regenerated cotton processing device can not make the cloth material transported pneumatically, so that the cloth material can not be completely fed when being fed into the cotton opening box, and the cloth material is not transported sufficiently; the common regenerated cotton processing equipment can not process the regenerated cotton into a cotton pad by extrusion and transportation matching, so that a waste cloth processing device for processing broken cloth into the regenerated cotton needs to be designed for recycling waste cloth.

Disclosure of Invention

The invention aims to provide a waste cloth processing device for processing broken cloth into regenerated cotton, which is used for overcoming the defects in the prior art.

The invention relates to a waste cloth processing device for processing broken cloth into regenerated cotton, which comprises a machine body, wherein a cutting cavity is arranged in the upper side wall of the machine body, a cutting device for cutting waste cloth is arranged in the cutting cavity, the cutting device comprises a belt wheel cavity arranged at the rear side of the cutting cavity, a belt wheel groove is arranged at the rear side of the belt wheel cavity, a gear cavity I is arranged in the machine body at the left side of the cutting cavity, a gear cavity II is arranged in the machine body at the lower side of the gear cavity, a belt wheel cavity I is arranged at the lower side of the gear cavity II, a motor is fixedly arranged in the lower side wall of the belt wheel cavity, a rotating shaft I is rotationally arranged between the belt wheel cavity I and the gear cavity I, a rotating shaft II is rotationally arranged between the belt wheel groove and the cutting cavity, a rotating shaft III is rotationally arranged between the belt wheel cavity and the cutting cavity, a rotating shaft IV is rotationally arranged between the belt wheel cavity and the cutting cavity, the cutting device comprises a cutting cavity, a rotating shaft I, a cutting rotating wheel II, a belt pulley III, a V-shaped winding belt, a belt pulley IV, a belt pulley V, a bevel gear I, a bevel gear II, a falling cavity, a pneumatic cavity, the pneumatic cotton pad machine is characterized in that a pneumatic device for cutting cloth and carrying out pneumatic pushing is arranged on the left side of the pneumatic cavity, a vibrating cavity for cutting the cloth and processing the cut cloth into regenerated cotton is arranged on the right side of the pneumatic cavity, an extrusion cavity is arranged on the right side of the vibrating cavity, a feeding cavity communicated with the outside is arranged on the right side of the extrusion cavity, a conveying device for conveying the regenerated cotton is arranged on the lower side of the extrusion cavity, and an extrusion device for extruding the regenerated cotton into a cotton pad is arranged on the upper side of the extrusion cavity.

On the basis of the technical scheme, the pneumatic device comprises a fan cavity arranged on the left side of the pneumatic cavity, a filter plate used for isolating cloth is fixedly arranged between the fan cavity and the pneumatic cavity, a rotating shaft five is rotatably arranged between the fan cavity and a gear cavity II, a bevel gear three is fixedly arranged on the rotating shaft five in the gear cavity II, a bevel gear four is fixedly arranged on the rotating shaft one in the gear cavity II, the bevel gear four is in meshed connection with the bevel gear three, and a power fan is fixedly arranged on the rotating shaft five in the fan cavity.

On the basis of the technical scheme, a rotating cavity is arranged in the vibrating cavity, a licker-in through electric control is arranged in the rotating cavity, a first through hole communicated with the pneumatic cavity is formed in the left side wall body of the rotating cavity, and a second through hole communicated with the extrusion cavity is formed in the right side wall body of the vibrating cavity.

On the basis of the technical scheme, the conveying device comprises a driving wheel cavity arranged in the lower side wall of the extrusion cavity, a belt wheel cavity II is arranged in the machine body at the lower side of the driving wheel cavity, a grooved wheel cavity is arranged at the right side of the belt wheel cavity II, a rotating shaft VI is rotatably arranged between the belt wheel cavity I and the grooved wheel cavity, a bevel gear cavity is arranged at the rear side of the driving wheel cavity at the upper side of the grooved wheel cavity, a rotating shaft seven is rotatably arranged between the bevel gear cavity and the driving wheel cavity, a driving wheel II is fixedly arranged on the rotating shaft seven in the driving wheel cavity, a driving wheel I is fixedly arranged on the front side wall body and the rear side wall body of the driving wheel cavity at the left side of the driving wheel II, a conveying belt for conveying regenerated cotton in the through hole II is arranged between the driving wheel I and the driving wheel II, a rotating shaft eight is rotatably arranged between the bevel gear cavity and the grooved wheel cavity, the bevel gear comprises a bevel gear cavity, a bevel gear V fixedly arranged on a rotating shaft V in the bevel gear cavity, a bevel gear V fixedly connected with the bevel gear V in a meshed manner, a grooved pulley V fixedly arranged on the rotating shaft V in the grooved pulley cavity, a rotating shaft V rotatably arranged on the upper side wall body and the lower side wall body of the grooved pulley cavity, a grooved pulley II fixedly arranged on the rotating shaft V in the grooved pulley cavity, a belt pulley V fixedly arranged on the rotating shaft V in the belt pulley cavity, a synchronous belt V between the belt pulley V and the belt pulley V, a belt pulley V fixedly arranged on the rotating shaft V in the belt pulley cavity I, and a synchronous belt V between the belt pulley V and the belt pulley V.

On the basis of the technical scheme, the extrusion device comprises a vibration cavity arranged in the machine body and arranged on the upper side of the extrusion cavity, a gear cavity III is arranged on the right side of the vibration cavity, a gear cavity IV is arranged in the machine body and arranged on the upper side of the grooved wheel cavity, the gear cavity III is communicated with the gear cavity IV, a rotating shaft is rotatably arranged between the vibration cavity and the gear cavity III, a cam is arranged on an array on the rotating shaft in the vibration cavity, a rotating shaft eleven is rotatably arranged on the front side wall body and the rear side wall body of the gear cavity III, a bevel gear seven is fixedly arranged on the rotating shaft eleven, a pulley eleven is fixedly arranged on the rotating shaft eleven on the rear side of the bevel gear cavity, a pulley eleven is fixedly arranged on the rotating shaft, a transmission belt is arranged between the pulley eleven and the pulley eleven, a bevel gear is fixedly arranged on the twelve side of the rotating shaft, a bevel gear is fixedly arranged on the eleven, a bevel gear is rotatably arranged on the eleven side of the rotating shaft, a bevel gear is fixedly arranged on the side of the rotating shaft, a sliding rod is arranged on the side of the sliding rod, and is in a state of being meshed with the rotating shaft, and is in the oscillating cavity, and is in a state of being provided with a sliding rod, and is in a state of being in a sliding mode, and is positioned in a sliding mode, and is in a sliding mode. The lower side of the sliding rod in the extrusion cavity is fixedly provided with an extrusion block for extruding the cotton pad by regenerated cotton.

The beneficial effects of the invention are as follows: the invention is provided with the shredding device, and waste cloth can be shredded by driving the shredding rotating wheel II and the shredding rotating wheel I to rotate, so that the subsequent processing of regenerated cotton is more convenient;

the pneumatic device is arranged, and the crushed cloth in the pneumatic cavity can be transported into the vibration cavity for processing regenerated cotton by rotating the power fan, so that the transportation of the cloth is more sufficient;

the invention is provided with the conveying device and the extrusion device, and can continuously carry out step-by-step extrusion and transmission by driving the conveying belt to carry out continuous transmission of the regenerated cotton extrusion by the regenerated cotton conveying and extrusion block, thereby greatly improving the extrusion efficiency of the pair and enabling the cotton pad to carry out high-quality output.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the overall structure of a waste cloth processing apparatus for processing crushed cloth into regenerated cotton;

FIG. 2 is a cross-sectional view of the invention at "A-A" in FIG. 1;

FIG. 3 is an enlarged view of a portion of the invention at B in FIG. 1;

FIG. 4 is a cross-sectional view of the invention at "C-C" in FIG. 1;

FIG. 5 is a cross-sectional view of the invention at "D-D" in FIG. 1.

Detailed Description

The invention will be described in detail with reference to fig. 1-5, and for convenience of description, the following orientations will be defined: the vertical, horizontal, front-rear directions described below are identical to the vertical, horizontal, front-rear directions of the projection relationship of fig. 1 itself.

Referring to fig. 1-5, a waste cloth processing device for processing broken cloth into regenerated cotton according to an embodiment of the present invention includes a machine body 10, a breaking cavity 15 is provided in an upper sidewall of the machine body 10, a breaking device 901 for breaking waste cloth is provided in the breaking cavity 15, the breaking device 901 includes a pulley cavity 64 provided at a rear side of the breaking cavity 15, a pulley groove 58 is provided at a rear side of the pulley cavity 64, a gear cavity first 14 is provided in the machine body 10 at a left side of the breaking cavity 15, a gear cavity second 23 is provided in the machine body 10 at a lower side of the gear cavity first 14, a pulley cavity first 30 is provided at a lower side of the gear cavity second 23, a motor 32 is fixedly provided in a lower sidewall of the pulley cavity first 30, a rotation shaft first 22 is rotatably provided between the pulley cavity first 30 and the gear cavity first 14, a rotation shaft second 57 is rotatably provided between the gear cavity first 14 and the pulley groove 58, a rotating shaft III 61 is rotatably arranged between the belt wheel groove 58 and the shredding cavity 15, a rotating shaft IV 66 is rotatably arranged between the belt wheel cavity 64 and the shredding cavity 15, a shredding rotating wheel I17 is fixedly arranged on the rotating shaft IV 66 in the shredding cavity 15, a shredding rotating wheel II 16 is fixedly arranged on the rotating shaft III 61 in the shredding cavity 15, a belt wheel II 62 is fixedly arranged on the rotating shaft III 61 in the belt wheel cavity 64, a belt wheel III 65 is fixedly arranged on the rotating shaft IV 66 in the belt wheel cavity 64, a splayed winding belt 63 is arranged between the belt wheel III 65 and the belt wheel II 62, a belt wheel IV 60 is fixedly arranged on the rotating shaft III 61 in the belt wheel groove 58, a belt wheel V59 is fixedly arranged on the rotating shaft II 57 in the belt wheel groove 58, a belt 86 is arranged between the belt wheel V59 and the belt wheel IV 60, a bevel gear I12 is fixedly arranged on the rotating shaft II 57 in the belt wheel cavity I14, the rotary shaft I22 in the gear cavity I14 is fixedly provided with the bevel gear II 11 which is in meshed connection with the bevel gear I12, the lower side of the chopping cavity 15 is provided with a falling cavity 18, the lower side of the falling cavity 18 is provided with a pneumatic cavity 19, the left side of the pneumatic cavity 19 is provided with a pneumatic device 902 for carrying out pneumatic pushing on chopped cloth, the right side of the pneumatic cavity 19 is provided with a vibrating cavity 39 for processing the chopped cloth into regenerated cotton, the right side of the vibrating cavity 39 is provided with a squeezing cavity 51, the right side of the squeezing cavity 51 is provided with a feeding cavity 47 communicated with the outside, the lower side of the squeezing cavity 51 is provided with a conveying device 904 for conveying the regenerated cotton, and the upper side of the squeezing cavity 51 is provided with a squeezing device 903 for squeezing the regenerated cotton into a cotton pad.

In addition, in one embodiment, the wind-driven device 902 includes a fan cavity 21 disposed on the left side of the wind-driven cavity 19, a filter plate 20 for isolating cloth is fixed between the fan cavity 21 and the wind-driven cavity 19, a fifth rotating shaft 26 is rotatably disposed between the fan cavity 21 and the second gear cavity 23, a third bevel gear 25 is fixed on the fifth rotating shaft 26 in the second gear cavity 23, a fourth bevel gear 24 is fixed on the first rotating shaft 22 in the second gear cavity 23, the fourth bevel gear 24 is meshed with the third bevel gear 25, and a power fan 27 is fixed on the fifth rotating shaft 26 in the fan cavity 21.

In addition, in one embodiment, a rotating cavity 29 is disposed in the vibrating cavity 39, a licker-in 28 controlled by electric is disposed in the rotating cavity 29, a first through hole 13 communicating with the pneumatic cavity 19 is formed in a left side wall of the rotating cavity 29, and a second through hole 84 communicating with the extruding cavity 51 is formed in a right side wall of the vibrating cavity 39.

In addition, in one embodiment, the transporting device 904 comprises a driving wheel cavity 54 arranged in the lower side wall body of the extrusion cavity 51, a belt wheel cavity two 37 is arranged in the machine body 10 at the lower side of the driving wheel cavity 54, a grooved wheel cavity 73 is arranged at the right side of the belt wheel cavity two 37, a rotating shaft six 36 is rotatably arranged between the belt wheel cavity one 30 and the grooved wheel cavity 73, a bevel gear cavity 81 is arranged at the rear side of the driving wheel cavity 54 at the upper side of the grooved wheel cavity 73, a rotating shaft seven 83 is rotatably arranged between the bevel gear cavity 81 and the driving wheel cavity 54, a driving wheel two 56 is fixedly arranged on the rotating shaft seven 83 in the driving wheel cavity 54, a driving wheel one 53 is fixedly arranged on the front side wall body and the rear side wall body of the driving wheel cavity 54 at the left side of the driving wheel two 56, a transporting belt 55 for transporting regenerated cotton in a through hole two 84 is arranged between the driving wheel one 53 and the driving wheel two 56, a rotating shaft eight 79 is rotatably arranged between the bevel gear cavity 81 and the grooved pulley cavity 73, a bevel gear five 82 is fixedly arranged on a rotating shaft seven 83 in the bevel gear cavity 81, a bevel gear six 80 is fixedly arranged on the rotating shaft eight 79 in the bevel gear cavity 81, the bevel gear six 80 is meshed with the bevel gear five 82, a grooved pulley one 78 is fixedly arranged on the rotating shaft eight 79 in the grooved pulley cavity 73, a rotating shaft nine 75 is rotatably arranged on the upper side wall body and the lower side wall body of the grooved pulley cavity 73, a grooved pulley two 77 is fixedly arranged on the rotating shaft nine 75, a belt pulley seven 76 is fixedly arranged on the rotating shaft nine 75 on the lower side of the grooved pulley two 77, a belt pulley eight 35 is fixedly arranged on a rotating shaft six 36 in the belt pulley cavity two 37, a synchronous belt one 38 is arranged between the belt pulley eight 35 and the belt pulley seven 76, a belt pulley six 31 is fixedly arranged on the rotating shaft one 22 in the belt pulley cavity one 30, a belt pulley nine 34 is fixedly arranged on the rotating shaft six 36 in the belt pulley cavity one 30, and a synchronous belt II 33 is arranged between the belt wheel III 34 and the belt wheel VI 31.

In addition, in one embodiment, the extruding device 903 comprises a vibration cavity 39 arranged in the machine body 10 at the upper side of the extruding cavity 51, a gear cavity three 42 is arranged at the right side of the vibration cavity 39, a gear cavity four 67 is arranged in the machine body 10 at the upper side of the grooved wheel cavity 73, the gear cavity three 42 is communicated with the gear cavity four 67, a rotating shaft ten 40 is rotatably arranged between the vibration cavity 39 and the gear cavity three 42, cams 41 are arranged on the rotating shaft ten 40 in the vibration cavity 39 in an array manner, a rotating shaft eleven 45 is rotatably arranged on the front side wall body and the rear side wall body of the gear cavity three 42, a bevel gear seven 44 is fixedly arranged on the rotating shaft eleven 45, a bevel gear eight 43 in meshed connection with the bevel gear seven 44 is fixedly arranged on the rotating shaft eleven 40 in the gear cavity three 42, a belt wheel eleven 68 is fixedly arranged on the rotating shaft eleven 45 at the rear side of the bevel gear seven 44, twelve rotating shafts 85 are rotatably arranged between front and rear side wall bodies of the gear cavity IV 67, eleven pulleys 69 are fixedly arranged on the twelve rotating shafts 85, a transmission belt 46 is arranged between the eleven pulleys 69 and the eleven pulleys 68, nine bevel gears 70 are fixedly arranged on the twelve rotating shafts 85 on the front side of the eleven pulleys 69, thirteen rotating shafts 72 are rotatably arranged between the gear cavity IV 67 and the grooved pulley cavity 73, three grooved pulleys 74 are fixedly arranged on the thirteen rotating shafts 72 in the grooved pulley cavity 73, nine bevel gears 70 in the gear cavity IV 67 are meshed with ten bevel gears 71 fixedly arranged on the thirteen rotating shafts 72, a pushing slide plate 48 is slidingly arranged under the vibrating cavity 39, four sliding rods 50 with different lengths are slidingly arranged between the vibrating cavity 39 and the extruding cavity 51, the lower side of the pushing slide plate 48 in the vibrating cavity 39 is fixedly arranged on the upper side of the sliding rod 50, an extensible spring 49 which can be extended and contracted is arranged between the lower side of the pushing sliding plate 48 and the lower side wall body of the vibrating cavity 39, the extensible spring 49 is in a natural state, and an extrusion block 52 for extruding cotton pads by regenerated cotton is fixedly arranged on the lower side of the sliding rod 50 in the extrusion cavity 51.

In the initial state, the expansion spring 49 is in a natural state.

When waste cloth is processed into regenerated cotton, the motor 32 is started firstly, the motor 32 starts to drive the first rotating shaft 22 to rotate, the first rotating shaft 22 rotates to drive the second bevel gear 11 to rotate, the second bevel gear 11 rotates to drive the first bevel gear 12 to rotate, the first bevel gear 12 rotates to drive the second rotating shaft 57 to rotate, the second rotating shaft 57 rotates to drive the fifth belt pulley 59 to rotate, the fifth belt pulley 59 rotates to drive the belt 86 to rotate, the fourth belt pulley 86 rotates to drive the fourth belt pulley 60 to rotate, the fourth belt pulley 60 rotates to drive the third rotating shaft 61 to rotate, the third belt pulley 61 rotates to drive the second belt pulley 62 to rotate, the second belt pulley 62 rotates to drive the third belt pulley 65 to rotate, the fourth rotating shaft 66 rotates in the opposite direction to the third rotating shaft 61, and accordingly the second cutting rotating wheel 16 and the second bevel gear 11 in the cutting cavity 15 rotate to cut the waste cloth fed into the upper side of the cutting cavity 15, and accordingly the subsequent regenerated cotton is more convenient to process; waste cloth cut by the cutting device 901 of the cutting cavity 15 enters the pneumatic cavity 19 through the falling cavity 18, then the bevel gear four 24 is driven to rotate through the rotation of the first rotating shaft 22, the bevel gear four 24 is driven to rotate through the rotation of the bevel gear three 25, the rotation of the bevel gear three 25 is driven to rotate the rotation of the rotation shaft five 26, the rotation of the rotation shaft five 26 is driven to rotate the power fan 27, wind force is blown to the pneumatic cavity 19 through the filter plate 20, the cut cloth in the pneumatic cavity 19 is completely sent into the rotating cavity 29 through the first through hole 13, then the licker-in 28 is driven to rotate by electrifying, and accordingly flowering treatment is carried out on the cut cloth in the rotating cavity 29, the cut cloth is processed into regenerated cotton, and then the regenerated cotton is sent out from the second through hole 84, so that the upper side of the conveying belt 55 entering the extruding cavity 51 is used for conveying the regenerated cotton.

When the regenerated cotton is processed into cotton pads, the first rotating shaft 22 continuously rotates, the first rotating shaft 22 rotates to drive the belt pulley six 31 to rotate, the belt pulley six 31 rotates to drive the synchronous belt two 33 to rotate, the second rotating shaft 33 rotates to drive the belt pulley nine 34 to rotate, the belt pulley nine 34 rotates to drive the rotating shaft six 36 to rotate, the rotating shaft six 36 rotates to drive the belt pulley eight 35 to rotate, the belt pulley eight 35 rotates to drive the belt pulley one 38 to rotate, the belt pulley one 38 rotates to drive the rotating shaft nine 75 to rotate, the rotating shaft nine 75 rotates to drive the belt pulley seven 76 to rotate, the grooved pulley two 77 rotates to drive the grooved pulley two 77 to rotate, the grooved pulley two 77 can drive the grooved pulley three 74 to rotate ninety degrees, thereby driving the rotating shaft thirteen 72 to rotate, the rotating shaft thirteen 72 rotates to drive the bevel gear ten 71 to rotate, the bevel gear nine 71 rotates to drive the bevel gear nine 70 to rotate, the bevel gear nine 70 rotates to drive the rotating shaft twelve 85 to rotate, twelve 85 rotation of the rotating shaft drives eleven 69 rotation of the belt wheel, eleven 69 rotation of the belt wheel drives the driving belt 46 to rotate, the driving belt 46 rotates to drive the pushing slide plate 48 to rotate, the pushing slide plate 48 rotates to drive eleven 45 rotation of the rotating shaft, eleven 45 rotation of the rotating shaft drives seven 44 rotation of the bevel gear, seven 44 rotation of the bevel gear drives eight 43 rotation of the bevel gear, eight 43 rotation of the bevel gear drives ten 40 rotation of the rotating shaft, ten 40 rotation of the rotating shaft can drive one rotation of the cam 41, the cam 41 rotation drives the pushing slide plate 48 to slide downwards along the vibrating cavity 39, so that the sliding rod 50 is driven to slide downwards, at the moment, the telescopic spring 49 compresses, then resets under the action of the telescopic spring 49, and the sliding rod 50 moves downwards to drive the extrusion block 52 to move downwards to extrude regenerated cotton on the upper side of the conveying belt 55 layer by layer; the grooved pulley II 77 continues to rotate, thereby driving the grooved pulley I78 to rotate ninety degrees, thereby driving the rotating shaft eight 79 to rotate ninety degrees, thereby driving the bevel gear six 80 to rotate, the bevel gear six 80 to rotate drives the bevel gear five 82 to rotate, the bevel gear five 82 to rotate drives the rotating shaft seven 83 to rotate, the rotating shaft seven 83 to rotate drives the driving wheel II 56 to rotate, the driving wheel II 56 to rotate drives the conveying belt 55, the conveying belt 55 to rotate drives the driving wheel I53 to drive the upper side of the conveying belt 55 to transport the regenerated cotton extruded by the first stage, thereby extruding the next stage, continuously repeating the transmission of extrusion and transportation, extruding the regenerated cotton into cotton pads to be sent out by the feeding cavity 47, thereby realizing the secondary processing and recycling of waste cloth, and further achieving the recycling effect on the waste cloth, thereby saving the cloth resources to the greatest extent.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention, but rather to enable any modification, equivalent replacement, improvement or the like to be included within the spirit and principles of the invention.

Claims (5)

1. A waste cloth processingequipment for rag processing becomes regeneration cotton, includes fuselage, its characterized in that: the utility model discloses a waste cloth shredding machine, which is characterized in that a shredding cavity is arranged in the upper side wall of the machine body, a shredding device for shredding waste cloth is arranged in the shredding cavity, the shredding device comprises a belt wheel cavity arranged at the rear side of the shredding cavity, a belt wheel groove is arranged at the rear side of the belt wheel cavity, a gear cavity I is arranged in the machine body at the left side of the shredding cavity, a gear cavity II is arranged in the machine body at the lower side of the gear cavity, a belt wheel cavity I is arranged at the lower side of the gear cavity, a motor is fixedly arranged in the lower side wall of the belt wheel cavity, a rotating shaft I is arranged between the belt wheel cavity I and the gear cavity I in a rotating manner, a rotating shaft II is arranged between the belt wheel groove and the shredding cavity in a rotating manner, a rotating shaft IV is arranged between the belt wheel cavity and the shredding cavity in a rotating manner, a shredding rotating wheel I is fixedly arranged on the rotating shaft IV in the shredding cavity, the cutting device comprises a cutting cavity, a rotating shaft III in the cutting cavity, a belt wheel II in the rotating shaft III in the belt wheel cavity, a belt wheel III in the rotating shaft IV in the belt wheel cavity, a splayed winding belt between the belt wheel III and the belt wheel II, a belt wheel IV in the rotating shaft III in the belt wheel groove, a belt wheel five in the rotating shaft II in the belt wheel groove, a belt between the belt wheel five and the belt wheel IV, a bevel gear I in the rotating shaft II in the gear cavity I, a bevel gear II in meshed connection with the bevel gear I in the rotating shaft I in the gear cavity I in a fixed manner, a dropping cavity arranged on the lower side of the cutting cavity, a pneumatic cavity arranged on the lower side of the dropping cavity, a pneumatic device for pneumatically pushing cut cloth on the left side of the pneumatic cavity, the pneumatic cotton pad is characterized in that a vibrating cavity for shredding and distributing materials to form regenerated cotton is arranged on the right side of the pneumatic cavity, an extrusion cavity is arranged on the right side of the vibrating cavity, a feeding cavity communicated with the outside is arranged on the right side of the extrusion cavity, a conveying device for conveying the regenerated cotton is arranged on the lower side of the extrusion cavity, and an extrusion device for extruding the regenerated cotton to form the cotton pad is arranged on the upper side of the extrusion cavity.

2. A waste cloth processing apparatus for processing broken cloth into regenerated cotton according to claim 1, wherein: the pneumatic device comprises a fan cavity arranged on the left side of the pneumatic cavity, a filter plate used for isolating cloth is fixedly arranged between the fan cavity and the pneumatic cavity, a rotating shaft five is rotatably arranged between the fan cavity and a gear cavity II, a bevel gear three is fixedly arranged on the rotating shaft five in the gear cavity II, a bevel gear four is fixedly arranged on the rotating shaft one in the gear cavity II, the bevel gear four is in meshed connection with the bevel gear three, and a power fan is fixedly arranged on the rotating shaft five in the fan cavity.

3. A waste cloth processing apparatus for processing broken cloth into regenerated cotton according to claim 2, wherein: the vibrating cavity is internally provided with a rotating cavity, the rotating cavity is internally provided with a licker-in through electric control, the left side wall body of the rotating cavity is provided with a first through hole communicated with the pneumatic cavity, and the right side wall body of the vibrating cavity is provided with a second through hole communicated with the extrusion cavity.

4. A waste cloth processing apparatus for processing broken cloth into regenerated cotton according to claim 3, wherein: the conveying device comprises a driving wheel cavity arranged in the lower side wall of the extrusion cavity, a belt wheel cavity II is arranged in the machine body at the lower side of the driving wheel cavity, a sheave cavity is arranged at the right side of the belt wheel cavity II, a rotating shaft V is rotatably arranged between the belt wheel cavity I and the sheave cavity, a bevel gear cavity is arranged at the rear side of the driving wheel cavity at the upper side of the sheave cavity, a rotating shaft V is rotatably arranged between the bevel gear cavity and the driving wheel cavity, a driving wheel II is fixedly arranged on the rotating shaft V in the driving wheel cavity, a conveying belt for conveying regenerated cotton in the through hole II is arranged between the driving wheel I and the driving wheel II, a rotating shaft V is rotatably arranged between the bevel gear cavity I and the sheave cavity II, a bevel gear V is fixedly arranged on the rotating shaft V in the bevel gear cavity, a bevel gear V is fixedly connected with the rotating shaft V, a rotating shaft V is fixedly arranged on the sheave V in the groove cavity, a driving wheel I, a driving wheel II is fixedly arranged on the rotating shaft V, a driving wheel II is fixedly arranged on the side of the sheave cavity I, a driving wheel II is fixedly arranged on the rotating shaft V, a pulley II is fixedly arranged on the side of the groove wheel cavity I, a driving wheel II is fixedly arranged on the groove wheel cavity II, a driving wheel is fixedly arranged on the side of the groove wheel cavity II, a driving wheel is fixedly arranged on the side of the groove wheel, a driving wheel II is fixedly arranged between the groove wheel cavity II, a driving wheel is fixedly arranged on the side of the rotating shaft V, and is fixedly driving wheel, and is fixedly arranged between the side of the rotating shaft V.

5. The waste cloth processing apparatus for processing broken cloth into regenerated cotton according to claim 4, wherein: the extrusion device comprises a vibration cavity arranged in the machine body at the upper side of the extrusion cavity, a gear cavity III is arranged on the right side of the vibration cavity, a gear cavity IV is arranged in the machine body at the upper side of the grooved wheel cavity, the gear cavity III is communicated with the gear cavity IV, a rotating shaft is rotatably arranged between the vibration cavity and the gear cavity III, a cam is arranged on an array on the rotating shaft in the vibration cavity, a rotating shaft eleven is rotatably arranged on the front side wall body and the rear side wall body of the gear cavity III, a bevel gear seven is fixedly arranged on the rotating shaft eleven, a bevel gear eight which is in meshed connection with the bevel gear seven is fixedly arranged on the rotating shaft eleven at the rear side of the bevel gear seven, a belt pulley eleven is fixedly arranged on the rotating shaft eleven, a rotating shaft twelve is rotatably arranged between the front side wall body and the rear side wall body of the gear cavity IV, and an eleven belt pulley is fixedly arranged on the rotating shaft, a transmission belt is arranged between the belt pulley eleven and the belt pulley eleven, a bevel gear nine is fixedly arranged on the rotating shaft twelve at the front side of the belt pulley eleven, a rotating shaft thirteen is rotatably arranged between a gear cavity four and a grooved pulley cavity, a grooved pulley three is fixedly arranged on the rotating shaft thirteen in the grooved pulley cavity, the bevel gear nine in the gear cavity four is fixedly connected with the bevel gear fifteen fixedly arranged on the rotating shaft thirteen, a pushing slide plate is slidably arranged below the vibrating cavity, four slide bars with different lengths are slidably arranged between the vibrating cavity and the extruding cavity, the lower side of the pushing slide plate in the vibrating cavity is fixedly arranged on the upper side of the slide bar, a telescopic spring which can be telescopic is arranged between the lower side of the pushing slide plate and the lower side wall body of the vibrating cavity, the telescopic spring is in a natural state, the lower side of the sliding rod in the extrusion cavity is fixedly provided with an extrusion block for extruding the cotton pad by regenerated cotton.

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