CN221112506U - Breaker is used in reclaimed cotton recovery - Google Patents

Abstract

The utility model discloses a crusher for recycling regenerated cotton, and relates to the field of regenerated cotton recycling. According to the utility model, through the arrangement of the structures such as the guide plates and the poking plates, when the device is used, the waste sponge is placed into the bin through the feeding support, the waste sponge can fall between the two crushing rollers under the guidance of the two guide plates, the two crushing rollers can be rotated by starting the driving motor to crush the waste sponge, the crushed waste sponge reaching the required size can leak out through the leakage holes, the oversized waste sponge still remains in the bin, the poking plates can be driven by the rotating ring to scrape along the inner wall of the bin under the action of the driving motor, the residual waste sponge can be scraped and re-put between the two guide plates to crush, further the waste sponge can be crushed more thoroughly, the effect of repeated crushing is realized, and the equipment cost is saved.

Description

Breaker is used in reclaimed cotton recovery

Technical Field

The utility model relates to the technical field of reclaimed cotton recovery, in particular to a crusher for reclaimed cotton recovery.

Background

The waste sponge is prepared by recycling waste sponge, industrial leftovers and cloth heads and yarn heads of textile enterprises.

In the prior art, when waste sponge or leftovers and the like are recovered, the waste sponge or leftovers need to be crushed firstly, but in order to improve the crushing effect of sponge waste, a plurality of crushers are required to be arranged for repeated crushing, and after the waste sponge or leftovers are crushed by one crusher, the waste sponge or leftovers are conveyed to another crusher through a conveying belt for crushing, so that the equipment cost can be increased, and therefore, the crusher for recovering regenerated cotton is required to meet the demands of people.

Disclosure of utility model

The utility model aims to provide a crusher for recycling regenerated cotton, which aims to solve the problems that in the prior art, in order to improve the crushing effect on sponge waste, a plurality of crushers are generally required to be arranged for repeated crushing, and after the sponge waste is crushed by one crusher, the sponge waste is conveyed to another crusher by a conveying belt for crushing, so that the equipment cost is increased.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a breaker for reclaimed cotton, includes the feed bin, fixed mounting has two supporting legs on the feed bin, and fixed mounting has the feeding to hold in the palm on the feed bin, and the feeding holds in the palm and is linked together with the feed bin, rotates on the feed bin and installs first pivot and second pivot, all installs broken structure in first pivot and the second pivot, and the inner wall of feed bin rotates and installs two rotation rings, installs same guide structure on two rotation rings, and fixed mounting has two first belt pulleys in the first pivot, all installs the linkage structure on two first belt pulleys.

Preferably, the crushing structure comprises two crushing rollers, the two crushing rollers are respectively and fixedly arranged on a first rotating shaft and a second rotating shaft, a first gear is fixedly arranged at one end of the first rotating shaft, a second gear is fixedly arranged at one end of the second rotating shaft, the first gear is meshed with the second gear, a driving motor is fixedly arranged at one end of the second rotating shaft, the driving motor is fixedly arranged at one side of a storage bin, two guide plates are fixedly arranged on the inner wall of the storage bin, a plurality of leakage holes are formed in the storage bin, and the leakage holes are located at the bottom sides of the first rotating shaft and the second rotating shaft.

Preferably, four rotating holes are formed in the storage bin, and the first rotating shaft and the second rotating shaft are respectively installed in the two corresponding rotating holes in a rotating mode.

Preferably, the material guiding structure comprises a plurality of poking plates, two ends of each poking plate are respectively and fixedly arranged on one side of the two rotating rings, which are close to each other, and the poking plates are contacted with the inner wall of the storage bin.

Preferably, the limiting grooves are formed in the inner walls of the two sides of the storage bin, limiting rings are rotatably mounted in the two limiting grooves, and the two limiting rings are fixedly mounted on the two rotating rings respectively.

Preferably, the linkage structure comprises two connecting shafts, the two connecting shafts are all rotatably arranged on the storage bin, one ends of the two connecting shafts are fixedly provided with second belt pulleys, the other ends of the two connecting shafts are fixedly provided with linkage gears, and the second belt pulleys positioned on the same side are in transmission with the first belt pulleys and are provided with the same belt.

Preferably, the rotating ring is fixedly provided with a linkage gear ring, and the linkage gear is meshed with the linkage gear ring.

Preferably, the first belt pulley and the second belt pulley are provided with positioning grooves, and the belt transmission is arranged in the two positioning grooves.

The beneficial effects of the utility model are as follows:

According to the utility model, through the arrangement of the structures such as the guide plates and the poking plates, when the device is used, the waste sponge is placed into the bin through the feeding support, the waste sponge can fall between the two crushing rollers under the guidance of the two guide plates, the two crushing rollers can be rotated by starting the driving motor to crush the waste sponge, the waste sponge which is crushed and reaches the required size can leak out through the leakage holes, the oversized waste sponge still remains in the bin, the poking plates can be scraped along the inner wall of the bin by the driving ring driven by the driving motor, the residual waste sponge can be scraped and re-put between the two guide plates for crushing, the effect of crushing the waste sponge can be more thoroughly realized, and the equipment cost is saved.

According to the utility model, through the arrangement of the structures such as the first belt pulley, the second belt pulley and the belt, the driving motor is started to crush, and meanwhile, the rotating ring can rotate along with the first belt pulley, the second belt pulley and the belt through mutual matching, so that the shifting plate moving effect is realized, and the energy-saving effect is realized through one driving motor.

Drawings

Fig. 1 is a schematic structural view of a crusher for recycling regenerated cotton according to the present utility model;

Fig. 2 is a schematic side view of a crusher for recycling regenerated cotton according to the present utility model;

FIG. 3 is a schematic cross-sectional view of a crusher for recycling regenerated cotton according to the present utility model;

FIG. 4 is a schematic view of a rotary ring portion of a crusher for recycling regenerated cotton according to the present utility model;

fig. 5 is a schematic cross-sectional view of a limiting tank portion of a crusher for recycling regenerated cotton according to the present utility model.

In the figure: 100. a storage bin; 101. support legs; 102. a feed tray; 200. a first rotating shaft; 201. a second rotating shaft; 202. a crushing roller; 203. a first gear; 204. a second gear; 205. a driving motor; 206. a guide plate; 207. a leak hole; 208. a rotation hole; 300. a rotating ring; 301. a poking plate; 302. a limiting groove; 303. a confinement ring; 400. a first pulley; 401. a connecting shaft; 402. a second pulley; 403. a belt; 404. a linkage gear; 405. a linkage toothed ring; 406. and a positioning groove.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 5, a crusher for recycling regenerated cotton comprises a bin 100, two supporting legs 101 are fixedly installed on the bin 100, a feeding support 102 is fixedly installed on the bin 100, the feeding support 102 is communicated with the bin 100, a first rotating shaft 200 and a second rotating shaft 201 are rotatably installed on the bin 100, crushing structures are installed on the first rotating shaft 200 and the second rotating shaft 201, two rotating rings 300 are rotatably installed on the inner wall of the bin 100, the same material guiding structure is installed on the two rotating rings 300, two first belt pulleys 400 are fixedly installed on the first rotating shaft 200, a linkage structure is installed on the two first belt pulleys 400, when in use, waste sponge is placed in the feeding support 102, so that the waste sponge falls into the bin 100, the waste sponge can be guided between the two crushing rollers 202 by arranging two guide plates 206, meanwhile, a driving motor 205 is started, the output end of the driving motor 205 drives the second rotating shaft 201 to rotate, the rotating second rotating shaft 201 rotates on the bin 100 and drives the second gear 204 to rotate, the rotating second gear 204 drives the first rotating shaft 200 to rotate through meshing with the first gear 203, so that the first rotating shaft 200 and the second rotating shaft 201 respectively drive the two crushing rollers 202 to rotate towards directions close to each other, crushing of waste sponge is realized, the first rotating shaft 200 and the second rotating shaft 201 respectively rotate in rotating holes 208 at corresponding positions when rotating, further, offset of the first rotating shaft 200 and the second rotating shaft 201 is avoided, the crushed waste sponge leaks out through a leak hole 207 formed on the bin 100, waste sponge which is not crushed completely remains in the bin 100, the first rotating shaft 200 rotates and simultaneously drives the two first belt pulleys 400 to rotate, and then make pivoted first belt pulley 400 drive second belt pulley 402 through the cooperation of constant head tank 406 and belt 403 and rotate, pivoted second belt pulley 402 then can drive the linkage gear 404 through connecting axle 401 and rotate, pivoted linkage gear 404 can drive the rotation ring 300 through the cooperation with linkage ring gear 405 and rotate, the rotation ring 300 rotates and can drive restriction ring 303 at restriction groove 302 internal rotation, and then avoid rotation ring 300 to appear droing the skew, rotation ring 300 can drive the plectrum 301 and remove along the inner wall of feed bin 100, the plectrum 301 of removal can scrape the old and useless sponge that remains in the feed bin 100 and drive old and useless sponge and upwards move, when plectrum 301 removes the top, can pour the old and useless sponge of scraping again into between two deflector 206, make two crushing rollers 202 can break it again, thereby make more thoroughly to the broken sponge.

Further, the crushing structure includes two crushing rollers 202, two crushing rollers 202 are fixed mounting respectively on first pivot 200 and second pivot 201, the one end fixed mounting of first pivot 200 has first gear 203, the one end fixed mounting of second pivot 201 has second gear 204, first gear 203 and second gear 204 are to the meshing, the one end fixed mounting of second pivot 201 has driving motor 205, driving motor 205 fixed mounting is in one side of feed bin 100, the inner wall fixed mounting of feed bin 100 has two deflector 206, a plurality of weeping holes 207 have been seted up on the feed bin 100, weeping holes 207 are located the bottom side of first pivot 200 and second pivot 201, can lead waste sponge to two crushing rollers 202 between through setting up two deflector 206, start driving motor 205 simultaneously, the output of driving motor 205 can drive second pivot 201 and rotate, the second pivot 201 of rotation can rotate on feed bin 100 and drive second gear 204, the second gear 204 of rotation can drive first pivot 200 through the meshing with first gear 203, and then make first pivot 200 and second pivot 201 are close to each other through setting up the clearance hole 208 when the two sponge rolls are rotated to the corresponding to the second pivot 201, and the waste sponge is rotated to the second pivot 200 is rotated to the position when the two sponge is rotated and is avoided the clearance hole is rotated to the second pivot 201 to the corresponding to the second pivot 201.

Further, four rotation holes 208 are formed in the bin 100, the first rotation shaft 200 and the second rotation shaft 201 are respectively rotatably mounted in the two corresponding rotation holes 208, and when the first rotation shaft 200 and the second rotation shaft 201 rotate, the first rotation shaft 200 and the second rotation shaft 201 respectively rotate in the rotation holes 208 at corresponding positions, so that the first rotation shaft 200 and the second rotation shaft 201 are prevented from being deviated.

Further, the guide structure comprises a plurality of shifting plates 301, two ends of each shifting plate 301 are respectively and fixedly arranged on one side, close to each other, of each two rotating rings 300, each shifting plate 301 is in contact with the inner wall of the corresponding bin 100, each rotating ring 300 rotates and drives the limiting ring 303 to rotate in the limiting groove 302, the rotating rings 300 are prevented from falling off and shifting, each shifting plate 301 is driven to move along the inner wall of the corresponding bin 100, the shifting plates 301 move to scrape residual waste sponge in the corresponding bin 100 and drive the waste sponge to move upwards, and when the shifting plates 301 move to the upper side, the scraped waste sponge can be poured between the two guide plates 206 again, so that the two crushing rollers 202 can crush the waste sponge again.

Further, limiting grooves 302 are formed in the inner walls of the two sides of the storage bin 100, limiting rings 303 are rotatably mounted in the two limiting grooves 302, the two limiting rings 303 are fixedly mounted on the two rotating rings 300 respectively, the rotating rings 300 rotate and simultaneously drive the limiting rings 303 to rotate in the limiting grooves 302, and accordingly falling off and shifting of the rotating rings 300 are avoided.

Further, the linkage structure includes two connecting shafts 401, two connecting shafts 401 are all installed on the feed bin 100 in a rotating mode, second belt pulleys 402 are fixedly installed at one ends of the two connecting shafts 401, linkage gears 404 are fixedly installed at the other ends of the two connecting shafts 401, one belt 403 is installed on the second belt pulley 402 and the first belt pulley 400 on the same side in a transmission mode, the first rotating shaft 200 rotates while driving the two first belt pulleys 400, and then the first belt pulley 400 rotates through the cooperation of a positioning groove 406 and the belt 403 to drive the second belt pulley 402 to rotate, the second belt pulley 402 drives the linkage gears 404 to rotate through the connecting shafts 401, and the rotating linkage gears 404 drive the rotating ring 300 to rotate through the cooperation of the linkage toothed ring 405.

Further, a linkage gear ring 405 is fixedly installed on the rotating ring 300, the linkage gear 404 is meshed with the linkage gear ring 405, and the rotating linkage gear 404 drives the rotating ring 300 to rotate through cooperation with the linkage gear ring 405.

Further, the first belt pulley 400 and the second belt pulley 402 are provided with positioning grooves 406, the belt 403 is installed in the two positioning grooves 406 in a transmission manner, and the rotating first belt pulley 400 drives the second belt pulley 402 to rotate through the cooperation of the positioning grooves 406 and the belt 403.

The working principle of the utility model is as follows:

When in use, waste sponge is placed in the feeding tray 102, so that the waste sponge falls into the bin 100, the waste sponge can be guided between the two crushing rollers 202 by arranging the two guide plates 206, meanwhile, the driving motor 205 is started, the output end of the driving motor 205 drives the second rotating shaft 201 to rotate, the rotating second rotating shaft 201 rotates on the bin 100 and drives the second gear 204 to rotate, the rotating second gear 204 drives the first rotating shaft 200 to rotate through meshing with the first gear 203, the first rotating shaft 200 and the second rotating shaft 201 further drive the two crushing rollers 202 to rotate towards the directions close to each other respectively, the crushing of the waste sponge is realized, the first rotating shaft 200 and the second rotating shaft 201 rotate in the rotating holes 208 at corresponding positions respectively when rotating, and further, the first rotating shaft 200 and the second rotating shaft 201 are prevented from deviating, broken waste sponge can leak out through the leak holes 207 formed on the bin 100, waste sponge which is not completely crushed can remain in the bin 100, the first rotating shaft 200 rotates and drives the two first belt pulleys 400 to rotate, the rotating first belt pulleys 400 drive the second belt pulleys 402 to rotate through the matching of the positioning grooves 406 and the belts 403, the rotating second belt pulleys 402 drive the linkage gears 404 to rotate through the connecting shafts 401, the rotating linkage gears 404 drive the rotating ring 300 to rotate through the matching with the linkage toothed rings 405, the rotating ring 300 drives the limiting ring 303 to rotate in the limiting groove 302 while rotating, the falling off offset of the rotating ring 300 is avoided, the rotating ring 300 drives the shifting plate 301 to move along the inner wall of the bin 100, the moving shifting plate 301 scrapes the residual sponge in the bin 100 and drives the sponge to move upwards, when the poking plate 301 moves to the upper side, scraped waste sponge can be poured between the two guide plates 206 again, so that the two crushing rollers 202 can crush the scraped waste sponge again, and the waste sponge is crushed more thoroughly.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a breaker is used in reclaimed cotton, includes feed bin (100), its characterized in that: two supporting legs (101) are fixedly installed on the storage bin (100), a feeding support (102) is fixedly installed on the storage bin (100), the feeding support (102) is communicated with the storage bin (100), a first rotating shaft (200) and a second rotating shaft (201) are rotatably installed on the storage bin (100), crushing structures are installed on the first rotating shaft (200) and the second rotating shaft (201), two rotating rings (300) are rotatably installed on the inner wall of the storage bin (100), the same guiding structure is installed on the two rotating rings (300), two first belt pulleys (400) are fixedly installed on the first rotating shaft (200), and linkage structures are installed on the two first belt pulleys (400).

2. The crusher for recycling regenerated cotton according to claim 1, wherein: the crushing structure comprises two crushing rollers (202), wherein the two crushing rollers (202) are fixedly arranged on a first rotating shaft (200) and a second rotating shaft (201) respectively, a first gear (203) is fixedly arranged at one end of the first rotating shaft (200), a second gear (204) is fixedly arranged at one end of the second rotating shaft (201), the first gear (203) is meshed with the second gear (204) in a direction, a driving motor (205) is fixedly arranged at one end of the second rotating shaft (201), the driving motor (205) is fixedly arranged at one side of a storage bin (100), two guide plates (206) are fixedly arranged on the inner wall of the storage bin (100), and a plurality of leakage holes (207) are formed in the storage bin (100), and the leakage holes (207) are located at the bottom sides of the first rotating shaft (200) and the second rotating shaft (201).

3. The crusher for recycling regenerated cotton according to claim 1, wherein: four rotating holes (208) are formed in the storage bin (100), and the first rotating shaft (200) and the second rotating shaft (201) are respectively and rotatably arranged in the two corresponding rotating holes (208).

4. The crusher for recycling regenerated cotton according to claim 1, wherein: the material guiding structure comprises a plurality of poking plates (301), two ends of each poking plate (301) are respectively and fixedly arranged on one side, close to each other, of each rotating ring (300), and each poking plate (301) is in contact with the inner wall of the storage bin (100).

5. The crusher for recycling regenerated cotton according to claim 1, wherein: limiting grooves (302) are formed in the inner walls of two sides of the storage bin (100), limiting rings (303) are rotatably mounted in the two limiting grooves (302), and the two limiting rings (303) are fixedly mounted on the two rotating rings (300) respectively.

6. The crusher for recycling regenerated cotton according to claim 1, wherein: the linkage structure comprises two connecting shafts (401), the two connecting shafts (401) are all rotatably mounted on the storage bin (100), one ends of the two connecting shafts (401) are fixedly provided with second belt pulleys (402), the other ends of the two connecting shafts (401) are fixedly provided with linkage gears (404), and the second belt pulleys (402) located on the same side and the first belt pulleys (400) are in transmission mounting with one belt (403).

7. The crusher for recycling regenerated cotton according to claim 1, wherein: the rotating ring (300) is fixedly provided with a linkage toothed ring (405), and the linkage gear (404) is meshed with the linkage toothed ring (405).

8. The crusher for recycling regenerated cotton according to claim 1, wherein: positioning grooves (406) are formed in the first belt pulley (400) and the second belt pulley (402), and the belt (403) is installed in the two positioning grooves (406) in a transmission mode.