CN220638580U - Environment-friendly recycling and crushing equipment - Google Patents

Abstract

The utility model discloses environment-friendly recycling and crushing equipment which comprises a frame, a driver, a crushing box body, a charging hopper and a cover plate structure. According to the utility model, the cover plate structure is arranged, the motor is started after the rubber material is added into the charging hopper, the motor drives the follow-up teeth to rotate, so that the sliding box moves rightwards along the surface of the fixed plate, in the process, the connecting shaft at the right end is driven, the splash-proof plate is pulled to move rightwards and cover the opening of the charging hopper, if the rubber material is splashed in the crushing process, the splash-proof plate is blocked, the rubber material is prevented from splashing, and the splashed rubber material is prevented from being further cleaned by staff.

Description

Environment-friendly recycling and crushing equipment

Technical Field

The utility model relates to the field of environmental protection recovery, in particular to environmental protection recovery crushing equipment.

Background

The environmental protection recovery is to decompose and reuse the waste gas material to prepare a new product, the environmental protection recovery and reuse can reduce the manufacturing of garbage and the consumption of raw materials, and generally the recovered materials comprise glass, paper, aluminum, asphalt, steel, printers, toner cartridges, ink cartridges, rubber and the like, wherein the rubber recovery needs the steps of cleaning, crushing and the like of the rubber material, and the rubber crushing needs crushing equipment.

The prior patent: CN214266274U discloses a rubber crusher, which structurally comprises a feed inlet, a small roller, a large roller foot rest, a crushing device and a discharge outlet, and has the following effects: after the device is started, waste rubber is fed from a feed port, then compressed and polished into a crushing box through a small roller and a large roller, then the crushing wheel in the crushing box and blades on two sides of the crushing box further crush the waste rubber, wherein saw-tooth blades on the crushing wheel can crush the rubber more finely, meanwhile, a cylinder connected with a cutter head can continuously and repeatedly move to insert the blades into the rubber to crush and fix the rubber, so that the crushing wheel can crush the rubber better, then the crushed rubber falls into a discharge port through a screen, and if the rubber does not enter the screen sufficiently, the rubber can be crushed again until the rubber can pass through the screen due to rotation of the crushing wheel.

The above-mentioned patents or existing crushing apparatuses have the following problems:

the crushing of current crushing apparatus to rubber is generally all to bite garrulous through crushing axle, and at this in-process rubber can atress take place deformation and produce elasticity, therefore when shredding rubber, partial rubber can pop out to the loading hopper outside, has led to the peripheral rubber residue of crushing apparatus more, needs the clear problem of staff.

Disclosure of Invention

Therefore, in order to solve the above-mentioned shortcomings, the present utility model provides an environment-friendly recycling crushing apparatus.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a crushing apparatus is retrieved in environmental protection, includes the frame, be equipped with the driver in the frame to be provided with crushing box on the frame top, crushing box built-in crushing axle is connected with the driver output shaft, it is provided with the loading hopper to smash the box upper end, be provided with the apron structure on the loading hopper, the apron structure includes the splash guard, the splash guard tip is provided with the connecting axle, and the connecting axle locates inside the slide of seting up on the loading hopper, the loading hopper surface is provided with sliding structure, and the loading hopper is equipped with sliding structure's surface and is provided with the line frame, loading hopper and connecting axle junction are provided with revolution mechanic.

Preferably, the sliding structure comprises a sliding box, a motor is arranged on the surface of the sliding box, the motor is connected with driving teeth in the sliding box, the driving teeth are connected with follow-up teeth in a meshed mode, a connecting shaft arranged at one end of the splash guard is connected with the follow-up teeth, a fixed plate is arranged on the side wall of the feeding hopper, tooth grooves are formed in the fixed plate, and the follow-up teeth are connected with the tooth grooves in a meshed mode.

Preferably, the wire frame comprises a positioning plate, the positioning plate is fixed on the outer side surface of the charging hopper, the positioning plate is provided with two sliding frames which are respectively positioned at the left end and the right end of the charging hopper, a supporting rod is fixed between the two positioning plates, the sliding frames slide along the surfaces of the supporting rods, and wire clamping rings are arranged at the top ends of the sliding frames.

Preferably, the revolution mechanic is including setting up the sealed box in the loading hopper outside, and the connecting axle of splash guard other end penetrates inside the sealed box, is provided with clockwork spring in the inside of sealed box, and clockwork spring's one end is fixed on the connecting axle, and the other end is fixed inside the sealed box.

Preferably, the slide box side is provided with the screens board, and the screens board is "L" shape, and the bottom of screens board is located the bottom of fixed plate.

Preferably, two support rods are arranged, and the two support rods penetrate into the sliding frame together.

Preferably, a pulley is arranged in the sliding frame and slides along the surface of the support rod at the lower end.

The utility model has the beneficial effects that:

according to the utility model, the cover plate structure is arranged, the motor is started after the rubber material is added into the charging hopper, the motor drives the follow-up teeth to rotate, so that the sliding box moves rightwards along the surface of the fixed plate, in the process, the connecting shaft at the right end is driven, the splash-proof plate is pulled to move rightwards and cover the opening of the charging hopper, if the rubber material is splashed in the crushing process, the splash-proof plate is blocked, the rubber material is prevented from splashing, and the splashed rubber material is prevented from being further cleaned by staff.

Further, through being provided with the line frame, fix the motor power cord in the middle of the card wire loop to realize the effect of restraining the power cord spring, when the motor starts and removes, can drive the power cord, and the pulling card wire loop removes, can drive the sliding frame simultaneously and slide along branch surface, in order to realize that the motor can not spring when removing the power cord, avoid the motor power cord to fall into in the middle of the loading hopper and damage.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic elevational view of the present utility model;

FIG. 3 is a schematic structural view of a cover plate of the present utility model;

FIG. 4 is a schematic view of a splash plate structure of the present utility model;

FIG. 5 is a schematic diagram of a cross-sectional elevation of a sliding structure according to the present utility model;

FIG. 6 is a schematic diagram of the front cross-sectional structure of the wire frame of the present utility model;

fig. 7 is a schematic diagram of a front cross-sectional structure of a swing structure according to the present utility model.

Wherein: the device comprises a frame-1, a driver-2, a crushing box body-3, a charging hopper-4, a cover plate structure-5, a splash guard-51, a connecting shaft-52, a slide way-53, a sliding structure-54, a wire frame-55, a rotating structure-56, a slide box-541, a motor-542, a driving tooth-543, a follow-up tooth-544, a fixing plate-545, a tooth slot-546, a clamping plate-504, a sealing box-561, a spring-562, a locating plate-551, a supporting rod-552, a slide frame-553, a clamping ring-554 and a pulley-555.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1, 2 and 3, the utility model provides an environment-friendly recycling and crushing device, which comprises a frame 1, wherein a driver 2 is arranged at the right end of the top end surface of the frame 1, a crushing box body 3 is fixed in the middle of the top end surface of the frame 1 through bolts, a crushing shaft is sleeved in the crushing box body 3 and is connected with an output shaft of the driver 2, the upper end of the crushing box body 3 is a feed inlet, the lower end of the crushing box body is a discharge outlet, a hopper 4 is arranged at the top end of the crushing box body 3 through bolts, and a cover plate structure 5 is arranged on the hopper 4;

the driver 2 power line is electrically connected with an external power supply, then the driver 2 is started to enable the crushing shaft inside the crushing box body 3 to rotate, then rubber materials needing to be recovered are poured into the hopper 4, then the rubber materials can enter the crushing box body 3 through the hopper 4 and are crushed by the crushing shaft, so that the environment-friendly recovered rubber materials are crushed.

Referring to fig. 1, 3, 4, 5 and 7, the present utility model provides an environment-friendly recycling and pulverizing device, the cover plate structure 5 includes a splash plate 51, two end portions of the left and right ends of the splash plate 51 are integrally formed with a connecting shaft 52, the left connecting shaft 52 is rotatably connected with the left end of a hopper 4, a slideway 53 is provided at the upper end of the hopper 4, the right connecting shaft 52 is located inside the slideway 53 and slides along the inner wall of the slideway 53, a sliding structure 54 connected with the right connecting shaft 52 is provided at the upper end of the front side of the hopper 4, a wire frame 55 is provided at the side surface, and a revolving structure 56 is provided at the junction of the hopper 4 and the connecting shaft 52.

The sliding structure 54 comprises a sliding box 541, a motor 542 is mounted on the front side of the surface of the sliding box 541 through a bolt, an output shaft of the motor 542 extends into the sliding box 541 and is connected with a driving tooth 543 in the sliding box 541, a right-end connecting shaft 52 is rotationally connected with the sliding box 541, a follow-up tooth 544 is in meshed connection with the driving tooth 543, the connecting shaft 52 connected with the sliding box 541 is spliced with the center of the follow-up tooth 544, the follow-up tooth 544 is rotationally connected with the connecting shaft 52 so as to prevent the connecting shaft 52 from being driven to rotate when the follow-up tooth 544 rotates, the connecting shaft 52 can be made to rotate independently, a fixed plate 545 is mounted on the upper end of the front side of the feeding hopper 4 through a bolt, a tooth slot 546 is formed in the fixed plate 545, and the follow-up tooth 544 is in meshed connection with the tooth slot 546;

the front side edge of the sliding box 541 is fixed with a clamping plate 504 through a bolt, the clamping plate 504 is in an L shape, the bottom end of the clamping plate 504 is positioned at the bottom end of the fixing plate 545, and the bottom end of the clamping plate 504 slides along the bottom end surface of the fixing plate 545 for clamping the sliding box 541 so as to avoid edge warping of the sliding box 541 after driving, improve the sliding stability of the sliding box 541 and reduce friction;

the rotary structure 56 comprises a sealing box 561 arranged outside the charging hopper 4, the position is positioned at the position where the charging hopper 4 is connected with a left end connecting shaft 52 of the splash guard 51, the left end connecting shaft 52 penetrates into the sealing box 561 and is rotatably connected with the sealing box 561, a clockwork spring 562 is assembled in the sealing box 561, one end of the clockwork spring 562 is inserted on the connecting shaft 52, and the other end of the clockwork spring 562 is fixed in the sealing box 561;

after the rubber material is added into the hopper 4, the motor 542 is started, the output shaft of the motor 542 rotates to drive the driving teeth 543 to rotate, and the right connecting shaft 52 is connected with the follow-up teeth 544, and the follow-up teeth 544 are meshed with the tooth sockets 546, so that the sliding box 541 moves rightwards on the surface of the fixed plate 545 when the follow-up teeth 544 rotate, and the sliding box 541 moves rightwards along the surface of the fixed plate 545, in the process, the connecting shaft 52 at the right is driven, and the splash-proof plate 51 is pulled to move rightwards to cover the opening of the hopper 4, if the rubber material is splashed in the process of being crushed, the splash of the rubber material is prevented by the splash-proof plate 51, and the rubber material prevented from splashing is further cleaned by staff;

when the splash guard 51 moves rightwards, the left end connecting shaft 52 rotates, the spring 562 is stressed to deform, when the splash guard 51 moves leftwards to be opened, the spring 562 drives the left end connecting shaft 52 to rotate in a rotary mode, so that the splash guard 51 is more labor-saving when reset, and the fully opened splash guard 51 is not easy to tilt rightwards under the pushing of the spring 562.

Referring to fig. 3 and 6, the utility model provides an environment-friendly recycling and crushing device, a wire frame 55 comprises positioning plates 551, the positioning plates 551 are fixed at the left and right ends of the front side of a hopper 4, two supporting rods 552 are fixed between the two positioning plates 551, the two supporting rods 552 are arranged in the same vertical line, the sliding frame 553 can be subjected to inclination prevention and limiting, the sliding frame 553 slides along the surfaces of the two supporting rods 552, a pulley 555 in rotary connection is arranged in the sliding frame 553, the pulley 555 slides along the surface of a lower single supporting rod 552, the sliding flexibility of the sliding frame 553 is improved, a wire clamping ring 554 is arranged at the top end of the sliding frame 553, and the wire clamping ring 554 is used for fixing a power wire of a motor 542;

the motor 542 power line is fixed in the clamping line ring 554 to achieve the effect of restraining the power line from bouncing, when the motor 542 is started to move, the motor 542 drives the power line to move, and meanwhile, the clamping line ring 554 is pulled to move, and the sliding frame 553 is driven to slide along the surface of the supporting rod 552, so that the motor 542 is prevented from bouncing when moving, and the motor 542 is prevented from falling into the hopper 4 to be damaged.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (7)

1. The environment-friendly recycling and crushing equipment comprises a frame (1), wherein a driver (2) is assembled on the frame (1), a crushing box body (3) is arranged at the top end of the frame (1), a crushing shaft arranged in the crushing box body (3) is connected with an output shaft of the driver (2), and a charging hopper (4) is arranged at the upper end of the crushing box body (3);

the method is characterized in that: still include apron structure (5), be provided with apron structure (5) on loading hopper (4), apron structure (5) are including splashproof board (51), splashproof board (51) tip is provided with connecting axle (52), and inside slide (53) of seting up on loading hopper (4) are located to connecting axle (52), loading hopper (4) surface is provided with sliding structure (54), and loading hopper (4) are equipped with sliding structure (54)'s surface and are provided with wire frame (55), loading hopper (4) are provided with revolution mechanic (56) with connecting axle (52) junction.

2. An environmentally friendly recovery crushing plant according to claim 1, wherein: the sliding structure (54) comprises a sliding box (541), a motor (542) is arranged on the surface of the sliding box (541), the motor (542) is connected with driving teeth (543) inside the sliding box (541), the driving teeth (543) are meshed with follow-up teeth (544), a connecting shaft (52) arranged at one end of the splash guard (51) is connected with the follow-up teeth (544), a fixed plate (545) is arranged on the side wall of the charging hopper (4), tooth grooves (546) are formed in the fixed plate (545), and the follow-up teeth (544) are meshed with the tooth grooves (546).

3. An environmentally friendly recovery crushing plant according to claim 1, wherein: the wire frame (55) comprises positioning plates (551), the positioning plates (551) are fixed on the outer side surface of the charging hopper (4), the positioning plates (551) are provided with two sliding frames (553) which are respectively positioned at the left end and the right end of the charging hopper (4), supporting rods (552) are fixed between the two positioning plates (551), the sliding frames (553) slide along the surfaces of the supporting rods (552), and wire clamping rings (554) are arranged at the top ends of the sliding frames (553).

4. An environmentally friendly recovery crushing plant according to claim 1, wherein: the rotary structure (56) comprises a sealing box (561) arranged on the outer side of the charging hopper (4), a connecting shaft (52) at the other end of the splash guard (51) penetrates into the sealing box (561), a clockwork spring (562) is arranged in the sealing box (561), one end of the clockwork spring (562) is fixed on the connecting shaft (52), and the other end of the clockwork spring is fixed in the sealing box (561).

5. An environmentally friendly recovery crushing plant according to claim 2, wherein: the side of the sliding box (541) is provided with a clamping plate (504), the clamping plate (504) is L-shaped, and the bottom end of the clamping plate (504) is positioned at the bottom end of the fixing plate (545).

6. An environmentally friendly recovery crushing plant according to claim 3, wherein: the number of the support rods (552) is two, and the two support rods (552) penetrate into the sliding frame (553) together.

7. An environmentally friendly recovery crushing plant according to claim 6, wherein: the inside of sliding frame (553) is provided with pulley (555), pulley (555) follow lower extreme branch (552) surface slip.