CN117067446A - Waste pipe recycling device and using method thereof - Google Patents

Abstract

The invention discloses a waste pipe recovery device and a use method thereof, wherein the waste pipe recovery device comprises a crusher shell and a crushing device, a feed inlet is formed in the top end of the crusher shell, one side of the crusher shell is arc-shaped, a feeding cover capable of moving along the arc-shaped outer wall of the crusher shell is arranged on the outer wall of the crusher shell, the crushing device is arranged in a crushing cavity formed in the crusher shell, and a discharge push plate capable of moving in a reciprocating manner is arranged at the bottom of the crushing cavity and used for intermittently cleaning fragments in the crushing cavity. According to the invention, when the feeding cover is positioned at the horizontal position, the waste pipe can be conveniently fed into the feeding cover, so that the lower horizontal feeding is realized, the feeding is more flexible and more convenient, meanwhile, the waste pipe is converted into the vertical state from the horizontal state by matching with the feeding cover to move along the circular arc outer wall of the crusher shell, and the waste pipe falls from the feeding hole to realize automatic feeding, thereby being beneficial to improving the convenience and the working efficiency of the feeding of the waste pipe.

Description

Waste pipe recycling device and using method thereof

Technical Field

The invention relates to the technical field of pipe recovery, in particular to a waste pipe recovery device and a use method thereof.

Background

The waste pipes are damaged to different degrees by using, such as breakage or aging, so that normal use cannot be continued, recovery treatment is performed on the waste pipes in order to improve the utilization rate of resources, and the waste pipes are generally crushed by a crushing device to be changed into fragments so as to facilitate subsequent treatment.

In the prior art, when the crushing device for crushing and dismembering the pipe is reused, a feed inlet on the crushing device is generally arranged at the top end or the side surface of the device, waste pipe is required to be fed from a high position when the feed inlet is positioned at the top end of the device, the feeding work is difficult, the strength is high, the feeding is inconvenient, and when the feed inlet is positioned on the side wall of the device, although the feeding is convenient, the feed inlet is exposed at the horizontal position directly, the potential safety hazard is increased, and the risk coefficient of the feeding operation is increased;

in order to solve the problems, a waste pipe recycling device and a use method thereof are provided.

Disclosure of Invention

The invention aims to provide a waste pipe recycling device and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the waste pipe recovery device comprises a crusher shell and a crushing device, wherein a feed inlet is formed in the top end of the crusher shell, one side of the crusher shell is arc-shaped, and a feeding cover capable of moving along the arc-shaped outer wall of the crusher shell is arranged on the outer wall of the crusher shell;

the crushing device is arranged in a crushing cavity formed in the crushing shell, and a discharging pushing plate capable of reciprocating translation is arranged at the bottom of the crushing cavity and used for intermittently cleaning fragments in the crushing cavity.

Preferably, the port of the inner cavity of the feeding cover is provided with a position-adjustable limit baffle for limiting the position of the waste pipe in the feeding cover, and the bottom ends of the limit baffles are provided with a plurality of V-shaped grooves in parallel at intervals.

Preferably, the axle center of the crusher shell is rotationally connected with a connecting shaft, the end part of the connecting shaft is fixedly connected with a connecting plate, the end part of the connecting plate, which is far away from the connecting shaft, is fixedly connected with the side wall of the feeding cover, and a hydraulic telescopic rod is movably connected between the connecting plate and the outer wall of the crusher shell.

Preferably, one side of the limit baffle, which deviates from the V-shaped groove, is rotationally connected with a lifting screw, one end of the lifting screw penetrates through the outer wall of the feeding cover and extends to the outside, the outer wall of the lifting screw is in threaded connection with a nut seat, and the outer wall of the nut seat is fixedly connected with the outer wall of the feeding cover.

Preferably, vertical through holes are formed in positions, corresponding to the limiting baffle, of two sides of the feeding cover, a connecting sliding block is fixedly connected to one end, opposite to the vertical through holes, of the limiting baffle, the end portion of the connecting sliding block penetrates through the vertical through holes and is movably inserted and connected with a guide sliding rod, and two ends of the guide sliding rod are fixedly connected with the outer wall of the feeding cover.

Preferably, the feeding cover is provided with an arc slotting on one side opposite to the outer wall of the crusher shell, the arc slotting is matched with the arc shape of the outer wall of the crusher shell, a roller slot is formed in the inner wall of the arc slotting, an auxiliary roller is rotationally connected in the roller slot, and the outer wall of the auxiliary roller is attached to the outer wall of the crusher shell.

Preferably, one end of the connecting shaft penetrates through the inner wall of the crusher shell and is fixedly connected with a driving disc, one side of the driving disc, deviating from the connecting shaft, is rotationally connected with a driving rod, the end part, far away from the driving disc, of the driving rod is rotationally connected with a rotating connecting seat, and the outer wall of the rotating connecting seat is fixedly connected with the side wall of the discharging pushing plate.

Preferably, the linear sliding groove is formed in the bottom of the inner wall of the crusher shell, a limiting sliding rod is fixedly connected to the position, corresponding to the linear sliding groove, of the side wall of the discharging push plate, and the end portion, deviating from the discharging push plate, of the limiting sliding rod is movably inserted into the linear sliding groove.

Preferably, a discharging cavity communicated with the crushing cavity is formed in one side, far away from the feeding cover, of the crusher shell, a discharging slope is arranged at the bottom of the discharging cavity, a discharging cover body is fixedly connected to the inner side of the crusher shell and located at the bottom end of the feeding hole, and the inner side of the discharging cover body is wide in upper part and narrow in lower part.

The invention also provides a use method of the waste pipe recovery device, which comprises the following steps:

when the feeding cover moves to the position of the feed inlet, the waste pipe is in a downward state, and is fed from the feed inlet to a crushing device in the crusher shell, crushing of the waste pipe is performed, and after the waste pipe completely enters the crusher shell from the feeding cover, the hydraulic telescopic rod contracts to drive the connecting plate to reversely rotate, so that the feeding cover moves back and resets to realize intermittent feeding of the waste pipe;

step two, when the connecting shaft is driven to rotate by extension, the connecting shaft drives the driving disc to rotate, the driving disc is driven to rotate and simultaneously pushes the driving rod to move, the linear sliding groove and the limiting sliding rod are utilized to limit and guide the discharging pushing plate in the horizontal linear direction, the driving rod drives the discharging pushing plate to horizontally move through the rotating connecting seat, fragments falling to the inner bottom of the crushing shell after single crushing by the crushing device are pushed to the discharging slope position of the discharging cavity, the gradient of the discharging slope is utilized to enable the fragments to roll down and discharge, and the discharging pushing plate reversely moves back along with the reverse rotation of the connecting shaft, so that intermittent discharging of waste pipe fragments in the crushing shell is realized.

The invention has the technical effects and advantages that:

(1) According to the invention, when the feeding cover is positioned at the horizontal position, waste pipes can be conveniently fed into the feeding cover, so that the lower horizontal feeding is realized, the feeding is more flexible and more convenient, meanwhile, the feeding cover is matched to move along the arc-shaped outer wall of the crusher shell, the waste pipes are converted from the horizontal state to the vertical state and fall from the feeding hole, the automatic feeding is realized, and the convenience and the working efficiency of the waste pipe feeding are improved;

(2) According to the invention, the intermittent feeding can be performed on the feeding cover, and the discharging pushing plate is driven to reciprocate and transversely move, so that intermittent discharging in the crusher shell is realized, broken blocks are prevented from being accumulated, the convenience of discharging is improved, the tedious manual cleaning is omitted, and the working efficiency of crushing treatment of waste pipes is improved;

(3) According to the invention, the limit baffle with the adjustable upper and lower positions is arranged in the feeding cover, and the V-shaped slot arranged on the outer wall of the limit baffle is matched, so that the waste pipe inserted between the feeding cover and the limit baffle can be limited, the waste pipe is prevented from falling off in the moving process of the feeding cover, the feeding of the waste pipe is more stable, and the safety is higher.

Drawings

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

Fig. 2 is a schematic diagram of the front cross-sectional structure of the present invention.

Fig. 3 is a schematic diagram of a front cross-sectional structure of a loading hood according to the present invention.

Fig. 4 is a schematic perspective view of a limit stop according to the present invention.

Fig. 5 is a schematic view of a partial enlarged structure at a of fig. 2 according to the present invention.

In the figure: 1. a breaker housing; 11. a feed inlet; 12. a crushing device; 13. a blanking cover body; 14. a discharge cavity; 15. a blanking slope; 2. a feeding cover; 21. a connecting plate; 22. a connecting shaft; 23. a hydraulic telescopic rod; 24. a limit baffle; 241. v-shaped slotting; 242. lifting screw rods; 243. a nut seat; 244. a vertical through hole; 245. a guide slide bar; 246. the connecting slide block; 25. a roller groove; 26. an auxiliary roller; 3. a discharging push plate; 31. a straight line chute; 32. a limit slide bar; 33. a drive disc; 34. a driving rod; 35. and rotating the connecting seat.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a waste pipe recycling device and a using method thereof as shown in figures 1-5, the waste pipe recycling device comprises a crusher shell 1 and a crushing device 12, the crushing device 12 is arranged in a crushing cavity formed in the crusher shell 1, the crushing device 12 can adopt the existing device capable of realizing crushing, for example, two crushing rollers which are horizontally arranged are driven by a crushing motor and synchronously drive gears between the shaft ends of two crushing pipes to synchronously rotate in opposite directions to crush the waste pipe, a discharge push plate 3 capable of reciprocating translation is arranged at the bottom of the crushing cavity and used for intermittently cleaning fragments in the crushing cavity, the discharge push plate 3 moves back and forth at the bottom of the crushing cavity, the fragments of the waste pipe which are crushed by the crushing device 12 can be pushed out to avoid the fragments accumulating below the crushing device 12, affecting the blanking of the crushed waste pipes, the top end of the crusher shell 1 is provided with a feeding hole 11, one side of the crusher shell 1 is arc-shaped, the arc-shaped outer wall of the crusher shell 1 is utilized to enable the feeding cover 2 to move along the outer wall of the crusher shell to realize rotation, smooth rotation of the feeding cover 2 can be realized, the feeding cover 2 can move against the outer wall of the crusher shell 1, the moving stability is improved, the outer wall of the crusher shell 1 is provided with the feeding cover 2 which can move along the arc-shaped outer wall of the crusher shell, the waste pipes at low positions can be fed to high positions for blanking through the upward rotation of the feeding cover 2, the danger of the horizontal arrangement of the feeding hole 11 on the crusher shell 1 is avoided, meanwhile, the feeding of the waste pipes can be carried out at low positions, the manual feeding operation is more flexible and convenient, the labor intensity is low, the difficulty is low, the working efficiency is higher;

further, a position-adjustable limit baffle 24 is arranged at an inner cavity port of the feeding cover 2 and used for limiting the position of the waste pipe in the feeding cover 2, a plurality of V-shaped grooves 241 are arranged at intervals in parallel at the bottom end of the limit baffle 24, the V-shaped grooves 241 are matched with the horizontal inner wall of the feeding cover 2, three points of the waste pipe are clamped, the end of the waste pipe can be kept stable after entering the feeding cover 2, the feeding cover 2 is prevented from sliding in the upward moving process, one side of the limit baffle 24, which is away from the V-shaped grooves 241, is rotationally connected with a lifting screw 242, one end of the lifting screw 242 penetrates through the outer wall of the feeding cover 2 and extends to the outside, the outer wall of the lifting screw 242 is in threaded connection with a nut seat 243, the outer wall of the nut seat 243 is fixedly connected with the outer wall of the feeding cover 2, the lifting screw 242 is matched with the arrangement of the nut seat 243, the lifting screw 242 can be rotated clockwise or anticlockwise in the nut seat 243 to drive the limit baffle 24 to move up and down, and the position is adjusted, so that the waste pipe with multiple sizes can be conveniently limited, and the use is more flexible;

meanwhile, vertical through holes 244 are formed in positions, corresponding to the limiting baffle 24, of two sides of the feeding cover 2, a connecting sliding block 246 is fixedly connected to one end, opposite to the vertical through holes 244, of the limiting baffle 24, the end portion of the connecting sliding block 246 penetrates through the vertical through holes 244 and is movably connected with a guide sliding rod 245 in a penetrating mode, two ends of the guide sliding rod 245 are fixedly connected with the outer wall of the feeding cover 2, when the limiting baffle 24 moves, the connecting sliding block 246 is driven to move on the outer wall of the guide sliding rod 245, guiding effect on the moving direction of the limiting baffle 24 is achieved, and accuracy and stability of position adjustment of the limiting baffle 24 are maintained.

In the preferred embodiment, a connecting shaft 22 is rotationally connected to the axle center of the crusher shell 1, a connecting plate 21 is fixedly connected to the end part of the connecting shaft 22, the end part of the connecting plate 21, which is far away from the connecting shaft 22, is fixedly connected with the side wall of the feeding cover 2, a hydraulic telescopic rod 23 is movably connected between the connecting plate 21 and the outer wall of the crusher shell 1, the hydraulic telescopic rod 23 is matched with an external hydraulic cylinder for oil supply, the expansion and the contraction of the hydraulic telescopic rod 23 are driven, the hydraulic telescopic rod 23 can drive the connecting plate 21 and the connecting shaft 22 to rotate, so that the movement of the feeding cover 2 can be driven, and meanwhile, the hydraulic telescopic rod can also be used as a driving source for the movement of the discharging push plate 3, and the practical value is higher;

further, the feeding cover 2 is provided with an arc slot opposite to one side of the outer wall of the crusher shell 1, the arc slot is matched with the arc shape of the outer wall of the crusher shell 1, the inner wall of the arc slot is provided with a roller slot 25, the roller slot 25 is rotationally connected with an auxiliary roller 26, the outer wall of the auxiliary roller 26 is attached to the outer wall of the crusher shell 1, and the feeding cover 2 moves along with the outer wall of the crusher shell 1, so that the auxiliary roller 26 rotates, namely the friction resistance between the feeding cover 2 and the crusher shell 1 is reduced, and meanwhile, the feeding cover 2 moves more stably.

In addition, one end of the connecting shaft 22 penetrates through the inner wall of the crusher shell 1 and is fixedly connected with a driving disc 33, one side, deviating from the connecting shaft 22, of the driving disc 33 is rotationally connected with a driving rod 34, the end, away from the driving disc 33, of the driving rod 34 is rotationally connected with a rotating connecting seat 35, the outer wall of the rotating connecting seat 35 is fixedly connected with the side wall of the discharging pushing plate 3, the driving disc 33 can be driven to rotate while the connecting shaft 22 rotates, the driving disc 33 drives the driving rod 34 to move, and therefore the driving rod 34 can drive the discharging pushing plate 3 to move, the telescopic action of the hydraulic telescopic rod 23 is converted into a driving force for translating the discharging pushing plate 3, and the device is more efficient and energy-saving;

wherein, straight line spout 31 has been seted up to breaker shell 1 inner wall bottom, and the lateral wall of row material push pedal 3 corresponds position department fixedly connected with spacing slide bar 32 with straight line spout 31, and spacing slide bar 32 deviates from the tip and the activity grafting of straight line spout 31 of row material push pedal 3, utilizes spacing slide bar 32 to remove in straight line spout 31, realizes the direction to row material push pedal 3 translation, makes its removal process more stable.

Moreover, the one side that the crusher shell 1 kept away from the material loading cover 2 has seted up the ejection of compact chamber 14 that is linked together with the crushing chamber, the bottom of ejection of compact chamber 14 is equipped with unloading slope 15, the setting of unloading slope 15 can cooperate the pushing away extreme position of row material push pedal 3, the waste pipe fragment that will release discharges crusher shell 1, be favorable to the unloading, crusher shell 1 inboard just is located feed inlet 11 bottom position department fixedly connected with unloading cover body 13, the inboard of unloading cover body 13 is wide down narrow form, plays the guide effect to the waste pipe that falls from in the material loading cover 2, make waste pipe can concentrate and fall from breaker 12 intermediate position and break.

The using method comprises the following steps:

in the initial state, the feeding cover 2 is positioned at one horizontal side of the crusher shell 1, the discharging push plate 3 is positioned at a position close to the discharging cavity 14 in the crusher shell 1, one end of a waste pipe to be crushed stretches into the feeding cover 2, the hydraulic telescopic rod 23 acts to stretch to drive the connecting plate 21 and the connecting shaft 22 to rotate, the feeding cover 2 is driven to move along the circular arc-shaped outer wall of the crusher shell 1 and drive the waste pipe to move upwards and change, when the feeding cover 2 moves to the position of the feeding opening 11, the waste pipe is in a downward state and is fed into the crushing device 12 in the crusher shell 1 from the feeding opening 11 to crush the waste pipe, and after the waste pipe completely enters the crusher shell 1 from the feeding cover 2, the hydraulic telescopic rod 23 contracts to drive the connecting plate 21 to reversely rotate, so that the feeding cover 2 moves back to reset, and intermittent feeding of the waste pipe is realized;

step two, the hydraulic telescopic rod 23 stretches to drive the connecting shaft 22 to rotate, the connecting shaft 22 drives the driving disc 33 to rotate, the driving disc 33 drives the driving rod 34 to move while rotating, the linear chute 31 and the limit slide rod 32 are utilized to limit and guide the discharging push plate 3 in the horizontal linear direction, the driving rod 34 drives the discharging push plate 3 to horizontally move transversely through the rotating connecting seat 35, fragments which fall to the inner bottom of the crusher shell 1 after single crushing by the crushing device 12 are pushed to the position of the discharging slope 15 of the discharging cavity 14, the gradient of the discharging slope 15 is utilized to enable the fragments to fall down and be discharged, and the discharging push plate 3 reversely moves back along with the reverse rotation of the connecting shaft 22, so that intermittent discharging of the waste pipe fragments in the crusher shell 1 is realized.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The waste pipe recycling device comprises a crusher shell (1) and a crushing device (12) and is characterized in that a feed inlet (11) is formed in the top end of the crusher shell (1), one side of the crusher shell (1) is arc-shaped, and a feeding cover (2) capable of moving along the arc-shaped outer wall of the crusher shell (1) is arranged on the outer wall of the crusher shell;

the crushing device (12) is arranged in a crushing cavity formed in the crusher shell (1), and a discharge pushing plate (3) capable of reciprocating translation is arranged at the bottom of the crushing cavity and used for intermittently cleaning fragments in the crushing cavity.

2. The waste pipe recovery device according to claim 1, wherein a limiting baffle (24) with an adjustable position is arranged at the inner cavity port of the feeding cover (2) and used for limiting the position of the waste pipe in the feeding cover (2), and a plurality of V-shaped grooves (241) are formed in parallel and spaced at the bottom end of the limiting baffle (24).

3. The waste pipe recovery device according to claim 2, characterized in that a connecting shaft (22) is rotationally connected to the axle center of the crusher shell (1), a connecting plate (21) is fixedly connected to the end part of the connecting shaft (22), the end part of the connecting plate (21) far away from the connecting shaft (22) is fixedly connected with the side wall of the feeding cover (2), and a hydraulic telescopic rod (23) is movably connected between the connecting plate (21) and the outer wall of the crusher shell (1).

4. The waste pipe recovery device according to claim 3, wherein one side of the limit baffle (24) deviating from the V-shaped groove (241) is rotatably connected with a lifting screw (242), one end of the lifting screw (242) penetrates through the outer wall of the feeding cover (2) and extends to the outside, the outer wall of the lifting screw (242) is in threaded connection with a nut seat (243), and the outer wall of the nut seat (243) is fixedly connected with the outer wall of the feeding cover (2).

5. The waste pipe recycling device according to claim 4, wherein vertical through holes (244) are formed in positions, corresponding to the limiting baffle plates (24), on two sides of the feeding cover (2), one end, opposite to the vertical through holes (244), of each limiting baffle plate (24) is fixedly connected with a connecting sliding block (246), the end portion of each connecting sliding block (246) penetrates through each vertical through hole (244) and is movably inserted into each vertical through hole (244) to be connected with a guide sliding rod (245), and two ends of each guide sliding rod (245) are fixedly connected with the outer wall of the feeding cover (2).

6. The waste pipe recycling device according to claim 5, wherein one side of the feeding cover (2) opposite to the outer wall of the crusher shell (1) is provided with an arc slot, the arc slot is matched with the arc shape of the outer wall of the crusher shell (1), the inner wall of the arc slot is provided with a roller slot (25), the roller slot (25) is rotationally connected with an auxiliary roller (26), and the outer wall of the auxiliary roller (26) is attached to the outer wall of the crusher shell (1).

7. A waste pipe recovery device according to claim 3, characterized in that one end of the connecting shaft (22) penetrates through the inner wall of the crusher shell (1) and is fixedly connected with a driving disc (33), one side of the driving disc (33) deviating from the connecting shaft (22) is rotationally connected with a driving rod (34), the end part of the driving rod (34) far away from the driving disc (33) is rotationally connected with a rotating connecting seat (35), and the outer wall of the rotating connecting seat (35) is fixedly connected with the side wall of the discharging push plate (3).

8. The waste pipe recycling device according to claim 7, wherein a linear chute (31) is formed in the bottom of the inner wall of the crusher shell (1), a limit sliding rod (32) is fixedly connected to the position, corresponding to the linear chute (31), of the side wall of the discharging push plate (3), and the end, deviating from the discharging push plate (3), of the limit sliding rod (32) is movably inserted into the linear chute (31).

9. The waste pipe recovery device according to claim 8, wherein a discharging cavity (14) communicated with the crushing cavity is formed in one side, far away from the feeding cover (2), of the crusher shell (1), a discharging slope (15) is arranged at the bottom of the discharging cavity (14), a discharging cover body (13) is fixedly connected to the inner side of the crusher shell (1) and located at the bottom end of the feeding hole (11), and the inner side of the discharging cover body (13) is in a shape with wide upper part and narrow lower part.

10. The method for using the waste pipe recovery device according to any one of claims 1 to 9, comprising the steps of:

firstly, in an initial state, a feeding cover (2) is positioned at one horizontal side of a crusher shell (1), a discharging push plate (3) is positioned in the crusher shell (1) and close to a discharging cavity (14), one end of a waste pipe to be crushed stretches into the feeding cover (2), a hydraulic telescopic rod (23) stretches to drive a connecting plate (21) and a connecting shaft (22) to rotate, the feeding cover (2) is driven to move along the circular arc-shaped outer wall of the crusher shell (1) and drive the waste pipe to move upwards and convert, when the feeding cover (2) moves to a feeding opening (11), the waste pipe is in a downward state and is fed into a crushing device (12) in the crusher shell (1) from the feeding opening (11), crushing of the waste pipe is carried out, and after the waste pipe completely enters the crusher shell (1) from the feeding cover (2), the hydraulic telescopic rod (23) contracts to drive the connecting plate (21) to reversely rotate, so that the feeding cover (2) moves backwards and resets, and intermittent feeding of the waste pipe is realized;

step two, the hydraulic telescopic rod (23) stretches to drive the connecting shaft (22) to rotate, the connecting shaft (22) drives the driving disc (33) to rotate, the driving disc (33) is driven to move while the driving rod (34) is driven to move, the limiting guide effect of the linear sliding groove (31) and the limiting sliding rod (32) on the discharging pushing plate (3) in the horizontal linear direction is utilized, the driving rod (34) drives the discharging pushing plate (3) to horizontally move through the rotating connecting seat (35), fragments falling to the inner bottom of the crushing shell (1) after single crushing by the crushing device (12) are pushed to the position of the discharging slope (15) of the discharging cavity (14), the fragments are rolled and discharged by the gradient of the discharging slope (15), and the discharging pushing plate (3) reversely moves back along with the reverse rotation of the connecting shaft (22), so that intermittent discharging of the waste pipe fragments in the crushing shell (1) is realized.