CN112439499A - High-efficient new forms of energy battery production waste material processing apparatus - Google Patents

Abstract

The invention discloses a high-efficiency new energy battery production waste treatment device, which comprises a box body, wherein a transmission cavity is arranged in the box body, according to the related knowledge of mechanical transmission, the quantity to be processed is controlled through the difference of the gravity of new energy batteries on a collecting plate, the object on the collecting plate automatically moves downwards to push a control buckle on the lower side to realize automatic locking when reaching a certain quantity, a transmission motor is started through wedge block transmission, a closed cam is driven to rotate through belt wheel transmission, the quantitative battery treatment on the collecting plate is pushed to a crushing cavity, the automatic quantitative treatment effect is realized, and the batteries on the collecting plate can automatically recover when being pushed to the crushing cavity.

Description

High-efficient new forms of energy battery production waste material processing apparatus

Technical Field

The invention relates to the field related to new energy, in particular to a high-efficiency new energy battery production waste treatment device.

Background

The used batteries are collected to prevent the used batteries from entering an ecosystem and causing harm to the environment. The traditional waste battery treatment is only simple to recycle and then is uniformly treated, the treatment effect of the battery is not very ideal, the harmful substances in the battery cannot be treated, and the existing high-efficiency new energy batteries do not contain the harmful substances, so that the harmful substances in the battery do not need to be separated, and only quantitative treatment is needed, and the phenomenon that the device is damaged due to overlarge load is avoided.

The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

the traditional battery treatment device is designed with harmful substances in the separation device, the process is complex, a large number of high-efficiency new energy batteries are available at present, the batteries do not have the harmful substances, the harmful substances in the batteries are not required to be separated, and only the processing amount at each time needs to be controlled, so that the mechanical failure caused by serious load of the device is prevented.

In order to solve the problems, the embodiment designs a high-efficiency new energy battery production waste treatment device, which comprises a base, wherein a control cavity is arranged in the box body, a control device for controlling the power of the device is arranged in the control cavity, the control device comprises a control motor main shaft which is rotationally connected with the inner wall of the control cavity, a first belt wheel is fixedly connected onto the control motor main shaft, a control motor is fixedly connected onto the inner wall of the control cavity, the control motor is rotationally connected with the control motor main shaft, a second belt wheel is fixedly connected onto the control motor main shaft, a first transmission cavity is arranged in the box body, a first transmission shaft is rotationally connected onto the inner wall of the first transmission cavity, a third belt wheel is fixedly connected onto the first transmission shaft, and the third belt wheel is slidably connected with the second belt wheel through a first belt, the control device comprises a control motor, a switch, a sliding transmission rod, a reset spring, a switch pressing block, a driven wedge block, a driven buckle, a poking rod, a buckle spring, a rotating pin, a V-shaped rod, a blocking rod, a first cam cavity and a transmission device, wherein the switch is connected to the control motor in a sliding manner, the sliding transmission rod is connected to the box in a sliding manner, the reset spring is fixedly connected to the sliding transmission rod and the box, the switch pressing block is fixedly connected to the sliding transmission rod and can be in contact connection with the switch, the driven wedge block is fixedly connected to the sliding transmission rod and can be in contact connection with the V-shaped rod, the rotating pin is rotatably connected to the control cavity in a closed manner, the V-shaped rod is rotatably connected to the rotating pin in a closed manner, the blocking rod is fixedly connected to the control cavity in a closed manner and can be in contact connection with the V-shaped rod, the first cam cavity is, the battery crushing device is characterized in that a pressing control cavity is arranged in the box body, a crushing device used for providing pressing power for device crushing is arranged in the pressing control cavity, a second cam cavity is arranged in the box body, and a pushing device used for intensively integrating crushed batteries is arranged in the second cam cavity.

Wherein, reducing mechanism include with press down the control intracavity wall and rotate the main shaft of pressing of connecting, press fixedly connected with on the main shaft and press the thumb wheel, press fixedly connected with on the thumb wheel and press the round pin, press down sliding connection on the control intracavity wall and press the T shape pole, it presses the spout to press to be equipped with on the T shape pole, press the spout with press round pin sliding connection, press fixedly connected with on the T shape pole and press the clamp plate, be equipped with the second transmission chamber in the box, rotate in the second transmission chamber and be connected with the third transmission pivot, the rotary post is smashed to fixedly connected with in the third transmission pivot, be equipped with in the box and smash the chamber, smash the rotary post with smash sliding connection between the chamber, the third transmission pivot with press through belt drive between the main shaft.

Wherein, controlling means include with the spout that is equipped with on the box, sliding connection's slider on the spout, fixed connection's slider connecting rod on the slider, fixed connection's main tank of stirring on the slider connecting rod, stir the first expansion box of sliding connection on the main tank, sliding connection stirs the taper pin on the first expansion box, sliding connection has the second bayonet lock on the first expansion box, the second bayonet lock with be equipped with the bayonet lock spring between the first expansion box, first expansion box with stir and be equipped with first stirring spring between the main tank, sliding connection has the fourth bayonet lock on stirring the main tank, the fourth bayonet lock with be equipped with the fourth bayonet lock spring between the first expansion box, the fourth bayonet lock with sliding connection between the second bayonet lock.

Wherein, the transmission device comprises a first cam rotating shaft which is rotatably connected with the first cam cavity, a sixth belt wheel is fixedly connected on the first cam rotating shaft, the first belt wheel is in sliding connection with the sixth belt wheel through a third belt, a first cam is fixedly connected on the first cam rotating shaft, a first cam sliding groove is arranged on the first cam, a first poking pin is fixedly connected on the sliding block, the first poking pin is in sliding connection with the first cam sliding groove, a first special-shaped push plate is slidably connected on the inner wall of the first cam cavity, a second poking pin is fixedly connected on the first special-shaped push plate, the second poking pin is in sliding connection with the first cam sliding groove, a pressing push plate is slidably connected on the first special-shaped push plate, a fifth spring is arranged between the pressing push plate and the first special-shaped push plate, a quantitative cavity is arranged in the box body, sliding connection has the collecting plate on the ration chamber, the collecting plate with press push pedal sliding connection, two initiative buckles that distribute about fixedly connected with on the collecting plate, the collecting plate with be equipped with quantitative spring between the ration intracavity wall, the initiative buckle can with driven buckle block, fixedly connected with initiative wedge on the initiative buckle, the initiative wedge can with driven wedge contact is connected, be equipped with the mouth of entrying in the box, sliding connection has the baffle rack in the box, fixedly connected with drive gear on the first transmission shaft, drive gear with the meshing is connected between the baffle rack, the baffle rack with be equipped with the baffle spring between the box.

Wherein, the pushing device comprises a bevel gear cavity arranged in the box body, the inner wall of the bevel gear cavity is rotatably connected with a transmission output shaft, the inner wall of the bevel gear cavity is rotatably connected with a transition shaft, the second transmission cavity is fixedly connected with a pushing motor, the pushing motor is rotatably connected with the transmission output shaft, the transmission output shaft and the third transmission rotating shaft are driven by a belt wheel, the transition shaft and the transmission output shaft are driven by a bevel gear pair, the box body is internally provided with a second cam cavity, the second cam cavity is rotatably connected with a second cam main shaft, the second cam main shaft and the transition shaft are fixedly connected with a second cam through the bevel gear pair, the second cam is provided with a second cam chute, and the inner wall of the second cam cavity is slidably connected with a second special-shaped push plate, and a third toggle pin is fixedly connected to the second special-shaped push plate, the third toggle pin is connected with the second cam sliding groove in a sliding manner, and a cargo discharging cavity is arranged in the box body.

The invention has the beneficial effects that: according to the invention, according to the related knowledge of mechanical transmission, the amount to be processed is controlled by different gravity of the new energy batteries on the collecting plate, the objects on the collecting plate can automatically move downwards to push the control buckle at the lower side to realize automatic locking when reaching a certain amount, and the transmission motor can be started through wedge block transmission, and the closed cam is driven to rotate through belt wheel transmission, so that the quantitative battery treatment on the collecting plate is pushed to the crushing cavity, the effect of automatic quantitative treatment is realized, and the batteries on the collecting plate can automatically recover when being pushed to the crushing cavity.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the overall structure of a high-efficiency new energy battery production waste treatment device according to the present invention;

FIG. 2 is an enlarged partial view of FIG. 1 at "A";

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a high-efficiency new energy battery production waste treatment device, which is mainly applied to the process of treating new energy batteries, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a high-efficiency new energy battery production waste treatment device, which comprises a box body 11, wherein a control cavity 12 is arranged in the box body 11, a control device 902 used for controlling the power of the device is arranged in the control cavity 12, the control device 902 comprises a control motor spindle 27 rotationally connected with the inner wall of the control cavity 12, a first belt wheel 28 is fixedly connected on the control motor spindle 27, a control motor 38 is fixedly connected on the inner wall of the control cavity 12, the control motor 38 is rotationally connected with the control motor spindle 27, a second belt wheel 29 is fixedly connected on the control motor spindle 27, a first transmission cavity 32 is arranged in the box body 11, a first transmission shaft 31 is rotationally connected on the inner wall of the first transmission cavity 32, a third belt wheel 33 is fixedly connected on the first transmission shaft 31, and the third belt wheel 33 is slidably connected with the second belt wheel 29 through a first belt 30, sliding connection has switch 37 on the control motor 38, sliding connection has slip dowel steel 34 in the box 11, slip dowel steel 34 with fixedly connected with reset spring 35 between the box 11, fixedly connected with switch briquetting 36 on the slip dowel steel 34, switch briquetting 36 can with switch 37 contact connection, fixedly connected with driven voussoir 43 on the slip dowel steel 34, sliding connection has driven buckle 39 on the box 11, fixedly connected with control cardboard 40 on the driven buckle 39, fixedly connected with poker rod 41 on the driven buckle 39, driven buckle 39 with be equipped with buckle spring 42 between the box 11, the rotation is connected with swivel pin 24 on closing in the control chamber 12, the rotation is connected with V-arrangement pole 25 on the swivel pin 24, fixedly connected with blocks pole 26 on closing in the control chamber 12, block pole 26 can with V-arrangement pole 25 contact is linked, the battery crushing device is characterized in that a first cam cavity 13 is arranged in the box body 11, a transmission device 903 which provides periodic left-right movement for a device push plate is arranged in the first cam cavity 13, a pressing control cavity 58 is arranged in the box body 11, a crushing device 901 which is used for providing pressing power for device crushing is arranged in the pressing control cavity 58, a second cam cavity 69 is arranged in the box body 11, and a pushing device 904 which is used for intensively integrating crushed batteries is arranged in the second cam cavity 69.

According to the embodiment, the pulverizing device 901 will be described in detail below, the pulverizing device 901 includes a pressing spindle 79 rotatably connected to an inner wall of the pressing control chamber 58, a pressing dial 57 is fixedly connected to the pressing spindle 79, a pressing pin 59 is fixedly connected to the pressing dial 57, a pressing T-shaped rod 56 is slidably connected to the inner wall of the pressing control chamber 58, a pressing chute 60 is provided on the pressing T-shaped rod 56, the pressing chute 60 is slidably connected to the pressing pin 59, a pressing plate 55 is fixedly connected to the pressing T-shaped rod 56, a second transmission chamber 78 is provided in the box 11, a third transmission shaft 62 is rotatably connected to the second transmission chamber 78, a pulverizing rotary column 63 is fixedly connected to the third transmission shaft 62, a pulverizing chamber 61 is provided in the box 11, and the pulverizing rotary column 63 is slidably connected to the pulverizing chamber 61, the third transmission shaft 62 and the pressing spindle 79 are in belt transmission.

According to the embodiment, the control device 902 is described in detail below, the control device 902 includes a sliding groove 22 provided on the box body 11, a sliding block 23 slidably connected to the sliding groove 22, a sliding block connecting rod 65 fixedly connected to the sliding block 23, a main shifting box 75 fixedly connected to the sliding block connecting rod 65, a first telescopic box 76 slidably connected to the main shifting box 75, a tilting shifting pin 84 slidably connected to the first telescopic box 76, a second locking pin 83 slidably connected to the first telescopic box 76, a locking pin spring 85 provided between the second locking pin 83 and the first telescopic box 76, a first shifting spring 67 provided between the first telescopic box 76 and the main shifting box 75, a fourth locking pin 81 slidably connected to the main shifting box 75, a fourth locking pin spring 82 provided between the fourth locking pin 81 and the first telescopic box 76, and a fourth locking pin 81 slidably connected to the second locking pin 83, through slider 23 drives and stirs main tank 75 side-to-side motion, stirs V-arrangement pole 25 and rotates when stirring main tank 75 and move left, extrudees second bayonet lock 83 at V-arrangement pole 25 and makes fourth bayonet lock 81 shrink to first bellows 76 can be pressed to stirring in the main tank 75 by V-arrangement pole 25, when stirring main tank 75 and move left through slider 23 drive, does not have V-arrangement pole 25 to the pressing of bayonet lock spring 85, and then makes first bellows 76 promote V-arrangement pole 25 and rotate, stirs poker rod 41 and makes driven buckle 39 break away from the block.

According to the embodiment, the transmission device 903 is described in detail below, the transmission device 903 includes a first cam rotating shaft 14 rotatably connected to the first cam cavity 13, a sixth belt wheel 15 is fixedly connected to the first cam rotating shaft 14, the first belt wheel 28 is slidably connected to the sixth belt wheel 15 through a third belt 16, a first cam 17 is fixedly connected to the first cam rotating shaft 14, a first cam sliding slot 18 is formed in the first cam 17, a first pulling pin 21 is fixedly connected to the slider 23, the first pulling pin 21 is slidably connected to the first cam sliding slot 18, a first special-shaped pushing plate 20 is slidably connected to an inner wall of the first cam cavity 13, a second pulling pin 19 is fixedly connected to the first special-shaped pushing plate 20, the second pulling pin 19 is slidably connected to the first cam sliding slot 18, and a pressing pushing plate 52 is slidably connected to the first cam pushing plate 20, the belonging pressing push plate 52 and the first special-shaped push plate 20 are provided with a fifth spring 51 therebetween, a quantitative cavity 50 is arranged in the box body 11, the quantitative cavity 50 is slidably connected with a collecting plate 53, the collecting plate 53 is slidably connected with the pressing push plate 52, the collecting plate 53 is fixedly connected with two driving buckles 48 distributed left and right, the collecting plate 53 is provided with a quantitative spring 49 between the inner walls of the quantitative cavity 50, the driving buckle 48 can be clamped with the driven buckle 39, the driving buckle 48 is fixedly connected with a driving wedge 47, the driving wedge 47 can be in contact connection with the driven wedge 43, a goods inlet 54 is arranged in the box body 11, the box body 11 is slidably connected with a baffle rack 45, the first transmission shaft 31 is fixedly connected with a transmission gear 44, and the baffle rack 45 is in engagement connection, baffle spring 46 is arranged between baffle rack 45 and box 11, and through collecting plate 53 downstream until with driven buckle 39 block in the time initiative wedge 47 presses down driven wedge 43 and promotes slip transfer bar 34 and then drive control motor 38 and rotate, drive gear 44 through first transmission shaft 31 and rotate and then make baffle rack 45 move down and open the through opening in ration chamber 50 and crushing chamber 61.

According to the embodiment, the details of the pushing device 904 are described below, the pushing device 904 includes a bevel gear cavity 64 disposed in the case 11, a transmission output shaft 66 is rotatably connected to an inner wall of the bevel gear cavity 64, a transition shaft 68 is rotatably connected to an inner wall of the bevel gear cavity 64, a pushing motor 80 is fixedly connected to an inner wall of the second transmission cavity 78, the pushing motor 80 is rotatably connected to the transmission output shaft 66, the transmission output shaft 66 and the third transmission rotating shaft 62 are driven by a pulley, the transition shaft 68 and the transmission output shaft 66 are driven by a bevel gear pair, a second cam cavity 69 is disposed in the case 11, a second cam main shaft 70 is rotatably connected to the second cam cavity 69, a second cam 71 is fixedly connected to the second cam main shaft 70 between the second cam main shaft 70 and the transition shaft 68 by the bevel gear pair, the second cam 71 is provided with a second cam sliding groove 72, the inner wall of the second cam cavity 69 is slidably connected with a second special-shaped push plate 73, the second special-shaped push plate 73 is fixedly connected with a third toggle pin 74, the third toggle pin 74 is slidably connected with the second cam sliding groove 72, and the box body 11 is internally provided with a cargo outlet chamber 77.

The use steps herein are described in detail below with reference to fig. 1-3:

at the beginning, waste new energy batteries are put into the device quantitative cavity 50 through the goods inlet 54, the collection plate 53 is moved downwards under the influence of gravity by continuously adding the batteries into the device quantitative cavity, the downward movement of the collection plate 53 drives the driving buckle 48 to move downwards until the driving buckle 48 is clamped with the driven buckle 39, the waste new energy batteries are stopped being added, at the moment, the driving wedge-shaped block 47 presses the driven wedge-shaped block 43 to drive the sliding transmission rod 34 to move leftwards, the switch 37 is pressed through the switch pressing block 36 to start the control motor 38, the start of the control motor 38 drives the first transmission shaft 31 to rotate through a belt wheel on one hand, then the baffle rack 45 is moved downwards through the meshing transmission between the transmission gear 44 and the baffle rack 45 on the other hand, the first cam rotating shaft 14 is driven to rotate through the belt wheel, and the second shifting pin 19 which is connected with the first cam chute 18 in a sliding way is, the first shifting pin 21 connected with the first cam chute 18 in a sliding way moves to the left, and then the shifting main box 75 is driven by the slide block 23 to move to the left together, and touches the V-shaped rod 25 midway, when the V-shaped rod 25 contacts with the shifting inclined pin 84, the fourth pin 81 is driven to contract by wedge block transmission, so that the first telescopic box 76 can move up and contract into the shifting main box 75, and then the shifting main box 75 smoothly passes through the V-shaped rod 25 to the left, when the shifting main box 75 moves to the right, the shifting inclined pin 84 can not be sprayed to the V-shaped rod 25, and then the first telescopic box 76 can not contract into the shifting main box 75, so that the shifting V-shaped rod 25 rotates clockwise, the driven buckle 39 is disengaged from the driving buckle 48 by the shifting rod 41, meanwhile, the second shifting pin 19 drives the first push plate 20 to push the waste batteries in the collecting plate 53 into the crushing cavity 61, and then the motor 80 is started, the transition shaft 68 is driven to rotate through bevel gear pair transmission between the transmission output shaft 66 and the transition shaft 68, then bevel gear pair transmission between the transition shaft 68 and the second cam main shaft 70 and sliding closed cam transmission between the second cam sliding chute 72 and the third toggle pin 74 realize left-right movement of the second special-shaped push plate 73 to prevent crushed batteries from being accumulated at the turning position of the delivery cavity 77, the pressing main shaft 79 is driven to rotate through belt wheel transmission between the transmission output shaft 66 and the third transmission rotating shaft 62 and between the third transmission rotating shaft 62 and the pressing main shaft 79, and the pressing plate 55 is driven to move up and down through the pressing pin 59 on the pressing dial wheel 57 and the pressing sliding chute 60 on the pressing T-shaped rod 56 in a sliding transmission mode, so that the crushing efficiency of the waste batteries in the crushing cavity 61 is accelerated.

The invention has the beneficial effects that: according to the invention, according to the related knowledge of mechanical transmission, the amount to be processed is controlled by different gravity of the new energy batteries on the collecting plate, the objects on the collecting plate can automatically move downwards to push the control buckle at the lower side to realize automatic locking when reaching a certain amount, and the transmission motor can be started through wedge block transmission, and the closed cam is driven to rotate through belt wheel transmission, so that the quantitative battery treatment on the collecting plate is pushed to the crushing cavity, the effect of automatic quantitative treatment is realized, and the batteries on the collecting plate can automatically recover when being pushed to the crushing cavity.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a high-efficient new forms of energy battery production waste material processing apparatus, includes the box, its characterized in that: the box body is internally provided with a control cavity, the control cavity is internally provided with a control device for controlling the power of the device, the control device comprises a control motor main shaft which is rotatably connected with the inner wall of the control cavity, a first belt wheel is fixedly connected to the control motor main shaft, a control motor is fixedly connected to the inner wall of the control cavity, the control motor is rotatably connected with the control motor main shaft, a second belt wheel is fixedly connected to the control motor main shaft, a first transmission cavity is arranged in the box body, a first transmission shaft is rotatably connected to the inner wall of the first transmission cavity, a third belt wheel is fixedly connected to the first transmission shaft, the third belt wheel is slidably connected with the second belt wheel through a first belt, a switch is slidably connected to the control motor, a sliding transmission rod is slidably connected in the box body, and a reset spring is fixedly connected between the sliding transmission rod and the box body, the sliding transfer rod is fixedly connected with a switch press block, the switch press block can be in contact connection with the switch, the sliding transfer rod is fixedly connected with a driven wedge block, the box body is slidably connected with a driven buckle, the driven buckle is fixedly connected with a control clamping plate, the driven buckle is fixedly connected with a poking rod, a buckle spring is arranged between the driven buckle and the box body, a rotating pin is rotatably connected with the inside of the control cavity in a closed mode, a V-shaped rod is rotatably connected with the rotating pin in a closed mode, a blocking rod is fixedly connected with the inside of the control cavity in a closed mode and can be in contact connection with the V-shaped rod, a first cam cavity is arranged in the box body, a transmission device for providing periodic left and right movement for a device push plate is arranged in the first cam cavity, a pressing control cavity is arranged in the box body, and a crushing device for providing pressing power for device crushing is arranged in the pressing, and a second cam cavity is arranged in the box body, and a pushing device for intensively integrating the crushed batteries is arranged in the second cam cavity.

2. The high-efficiency new energy battery production waste treatment device as claimed in claim 1, characterized in that: the reducing mechanism include with press down the control intracavity wall and rotate the main shaft of pressing of connecting, press down fixedly connected with on the main shaft and press the thumb wheel, press fixedly connected with on the thumb wheel and press the round pin, it presses T shape pole to press down sliding connection on the control intracavity wall, it presses the spout to press to be equipped with on the T shape pole, press the spout with press round pin sliding connection, press fixedly connected with on the T shape pole and press the clamp plate, be equipped with second transmission chamber in the box, it is connected with third transmission pivot to rotate in the second transmission chamber, the rotary column is smashed to fixedly connected with in the third transmission pivot, be equipped with in the box and smash the chamber, smash the rotary column with smash sliding connection between the chamber, third transmission pivot with press through the belt drive between the main shaft.

3. The high-efficiency new energy battery production waste treatment device as claimed in claim 1, characterized in that: controlling means include with the spout that is equipped with on the box, sliding connection's slider on the spout, fixed connection's slider connecting rod on the slider, fixed connection's main tank of stirring on the slider connecting rod, stir sliding connection's first expansion box on the main tank, sliding connection stirs the taper pin on the first expansion box, sliding connection has the second bayonet lock on the first expansion box, the second bayonet lock with be equipped with the bayonet lock spring between the first expansion box, first expansion box with stir and be equipped with first stirring spring between the main tank, sliding connection has the fourth bayonet lock on stirring the main tank, the fourth bayonet lock with be equipped with the fourth bayonet lock spring between the first expansion box, the fourth bayonet lock with sliding connection between the second bayonet lock.

4. The high-efficiency new energy battery production waste treatment device as claimed in claim 1, characterized in that: the transmission device comprises a first cam rotating shaft which is rotatably connected with the first cam cavity, a sixth belt wheel is fixedly connected to the first cam rotating shaft, the first belt wheel is slidably connected with the sixth belt wheel through a third belt, a first cam is fixedly connected to the first cam rotating shaft, a first cam sliding groove is formed in the first cam, a first poking pin is fixedly connected to the sliding block, the first poking pin is slidably connected with the first cam sliding groove, a first special-shaped push plate is slidably connected to the inner wall of the first cam cavity, a second poking pin is fixedly connected to the first special-shaped push plate, the second poking pin is slidably connected with the first cam sliding groove, a pressing push plate is slidably connected to the first special-shaped push plate, a fifth spring is arranged between the pressing push plate and the first special-shaped push plate, and a quantitative cavity is formed in the box body, sliding connection has the collecting plate on the ration chamber, the collecting plate with press push pedal sliding connection, two initiative buckles that distribute about fixedly connected with on the collecting plate, the collecting plate with be equipped with quantitative spring between the ration intracavity wall, the initiative buckle can with driven buckle block, fixedly connected with initiative wedge on the initiative buckle, the initiative wedge can with driven wedge contact is connected, be equipped with the mouth of entrying in the box, sliding connection has the baffle rack in the box, fixedly connected with drive gear on the first transmission shaft, drive gear with the meshing is connected between the baffle rack, the baffle rack with be equipped with the baffle spring between the box.

5. The high-efficiency new energy battery production waste treatment device as claimed in claim 1, characterized in that: the pushing device comprises a bevel gear cavity arranged in the box body, a transmission output shaft is rotatably connected to the inner wall of the bevel gear cavity, a transition shaft is rotatably connected to the inner wall of the bevel gear cavity, a pushing motor is fixedly connected in the second transmission cavity, the pushing motor is rotatably connected with the transmission output shaft, the transmission output shaft and the third transmission rotating shaft are in belt wheel transmission, the transition shaft and the transmission output shaft are in bevel gear pair transmission, a second cam cavity is arranged in the box body, a second cam main shaft is rotatably connected to the second cam cavity, a second cam is fixedly connected to the second cam main shaft and the transition shaft through bevel gear pair transmission, a second cam sliding groove is formed in the second cam, and a second special-shaped push plate is slidably connected to the inner wall of the second cam cavity, and a third toggle pin is fixedly connected to the second special-shaped push plate, the third toggle pin is connected with the second cam sliding groove in a sliding manner, and a cargo discharging cavity is arranged in the box body.

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