CN112495987A

CN112495987A - New forms of energy waste material treatment facility

Info

Publication number: CN112495987A
Application number: CN202011244105.3A
Authority: CN
Inventors: 林荣珠
Original assignee: Guangzhou Wanwei Tongda Technology Co ltd
Current assignee: Guangzhou Wanwei Tongda Technology Co ltd
Priority date: 2020-11-10
Filing date: 2020-11-10
Publication date: 2021-03-16

Abstract

The invention relates to waste treatment equipment, in particular to new energy waste treatment equipment which comprises a base, a vertical frame, a clearing mechanism and a supporting mechanism, wherein the device can adapt to battery boards with different sizes so as to be fixed, can rotate and move so as to achieve clearing at different positions, can shake and separate batteries, can collect a motor, the vertical frame is in sliding fit with the base, the clearing mechanism is in sliding fit with the vertical frame, and the lower part of the supporting mechanism is connected with the base.

Description

New forms of energy waste material treatment facility

Technical Field

The invention relates to waste treatment equipment, in particular to new energy waste treatment equipment.

Background

After the electric automobile is scrapped, the lithium battery needs to be recycled, so the new energy waste treatment equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing new energy waste treatment equipment, wherein the device can adapt to battery boards with different sizes so as to be fixed, can rotate and move so as to achieve the removal of different positions, can shake and separate batteries, and can collect a motor.

In order to solve the technical problem, the invention relates to waste treatment equipment, in particular to new energy waste treatment equipment which comprises a base, a vertical frame, a clearing mechanism and a supporting mechanism, wherein the new energy waste treatment equipment can adapt to battery boards with different sizes so as to be fixed, can rotate and move so as to achieve clearing at different positions, can shake and separate batteries, and can collect a motor.

The vertical frame is in sliding fit with the base, the clearing mechanism is in sliding fit with the vertical frame, and the lower portion of the supporting mechanism is connected with the base.

As a further optimization of the technical scheme, the base of the new energy waste treatment equipment comprises a base frame, a sliding groove, two moving screw rods, a moving transition rod, a moving screw rod motor, a middle screw rod, a middle motor, a support table, a support seat, a limiting cap, a driving gear and a driving motor, wherein the base frame is square, the sliding groove is positioned on the side surface of the base frame, the sliding groove is in sliding fit with a vertical frame, the two moving screw rods are arranged, the two ends of the moving screw rods are connected with the base frame, the moving transition rod is connected with one end of the base frame, the two ends of the moving transition rod are connected with the base frame, the moving screw rod motor is fixed on the side surface of the base frame, the moving screw rod motor is connected with the moving transition rod, the two ends of the middle screw rod are connected with a support table, the middle motor is fixed on the, supporting table), supporting table both sides and removal screw rod screw-thread fit, supporting seat lower part and middle screw rod screw-thread fit, supporting seat and supporting table sliding fit, even cylindric arch of supporting seat upper portion processing, the supporting seat is connected with supporting mechanism, spacing cap is fixed on the upper portion of supporting seat, spacing cap contacts with supporting mechanism, drive gear and supporting seat sliding fit, drive gear meshes with supporting mechanism mutually, driving motor fixes the lower part at the supporting seat, driving motor is connected with drive gear.

As a further optimization of the technical scheme, the vertical frame of the new energy waste treatment equipment comprises a lower sliding plate, a vertical support, a vertical screw rod, a screw rod motor and an upper moving plate, middle screw rod support frame, well screw rod, the belt, middle motor, lower slide and spout sliding fit, lower slide middle part processing threaded hole, it fixes the side at the lower slide to found the support, it is connected with upright support to found the screw rod both ends, the screw rod motor is fixed on founding the support, the screw rod motor is connected with founding the screw rod, the kickup plate with found support sliding fit, the kickup plate with found screw rod screw-thread fit, middle screw rod support frame one end is together fixed with the bed frame, well screw rod one end is connected with middle screw rod support frame, well screw rod and lower slide screw-thread fit, the belt is connected with well screw rod, the belt is connected with middle motor, middle motor is fixed in the lower part of middle.

As a further optimization of the technical scheme, the removing mechanism of the new energy waste treatment equipment comprises a removing frame, two moving wheels, two moving motors, two connecting rods, a removing table, a collecting frame, a collecting motor, a collecting wheel, a removing motor, a removing cam rod, a spring, a sliding plate, a connecting belt, a collecting box and a sliding port, wherein the removing frame is in sliding fit with the upper moving plate, the two moving wheels are in contact with the upper moving plate, the moving motors are fixed on the side surface of the removing frame, the moving motors are connected with the moving wheels, the connecting rods are connected with the removing frame, the two ends of the connecting rods are connected with the moving wheels, the removing table is positioned at the lower part of the removing frame, the removing table is in sliding fit with the removing frame, the collecting frame is fixed on the side surface of the removing frame, the collecting motor is fixed at the upper part of the collecting frame, one end of the collecting, the clearing cam rod is located inside the clearing frame, the upper portion of the clearing cam rod is connected with the clearing motor, a cam is machined on the lower portion of the clearing cam rod, the lower portion of the clearing cam rod is in contact with the clearing table, one end of a spring is in contact with the clearing table, one end of the spring is in contact with the clearing frame, a sliding plate is fixed inside the clearing frame and in contact with the clearing table, a connecting belt is connected with a collecting motor and a collecting wheel, a collecting box is located on the collecting frame, a sliding opening is located in the upper portion of the clearing frame, and a sliding opening is in contact with an upper moving plate.

As a further optimization of the technical scheme, the supporting mechanism of the new energy waste treatment equipment comprises a main supporting plate, a lower side plate, side frames, push rods, push rod driving rods, a push rod driving motor, a side frame lifting motor, two push rod connecting rods, a side frame connecting rod, a push rod driving rod limiting frame, a push rod driving wheel, lifting gears, gear rods and a small connecting rod, wherein the lower part of the main supporting plate is connected with a supporting seat, the lower side plate is fixed at the lower side of the main supporting plate, the side frames are arranged, the side frames are connected with the lower side plate, the push rods are in sliding fit with the side frames, the lower part of each push rod driving rod is in sliding fit with the corresponding push rod driving rod, teeth are machined at the upper side of the push rod driving motor, the side frame lifting motor is fixed at the lower side, the lower side of curb plate is fixed to the spacing frame of push rod actuating lever, and the push rod bogie is fixed in the downside of curb plate down, and the push rod drive wheel is connected with the push rod bogie, and the push rod drive wheel meshes with the push rod actuating lever mutually, and lifting gear meshes with the side bearer mutually, and the gear pole is connected with lifting gear, and little connecting rod is connected with the push rod drive wheel, and little connecting rod is connected with the push rod connecting rod.

As further optimization of the technical scheme, the base frame of the new energy waste treatment equipment is made of cast iron.

As a further optimization of the technical scheme, the front part of the cleaning table of the new energy waste treatment equipment is sharp.

As further optimization of the technical scheme, the collecting wheel of the new energy waste treatment equipment is made of rubber.

The new energy waste treatment equipment has the beneficial effects that:

according to the new energy waste treatment equipment, the device can adapt to battery boards with different sizes, so that the new energy waste treatment equipment is fixed, the device can rotate and move to achieve removal of different positions, the device can shake and separate batteries, and the device can collect motors.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural diagram of a new energy waste treatment apparatus according to the present invention.

Fig. 2 is a schematic structural view of the other side of the new energy waste treatment apparatus according to the present invention.

Fig. 3 is a schematic structural diagram of a base 1 of the new energy waste treatment equipment.

Fig. 4 is another schematic structural diagram of the base 1 of the new energy waste treatment equipment.

Fig. 5 is a schematic structural view of a stand 2 of the new energy waste treatment apparatus according to the present invention.

Fig. 6 is another schematic structural view of the stand 2 of the new energy waste treatment apparatus according to the present invention.

Fig. 7 is a schematic structural diagram of a removing mechanism 3 of the new energy waste treatment equipment.

Fig. 8 is another schematic structural view of the removing mechanism 3 of the new energy waste treatment equipment of the invention.

Fig. 9 is a schematic structural diagram of the supporting mechanism 4 of the new energy waste treatment apparatus according to the present invention.

Fig. 10 is a partial structural schematic view of the supporting mechanism 4 of the new energy waste treatment apparatus according to the present invention.

Fig. 11 is a partial structural schematic view of the supporting mechanism 4 of the new energy waste treatment apparatus according to the present invention.

In the figure: a base 1; a base frame 1-1; a chute 1-2; moving the screw rods 1-3; moving transition rods 1-4; 1-5 of a movable screw motor; 1-6 parts of middle screw; 1-7 of an intermediate motor; 1-8 of a support table; 1-9 parts of a supporting seat; 1-10 parts of a limiting cap; drive gears 1-11; driving motors 1-12; a vertical frame 2; a lower sliding plate 2-1; 2-2 of a vertical support; 2-3 of vertical screw rods; 2-4 parts of a screw motor; 2-5 parts of an upper moving plate; 2-6 of a middle screw rod support frame; 2-7 parts of a middle screw rod; 2-8 parts of a belt; 2-9 parts of an intermediate motor; a cleaning mechanism 3; a cleaning frame 3-1; moving wheels 3-2; 3-3 of a mobile motor; 3-4 of a connecting rod; 3-5 of a clearing table; 3-6 of a collecting rack; collecting a motor 3-7; 3-8 parts of a collecting wheel; clearing the motor 3-9; clearing the cam rods 3-10; 3-11 parts of a spring; 3-12 of a sliding plate; connecting belts 3-13; collecting boxes 3-14; 3-15 of a sliding port; a support mechanism 4; a main supporting plate 4-1; a lower side plate 4-2; side frame 4-3; 4-4 of a push rod; 4-5 of a push rod driving rod; 4-6 of a push rod driving motor; 4-7 of a side frame lifting motor; 4-8 parts of a push rod connecting rod; side frame connecting rods 4-9; 4-10 parts of a push rod driving rod limiting frame; 4-11 parts of a push rod driving frame; 4-12 parts of a push rod driving wheel; 4-13 of a lifting gear; gear rods 4-14; and 4-15 small connecting rods.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, the invention relates to a waste treatment equipment device, and more specifically, to a new energy waste treatment equipment, which includes a base 1, a stand 2, a cleaning mechanism 3, and a support mechanism 4, and the device can be adapted to battery panels of different sizes, so as to be fixed, can be rotated and moved to achieve cleaning at different positions, can shake and separate batteries, and can collect a motor.

The vertical frame 2 is in sliding fit with the base 1, the clearing mechanism 3 is in sliding fit with the vertical frame 2, and the lower part of the supporting mechanism 4 is connected with the base 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the embodiment further describes the embodiment, where the base 1 includes a base frame 1-1, a sliding chute 1-2, a moving screw 1-3, a moving transition rod 1-4, a moving screw motor 1-5, an intermediate screw 1-6, an intermediate motor 1-7, a support table 1-8, a support base 1-9, a limit cap 1-10, a drive gear 1-11, and a drive motor 1-12, the base frame 1-1 is square, the sliding chute 1-2 is located on a side surface of the base frame 1-1, the sliding chute 1-2 is slidably engaged with the stand 2, two moving screws 1-3 are provided, two ends of the moving screw 1-3 are connected with the base frame 1-1, the moving transition rod 1-4 is connected with one end of the base frame 1-1, the two ends of the moving transition rod 1-4 are connected with the base frame 1-1, the moving screw motor 1-5 is fixed on the side of the base frame 1-1, the moving screw motor 1-5 is connected with the moving transition rod 1-4, the two ends of the middle screw 1-6 are connected with the supporting platform 1-8, the middle motor 1-7 is fixed on the side of the supporting platform 1-8, the middle motor 1-7 is connected with the middle screw 1-6, the supporting platform 1-8 is arranged on the upper part of the base frame 1-1, the supporting platform 1-8) is in sliding fit with the base frame 1-1, the two sides of the supporting platform 1-8 are in threaded fit with the moving screw 1-3, the lower part of the supporting platform 1-9 is in threaded, the supporting seat 1-9 is in sliding fit with the supporting seat 1-8, the upper part of the supporting seat 1-9 is provided with a pair of column-shaped bulges, the supporting seat 1-9 is connected with the supporting mechanism 4, the limiting cap 1-10 is fixed on the upper part of the supporting seat 1-9, the limiting cap 1-10 is contacted with the supporting mechanism 4, the driving gear 1-11 is in sliding fit with the supporting seat 1-9, the driving gear 1-11 is meshed with the supporting mechanism 4, the driving motor 1-12 is fixed on the lower part of the supporting seat 1-9, and the driving motor 1-12 is connected with the driving gear 1-11. The moving screw motor 1-5 rotates to drive the moving transition rod 1-4 to rotate, the moving transition rod 1-4 rotates to drive the two moving screws 1-3 to rotate, the moving screws 1-3 rotate to drive the supporting table 1-8 to move, the supporting table 1-8 moves to drive the supporting seat 1-9 to move, and the supporting seat 1-9 drives the supporting mechanism 4 to move; the middle motor 1-7 rotates to drive the middle screw rod 1-6 to rotate, and the middle screw rod 1-6 drives the supporting seat 1-9 to move along the supporting table 1-8, so that the supporting mechanism 4 can move along the supporting table 1-8; the driving motors 1-12 rotate to drive the driving gears 1-11 to rotate, and the driving gears 1-11 drive the supporting mechanism 4 to rotate.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, and the embodiment will be further described, where the standing frame 2 includes a lower sliding plate 2-1, a standing bracket 2-2, a vertical screw 2-3, a screw motor 2-4, an upper sliding plate 2-5, a middle screw support 2-6, a middle screw 2-7, a belt 2-8, and a middle motor 2-9, the lower sliding plate 2-1 is in sliding fit with the sliding chute 1-2, a threaded hole is processed in the middle of the lower sliding plate 2-1, the standing bracket 2-2 is fixed on a side surface of the lower sliding plate 2-1, two ends of the vertical screw 2-3 are connected with the standing bracket 2-2, the screw motor 2-4 is fixed on the standing bracket 2-2, the screw motor 2-4 is connected with the vertical screw 2-3, the upper moving plate 2-5 is in sliding fit with the vertical support 2-2, the upper moving plate 2-5 is in threaded fit with the vertical screw 2-3, one end of the middle screw support frame 2-6 is fixed with the base frame 1-1, one end of the middle screw 2-7 is connected with the middle screw support frame 2-6, the middle screw 2-7 is in threaded fit with the lower sliding plate 2-1, the belt 2-8 is connected with the middle screw 2-7, the belt 2-8 is connected with the middle motor 2-9, and the middle motor 2-9 is fixed at the lower part of the middle screw support frame 2-6. The middle motor 2-9 rotates to drive the belt 2-8 to rotate, the belt 2-8 drives the middle screw rod 2-7 to rotate, and the middle screw rod 2-7 drives the lower sliding plate 2-1 to move along the sliding chute 1-2; the screw motor 2-4 rotates to drive the vertical screw 2-3 to rotate, and the vertical screw 2-3 rotates to drive the upper moving plate 2-5 to move.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and the embodiment further describes the embodiment, in which the removing mechanism 3 includes a removing rack 3-1, a moving wheel 3-2, a moving motor 3-3, a connecting rod 3-4, a removing table 3-5, a collecting rack 3-6, a collecting motor 3-7, a collecting wheel 3-8, a removing motor 3-9, a removing cam rod 3-10, a spring 3-11, a sliding plate 3-12, a connecting belt 3-13, a collecting box 3-14, and a sliding port 3-15, the removing rack 3-1 is slidably fitted with the upper moving plate 2-5, the moving wheel 3-2 is provided with two, the moving wheel 3-2 is in contact with the upper moving plate 2-5, a moving motor 3-3 is fixed on the side of a clearing frame 3-1, the moving motor 3-3 is connected with a moving wheel 3-2, a connecting rod 3-4 is connected with the clearing frame 3-1, two ends of the connecting rod 3-4 are connected with the moving wheel 3-2, a clearing table 3-5 is positioned at the lower part of the clearing frame 3-1, the clearing table 3-5 is in sliding fit with the clearing frame 3-1, a collecting frame 3-6 is fixed on the side of the clearing frame 3-1, a collecting motor 3-7 is fixed at the upper part of the collecting frame 3-6, one end of the collecting wheel 3-8 is connected with the collecting frame 3-6, a clearing motor 3-9 is fixed at the rear part of the clearing frame 3-1, a clearing cam rod 3-10 is positioned in the clearing frame 3-1, the upper part of the clearing cam rod 3-10 is connected with the, the lower part of a clearing cam rod 3-10 is provided with a cam, the lower part of the clearing cam rod 3-10 is contacted with a clearing table 3-5, one end of a spring 3-11 is contacted with the clearing table 3-5, one end of the spring 3-11 is contacted with a clearing frame 3-1, a sliding plate 3-12 is fixed in the clearing frame 3-1, the sliding plate 3-12 is contacted with the clearing table 3-5, a connecting belt 3-13 is connected with a collecting motor 3-7, the connecting belt 3-13 is connected with a collecting wheel 3-8, a collecting box 3-14 is positioned on the collecting frame 3-6, a sliding opening 3-15 is positioned at the upper part of the clearing frame 3-1, and the sliding opening 3-15 is contacted with an upper moving plate 2-5. The moving motor 3-3 rotates to drive the moving wheel 3-2 to rotate, the moving wheel 3-2 drives the connecting rod 3-4 to rotate, the connecting rod 3-4 drives the moving wheel 3-2 on the lower side to rotate, and the moving wheel 3-2 drives the cleaning frame 3-1 to move along the upper moving plate 2-5; the collection motor 3-7 rotates to drive the connecting belt 3-13 to rotate, the connecting belt 3-13 drives the collection wheel 3-8 to rotate, and the collection wheel 3-8 rotates to collect the cleaned batteries into the collection box 3-14; the cleaning motor 3-9 rotates to drive the cleaning convex rod 3-10 to rotate, and the cleaning cam rod 3-10 drives the cleaning table 3-5 to move back and forth, so that the batteries are separated.

The fifth concrete implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, and fig. 11, which further illustrate the present embodiment, the support mechanism 4 includes a main support plate 4-1, a lower support plate 4-2, a side frame 4-3, a push rod 4-4, a push rod drive rod 4-5, a push rod drive motor 4-6, a side frame lift motor 4-7, a push rod connecting rod 4-8, a side frame connecting rod 4-9, a push rod drive rod limiting frame 4-10, a push rod drive frame 4-11, a push rod drive wheel 4-12, a lift gear 4-13, a gear rod 4-14, and a small connecting rod 4-15, wherein the lower portion of the main support plate 4-1 is connected to the support base 1-9, the lower support plate 4-2 is fixed to the lower portion of the main support plate 4, two side frames 4-3 are arranged, the side frame 4-3 is connected with a lower side plate 4-2, a push rod 4-4 is in sliding fit with the side frame 4-3, the lower part of the push rod 4-4 is in sliding fit with a push rod driving rod 4-5, teeth are machined on the upper side of the push rod driving rod 4-5, a push rod driving motor 4-6 is fixed on the lower part of a main supporting plate 4-1, a side frame lifting motor 4-7 is fixed on the lower side of the main supporting plate 4-1, a push rod connecting rod 4-8 is connected with the push rod driving motor 4-6, a side frame connecting rod 4-9 is connected with the side frame lifting motor 4-7, a push rod driving rod limiting frame 4-10 is fixed on the lower side of the lower side plate 4-2, a push rod driving frame 4-11 is fixed on the lower side, the push rod driving wheels 4-12 are meshed with the push rod driving rods 4-5, the lifting gears 4-13 are meshed with the side frames 4-3, the gear rods 4-14 are connected with the lifting gears 4-13, the small connecting rods 4-15 are connected with the push rod driving wheels 4-12, and the small connecting rods 4-15 are connected with the push rod connecting rods 4-8. The push rod driving motor 4-6 rotates to drive the push rod connecting rod 4-8 to rotate, the push rod connecting rod 4-8 rotates to drive the small connecting rod 4-15 to rotate, the small connecting rod 4-15 rotates to drive the push rod driving wheel 4-12 to rotate, the push rod driving wheel 4-12 rotates to drive the push rod driving rod 4-5 to move, and the push rod moving rod 4-5 drives the push rod 4-4 to move; the side frame lifting motor 4-7 rotates to drive the side frame connecting rod 4-9 to rotate, the side frame connecting rod 4-9 rotates to drive the gear rod 4-14 to rotate, the gear rod 4-14 rotates to drive the lifting gear 4-13 to rotate, the lifting gear 4-13 rotates to drive the side frame 4-3 to move up and down, and when the side frame 4-3 moves to the upper part, the push rod 4-4 is pushed out to fix the battery pack.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment will be further described with reference to the first embodiment, in which the base frame 1-1 is made of cast iron.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, and 11, and the present embodiment further describes an embodiment in which the front portion of the cleaning table 3-5 is pointed.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11, and the embodiment will be further described with reference to the following, in which the collecting wheel 3-8 is made of rubber.

The working principle of the device is as follows: 1 base theory of operation: the moving screw motor 1-5 rotates to drive the moving transition rod 1-4 to rotate, the moving transition rod 1-4 rotates to drive the two moving screws 1-3 to rotate, the moving screws 1-3 rotate to drive the supporting table 1-8 to move, the supporting table 1-8 moves to drive the supporting seat 1-9 to move, and the supporting seat 1-9 drives the supporting mechanism 4 to move; the middle motor 1-7 rotates to drive the middle screw rod 1-6 to rotate, and the middle screw rod 1-6 drives the supporting seat 1-9 to move along the supporting table 1-8, so that the supporting mechanism 4 can move along the supporting table 1-8; the driving motors 1-12 rotate to drive the driving gears 1-11 to rotate, and the driving gears 1-11 drive the supporting mechanism 4 to rotate.

2, the working principle of the vertical frame is as follows: the middle motor 2-9 rotates to drive the belt 2-8 to rotate, the belt 2-8 drives the middle screw rod 2-7 to rotate, and the middle screw rod 2-7 drives the lower sliding plate 2-1 to move along the sliding chute 1-2; the screw motor 2-4 rotates to drive the vertical screw 2-3 to rotate, and the vertical screw 2-3 rotates to drive the upper moving plate 2-5 to move.

3, the working principle of the clearing mechanism is as follows: the moving motor 3-3 rotates to drive the moving wheel 3-2 to rotate, the moving wheel 3-2 drives the connecting rod 3-4 to rotate, the connecting rod 3-4 drives the moving wheel 3-2 on the lower side to rotate, and the moving wheel 3-2 drives the cleaning frame 3-1 to move along the upper moving plate 2-5; the collection motor 3-7 rotates to drive the connecting belt 3-13 to rotate, the connecting belt 3-13 drives the collection wheel 3-8 to rotate, and the collection wheel 3-8 rotates to collect the cleaned batteries into the collection box 3-14; the cleaning motor 3-9 rotates to drive the cleaning convex rod 3-10 to rotate, and the cleaning cam rod 3-10 drives the cleaning table 3-5 to move back and forth, so that the batteries are separated.

4, the working principle of the supporting mechanism is as follows: the push rod driving motor 4-6 rotates to drive the push rod connecting rod 4-8 to rotate, the push rod connecting rod 4-8 rotates to drive the small connecting rod 4-15 to rotate, the small connecting rod 4-15 rotates to drive the push rod driving wheel 4-12 to rotate, the push rod driving wheel 4-12 rotates to drive the push rod driving rod 4-5 to move, and the push rod moving rod 4-5 drives the push rod 4-4 to move; the side frame lifting motor 4-7 rotates to drive the side frame connecting rod 4-9 to rotate, the side frame connecting rod 4-9 rotates to drive the gear rod 4-14 to rotate, the gear rod 4-14 rotates to drive the lifting gear 4-13 to rotate, the lifting gear 4-13 rotates to drive the side frame 4-3 to move up and down, and when the side frame 4-3 moves to the upper part, the push rod 4-4 is pushed out to fix the battery pack.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a new forms of energy waste material treatment facility, includes base (1), grudging post (2), clears away mechanism (3), supporting mechanism (4), its characterized in that: the vertical frame (2) is in sliding fit with the base (1), the clearing mechanism (3) is in sliding fit with the vertical frame (2), and the lower part of the supporting mechanism (4) is connected with the base (1).

2. The new energy waste treatment facility of claim 1, wherein: the base (1) comprises a base frame (1-1), a sliding groove (1-2), a movable screw (1-3), a movable transition rod (1-4), a movable screw motor (1-5), a middle screw (1-6), a middle motor (1-7), a supporting table (1-8), a supporting seat (1-9), a limiting cap (1-10), a driving gear (1-11) and a driving motor (1-12), wherein the base frame (1-1) is square, the sliding groove (1-2) is positioned on the side surface of the base frame (1-1), the sliding groove (1-2) is in sliding fit with the vertical frame (2), the number of the movable screws (1-3) is two, the two ends of the movable screw (1-3) are connected with the base frame (1-1), the movable transition rod (1-4) is connected with one end of the base frame (1-1), the two ends of a mobile transition rod (1-4) are connected with a base frame (1-1), a mobile screw motor (1-5) is fixed on the side surface of the base frame (1-1), the mobile screw motor (1-5) is connected with the mobile transition rod (1-4), the two ends of an intermediate screw (1-6) are connected with a supporting platform (1-8), an intermediate motor (1-7) is fixed on the side surface of the supporting platform (1-8), the intermediate motor (1-7) is connected with an intermediate screw (1-6), the supporting platform (1-8) is positioned on the upper part of the base frame (1-1), the supporting platform (1-8) is in sliding fit with the base frame (1-1), the two sides of the supporting platform (1-8) are in threaded fit with the mobile screw (1-3), the lower part of the supporting platform (1-9) is in threaded fit with the intermediate screw (1-6), the supporting seat (1-9) is in sliding fit with the supporting seat (1-8), the upper part of the supporting seat (1-9) is provided with a pair of columnar bulges, the supporting seat (1-9) is connected with the supporting mechanism (4), the limiting cap (1-10) is fixed on the upper part of the supporting seat (1-9), the limiting cap (1-10) is contacted with the supporting mechanism (4), the driving gear (1-11) is in sliding fit with the supporting seat (1-9), the driving gear (1-11) is meshed with the supporting mechanism (4), the driving motor (1-12) is fixed on the lower part of the supporting seat (1-9), and the driving motor (1-12) is connected with the driving gear (1-11).

3. The new energy waste treatment facility of claim 1, wherein: the vertical frame (2) comprises a lower sliding plate (2-1), a vertical support (2-2), a vertical screw (2-3), a screw motor (2-4), an upper sliding plate (2-5), a middle screw support frame (2-6), a middle screw (2-7), a belt (2-8) and a middle motor (2-9), wherein the lower sliding plate (2-1) is in sliding fit with the sliding chute (1-2), a threaded hole is processed in the middle of the lower sliding plate (2-1), the vertical support (2-2) is fixed on the side surface of the lower sliding plate (2-1), two ends of the vertical screw (2-3) are connected with the vertical support (2-2), the screw motor (2-4) is fixed on the vertical support (2-2), and the screw motor (2-4) is connected with the vertical screw (2-3), the upper moving plate (2-5) is in sliding fit with the vertical support (2-2), the upper moving plate (2-5) is in threaded fit with the vertical screw (2-3), one end of the middle screw support frame (2-6) is fixed with the base frame (1-1), one end of the middle screw (2-7) is connected with the middle screw support frame (2-6), the middle screw (2-7) is in threaded fit with the lower sliding plate (2-1), the belt (2-8) is connected with the middle screw (2-7), the belt (2-8) is connected with the middle motor (2-9), and the middle motor (2-9) is fixed at the lower part of the middle screw support frame (2-6).

4. The new energy waste treatment facility of claim 1, wherein: the clearing mechanism (3) comprises a clearing frame (3-1), moving wheels (3-2), moving motors (3-3), connecting rods (3-4), a clearing table (3-5), a collecting frame (3-6), collecting motors (3-7), collecting wheels (3-8), clearing motors (3-9), clearing cam rods (3-10), springs (3-11), sliding plates (3-12), connecting belts (3-13), collecting boxes (3-14) and sliding ports (3-15), the clearing frame (3-1) is in sliding fit with the upper moving plate (2-5), the moving wheels (3-2) are two, the moving wheels (3-2) are in contact with the upper moving plate (2-5), and the moving motors (3-3) are fixed on the side face of the clearing frame (3-1), a moving motor (3-3) is connected with a moving wheel (3-2), a connecting rod (3-4) is connected with a clearing frame (3-1), two ends of the connecting rod (3-4) are connected with the moving wheel (3-2), a clearing table (3-5) is positioned at the lower part of the clearing frame (3-1), the clearing table (3-5) is in sliding fit with the clearing frame (3-1), a collecting frame (3-6) is fixed at the side surface of the clearing frame (3-1), a collecting motor (3-7) is fixed at the upper part of the collecting frame (3-6), one end of the collecting wheel (3-8) is connected with the collecting frame (3-6), a clearing motor (3-9) is fixed at the rear part of the clearing frame (3-1), a clearing cam rod (3-10) is positioned inside the clearing frame (3-1), the upper part of a clearing cam rod (3-10) is connected with a clearing motor (3-9), the lower part of the clearing cam rod (3-10) is provided with a cam, the lower part of the clearing cam rod (3-10) is contacted with a clearing platform (3-5), one end of a spring (3-11) is contacted with the clearing platform (3-5), one end of the spring (3-11) is contacted with a clearing frame (3-1), a sliding plate (3-12) is fixed in the clearing frame (3-1), the sliding plate (3-12) is contacted with the clearing platform (3-5), a connecting belt (3-13) is connected with a collecting motor (3-7), the connecting belt (3-13) is connected with a collecting wheel (3-8), a collecting box (3-14) is positioned on the collecting frame (3-6), the sliding port (3-15) is positioned at the upper part of the clearing frame (3-1), and the sliding port (3-15) is contacted with the upper moving plate (2-5).

5. The new energy waste treatment facility of claim 1, wherein: the supporting mechanism (4) comprises a main supporting plate (4-1), a lower side plate (4-2), side frames (4-3), push rods (4-4), push rod driving rods (4-5), push rod driving motors (4-6), side frame lifting motors (4-7), push rod connecting rods (4-8), side frame connecting rods (4-9), push rod driving rod limiting frames (4-10), push rod driving frames (4-11), push rod driving wheels (4-12), lifting gears (4-13), gear rods (4-14) and small connecting rods (4-15), the lower portion of the main supporting plate (4-1) is connected with the supporting seats (1-9), the lower side plate (4-2) is fixed on the lower side of the main supporting plate (4-1), and two side frames (4-3) are arranged, the side frame (4-3) is connected with the lower side plate (4-2), a push rod (4-4) is in sliding fit with the side frame (4-3), the lower part of the push rod (4-4) is in sliding fit with a push rod driving rod (4-5), teeth are machined on the upper side of the push rod driving rod (4-5), a push rod driving motor (4-6) is fixed on the lower part of a main support plate (4-1), a side frame lifting motor (4-7) is fixed on the lower side of the main support plate (4-1), a push rod connecting rod (4-8) is connected with the push rod driving motor (4-6), a side frame connecting rod (4-9) is connected with the side frame lifting motor (4-7), a push rod driving rod limiting frame (4-10) is fixed on the lower side of the lower side plate (4-2), and a push rod driving frame (4-11) is fixed on the, the push rod driving wheels (4-12) are connected with the push rod driving frames (4-11), the push rod driving wheels (4-12) are meshed with the push rod driving rods (4-5), the lifting gears (4-13) are meshed with the side frames (4-3), the gear rods (4-14) are connected with the lifting gears (4-13), the small connecting rods (4-15) are connected with the push rod driving wheels (4-12), and the small connecting rods (4-15) are connected with the push rod connecting rods (4-8).

6. The new energy waste treatment facility of claim 1, wherein: the base frame (1-1) is made of cast iron.

7. The new energy waste treatment facility of claim 1, wherein: the front part of the cleaning table (3-5) is sharp.

8. The new energy waste treatment facility of claim 1, wherein: the collecting wheels (3-8) are made of rubber.