CN220126374U - Waste battery treatment device - Google Patents

Abstract

The utility model provides a waste battery treatment device, which relates to the technical field of environmental protection recovery and aims to solve the problem that the waste battery is in a cylindrical structure and is not stressed with a crushing structure, and the waste battery treatment device comprises a treatment main body, wherein a closed valve plate is slidably arranged on the left side and the right side of the treatment main body; the closed valve plate is of a rectangular structure; an operation handle rod is arranged on the outer side of the closed valve plate; a guide block is arranged at the middle position inside the processing main body; a treatment cylinder is arranged at the top of the treatment main body; crushing shafts are symmetrically arranged in the treatment cylinder in a left-right mode; the crushing shaft is of a cylindrical structure; the crushing shaft is provided with a crushing gear; the two crushing gears are connected in a meshed mode. The waste battery can be fully stressed between the influence of the downward pressing of the pressing transverse plate and the crushing roller, so that the crushing roller can be used for crushing the waste battery rapidly, and the reduction of the crushing efficiency of the waste battery caused by no stress between the waste battery and the crushing roller is avoided.

Description

Waste battery treatment device

Technical Field

The utility model belongs to the technical field of environment protection recovery, and particularly relates to a waste battery treatment device.

Background

Along with popularization of environmental protection engineering, the treatment requirements on the waste batteries are more and more strict, and the waste battery treatment device is needed for the treatment of the waste batteries.

When the existing waste battery treatment device is used for carrying out crushing treatment on the waste battery, the waste battery is poured into the crushing structure, so that the crushing structure is used for crushing treatment on the waste battery, but the waste battery is of a cylindrical structure, the waste battery can possibly be not stressed with the crushing structure, so that the waste battery cannot be crushed rapidly, and the treatment efficiency of the waste battery is reduced.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a waste battery treatment device, which solves the problems that the waste battery cannot be crushed rapidly and the treatment efficiency of the waste battery is reduced because the waste battery is in a cylindrical structure and is not stressed with a crushing structure.

The utility model relates to a waste battery processing apparatus's purpose and efficiency is reached by following concrete technical means:

the waste battery treatment device comprises a treatment main body, wherein a closed valve plate is slidably arranged on the left side and the right side of the treatment main body; the closed valve plate is of a rectangular structure; an operation handle rod is arranged on the outer side of the closed valve plate; a guide block is arranged at the middle position inside the processing main body; the guide block is of a triangular structure; a treatment cylinder is arranged at the top of the treatment main body; crushing shafts are symmetrically arranged in the treatment cylinder in a left-right mode; the crushing shaft is of a cylindrical structure; the crushing shaft is provided with a crushing gear; the two crushing gears are connected in a meshed manner; a driving motor is arranged at the front side of the treatment cylinder; an output shaft of the driving motor is connected with the front end of the left crushing shaft; and a mounting piece is arranged at the middle position of the top of the treatment cylinder.

Further, a transmission shaft is arranged at the front end of the crushing shaft positioned at the right side; the transmission shaft is of a cylindrical structure; a synchronizing wheel A is arranged on the circumferential outer wall of the transmission shaft; the top of the treatment cylinder is provided with a waste battery feed inlet; the left side and the right side of the waste battery feeding hole are of inclined structures; the circumference outer wall of the crushing shaft is provided with a crushing roller; a travel chute is formed in the mounting piece; a travel sliding block is slidably arranged in the travel sliding groove; the stroke sliding block is of a rectangular structure.

Furthermore, mounting columns are arranged at the front end and the rear end of the stroke sliding block; a stress wheel is arranged on the circumferential outer wall of the mounting column; the stress wheel is of a disc-shaped structure; one end of the restoring spring is embedded and installed at the bottom of the stroke sliding block; the other end of the restoring spring is embedded and arranged at the bottom of the travel chute; the top of installed part is provided with the installation carrier plate.

Further, the mounting plate is rotatably provided with a driving shaft; the driving shaft is of a cylindrical structure; a pushing cam is arranged on the circumferential outer wall of the driving shaft; the front end of the driving shaft is provided with a synchronous wheel B; the synchronous wheel B is connected with the synchronous wheel A through a synchronous belt; the bottom of the travel sliding block is provided with a mounting vertical plate; the mounting vertical plate is of a rectangular structure; the bottom of the mounting vertical plate is provided with a pressing transverse plate; the pressure transverse plate is of a rectangular structure.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the crushing shaft positioned at the left side is driven to rotate by the driving motor, so that the crushing shaft drives the corresponding crushing gear to rotate, the crushing gear drives the other crushing shaft to reversely rotate under the action of meshing with the crushing gear at the other part, the two crushing shafts drive the two crushing rollers to relatively rotate, the two crushing rollers crush the waste batteries through the relative rotation, and the waste batteries are convenient to process.

2. When the crushing shaft positioned on the right side rotates, the transmission shaft and the synchronous wheel A are driven to rotate, the synchronous wheel A drives the synchronous wheel B and the driving shaft to rotate under the action of the synchronous belt, the driving shaft drives the pushing cam to rotate, the pushing cam is matched with the restoring spring to reciprocally push the stroke sliding block downwards, the stroke sliding block drives the mounting vertical plate and the pressing transverse plate to reciprocally press down the waste battery positioned between the crushing rollers, the waste battery can be fully stressed between the influence of the pressing transverse plate pressing down and the crushing rollers, the crushing rollers are convenient to crush the waste battery rapidly, the reduction of the crushing efficiency of the waste battery caused by no stress between the waste battery and the crushing rollers is avoided, and the treatment efficiency of the device on the waste battery is further improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is an enlarged schematic view of the portion a of fig. 1 according to the present utility model.

Fig. 3 is a schematic view of a semi-cut structure of a process body according to the present utility model.

Fig. 4 is a schematic view of the structure of the mounting member and the crushing roller of the present utility model.

Fig. 5 is a schematic view of the mounting member and the pushing cam according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a processing main body; 101. closing the valve plate; 102. operating a handle bar; 103. a guide block; 104. a treatment cylinder; 105. a crushing shaft; 106. crushing a gear; 107. a transmission shaft; 108. a synchronizing wheel A; 109. a waste battery feed port; 1010. a crushing roller; 2. a mounting member; 201. a travel chute; 202. a travel slide block; 203. a mounting column; 204. a force-bearing wheel; 205. a return spring; 206. mounting a loading plate; 207. a drive shaft; 208. pushing the cam; 209. a synchronizing wheel B; 2010. installing a vertical plate; 2011. a pressing cross plate; 3. and driving the motor.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Example 1:

as shown in fig. 1 to 5:

the utility model provides a waste battery treatment device, which comprises a treatment main body 1, wherein the left side and the right side of the treatment main body 1 are slidably provided with a closed valve plate 101; the closed valve plate 101 is of a rectangular structure; an operation handle bar 102 is arranged on the outer side of the closed valve plate 101; a guide block 103 is arranged at the middle position inside the processing main body 1; the guide block 103 is of a triangular structure, and the guide block 103 of the triangular structure is used for guiding crushed waste batteries to two sides; the top of the processing main body 1 is provided with a processing cylinder 104; the inside of the processing cylinder 104 is symmetrically provided with a crushing shaft 105; the crushing shaft 105 has a cylindrical structure; the crushing shaft 105 is provided with a crushing gear 106; the two crushing gears 106 are connected in a meshed manner; the front side of the processing cylinder 104 is provided with a driving motor 3; an output shaft of the driving motor 3 is connected with the front end of the left crushing shaft 105; the top center of the treatment canister 104 is provided with a mount 2.

Wherein, a transmission shaft 107 is arranged at the front end of the right crushing shaft 105; the transmission shaft 107 has a cylindrical structure; a synchronizing wheel A108 is arranged on the circumferential outer wall of the transmission shaft 107; the top of the treatment cylinder 104 is provided with a waste battery feed port 109; the left and right sides of the waste battery feed port 109 are of an inclined structure; the crushing roller 1010 is arranged on the circumferential outer wall of the crushing shaft 105, the crushing shaft 105 positioned at the left side is driven to rotate by the driving motor 3, the corresponding crushing gear 106 is driven to rotate, the crushing gear 106 is driven to reversely rotate by the action of meshing with the crushing gear 106 at the other position, the two crushing shafts 105 carry the two crushing rollers 1010 to relatively rotate, and the two crushing rollers 1010 crush the waste batteries through the relative rotation.

Wherein, the mounting piece 2 is provided with a travel chute 201; a stroke sliding block 202 is slidably arranged in the stroke sliding groove 201; the stroke slider 202 has a rectangular structure; mounting posts 203 are arranged at the front end and the rear end of the stroke slider 202; the circumferential outer wall of the mounting column 203 is provided with a force wheel 204; the force-bearing wheel 204 is in a disc-shaped structure; one end of the return spring 205 is embedded and installed at the bottom of the stroke slider 202; the other end of the restoring spring 205 is embedded and installed at the bottom of the travel chute 201; the top of the mounting 2 is provided with a mounting plate 206; the mounting plate 206 is rotatably mounted with a drive shaft 207; the drive shaft 207 is of cylindrical configuration; a pushing cam 208 is arranged on the circumferential outer wall of the driving shaft 207; the front end of the driving shaft 207 is provided with a synchronizing wheel B209; the synchronizing wheel B209 is connected with the synchronizing wheel A108 through a synchronizing belt; the bottom of the stroke slider 202 is provided with a mounting riser 2010; the mounting riser 2010 is a rectangular structure; the bottom of the mounting riser 2010 is provided with a pressure application cross plate 2011; the pressing transverse plate 2011 is of a rectangular structure, when the crushing shaft 105 positioned on the right side rotates, the pressing transverse plate drives the transmission shaft 107 and the synchronous wheel A108 to rotate, the synchronous wheel A108 drives the synchronous wheel B209 and the driving shaft 207 to rotate under the action of the synchronous belt, the driving shaft 207 drives the pushing cam 208 to rotate, the pushing cam 208 is matched with the restoring spring 205 to reciprocally push the travel sliding block 202 downwards through rotation, the travel sliding block 202 drives the mounting vertical plate 2010 and the pressing transverse plate 2011 to reciprocally push down the waste battery positioned between the crushing rollers 1010, and the waste battery can be fully stressed between the influence of the pushing down of the pressing transverse plate 2011 and the crushing rollers 1010, so that the crushing rollers 1010 can be convenient to rapidly crush the waste battery.

Example 2:

the bottom of the pressure-applying transverse plate 2011 can be provided with a layer of soft cushion, and the pressure-applying transverse plate 2011 is prevented from being damaged due to strong impact between the waste battery and the pressure-applying transverse plate 2011 when pushing the waste battery downwards through the soft cushion.

Example 3:

an upper slide roller can be arranged on the surface of the stroke slide block 202, which is contacted with the stroke slide groove 201, and the friction force between the stroke slide block 202 and the stroke slide groove 201 can be reduced by arranging the slide roller, so that the stroke slide block 202 can move more smoothly.

Specific use and action of the embodiment: when the waste battery crushing device is used, waste batteries are firstly led into the treatment cylinder 104 through the waste battery feeding hole 109, at the moment, the left crushing shaft 105 is driven to rotate through the driving motor 3, the corresponding crushing gear 106 is driven to rotate, the crushing gear 106 drives the other crushing shaft 105 to reversely rotate under the action of meshing with the other crushing gear 106, the two crushing shafts 105 carry the two crushing rollers 1010 to relatively rotate, the two crushing rollers 1010 crush the waste batteries through the relative rotation, when the right crushing shaft 105 rotates, the driving shaft 107 and the synchronizing wheel A108 are driven to rotate, the synchronizing wheel A108 drives the synchronizing wheel B209 and the driving shaft 207 to rotate under the action of the synchronizing belt, the driving shaft 207 drives the pushing cam 208 to rotate through the cooperation of the rotation and the restoring spring 205, the stroke slider 202 drives the mounting plate 2010 and the pressing plate 2011 to reciprocally press down the waste batteries positioned between the crushing rollers 1010, and the waste batteries can be fully stressed between the pressing plate 2011 and the crushing rollers 1010, and the waste batteries can be conveniently and rapidly crushed by the crushing rollers 1010.

Claims (8)

1. A waste battery treatment device, characterized in that: the waste battery treatment device comprises a treatment main body (1), wherein the left side and the right side of the treatment main body (1) are slidably provided with a closed valve plate (101); the closed valve plate (101) is of a rectangular structure; an operation handle bar (102) is arranged on the outer side of the closed valve plate (101); a guide block (103) is arranged at the central position inside the processing main body (1); the guide block (103) is of a triangular structure; a treatment cylinder (104) is arranged at the top of the treatment main body (1); a crushing shaft (105) is symmetrically arranged inside the treatment cylinder (104) in a left-right mode; the crushing shaft (105) is of a cylindrical structure; the crushing shaft (105) is provided with a crushing gear (106); the two crushing gears (106) are connected in a meshed manner; a driving motor (3) is arranged at the front side of the treatment cylinder (104); an output shaft of the driving motor (3) is connected with the front end of the left crushing shaft (105); a mounting piece (2) is arranged at the center of the top of the treatment cylinder (104).

2. A waste battery treatment apparatus as defined in claim 1, wherein: a transmission shaft (107) is arranged at the front end of the crushing shaft (105) at the right side; the transmission shaft (107) is of a cylindrical structure; and a synchronizing wheel A (108) is arranged on the circumferential outer wall of the transmission shaft (107).

3. A waste battery treatment apparatus as claimed in claim 2, wherein: a waste battery feed port (109) is formed in the top of the treatment cylinder (104); the left side and the right side of the waste battery feeding hole (109) are of an inclined structure; a crushing roller (1010) is arranged on the circumferential outer wall of the crushing shaft (105).

4. A waste battery processing apparatus as claimed in claim 3, wherein: a travel chute (201) is formed in the mounting piece (2); a stroke sliding block (202) is arranged in the stroke sliding groove (201) in a sliding manner; the stroke sliding block (202) is of a rectangular structure.

5. A waste battery processing apparatus as defined in claim 4, wherein: mounting columns (203) are arranged at the front end and the rear end of the stroke sliding block (202); a stress wheel (204) is arranged on the circumferential outer wall of the mounting column (203); the stress wheel (204) is of a disc-shaped structure.

6. A waste battery processing apparatus as defined in claim 5, wherein: one end of a restoring spring (205) is embedded and installed at the bottom of the stroke sliding block (202); the other end of the restoring spring (205) is embedded and arranged at the bottom of the travel chute (201); the top of the mounting piece (2) is provided with a mounting plate (206).

7. A waste battery processing apparatus as defined in claim 6, wherein: a driving shaft (207) is rotatably arranged on the mounting carrier plate (206); -the drive shaft (207) is of cylindrical configuration; a pushing cam (208) is arranged on the circumferential outer wall of the driving shaft (207); the front end of the driving shaft (207) is provided with a synchronous wheel B (209); the synchronizing wheel B (209) is connected with the synchronizing wheel A (108) through a synchronizing belt.

8. A waste battery processing apparatus as defined in claim 7, wherein: the bottom of the stroke sliding block (202) is provided with a mounting vertical plate (2010); the mounting riser (2010) is of rectangular configuration; the bottom of the mounting riser (2010) is provided with a pressure transverse plate (2011); the pressure transverse plate (2011) is of a rectangular structure.