CN217922355U - Automatic board device that divides of negative plate of electrolytic manganese production line - Google Patents

Abstract

The utility model discloses an automatic plate separating device of a negative plate of an electrolytic manganese production line, which comprises a bottom plate and a transmission assembly; a bottom plate: the conveying assembly is symmetrically arranged on the upper surface of the bottom plate, a first motor is arranged at the left end of the left conveying assembly, a second motor is arranged at the right end of the right conveying assembly, a PLC (programmable logic controller) is arranged at the right end of the upper surface of the bottom plate, the input end of the PLC is electrically connected with an external power supply, the output end of the PLC is electrically connected with the input ends of the first motor and the second motor respectively, the rotating speed of the first motor is less than that of the second motor, the conveying assembly comprises a supporting plate, a chain wheel and a chain, and the supporting plate is symmetrically arranged on the upper surface of the bottom plate; the transmission assembly is as follows: the symmetry sets up in the upper surface middle part of bottom plate, and drive assembly is located between the horizontal conveyor components who corresponds, and this electrolytic manganese production line's automatic board device that divides of negative plate, structural design is novel, divides the board effectual to electrolytic manganese production line's negative plate, has reduced the hand labor volume, has improved work efficiency.

Description

Automatic board device that divides of negative plate of electrolytic manganese production line

Technical Field

The utility model relates to an electrolytic manganese production technical field specifically is an automatic board device that divides of negative plate of electrolytic manganese production line.

Background

At present, the production process flow of electrolytic manganese relates to the procedures of drying and stripping of a manganese-plated layer of an electrolytic manganese cathode plate, and the like, the stripping of the manganese-plated layer of the electrolytic manganese cathode plate is generally completed by manual knocking or a mechanical and automatic hammering stripper or a roller stripper, and a polar plate conveying device is a device connected between the roller stripper and the next treatment procedure, so that the device needs to walk smoothly without large shaking of polar plates.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide an automatic board device that divides of negative plate of electrolytic manganese production line, structural design is novel, divides the board effectual to the negative plate of electrolytic manganese production line, has reduced the hand labor volume, has improved work efficiency, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: an automatic plate separating device for a cathode plate of an electrolytic manganese production line comprises a bottom plate and a transmission assembly;

a bottom plate: the upper surface of the base plate is symmetrically provided with conveying assemblies, the left end of the left conveying assembly is provided with a first motor, the right end of the right conveying assembly is provided with a second motor, the right end of the upper surface of the base plate is provided with a PLC (programmable logic controller), the input end of the PLC is electrically connected with an external power supply, and the output end of the PLC is electrically connected with the input ends of the first motor and the second motor respectively;

the transmission assembly comprises: the symmetry sets up in the upper surface middle part of bottom plate, and drive assembly is located between the horizontal conveyor components that corresponds, and structural design is novel, divides the board effectual to the negative plate of electrolytic manganese production line, has reduced the hand labor volume, has improved work efficiency.

Furthermore, the rotating speed of the first motor is less than that of the second motor, so that the electrolytic manganese cathode plate is prevented from being stacked again.

Further, conveying component includes backup pad, sprocket and chain, the backup pad symmetry sets up in the upper surface of bottom plate, both ends all rotate about the backup pad and are connected with the sprocket, rotate with same backup pad and be connected through chain drive between two sprockets of being connected, left conveying component left end is equipped with motor one, the output shaft and the leftmost sprocket fixed connection of motor one, the conveying component right-hand member on right side is equipped with motor two, motor two's output shaft and the most right side sprocket fixed connection, conveying component is located between the backup pad that transversely corresponds, the output of PLC controller is connected to motor two's input electricity, carry the electrolytic manganese negative plate.

Furthermore, the chain support device further comprises L-shaped support plates, the L-shaped support plates are arranged on the inner side faces, corresponding to the two support plates, of the chain, and the chain body at the upper end of the chain is connected with the upper surfaces of the adjacent L-shaped support plates in a sliding mode to support the chain.

Further, still include the non slipping spur, the non slipping spur evenly sets up in two chain middles on right side, promotes the removal of electrolytic manganese negative plate, avoids the support frame of electrolytic manganese negative plate and the chain on right side to take place relative slip.

Further, the transmission assembly comprises vertical plates, a third motor, a rotary table, L-shaped supporting rods, V-shaped supporting blocks and connecting plates, the vertical plates are symmetrically arranged in the middle of the upper surface of the bottom plate, the vertical plates are located between the conveying assemblies transversely corresponding to each other, the three motors are arranged on opposite surfaces of the two vertical plates, output shafts of the three motors are respectively connected with inner walls of through holes formed in the upper ends of the adjacent vertical plates in a rotating mode, the rotary table is arranged at ends of output shafts of the three motors, the L-shaped supporting rods are connected with the outer edges of the rotary table in a rotating mode along an annular array, the V-shaped supporting blocks are arranged at the upper ends of the L-shaped supporting rods, the connecting plates are arranged at ends, close to the vertical plates, pin columns are connected with the lower ends of the connecting plates in a rotating mode, annular limiting grooves are formed in the opposite inner side surfaces of the two vertical plates, the pin columns are connected with the inner walls of the adjacent limiting grooves in a sliding mode, and the electrolytic manganese negative plates are separated one by one another.

Furthermore, the vertical distance between the circle center of the rotary table and the circle center of the limiting groove is equal to the distance between the circle centers of the shaft holes at the upper end and the lower end of the connecting plate, so that the lower end of the L-shaped supporting rod is always subjected to vertical downward traction force, and the vertical state of the L-shaped supporting rod is ensured.

Compared with the prior art, the beneficial effects of the utility model are that: this automatic board device that divides of negative plate of electrolytic manganese production line has following benefit:

the support frame clamped with the electrolytic manganese cathode plate is placed at the upper ends of two chains on the left side, the first motor, the second motor and the third motor are respectively started through the PLC, the first motor and the second motor respectively drive the chains to rotate through chain wheels fixedly connected with the first motor and the second motor, the two chains on the left side drive the support frame of the electrolytic manganese cathode plate to move towards the right side, an output shaft of the third motor drives the rotary table to rotate, the rotary table drives the L-shaped support rod to rotate along the axis of an output shaft of the third motor, the vertical distance between the circle center of the rotary table and the circle center of the limiting groove is equal to the distance between the circle centers of shaft holes at the upper end and the lower end of the connecting plate, the L-shaped support rod always receives traction force of a pin column at the lower end of the connecting plate and the connecting plate on the L-shaped support rod when rotating, so as to ensure that the V-shaped support block always faces upwards, when the V-shaped support block rotates to the leftmost side of the electrolytic manganese cathode plate, the first motor rotates to the rightmost end of the chain, the chain is smaller than the second motor, the chain, the right side rapidly moves to the right side through the blocks, and accordingly, the support frame of the adjacent electrolytic manganese cathode plate on the left side is separated to be conveyed, the automatic plate separation device of the electrolytic manganese production line, the automatic separation device, the work efficiency of the cathode plate is improved, and the work efficiency of the cathode plate is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is an enlarged schematic structural diagram of the position a of the present invention.

In the figure: the device comprises a base plate 1, a PLC (programmable logic controller) 2, a conveying assembly 3, a supporting plate 31, a chain wheel 32, a chain 33, a first motor 4, a second motor 5, a 6L-shaped supporting plate 6, an antiskid block 7, a transmission assembly 8, a vertical plate 81, a limiting groove 811, a third motor 82, a turntable 83, a 84L-shaped supporting rod 85V-shaped supporting block 86 and a connecting plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present embodiment provides a technical solution: the automatic plate separating device for the cathode plate of the electrolytic manganese production line comprises a bottom plate 1 and a transmission assembly 8;

bottom plate 1: the upper surface symmetry is equipped with transport assembly 3, 3 left ends of left transport assembly are equipped with motor 4, 3 right-hand members of transport assembly on right side are equipped with motor two 5, the upper surface right-hand member of bottom plate 1 is equipped with PLC controller 2, external power supply is connected to PLC controller 2's input electricity, the input of motor 4 and motor two 5 is connected to PLC controller 2's output electricity respectively, the rotational speed of motor 4 is less than the rotational speed of motor two 5, avoid the electrolytic manganese negative plate to pile up again, transport assembly 3 includes backup pad 31, sprocket 32 and chain 33, backup pad 31 symmetry sets up in the upper surface of bottom plate 1, both ends are all rotated and are connected with sprocket 32 about backup pad 31, rotate and are connected through chain 33 transmission between two sprockets 32 of being connected with same backup pad 31, left transport assembly 3 left end is equipped with motor one 4, the output shaft of motor one 4 and leftmost sprocket 32 fixed connection, transport assembly 3 right-hand members on right side is equipped with motor two 5, the output shaft of motor two 5 and sprocket 32 fixed connection on right side, transmission assembly 8 is located between the backup pad 31 that transversely corresponds, the input electricity of motor two 5 connects the output shaft through chain 33 respectively, carry out electrolytic manganese to its rotation.

Wherein: the chain body at the upper end of the chain 33 is respectively connected with the upper surface of the adjacent L-shaped supporting plate 6 in a sliding way to support the chain 33.

Wherein: still include non-slip shoe 7, non-slip shoe 7 evenly sets up in two chains 33 middle parts on the right side, promotes the removal of electrolytic manganese negative plate, avoids electrolytic manganese negative plate's support frame and the chain 33 on right side to take place relative slip.

The transmission assembly 8: the transmission components 8 are symmetrically arranged in the middle of the upper surface of the bottom plate 1, the transmission components 8 are positioned between the conveying components 3 which transversely correspond to each other, each transmission component 8 comprises a vertical plate 81, a third motor 82, a rotary plate 83, an L-shaped support rod 84, V-shaped support blocks 85 and connecting plates 86, the vertical plates 81 are symmetrically arranged in the middle of the upper surface of the bottom plate 1, the vertical plates 81 are positioned between the conveying components 3 which transversely correspond to each other, the opposite surfaces of the two vertical plates 81 are respectively provided with the third motors 82, the output shafts of the third motors 82 are respectively and rotatably connected with the inner walls of through holes arranged at the upper ends of the adjacent vertical plates 81, the ends of the output shafts of the third motors 82 are respectively provided with the rotary plates 83, the outer edges of the rotary plates 83 are respectively and rotatably connected with the L-shaped support rods 84 in an annular array, the upper ends of the L-shaped support rods 84 are respectively provided with the V-shaped support blocks 85, the ends of the L-shaped support rods 84, which are respectively provided with the connecting plates 86, the lower ends of the connecting plates 86 are respectively and rotatably connected with pin columns, the opposite inner side surfaces of the two vertical plates 81 are provided with annular limiting grooves 811, the pin columns are connected with the inner walls of the adjacent limiting grooves 811 in a sliding manner to separate electrolytic manganese cathode plates one by one, the vertical distance between the circle center of the rotary table 83 and the circle center of the limiting grooves 811 is equal to the distance between the circle centers of the shaft holes at the upper end and the lower end of the connecting plate 86, the output shaft of the motor III 82 drives the rotary table 83 to rotate, the rotary table 83 drives the L-shaped support rod 84 to rotate along the axis of the output shaft of the motor III 82, because the vertical distance between the circle center of the rotary table 83 and the circle center of the limiting grooves 811 is equal to the distance between the circle centers of the shaft holes at the upper end and the lower end of the connecting plate 86, the L-shaped support rod 84 always receives the pin columns at the lower end of the connecting plate 86 and the traction force of the connecting plate 86 to the L-shaped support rod 84 in the vertical downward direction when rotating, and accordingly the V-shaped support block 85 is always upward.

The utility model provides a pair of automatic board device that divides of negative plate of electrolytic manganese production line's theory of operation as follows:

the support frame clamped with the electrolytic manganese cathode plate is placed at the upper ends of the two chains 33 on the left side, the PLC (programmable logic controller) 2 is used for respectively starting the first motor 4, the second motor 5 and the third motor 82, the first motor 4 and the second motor 5 respectively drive the chains 33 to rotate through the chain wheels 32 fixedly connected with the first motor 4 and the second motor 5, the two chains 33 on the left side drive the support frame of the electrolytic manganese cathode plate to move towards the right side, the output shaft of the third motor 82 drives the rotary disc 83 to rotate, the rotary disc 83 drives the L-shaped support rod 84 to rotate along the axis of the output shaft of the third motor 82, because the vertical distance between the circle center of the rotary disc 83 and the circle center of the limiting groove 811 is equal to the distance between the circle centers of the shaft holes at the upper end and the lower end of the connecting plate 86, the L-shaped support rod 84 always receives the traction force of the pin at the lower end of the connecting plate 86 and the connecting plate 86 towards the L-shaped support rod 84 in the vertical downward direction when rotating, the V-shaped support block 85 always upwards moves to the leftmost side, the support frame of the electrolytic manganese cathode plate at the rightmost end of the left side 33 is lifted upwards and conveyed to the right side of the rotary disc 83, because the support frame at the rotating speed of the first motor 4 is lower than that the rotating speed of the second motor 5, the right side passes through the anti-slip block 7, and the left side, and the adjacent electrolytic manganese cathode plate 33 is separated electrolytic manganese conveying support frame is separated electrolytic manganese conveying the left side.

It should be noted that the first motor 4, the second motor 5 and the third motor 82 disclosed in the above embodiments can be freely configured according to practical application scenarios, the first motor 4 is suggested to be a 7IK400A-CF conventional ac motor, the second motor 5 is suggested to be a 7IK400RGU-CF conventional ac motor, and the PLC controller 2 controls the first motor 4, the second motor 5 and the third motor 82 to work by a method commonly used in the prior art.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention can be used in other related technical fields, directly or indirectly, or in the same way as the present invention.

Claims (7)

1. The utility model provides an automatic board device that divides of negative plate of electrolytic manganese production line which characterized in that: comprises a bottom plate (1) and a transmission component (8);

base plate (1): the upper surface of the bottom plate is symmetrically provided with conveying assemblies (3), the left end of the left conveying assembly (3) is provided with a first motor (4), the right end of the right conveying assembly (3) is provided with a second motor (5), the right end of the upper surface of the bottom plate (1) is provided with a PLC (programmable logic controller) (2), the input end of the PLC (2) is electrically connected with an external power supply, and the output end of the PLC (2) is electrically connected with the input ends of the first motor (4) and the second motor (5) respectively;

transmission assembly (8): the transmission assemblies (8) are symmetrically arranged in the middle of the upper surface of the bottom plate (1) and are positioned between the corresponding conveying assemblies (3).

2. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 1, is characterized in that: the rotating speed of the first motor (4) is less than that of the second motor (5).

3. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 1, characterized in that: conveying component (3) are including backup pad (31), sprocket (32) and chain (33), backup pad (31) symmetry sets up in the upper surface of bottom plate (1), both ends are all rotated and are connected with sprocket (32) about backup pad (31), rotate between two sprockets (32) of being connected with same backup pad (31) and connect through chain (33) transmission, left conveying component (3) left end is equipped with motor (4), the output shaft and leftmost sprocket (32) fixed connection of motor (4), conveying component (3) right-hand member on right side is equipped with motor two (5), the output shaft and the rightmost sprocket (32) fixed connection of motor two (5), transmission component (8) are located between horizontal backup pad (31) that corresponds, the output of PLC controller (2) is connected to the input electricity of motor two (5).

4. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 1, is characterized in that: the chain body is characterized by further comprising L-shaped supporting plates (6), the L-shaped supporting plates (6) are arranged on the inner side faces, opposite to the two supporting plates (31) which correspond to each other in the longitudinal direction, and the chain bodies at the upper ends of the chains (33) are connected with the upper surfaces of the adjacent L-shaped supporting plates (6) in a sliding mode respectively.

5. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 1, is characterized in that: the anti-skidding chain is characterized by further comprising anti-skidding blocks (7), wherein the anti-skidding blocks (7) are uniformly arranged in the middle of the two chains (33) on the right side.

6. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 1, is characterized in that: the transmission assembly (8) comprises vertical plates (81), three motors (82), a rotary table (83), L-shaped supporting rods (84), V-shaped supporting blocks (85) and a connecting plate (86), the vertical plates (81) are symmetrically arranged in the middle of the upper surface of the bottom plate (1), the vertical plates (81) are located between the conveying assemblies (3) which transversely correspond to each other, three motors (82) are arranged on the back surfaces of the two vertical plates (81), output shafts of the three motors (82) are respectively connected with the inner walls of through holes formed in the upper ends of the adjacent vertical plates (81) in a rotating mode, the ends of the output shafts of the three motors (82) are respectively provided with the rotary table (83), the outer edges of the rotary table (83) are respectively connected with the L-shaped supporting rods (84) in a rotating mode along an annular array, the upper ends of the L-shaped supporting rods (84) are respectively provided with the V-shaped supporting blocks (85), the ends, close to the vertical plates (81), the connecting plate (86) of the L-shaped supporting rods (84), the lower ends of the connecting plate (86) are respectively connected with pin columns in a rotating mode, the opposite inner side surfaces of the two vertical plates (81) are respectively provided with annular limiting grooves (811), and are connected with the adjacent limiting grooves (811) in a sliding mode.

7. The automatic plate separating device for the cathode plate of the electrolytic manganese production line as claimed in claim 6, is characterized in that: the vertical distance between the circle center of the rotary table (83) and the circle center of the limiting groove (811) is equal to the distance between the circle centers of the shaft holes at the upper end and the lower end of the connecting plate (86).

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