CN215247463U

CN215247463U - Transportation aligning device for anode plate production

Info

Publication number: CN215247463U
Application number: CN202120845712.9U
Authority: CN
Inventors: 马宝军; 汤浅一郎; 王智; 侯荣昌
Original assignee: Nandan Nanfang Non Ferrous Metals Co ltd
Current assignee: Nandan Nanfang Non Ferrous Metals Co ltd
Priority date: 2021-04-23
Filing date: 2021-04-23
Publication date: 2021-12-21
Anticipated expiration: 2031-04-23

Abstract

The utility model discloses an anode plate production is with neat device of arranging of transport relates to anode plate production technical field, has solved the inconvenient problem of anode plate transport, and its technical scheme main points are: the stacking frame is arranged at the downstream of the moving direction of the conveying mechanism, and the lifting mechanism is arranged above the conveying mechanism and the stacking frame and can move back and forth between the conveying mechanism and the stacking frame. The utility model discloses a mode of automatic transport realizes improving the purpose of productivity effect, has simplified the transport process in later stage, reduces the input of manpower, is convenient for arrange in order the anode plate and be convenient for transportation, the removal of anode plate.

Description

Transportation aligning device for anode plate production

Technical Field

The utility model relates to an anode plate production technology technical field, in particular to anode plate production is with neat device of transport.

Background

The anode plate is an important part in the production process of the electrolytic zinc industry, the alloy plate surface of the zinc electrolytic anode plate of the traditional anode plate is formed by rolling a lead-silver alloy blank plate, meanwhile, a copper bar is cast into a conductive beam in a mould, and then the conductive beam and the alloy plate are connected in a welding mode.

SUMMERY OF THE UTILITY MODEL

To current technical problem, the utility model aims to provide an anode plate production is with transport neat device to solve above-mentioned problem, realize the purpose that improves the productivity effect through the mode of automatic transport, simplified the transport process in later stage, reduce the input of manpower, be convenient for arrange in order the anode plate and be convenient for transportation, the removal of anode plate.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a transportation aligning device for producing anode plates comprises:

the conveying mechanism is used for conveying the manufactured anode plate;

the stacking frame is used for orderly stacking a plurality of anode plates;

the lifting mechanism is used for moving the anode plates on the conveying mechanism to the stacking frame;

the stacking frame is arranged at the downstream of the moving direction of the conveying mechanism, and the lifting mechanism is arranged above the conveying mechanism and the stacking frame and can move back and forth between the conveying mechanism and the stacking frame.

Preferably, conveying mechanism is including transport support, set up on transport support be parallel arrangement's two sets of conveying chains and carry driving piece, two sets of conveying gear assembly, and is two sets of conveying chain is connected with the conveying gear assembly, and is two sets of through the transmission shaft linkage between the conveying gear assembly, the output configuration of carrying the driving piece is on one of them a set of conveying gear assembly, and the positive pole grillage is established on the conveying chain.

Preferably, the transmission gear assembly comprises a main gear, a transmission belt and rotating gears, the main gear is meshed with the transmission chain, the main gear is connected with the rotating gears through the transmission belt, and the rotating gears of the two sets of transmission gear assemblies are coaxially connected through a transmission shaft.

Preferably, the conveying driving member adopts a motor.

Preferably, the hoisting mechanism comprises:

the first lifting support is vertically arranged above the stacking frame and the conveying mechanism and comprises a transverse support, and the length direction of the transverse support is parallel to the ground;

the second hoisting support is arranged on the transverse support and can slide along the rail of the transverse support;

the movable driving piece is used for driving the second hoisting support to move and is arranged on the second hoisting support;

the lifting clamping piece is used for lifting the anode plate, the lifting clamping piece and the lifting driving piece are arranged on the second lifting support, the output end of the lifting driving piece is connected with the lifting clamping piece, and the lifting driving piece can drive the lifting clamping piece to move up and down in the vertical direction.

Preferably, the lifting clamping pieces are respectively arranged on two sides of the second lifting support and comprise a stop rod piece and a hook piece, and a channel for the anode plate to move is formed between the stop rod piece and the hook piece.

Preferably, the movable driving part comprises a rack structure, a gear structure matched with the rack structure and a driving motor, the output end of the driving motor is connected with the gear structure, the driving motor is installed on the second lifting support, and the rack structure is installed on the transverse support.

Preferably, the second lifting frame is provided with two sets of roller structures, the roller structures are respectively arranged corresponding to the two sets of transverse supports, and the roller structures respectively slide along two sides of the transverse supports.

Preferably, the transverse support is an I-shaped channel steel.

Preferably, the stacking frame structure comprises a frame body and a buffer strip arranged at the upper end of the frame body, wherein an inlet and an outlet are formed in one side of the frame body, an opening is formed in the upper end of the frame body, and the inlet and the outlet are arranged towards the conveying mechanism.

To sum up, the utility model discloses following beneficial effect has:

1. the anode plates on the conveying mechanism are stably moved to the stacking frame structure by the lifting mechanism, so that the arrangement and the tidying arrangement of the anode plates are facilitated, the lifting mechanism can realize the movement in four directions, namely up, down, left and right, and can accurately arrange and stack the anode plates on the conveying mechanism on the stacking frame by matching with the stable transportation and stacking of the conveying mechanism, the later-stage carrying process is simplified, the labor input is reduced, the production benefit is improved, and the arrangement of the anode plates and the transportation and the movement of the anode plates are facilitated;

2. the conveying chain, the conveying driving piece and the conveying gear assembly are matched, so that the stability of the anode plate in the conveying process is improved, the product quality is facilitated, the structure is simple, and the maintenance is convenient;

3. the movable driving part is arranged on the second lifting support, the second lifting support can be well driven to move back and forth along the length direction of the transverse support, the lifting clamping part is driven to move up and down by the lifting driving part in a matching mode, the anode plates on the transmission chain are hung and moved to the stacking frame, the movement and arrangement of the anode plates are realized by adopting an automatic mechanism, the stability is good, and the defective rate is reduced;

4. the stacking frame structure adopts a frame structure, the anode plate enters and exits the frame body through the inlet and the outlet of the anode plate and the upper end opening of the anode plate, and the buffer strip is matched, so that the buffer protection effect is realized when the frame body is placed on the anode plate, the anode plate is stably placed on the frame body, and the quality of the anode plate is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the stacking rack of the present invention;

fig. 3 is a schematic structural diagram of the lifting mechanism of the present invention.

Reference numerals: 1. a conveying mechanism; 11. a delivery stent; 12. a conveyor chain; 13. a conveying drive member; 14. a main gear; 15. a conveyor belt; 16. a rotating gear; 17. a drive shaft; 2. stacking frames; 21. a buffer strip; 3. a hoisting mechanism; 31. a first lifting bracket; 32. a transverse support; 33. a second lifting support; 34. moving the driving member; 341. a rack structure; 342. an output shaft; 343. a transmission belt; 344. a gear structure; 345. a movement driving motor; 35. hoisting the clamping piece; 351. a bar blocking member; 352. a hook member; 36. a hoisting driving part; 361. a base; 362. a hoisting driving motor; 363. a first guide seat; 36. a guide bar; 4. and a roller structure.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, a typical embodiment of the present application provides a transporting and aligning device for anode plate production, which is arranged at the downstream of a punching process of an anode plate production line, and comprises a conveying mechanism 1 for conveying punched anode plates, a stacking frame 2 for stacking a plurality of anode plates, and a lifting mechanism 3, wherein the stacking frame 2 is arranged at the downstream of the conveying mechanism 1 in the movement direction, the lifting mechanism 3 is arranged above the conveying mechanism 1 and the stacking frame 2 and can move back and forth between the conveying mechanism 1 and the stacking frame 2, and the anode plates on the conveying mechanism 1 are moved to the structure of the stacking frame 2 through the movement of the lifting mechanism 3.

Particularly, conveying mechanism 1 is including carrying support 11, two sets of conveying chains 12 and carry driving piece 13, two sets of conveying gear assembly, carrying support 11 installs on the operation panel of anode plate production line, two sets of conveying chains 12 are parallel to each other and set up the both sides at carrying support 11, two sets of conveying gear assembly install on carrying support 11, two sets of conveying chains 12 are connected with two sets of conveying gear assembly one-to-one, link through transmission shaft 17 between two sets of conveying gear assembly, carry driving piece 13's output configuration on carrying support 11 wherein the conveying gear assembly of one side, a plurality of anode plate intervals erect on conveying chains 12, cooperation handling mechanism 3 realizes the handling. The transmission gear assembly comprises a main gear 14, a transmission belt 343 and rotating gears 16, the main gear 14 is arranged at the upper end of the conveying bracket 11, the main gear 14 is meshed with the transmission chain 12, the rotating gears 16 are arranged at the lower end of the conveying bracket 11, the main gear 14 is connected with the rotating gears 16 through the transmission belt 343, and the rotating gears 16 of the two sets of transmission gear assemblies are coaxially connected through a transmission shaft 17. The conveying driving part 13 adopts a speed reducing motor, and the output end of the output driving part is fixedly connected to a rotating gear 16 on one side of the conveying support 11 and rotates coaxially with the rotating gear 16. The driving of the motor drives the rotation gear 16 and the main gear 14 to rotate, and then drives the transmission chain 12 to rotate clockwise.

Stack frame 2 including the shelf body and install the buffering strip 21 in shelf body upper end, shelf body one side is equipped with exit and its upper end is equipped with the opening, exit towards conveying mechanism 1 setting, and buffering strip 21 adopts heat-resisting rubber material to make, and buffering strip 21 pastes along shelf body upper end week and establishes on the shelf body, is equipped with a plurality of space bars on buffering strip 21 for separate polylith anode plate.

The lifting mechanism 3 comprises a first lifting support 31, a second lifting support 33, a movable driving part 34, a lifting clamping part 35 and a lifting driving part 36, the first lifting support 31 is formed by welding four support legs and two transverse supports 32, the transverse supports 32 adopt I-shaped channel steel, the length direction of the transverse supports 32 is parallel to the ground, and the first lifting support 31 is vertically arranged on the ground and is positioned right above the structure of the conveying mechanism 1 and the stacking frame 2.

The second swing bracket 33 is provided on the lateral bracket 32, and it can slide along the rail of the lateral bracket 32. Specifically, second handling support 33 sets up between two horizontal supports 32 of first handling support 31, and the both sides of second handling support 33 all are equipped with two sets of gyro wheel structures 4, and gyro wheel structure 4 comprises supporting seat and two gyro wheels, supporting seat and second handling support 33 fixed connection, and two gyro wheels are sliding connection respectively in the inslot of horizontal support 32 both sides, can realize sliding under the drive of removal driving piece 34.

The movable driving member 34 can drive the second lifting support 33 to move along the length direction of the transverse support 32, specifically, the movable driving member 34 includes a rack structure 341, an output shaft 342 having gears at two ends, a transmission belt 343 matched with the output shaft 342, a gear structure 344 and a movable driving motor 345, the rack structure 341 is long, the rack structure 341 is fixed below the transverse support 32 along the length direction thereof, a gear member is arranged in the middle of the output shaft 342, the gear member is connected with the gear structure 344 through the transmission belt 343, the movable driving motor 345 and the gear structure 344 are both installed in the middle of the second lifting support 33, the movable driving motor 345 adopts a speed reduction motor, and the output end of the movable driving motor 345 is connected with the gear structure 344. The output end of the mobile driving motor 345 drives the gear structure 344 to rotate through the driving motor via the gear and the transmission belt 343, then drives the output shaft 342 to rotate via the transmission belt 343, and then the gear at the end of the output shaft 342 is matched with the rack structure 341 to realize the horizontal movement of the second hoisting support 33.

The lifting clamping piece 35 and the lifting driving piece 36 are both arranged on the second lifting support 33, and the lifting driving piece 36 is used for driving the lifting clamping piece 35 to move up and down along the vertical direction. Specifically, the hoisting clamping pieces 35 are arranged on two sides of the transverse support 32 and located below the transverse stop support, and the hoisting clamping pieces 35 face one side of the conveying mechanism 1 and the stacking frame 2. The lifting clamping piece 35 is provided with two groups, the lifting clamping piece comprises a blocking rod piece 351 and a hook piece 352, the blocking rod piece 351 is a square rod, the end part of the hook piece 352 is provided with a hook, the blocking rod piece 351 and the hook piece 352 are arranged in parallel, and a channel for the movement of the anode plate is arranged between the blocking rod piece 351 and the hook piece 352. The blocking rod 351 is fixed on the second swing bracket 33, and the hook member 352 is fixed on the swing driving member 36.

Specifically, the lifting driving member 36 includes a base 361, a lifting driving motor 362 and four sets of telescopic structures, the lifting driving motor 362 is installed on the second lifting support 33, the base 361 is connected to the output end of the lifting driving motor 362 through a connecting seat and is located under the lifting driving motor 362, the four sets of telescopic structures are respectively arranged corresponding to four corners of the base 361, the telescopic structures include a first guide seat 363, a second guide seat and a guide rod 36, the first guide seat 363 is fixed at the upper end of the base 361, the second guide seat is fixed on the second lifting support 33, the second guide seat is located right above the first guide seat 363, one end of the guide rod 36 sequentially passes through the second guide seat and the second lifting support 33 and is fixed on the first guide seat 363, under the drive of the lifting drive motor 362, the guide rod 36 slides up and down along the second guide seat, so that the stability of the lifting clamping piece 35 in up-and-down movement can be ensured.

The two hook members 352 are arranged below the base 361, the output end of the lifting driving motor 362 is connected with the base 361, the lifting driving motor 362 adopts a speed reducing motor and a cam link mechanism, one end of the cam link mechanism is connected with the base 361 through a connecting seat, and the cam link mechanism drives the base 361 to move up and down under the driving of the speed reducing motor. The telescopic rod structure then carries out concertina movement, improves the stability of machine operation.

In order to realize automatic plate taking and stacking, the lifting mechanism 3 is configured with a control system, and the control system is the prior art and is not described herein again. During the use, after the system detects the anode plate on conveying mechanism 1, remove driving piece 34 drive second handling support 33 and move to conveying mechanism 1's top, handling driving piece 36 drive handling clamping piece 35 moves down to the anode plate position, utilize hook piece 352 to hang the anode plate, take off the anode plate from conveying mechanism 1, then under the cooperation of removing driving piece 34 and handling driving piece 36, send the anode plate to stack frame 2 structure in to this is arranged in proper order and is steadily moved to stack frame 2 structure with the anode plate.

The utility model discloses wholly do benefit to arrangement and neatly arranging of anode plate, handling mechanism 3 coordinates conveying mechanism 1's steady transportation and stack can be accurate stack the transport process in later stage on the anode plate arrangement on conveying mechanism 1 stacks frame 2, has simplified the transport process in later stage, reduces the input of manpower, has improved the productivity effect, the transportation, the removal of the anode plate of being convenient for arrange in order and the anode plate of being convenient for.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims

1. The utility model provides an anode plate production is with neat device of transport which characterized in that, including:

the conveying mechanism is used for conveying the manufactured anode plate;

the stacking frame is used for orderly stacking a plurality of anode plates;

2. The anode plate production handling alignment device according to claim 1, wherein the conveying mechanism comprises a conveying support, two sets of conveying chains and a conveying driving member which are arranged on the conveying support in parallel, and two sets of conveying gear assemblies, the two sets of conveying chains are connected with the conveying gear assemblies, the two sets of conveying gear assemblies are linked through a transmission shaft, the output end of the conveying driving member is arranged on one set of conveying gear assemblies, and the anode plate is erected on the conveying chains.

3. The anode plate production handling alignment device according to claim 2, wherein the transmission gear assembly comprises a main gear, a transmission belt and rotating gears, the main gear is meshed with the transmission chain, the main gear is connected with the rotating gears through the transmission belt, and the rotating gears of the two sets of transmission gear assemblies are coaxially connected through a transmission shaft.

4. The anode plate production handling alignment device of claim 3, wherein the conveying driving member is a speed reducer.

5. The anode plate production handling alignment device according to claim 1, wherein the lifting mechanism comprises:

6. The anode plate production handling alignment device according to claim 5, wherein the lifting clamping pieces are respectively arranged at two sides of the second lifting support, each lifting clamping piece comprises a baffle piece and a hook piece, and a channel for the anode plate to move is formed between the baffle piece and the hook piece.

7. The anode plate production handling alignment device according to claim 5, wherein the moving driving member comprises a rack structure, an output shaft with gears at two ends, a moving transmission belt matched with the output shaft, a gear set and a driving motor, the output end of the driving motor is connected with the gear set, the rack structure is mounted on the transverse support, and the output shaft is meshed with the rack structure through the gears at two ends of the output shaft.

8. The anode plate production handling alignment device according to claim 7, wherein the second lifting support is provided with two sets of roller structures, the roller structures are respectively arranged corresponding to the two sets of transverse supports, and the roller structures respectively slide along two sides of the transverse supports.

9. The handling and aligning device for producing anode plates of claim 8, wherein said transverse support is an I-shaped channel.

10. The anode plate production handling alignment device of claim 1, wherein the stacking rack is provided with an access port at one side, and the access port is arranged towards the conveying mechanism.