CN216104625U - A move and carry device for negative pole copper is carried - Google Patents

Abstract

The utility model relates to the technical field of cathode copper conveying, in particular to a transfer device for cathode copper conveying, wherein a cathode copper receiving conveying chain and a cathode copper pile conveying chain are respectively arranged at the front end and the tail end of the transfer device, the transfer device comprises a support frame, the tail end of the cathode copper receiving conveying chain and the starting end of the cathode copper pile conveying chain are respectively positioned below the two ends of the support frame, a track is arranged above the support frame, a copper plate pile lifting trolley is arranged on the track and used for the copper plate lifting trolley to travel, a first lifting device and a second lifting device are respectively arranged below the two ends of the support frame, and the first lifting device and the second lifting device are respectively positioned below the inner sides of the cathode copper receiving conveying chain and the cathode copper pile conveying chain. Utilize the device can carry the cathode copper product to cathode copper finished product warehouse high efficiency, guaranteed product quality, reduced the cost of transportation.

Description

A move and carry device for negative pole copper is carried

Technical Field

The utility model relates to the technical field of cathode copper conveying, in particular to a transfer device for cathode copper conveying.

Background

During the production of cathode copper, the crystallization of the cathode copper is influenced by a plurality of factors such as the quality of a cathode plate and an anode plate which are arranged in a tank, the quality of electrolyte, the adjustment of additives and the like, and a part of defective cathode copper with surface particles is produced. The prior art describes a device for sorting defective cathode copper, such as an unqualified cathode plate sorting device disclosed in the utility model patent with the publication number of CN101270488A, but the prior art does not describe a specific structure for realizing the transportation and transfer of qualified cathode copper. The utility model patent with publication number CN101294291A discloses a transfer device for electrolytically deposited metal, which uses a manipulator to transfer the metal, and the device can not realize continuous and rapid transfer and transportation of qualified cathode copper.

Disclosure of Invention

The utility model provides a transfer device for conveying cathode copper, which aims to solve the problem that metal plates cannot be continuously and quickly transferred and transported in the field of nonferrous smelting electrolysis in the prior art. Utilize the device can carry the cathode copper product to cathode copper finished product warehouse high efficiency, guaranteed product quality, reduced the cost of transportation.

The technical scheme of the utility model is as follows:

the utility model provides a carry device for negative pole copper is carried, the front end and the end that carry the device are carried are provided with negative pole copper respectively and receive conveying chain and negative pole copper buttress conveying chain, carry the device and include the support frame, and the terminal of conveying chain is received to negative pole copper, the initiating terminal of negative pole copper buttress conveying chain all are located the both ends below of support frame, and the support frame top is provided with the track, be provided with copper buttress sling cart on the track, be used for copper buttress sling cart walking, the both ends below of support frame is provided with first elevating gear and second elevating gear respectively, first elevating gear and second elevating gear are located negative pole copper respectively and receive conveying chain, the inboard below of negative pole copper buttress conveying chain.

In a further optimized scheme, the cathode copper receiving and conveying chain is vertically connected with the transfer device, the transfer device is vertically connected with the cathode copper stack conveying chain, and the cathode copper receiving and conveying chain, the transfer device and the cathode copper stack conveying chain form an n-shaped structure. The n-type structure is arranged, so that the whole transportation system of the qualified cathode copper cannot be limited due to overlong sites.

In a further optimized scheme, the first lifting device and the second lifting device respectively comprise an oil cylinder and a copper plate stack support arranged above the oil cylinder.

In a further optimization scheme, the copper plate stack sling cart comprises a sling cart body and fork arms, wherein the sling cart body is driven by a motor to move on a track of the supporting frame, the fork arms are arranged on two sides of the sling cart body, and the fork arms are of an L-shaped structure.

In a further preferred embodiment, the cathode copper receiving conveyor chain and the cathode copper pile conveyor chain each comprise two chains, and the width of the copper plate pile support is smaller than the width between the two chains of the cathode copper receiving conveyor chain and smaller than the width between the two chains of the cathode copper pile conveyor chain.

Furthermore, the width of the copper plate stack support is smaller than the distance between the fork arms on the two sides of the sling body. The structure can ensure that the fork arms can fork and move the copper plate stack on the copper plate stack support.

The utility model has the beneficial effects that:

1. the transfer device can transfer the qualified cathode copper stacks conveyed by the cathode copper receiving and conveying chain to the cathode copper stack conveying chain, and the cathode copper receiving and conveying chain, the transfer device and the cathode copper stack conveying chain are combined to continuously and efficiently transport the cathode copper.

2. The first lifting device of the transfer device jacks up the qualified cathode copper stack from the cathode copper receiving and conveying chain, the copper plate stack sling cart conveys the qualified cathode copper stack to the position above the cathode copper stack conveying chain, and the second lifting device supports and lowers the cathode copper stack onto the cathode copper stack conveying chain and conveys the cathode copper stack to a warehouse continuously through the cathode copper stack conveying chain.

3. The utility model can ensure that the qualified cathode copper stack is not damaged, ensure the product quality and reduce the transportation cost.

Drawings

Fig. 1 shows a cathode copper plate selecting and sorting conveying device comprising a transfer device for conveying cathode copper according to the utility model.

Fig. 2 is a first schematic structural diagram of a transfer apparatus for transporting cathode copper according to the present invention.

Fig. 3 is a schematic structural diagram of a transfer device for transporting cathode copper according to the present invention.

In the drawing, 1 is a cathode copper receiving and conveying chain, 2 is a jacking mechanism, 3 is a stacking mechanism, 31 is a qualified copper plate support, 4 is a grabbing mechanism, 5 is a transfer device, 51 is a support frame, 511 is a track, 52 is a copper plate stack sling cart, 521 is a sling cart body, 522 is a fork arm, 53 is a first lifting device, 54 is a second lifting device, 531 is a copper plate support, 6 is a defective copper plate stacking mechanism, 7 is a cathode copper plate stack conveying chain, 8 is a defective copper plate, and 9 is a qualified copper plate.

Detailed Description

The present invention will be described in more detail with reference to the following embodiments for understanding the technical solutions of the present invention, but the present invention is not limited to the scope of the present invention.

As shown in fig. 1 to 3, the front end and the end of the transfer device for cathode copper transportation according to the present embodiment are respectively provided with a cathode copper receiving and transporting chain 1 and a cathode copper pile transporting chain 7, the cathode copper receiving and transporting chain 1 is vertically connected to the transfer device 5, the transfer device 5 is vertically connected to the cathode copper pile transporting chain 7, and the cathode copper receiving and transporting chain 1, the transfer device 5 and the cathode copper pile transporting chain 7 form an n-type structure. The n-type structure arrangement ensures that the whole transportation system of the qualified cathode copper cannot be limited due to overlong sites.

The transferring device 5 comprises a support frame 51, the tail end of the cathode copper receiving conveying chain 1 and the starting end of the cathode copper pile conveying chain 7 are located below two ends of the support frame 51, a track 511 is arranged above the support frame 51, a copper plate pile sling cart 52 is arranged on the track 511 and used for the copper plate pile sling cart 52 to walk, a first lifting device 53 and a second lifting device 54 are arranged below two ends of the support frame 51 respectively, and the first lifting device 53 and the second lifting device 54 both comprise an oil cylinder and a copper plate pile support 531 arranged above the oil cylinder. The first lifting device 53 and the second lifting device 54 are respectively positioned below the inner sides of the cathode copper receiving conveying chain 1 and the cathode copper pile conveying chain 7. The cathode copper receiving and conveying chain 1 and the cathode copper stack conveying chain 7 both comprise two chains, and the width of the copper plate stack support 531 is smaller than the width between the two chains of the cathode copper receiving and conveying chain 1 and the width between the two chains of the cathode copper stack conveying chain 7. Copper buttress sling 52 includes sling body 521 and yoke 522, sling body 521 is by motor drive, makes it move on the track 511 of support frame 51, yoke 522 sets up the both sides at sling body 521, and yoke 522 is L type structure. The width of the copper plate stack rests 531 is less than the distance between the arms 522 on the two sides of the sling body 521. This arrangement ensures that the yoke 522 can fork and remove a pack on the pack support 531.

The cathode copper plate selecting and classifying and conveying device comprises a cathode copper receiving and conveying chain 1, wherein a recognition mechanism (not shown in the figure) is arranged at the front end of the cathode copper receiving and conveying chain 1, a jacking mechanism 2 is arranged in the cathode copper receiving and conveying chain 1, the jacking mechanism 2 is used for jacking a defective copper plate 8, a stacking mechanism 3 is further arranged in the cathode copper receiving and conveying chain 1, the stacking mechanism 3 is used for stacking qualified copper plates 9, a grabbing mechanism 4 is further arranged on one side of the cathode copper receiving and conveying chain 1, the grabbing mechanism 4 is used for grabbing the defective copper plate 8, the cathode copper receiving and conveying chain 1 is sequentially connected with a shifting device 5 and a defective copper plate stacking mechanism 6, and a cathode copper stack conveying chain 7 is arranged below the defective copper plate stacking mechanism 6.

The using method of the utility model is as follows:

after the cathode copper receiving and conveying chain 1 receives and starts to convey the cathode copper, the recognition mechanism performs photographing analysis on the cathode copper to judge whether the cathode copper is a defective product or not, if the cathode copper is judged to be a defective product, the jacking mechanism 2 jacks up the defective copper plate 8, and the grabbing mechanism 4 grabs up the defective copper plate 8 and places the defective copper plate on the defective copper plate stacking mechanism 6;

the cathode copper receiving and conveying chain 1 conveys the qualified copper plates 9 to the stacking mechanism 3, after the qualified copper plates 9 reach a specified number to form qualified copper plate stacks, the cathode copper receiving and conveying chain 1 conveys the qualified copper plate stacks to the position above a first lifting device 53 of the transfer device 5, the first lifting device 53 jacks the qualified copper plate stacks, the copper plate stack lifting truck 52 drives in, the fork arms 522 support the qualified copper plate stacks, the copper plate stack lifting truck 52 moves along the rails 511, when the qualified copper plate stacks are placed above a second lifting device 54 of the transfer device 5, the second lifting device 54 jacks the qualified copper plate stacks and moves the qualified copper plate stacks to the cathode copper conveying chain 7, then the copper plate stack lifting truck 52 moves towards the direction of the first lifting device 53 and carries out lifting and conveying on the next qualified copper plate stacks, and the cathode copper conveying chain 7 conveys the qualified copper plate stacks to a cathode copper warehouse.

The above-described embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the utility model, so that equivalent changes or modifications in the structure, features and principles described in the present invention should be included in the claims of the present invention.

Claims (6)

1. A transfer device for cathode copper conveying is characterized in that a cathode copper receiving conveying chain (1) and a cathode copper stack conveying chain (7) are respectively arranged at the front end and the tail end of the transfer device (5), the transfer device (5) comprises a support frame (51), the tail end of the cathode copper receiving conveying chain (1) and the starting end of the cathode copper pile conveying chain (7) are both positioned below the two ends of the support frame (51), a track (511) is arranged above the support frame (51), a copper plate stack sling cart (52) is arranged on the track (511), a first lifting device (53) and a second lifting device (54) are respectively arranged below two ends of the supporting frame (51), the first lifting device (53) and the second lifting device (54) are respectively positioned below the inner sides of the cathode copper receiving and conveying chain (1) and the cathode copper pile conveying chain (7).

2. Transfer device for cathode copper transport according to claim 1, characterized in that the cathode copper receiving conveyor chain (1) is connected vertically to the transfer device (5), the transfer device (5) is connected vertically to the cathode copper pile conveyor chain (7), and the cathode copper receiving conveyor chain (1), the transfer device (5) and the cathode copper pile conveyor chain (7) form an n-type structure.

3. A transfer device for cathode copper transport according to claim 1, characterized in that the first lifting device (53) and the second lifting device (54) each comprise an oil cylinder and a copper plate stack holder (531) arranged above the oil cylinder.

4. The transfer device for cathode copper conveying according to claim 3, wherein the copper plate stack sling (52) comprises a sling body (521) and fork arms (522), the sling body (521) is driven by a motor, the fork arms (522) are arranged on two sides of the sling body (521), and the fork arms (522) are of an L-shaped structure.

5. A transfer device for cathode copper transport according to claim 3, characterized in that the cathode copper receiving conveyor chain (1) and the cathode copper pile conveyor chain (7) each comprise two chains, and the copper plate pile rest (531) has a width smaller than the width between the two chains of the cathode copper receiving conveyor chain (1) and smaller than the width between the two chains of the cathode copper pile conveyor chain (7).

6. A transfer device for cathode copper transport according to claim 4, characterized in that the width of the copper plate stack holder (531) is smaller than the distance between the fork arms (522) on both sides of the sling body (521).

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