CN210029183U - Copper plate conveying device for copper recovery system - Google Patents

Abstract

The utility model discloses a copper conveyor for copper recovery system, locate a support on the copper recovery system including the carriage, set up in a rotation motor of support upper end, run through a motor shaft who rotates the motor, connect a copper lift drive subassembly between the motor shaft both ends, and connect in a plurality of copper couples of copper lift drive subassembly lower extreme, wherein, this copper lift drive subassembly is located a left sleeve of motor shaft left end including the cover, twine in a left sleeve outlying left side tensile belt, a right sleeve of motor shaft right-hand member is located to the cover, twine in a right side tensile belt of right sleeve outlying, and connect in a lift band-pull pole between left side tensile belt tip and right side tensile belt tip, this copper couple is connected on lift band-pull pole. The utility model provides a copper conveyor for copper recovery system reduces the manpower, has brought very big convenience for the operator, has improved work efficiency moreover.

Description

Copper plate conveying device for copper recovery system

Technical Field

The utility model relates to a copper conveyor especially relates to a copper conveyor for copper recovery system.

Background

The etching process in the circuit board manufacturing process is an important process for manufacturing the circuit board, and the waste liquid generated in the process is the waste liquid with high copper content (containing 110 and 160 g/L of copper). For the etching waste liquid, the most conventional method is to draw the waste liquid by a local qualified recovery company, and then to recover copper in the waste liquid by a chemical method (neutralization method or displacement method) to prepare sponge copper or copper sulfate. The method has the disadvantages of backward process, incomplete copper recovery and unobvious economic benefit of treatment, and the waste liquid after copper extraction is directly discharged to cause secondary pollution and great damage to the local water body ecological system.

Therefore, although a lot of etching solution copper recovery systems are available on the market, copper plates are obtained by an electrolytic method, but when the copper plates are post-processed, the copper plates need to be transported from one tank to another tank, and the existing operation method is a manual transportation method, which not only consumes much manpower, but also has low efficiency.

SUMMERY OF THE UTILITY MODEL

To the above, an object of the utility model is to provide a copper conveyor for copper recovery system reduces the manpower, has brought very big convenience for the operator, has improved work efficiency moreover.

The utility model discloses a reach the technical scheme that above-mentioned purpose adopted and be:

the utility model provides a copper conveyor for copper recovery system, locate a support on the copper recovery system including the carriage, set up in a rotation motor of support upper end, run through a motor shaft who rotates the motor, connect a copper lift drive subassembly between the motor shaft both ends, and connect in a plurality of copper couples of copper lift drive subassembly lower extreme, wherein, this copper lift drive subassembly is including overlapping a left sleeve axle of locating the motor shaft left end, twine in a left side telescopic belt of left sleeve axle outlying, overlap and locate a right sleeve axle of motor shaft right-hand member, twine in a right side telescopic belt of right sleeve axle outlying, and connect in a left side telescopic belt tip and the right side telescopic belt tip between a right side telescopic belt tip and drive the pole, this copper couple is connected on drive pole.

As a further improvement of the utility model, the support mainly by one go up the extension board, connect in a left vertical extension board of upper bracket left end lower part and connect in a right vertical extension board of last extension board right-hand member lower part and constitute, wherein, should rotate motor, motor shaft, left sleeve and right sleeve and set up respectively on last extension board, this left side tensile belt and right side tensile belt pass the upper bracket towards perpendicular downwardly extending between vertical extension board in a left side and the right vertical extension board.

As a further improvement, the side is provided with a longitudinal slide rail respectively in vertical extension board of a left side and the vertical extension board of the right side lift drive rod both ends are provided with a lift pulley of slip on longitudinal slide rail respectively.

As a further improvement of the present invention, the left longitudinal support plate and the right longitudinal support plate lower end slide on the copper recovery system through a plurality of translation pulleys, respectively.

As a further improvement, the left longitudinal support plate or the right longitudinal support plate is provided with a plurality of buttons electrically connected to the rotating motor and controlling the rotating motor to rotate forward and backward.

As a further improvement of the utility model, the two ends of the motor rotating shaft are respectively fixed on the upper supporting plate.

The utility model has the advantages that: adopt semi-automatization mechanical structure to replace artifically, carry the transport to the copper that generates, obviously reduced the manpower for originally need 3 special manpowers to see the machine, reduce to only need 1 people can, brought very big convenience for the operator, in the whole transportation process of copper moreover, each structure action is smooth and easy, stability is high, is showing and is improving work efficiency, the specially adapted among the copper recovery system.

The above is an overview of the technical solution of the present invention, and the present invention is further explained with reference to the accompanying drawings and the detailed description.

Drawings

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

fig. 2 is the structure schematic diagram of the utility model discloses well copper conveyor installs on copper recovery system.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the intended purpose, the following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings and preferred embodiments.

Referring to fig. 1, an embodiment of the present invention discloses a copper plate conveying device 7 for a copper recovery system, which comprises a bracket 71 erected on the copper recovery system, a rotating motor 72 disposed at the upper end of the bracket 71, a motor shaft 73 penetrating through the rotating motor 72, a copper plate lifting driving assembly 74 connected between two ends of the motor shaft 73, and a plurality of copper plate hooks 75 connected to the lower end of the copper plate lifting driving assembly 74, the copper plate lifting driving assembly 74 includes a left sleeve 741 sleeved on the left end of the motor shaft 72, a left stretching belt 742 wound around the left sleeve 741, a right sleeve 743 sleeved on the right end of the motor shaft 73, a right stretching belt 744 wound around the right sleeve 743, and a lifting driving rod 745 connected between the end of the left stretching belt 742 and the end of the right stretching belt 744, and the copper plate hook 75 is connected to the lifting driving rod 745.

In order to facilitate the installation and the lifting of each component in the copper plate lifting driving assembly 74, the bracket 71 in this embodiment mainly includes an upper support plate 711, a left longitudinal support plate 712 connected to the lower portion of the left end of the upper support plate 711, and a right longitudinal support plate 713 connected to the lower portion of the right end of the upper support plate 711, wherein the rotating motor 72, the motor rotating shaft 73, the left sleeve shaft 741, and the right sleeve shaft 743 are respectively disposed on the upper support plate 711, and the left stretching belt 742 and the right stretching belt 744 penetrate through the upper support plate 711 and extend vertically downward between the left longitudinal support plate 712 and the right longitudinal support plate 713.

Meanwhile, in order to improve the vertical lifting motion of the lifting driving rod 745 in the copper plate lifting driving assembly 74 and improve the stability of the lifting motion, in this embodiment, a longitudinal sliding rail 7121 is respectively disposed at the inner side edges of the left longitudinal support plate 712 and the right longitudinal support plate 713, and a lifting pulley 7451 sliding on the longitudinal sliding rail 7121 is respectively disposed at two ends of the lifting driving rod 745. After the copper plate hook 75 hooks the copper plate, the lifting driving rod 745 drives the copper plate to perform a stable lifting motion.

In order to facilitate the bracket 71 to perform a translational motion on the copper recovery system, and to transport the copper plate from one trough to the top of the other trough, as shown in fig. 2, a translational slide rail 11 is respectively disposed on two opposite sides of the upper end of the machine platform 1 of the copper recovery system, and the lower ends of the left longitudinal support plate 712 and the right longitudinal support plate 713 respectively slide on the translational slide rail 11 through a plurality of translational pulleys 7132.

In order to facilitate the control of the copper plate lifting driving assembly 74, in this embodiment, a plurality of buttons 714 electrically connected to the rotating motor 72 and controlling the rotating motor 72 to rotate forward and backward are disposed on the side of the left longitudinal support plate 712 or the right longitudinal support plate 713. The forward and reverse rotation of the rotary motor 72 can be controlled by the operator operating the button 714.

In order to improve the stability of the motor shaft 73 during rotation, two ends of the motor shaft 73 are respectively fixed on the upper support plate 711.

The utility model provides a copper conveyor 7, during the specially adapted alkaline etching solution copper recovery system, when carrying out the electrolytic recovery to the copper in the alkaline etching solution, obtained the copper, when carrying out aftertreatment and unloading operation to the copper, adopt the copper conveyor 7 that this embodiment is disclosed, carry the transport to the copper.

The specific carrying and conveying operation method comprises the following steps:

when the copper plate needs to be moved from one bath to another, for example from the pickling neutralization bath to the rinsing bath, the specific operations are as follows: the integral copper plate conveying device 7 is pushed to the upper part of the pickling neutralization tank, a button 714 is pressed, a rotating motor 72 is started to rotate in a forward direction, a motor rotating shaft 73 is driven to rotate in a forward direction, a left stretching belt 742 is gradually separated from a left sleeve shaft 741, a right stretching belt 744 is gradually separated from a right sleeve shaft 743, under the action of the gravity of a lifting driving rod 745, the lifting driving rod 745 drives a copper plate hook 75 to move downwards, and the left stretching belt 742 and the right stretching belt 744 are synchronously elongated downwards; when the copper plate hook 75 descends to hook the copper plate, the button 714 is pressed again to enable the rotating motor 72 to rotate reversely, the motor rotating shaft 73 is driven to rotate reversely, the left stretching belt 742 and the right stretching belt 744 are driven to move upwards and are wound on the left sleeve shaft 741 and the right sleeve shaft 743, the left stretching belt 742 and the right stretching belt 744 gradually move upwards and shorten, the lifting driving rod 745 and the copper plate hook 75 are driven to move upwards, the button 714 is pressed again until the copper plate hung by the copper plate hook 75 is separated from the acid pickling neutralization groove, and the rotating motor 72 stops working. Then, the whole copper plate conveying device 7 is pushed to the upper part of the rinsing bath, the button 714 is pressed, the rotating motor 72 is started again to rotate in the forward direction, the motor rotating shaft 73 is driven to rotate in the forward direction, the left stretching belt 742 is gradually separated from the left sleeve shaft 741, the right stretching belt 744 is gradually separated from the right sleeve shaft 743, the lifting driving rod 745 drives the copper plate hook 75 to move downwards with the copper plate under the action of the gravity of the lifting driving rod 745, the left stretching belt 742 and the right stretching belt 744 synchronously stretch downwards, after the copper plate descends and enters the rinsing bath, the copper plate hook 75 is separated from the copper plate, and the conveying process of conveying the copper plate from one bath to the other bath is completed.

The utility model discloses a semi-automatization mechanical structure replaces artifically, carries the transport to the copper that generates, has obviously reduced the manpower, has brought very big convenience for the operator, and in the whole transportation process of copper, each structure action is smooth and easy, stability is high moreover, is showing and is improving work efficiency, among the specially adapted copper recovery system.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that other structures obtained by adopting the same or similar technical features as the above embodiments of the present invention are all within the protection scope of the present invention.

Claims (6)

1. The utility model provides a copper conveyor for copper recovery system, a serial communication port, locate a support on the copper recovery system including the carriage, set up in a rotation motor of support upper end, run through a motor shaft who rotates the motor, connect a copper lift drive subassembly between the motor shaft both ends, and connect in a plurality of copper couples of copper lift drive subassembly lower extreme, wherein, this copper lift drive subassembly is including overlapping a left sleeve axle of locating the motor shaft left end, twine in a left telescopic belt of left sleeve axle outlying, overlap and locate a right sleeve axle of motor shaft right-hand member, twine in a right telescopic belt of right sleeve axle outlying, and connect a lift drive pole between left telescopic belt tip and right telescopic belt tip, this copper couple is connected on the lift drive pole.

2. The copper conveying apparatus for a copper recovery system according to claim 1, wherein said frame is mainly composed of an upper support plate, a left longitudinal support plate connected to a lower portion of a left end of the upper support plate, and a right longitudinal support plate connected to a lower portion of a right end of the upper support plate, wherein the rotating motor, the motor rotating shaft, the left sleeve shaft and the right sleeve shaft are respectively provided on the upper support plate, and the left tension belt and the right tension belt pass through the upper support plate to extend vertically downward between the left longitudinal support plate and the right longitudinal support plate.

3. The copper conveying device for the copper recovery system according to claim 2, wherein a longitudinal slide rail is provided on each of the inner sides of the left and right longitudinal supports, and a lifting pulley sliding on the longitudinal slide rail is provided on each of both ends of the lifting drive rod.

4. The copper conveying device for copper recovery system of claim 2, characterized in that the lower ends of the left and right longitudinal support plates are respectively slid on the copper recovery system through a plurality of translation pulleys.

5. The copper conveying device for a copper recovery system according to claim 2, wherein a plurality of buttons electrically connected to the rotating motor and controlling the forward and reverse rotation of the rotating motor are provided on the side of the left or right longitudinal support.

6. The copper plate conveying device for the copper recovery system according to claim 2, wherein both ends of the rotating shaft of the motor are respectively fixed to the upper support plate.

Images