CN216688345U - Equipment for preparing 7N high-purity copper by electrolysis - Google Patents
Equipment for preparing 7N high-purity copper by electrolysis Download PDFInfo
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- CN216688345U CN216688345U CN202120837191.2U CN202120837191U CN216688345U CN 216688345 U CN216688345 U CN 216688345U CN 202120837191 U CN202120837191 U CN 202120837191U CN 216688345 U CN216688345 U CN 216688345U
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Abstract
The utility model discloses equipment for preparing 7N high-purity copper by electrolysis, which comprises an electrolysis mechanism, wherein a power supply mechanism is arranged in the middle of the upper end of the electrolysis mechanism; an electrolyte body disposed at an interior of the electrolysis mechanism. This electrolysis preparation 7N high-purity copper's equipment, this power supply mechanism adopts the mode that the activity was placed, place whole power supply mechanism in electrolysis mechanism's top, and utilize the rectangle gomphosis of its power supply main part and recess, come to fix the power supply main part, thereby will connect the electroplax to fix, guarantee its level stability, when installing, standing groove and the copper plate groove on this connection electroplax are the position phase-match, come to fix the copper, guarantee the stability in its copper plate groove, and be provided with at the inboard one end of standing groove and have elastic data contact, make data contact and copper contact, come to supply power and handle, when the copper leaves, its data contact kick-backs and cuts off the power supply and handles, come to accomplish the power supply operation of whole electrolysis preparation.
Description
Technical Field
The utility model relates to the technical field of electrolytic copper, in particular to equipment for preparing 7N high-purity copper by electrolysis.
Background
The current electrolytic copper production is an important way for refining the crude copper, when the electrolysis is carried out, the electric energy is converted into chemical energy, the whole electrolytic reaction is carried out in an electrolytic cell, impurities in the crude copper, such as iron, zinc and the like which are more active than the copper, can be dissolved into ions along with the copper, and the ion extraction preparation is carried out.
The equipment technology of electrolytic preparation 7N high-purity copper on the market mainly relies on the electric current to come the blister copper preparation, but when carrying out the electrolysis, the electrolyte is not convenient for carry out the circulation and handles in it, and the copper is not convenient for the electrolysis trough to connect to have certain danger in the electrolysis-process, cause the damage to operating personnel easily.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide equipment for preparing 7N high-purity copper by electrolysis, which solves the problems that the equipment for preparing 7N high-purity copper by electrolysis, which is proposed in the background art, mainly depends on current to prepare blister copper, but during electrolysis, electrolyte in the equipment is inconvenient to circulate, a copper plate is inconvenient to connect an electrolytic cell, and the copper plate has certain danger in the electrolysis process, so that operators are easy to be damaged.
In order to achieve the purpose, the utility model provides the following technical scheme: an apparatus for electrolytically producing 7N high-purity copper, comprising:
the middle part of the upper end of the electrolysis mechanism is provided with a power supply mechanism;
an electrolyte body provided at an interior of the electrolysis mechanism;
the thick copper plate is arranged on one side inside the power supply mechanism, and the thin copper plate is arranged on the other side inside the power supply mechanism;
the electrolysis mechanism further comprises:
an electrolyzer chamber;
the sealing cover plate is arranged at the bottom of the lower end of the electrolytic cell chamber;
the water-stop sheet is arranged at the inner bottom end of the electrolytic bath chamber;
a liquid inlet pipe disposed at one side of the outside of the electrolytic bath chamber;
the liquid outlet pipe is arranged on the other side of the outside of the electrolytic bath chamber;
the groove is formed in the middle of the lower end of the electrolytic cell chamber;
the vent holes are formed in two sides of the upper end of the electrolytic bath chamber;
and the copper plate groove is arranged at the inner side of the vent hole.
Preferably, the electrolytic cell chamber forms a movable structure through the copper plate groove and the coarse copper plate, and the vent holes are symmetrically distributed along the central axis of the electrolytic cell chamber.
Preferably, the electrolytic cell chamber and the sealing cover plate form a detachable structure, and the sealing cover plate and the water-stop plate form a fixed structure.
Preferably, the electrolytic cell chamber is communicated with the liquid inlet pipe and the liquid outlet pipe, and the electrolytic cell chamber and the electrolyte main body form a wrapping structure.
Preferably, the power supply mechanism further includes:
connecting the electric board;
the power supply main body is arranged at the bottom of the lower end of the connecting electric plate;
the placing grooves are formed in two sides of the upper end of the connecting electric plate;
and the data contact is arranged on one side of the inner wall of the placing groove.
Preferably, the connection electric board and the power supply main body form a fixed structure, and the connection electric board is distributed horizontally.
Preferably, the placing grooves are embedded with the thick copper plates through the data contacts, and two groups of the placing grooves are arranged.
Preferably, the power supply main body and the electrolysis mechanism are mutually matched in size, and the power supply mechanism and the electrolysis mechanism form a detachable structure.
Compared with the prior art, the utility model has the beneficial effects that: this equipment of electrolysis preparation 7N high-purity copper adopts power supply mechanism and electrolysis mechanism matched with mode, utilizes the electric current to prepare the decomposition with the blister copper, makes copper dissolve into copper ion (Cu) from the positive pole and removes to the negative pole, obtains the electron and separates out pure copper at the negative pole after reaching the negative pole, accomplishes whole preparation process to whole feed liquor system is located electrolysis liquid level top, makes whole circulation of air very smooth and easy, guarantees the stability in the preparation process.
The electrolytic cell chamber forms a movable structure through the copper plate groove and the blister copper plate, the vent holes are symmetrically distributed along the central axis of the electrolytic cell chamber, the electrolytic cell chamber is used as a main operation space for electrolyzing copper, the symmetrical copper plate grooves are formed in the upper end of the electrolytic cell chamber, an operator can place a copper plate to be electrolyzed at the inner side of the electrolytic cell chamber through the copper plate grooves, the copper plate is limited by rectangular embedding, the placing stability of the copper plate is guaranteed, the vent holes are formed in the two sides of the copper plate to guarantee the circulation of air in the copper plate, the condition that the air is unstable in the inner wall of the copper plate is avoided, and the stability of the whole preparation process is guaranteed.
The electrolysis bath room and the sealed apron constitute detachable construction, and sealed apron and water-stop sheet constitute fixed knot to be constructed, communicate each other between electrolysis bath room and feed liquor pipe and the drain pipe, and electrolysis bath room and electrolyte main part constitute the parcel structure, this electrolysis bath room is for going into under and going out parallel flow circulation electrolysis trough, and the inner chamber of this electrolysis bath room adopts the design of U-shaped pipe, the electrolyte main part flows into U type feed liquor pipe by the feed liquor pipe, carry the electrolyte main part to the indoor negative and positive plates of electrolysis bath between, whole feed liquor system is located electrolysis liquid level top, the electrolyte main part of getting into in the groove is derived from the below by the water-stop sheet, flow outside the groove from the drain pipe, accomplish the cycle process.
This power supply mechanism adopts the mode that the activity was placed, place whole power supply mechanism in electrolysis mechanism's top, and utilize the rectangle gomphosis of its power main part and recess, come to fix power main part, thereby to connect the electroplax to fix, guarantee its level stable, when installing, standing groove and copper plate groove on this connection electroplax are the position phase-match, come to fix the copper, guarantee the stability in its copper plate groove, and be provided with at the inboard one end of standing groove and have elastic data contact, make data contact and copper contact, come to supply power and handle, when the copper leaves, its data contact resilience is carried out the outage and is handled, accomplish the power supply operation of whole electrolytic preparation.
Drawings
FIG. 1 is a schematic front view of the internal structure of the present invention;
FIG. 2 is a schematic top view of the electrolytic mechanism of the present invention;
fig. 3 is a schematic perspective view of the power supply mechanism of the present invention.
In the figure: 1. an electrolysis mechanism; 101. an electrolyzer chamber; 102. a liquid inlet pipe; 103. a liquid outlet pipe; 104. sealing the cover plate; 105. a water-stop sheet; 106. a groove; 107. a vent hole; 108. a copper plate groove; 2. a power supply mechanism; 201. connecting the electric board; 202. a placement groove; 203. a data contact; 204. a power supply main body; 3. an electrolyte body; 4. a rough copper plate; 5. a thin copper plate.
Detailed Description
Referring to fig. 1-3, the present invention provides a technical solution: an apparatus for electrolytically producing 7N high-purity copper, comprising:
the electrolytic device comprises an electrolytic mechanism 1, wherein a power supply mechanism 2 is arranged in the middle of the upper end of the electrolytic mechanism 1;
an electrolyte body 3 provided at the inside of the electrolytic mechanism 1;
a thick copper plate 4 provided on one side of the inside of the power supply mechanism 2, and a thin copper plate 5 provided on the other side of the inside of the power supply mechanism 2;
the electrolysis mechanism 1 further includes:
an electrolyzer chamber 101;
a sealing cover plate 104 provided at the lower end bottom of the electrolytic cell chamber 101;
a water-stop sheet 105 provided at the bottom end of the inside of the electrolyzer chamber 101;
a liquid inlet pipe 102 provided on one side of the outside of the electrolytic bath chamber 101;
a liquid outlet pipe 103 arranged at the other side of the outside of the electrolytic bath chamber 101;
a groove 106 opened in the middle of the lower end of the electrolytic bath chamber 101;
vent holes 107 opened on both sides of the upper end of the electrolyzer chamber 101;
and a copper plate groove 108 opened on the inner side of the vent hole 107.
The electrolytic cell chamber 101 forms a movable structure through the copper plate groove 108 and the blister copper plate 4, the vent holes 107 are symmetrically distributed along the central axis of the electrolytic cell chamber 101, the electrolytic cell chamber 101 is used as a main operation space for electrolyzing copper, the upper end of the electrolytic cell chamber is provided with the symmetrical copper plate groove 108, an operator can place a copper plate to be electrolyzed at the inner side of the electrolytic cell chamber through the copper plate groove, the copper plate is limited by rectangular embedding, the placing stability of the copper plate is ensured, the vent holes 107 are arranged at two sides of the electrolytic cell chamber to ensure the circulation of air inside the electrolytic cell chamber, the condition that the air is unstable on the inner wall of the electrolytic cell chamber is avoided, and the stability of the whole preparation process is ensured.
The power supply mechanism 2 further includes:
a connection pad 201;
a power supply main body 204 provided at the lower end bottom of the connection electrode plate 201;
a placement groove 202 opened on both sides of the upper end of the connection electric board 201;
and a data contact 203 provided on the inner wall side of the placement groove 202.
The connecting electric board 201 and the power main body 204 form a fixed structure, the connecting electric board 201 is distributed horizontally, the placing groove 202 is embedded with the thick copper plate 4 through the data contact 203, two groups of placing grooves 202 are arranged, the size between the power main body 204 and the electrolysis mechanism 1 is matched, the power mechanism 2 and the electrolysis mechanism 1 form a detachable structure, the power mechanism 2 adopts a movable placing mode, the whole power mechanism 2 is placed above the electrolysis mechanism 1, the power main body 204 is fixed by utilizing the rectangular embedding of the power main body 204 and the groove 106, so that the connecting electric board 201 is fixed, the horizontal stability of the connecting electric board is ensured, when the connecting electric board is installed, the placing grooves 202 on the connecting electric board 201 are matched with the copper plate grooves 108 in position, so that the copper plate is fixed, the stability of the copper plate grooves 108 is ensured, and the data contact 203 with elasticity is arranged at one end of the inner side of the placing grooves 202, the data contact 203 is contacted with the copper plate to perform power supply treatment, and when the copper plate leaves, the data contact 203 rebounds to perform power off treatment to complete the whole power supply operation of electrolytic preparation.
The working principle is as follows: for the equipment for preparing 7N high-purity copper by electrolysis, firstly, an operator firstly flows an electrolyte main body 3 into a U-shaped liquid inlet pipe from a liquid inlet pipe 102, the electrolyte main body 3 is conveyed to a cathode-anode plate in an electrolytic bath chamber 101, the whole liquid inlet system is positioned above the electrolytic liquid level, then a power supply mechanism 2 is arranged above an electrolytic mechanism 1, and a power supply main body 204 is fixed by utilizing the rectangular embedding of the power supply main body 204 and a groove 106, so that a connecting electric plate 201 is fixed, the horizontal stability of the connecting electric plate is ensured, an elastic data contact 203 is arranged at one end of the inner side of a placing groove 202, the data contact 203 is contacted with a copper plate for power supply treatment, then a coarse copper plate 4 and a fine copper plate 5 are respectively placed at a left anode and a right cathode, so that the coarse copper plate 4 and the fine copper plate 5 pass through the placing groove 202 and a copper plate groove 108 for stable placing, copper is dissolved into copper ions (Cu) from the anode and moves to the cathode, electrons are obtained after the copper reaches the cathode, pure copper is separated out from the cathode, the whole preparation process is completed, then the electrolyte main body 3 entering the tank is led out from the lower part by the water-stop plate and flows out of the tank from the liquid outlet pipe 103, and the circulation process is completed.
Claims (8)
1. An apparatus for preparing 7N high-purity copper by electrolysis, comprising:
the middle part of the upper end of the electrolysis mechanism is provided with a power supply mechanism;
an electrolyte body disposed at an interior of the electrolysis mechanism;
the thick copper plate is arranged on one side inside the power supply mechanism, and the thin copper plate is arranged on the other side inside the power supply mechanism;
the electrolysis mechanism further comprises:
an electrolyzer chamber;
the sealing cover plate is arranged at the bottom of the lower end of the electrolytic cell chamber;
the water-stop sheet is arranged at the inner bottom end of the electrolytic bath chamber;
a liquid inlet pipe disposed at one side of the outside of the electrolytic bath chamber;
the liquid outlet pipe is arranged on the other side of the outer part of the electrolytic cell chamber;
the groove is formed in the middle of the lower end of the electrolytic cell chamber;
the vent holes are formed in two sides of the upper end of the electrolytic bath chamber;
and the copper plate groove is formed on the inner side of the vent hole.
2. The apparatus for electrolytic production of 7N high purity copper according to claim 1, wherein: the electrolytic cell chamber forms a movable structure through the copper plate groove and the coarse copper plate, and the vent holes are symmetrically distributed along the central axis of the electrolytic cell chamber.
3. The apparatus for electrolytic production of 7N high purity copper according to claim 1, wherein: the electrolytic cell chamber and the sealing cover plate form a detachable structure, and the sealing cover plate and the water-stop plate form a fixed structure.
4. The apparatus for electrolytic production of 7N high purity copper according to claim 1, wherein: the electrolytic cell chamber is communicated with the liquid inlet pipe and the liquid outlet pipe, and the electrolytic cell chamber and the electrolyte main body form a wrapping structure.
5. The apparatus for electrolytic production of 7N high purity copper according to claim 1, wherein: the power supply mechanism further includes:
connecting the electric board;
the power supply main body is arranged at the bottom of the lower end of the connecting electric plate;
the placing grooves are formed in two sides of the upper end of the connecting electric plate;
and the data contact is arranged on one side of the inner wall of the placing groove.
6. The apparatus for electrolytic production of 7N high purity copper according to claim 5, wherein: the connecting electric plate and the power supply main body form a fixed structure, and the connecting electric plate is distributed in a horizontal shape.
7. The apparatus for electrolytic production of 7N high purity copper according to claim 5, wherein: the standing groove passes through data contact and thick copper plate looks gomphosis, and the standing groove is provided with two sets ofly.
8. The apparatus for electrolytic production of 7N high purity copper according to claim 5, wherein: the power supply main body and the electrolysis mechanism are mutually matched in size, and the power supply mechanism and the electrolysis mechanism form a detachable structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120837191.2U CN216688345U (en) | 2021-04-22 | 2021-04-22 | Equipment for preparing 7N high-purity copper by electrolysis |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120837191.2U CN216688345U (en) | 2021-04-22 | 2021-04-22 | Equipment for preparing 7N high-purity copper by electrolysis |
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CN216688345U true CN216688345U (en) | 2022-06-07 |
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CN202120837191.2U Active CN216688345U (en) | 2021-04-22 | 2021-04-22 | Equipment for preparing 7N high-purity copper by electrolysis |
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2021
- 2021-04-22 CN CN202120837191.2U patent/CN216688345U/en active Active
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