CN212357418U - Cell body structure of electrolytic cell and electrolytic cell - Google Patents

Abstract

The utility model discloses a cell body structure and electrolysis trough of electrolysis trough, wherein, a cell body structure of electrolysis trough, including cell body, installed part and centre gripping subassembly, be equipped with the holding chamber in the cell body, the installed part install in the diapire in holding chamber, the installed part deviates from the concave mounting groove that is equipped with in surface of the diapire in holding chamber, install in the mounting groove the centre gripping subassembly for the centre gripping install in plate electrode in the mounting groove. It can be understood that the technical scheme of the utility model can avoid the negative plate swing to appear and contact the positive plate, prevent because the danger that the short circuit caused.

Description

Cell body structure of electrolytic cell and electrolytic cell

Technical Field

The utility model relates to a plate electrode installation technical field, in particular to cell body structure and electrolysis trough of electrolysis trough.

Background

Most of the existing cathode plates and anode plates are directly immersed into the electrolyte of the electrolytic cell for electrolytic reaction, and in order to achieve uniform distribution of the electrolyte in the electrolytic cell, the circulation flow of the electrolyte needs to be ensured in the electrolytic process of the electrolyte. However, when a stainless steel plate is used as the cathode plate, since the stainless steel plate is light, the cathode plate swings to contact the anode plate during the circulation flow of the electrolyte, thereby causing a short circuit of the circuit.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a cell body structure and an electrolytic cell of a plate electrode, aiming at avoiding the danger caused by the circuit short circuit because the negative plate contacts the positive plate due to the swing.

In order to achieve the above object, the utility model provides a cell body structure of electrolytic cell, including cell body, installed part and centre gripping subassembly, be equipped with the holding chamber in the cell body, the installed part install in the diapire in holding chamber, the installed part deviates from the concave mounting groove that is equipped with in surface of the diapire in holding chamber, install in the mounting groove the centre gripping subassembly, be used for the centre gripping install in plate electrode in the mounting groove.

Optionally, the mounting member includes a receiving plate and two surrounding plates, the two surrounding plates are convexly disposed on the bottom wall of the accommodating cavity, the two surrounding plates are disposed oppositely, the receiving plate is disposed opposite to the bottom wall of the accommodating cavity, the receiving plate is clamped between the two surrounding plates, and the receiving plate and the two surrounding plates enclose to form the mounting groove.

Optionally, the clamping assembly includes two clamping members, the clamping members are clamped between the two enclosing plates, and the two clamping members are spaced and arranged oppositely along the extending direction of the mounting groove and are used for clamping and mounting on two side edges of the electrode plate of the mounting groove.

Optionally, a clamping groove is concavely formed in the surface of one clamping piece facing the other clamping piece, and the clamping groove extends along the depth direction of the mounting groove and penetrates through the clamping piece.

Optionally, the retaining member is mounted to a notch of the mounting groove.

Optionally, a through hole is formed in the surface of the bearing plate, which is away from the bottom wall of the accommodating cavity, and is used for allowing a separated object falling from the electrode plate to pass through.

Optionally, the surface of the bearing plate, which is away from the bottom wall of the accommodating cavity, is provided with a plurality of through holes, and the through holes are arranged at intervals along the extending direction of the mounting groove.

Optionally, install the shower in the cell body, the shower has the feed liquor end and the play liquid end of back to setting up, the feed liquor end of shower is arranged in the holding intracavity, and communicate in the holding chamber, the play liquid end clamp of shower is located between the board of both sides, and communicate in the mounting groove.

Optionally, the surface of the liquid outlet end of the spray pipe is provided with a plurality of liquid outlets distributed at intervals.

The utility model also provides an electrolytic cell, including the cell body structure of plate electrode and above-mentioned electrolytic cell, the base of plate electrode is inserted and is located in the mounting groove of the installed part of the cell body structure of electrolytic cell.

The technical scheme of the utility model, be equipped with the holding chamber in the cell body, the installed part is installed in the diapire in holding chamber, and the surface that the installed part deviates from the diapire in holding chamber is formed with the mounting groove, and the surface that the installed part deviates from the diapire in holding chamber is concave to be equipped with the mounting groove, installs the centre gripping subassembly in the mounting groove. When being applied to the installation of negative plate, the negative plate is installed in the mounting groove, and the centre gripping subassembly centre gripping negative plate in the mounting groove to realized fixed to the installation of negative plate, with this avoided the negative plate because the swing contacts the positive plate, avoided the danger that the circuit short circuit caused.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of the electrolytic cell of the present invention;

FIG. 2 is a schematic view of the mount of FIG. 1;

fig. 3 is a disassembled structure view of the mounting member of fig. 2.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				1	Electrolytic cell	210	Bearing plate
10	Cell body structure of electrolytic cell	211	Through hole
				20	Electrode plate	220	Boarding board
100	Trough body	230	Spray pipe
				101	Containing cavity	300	Clamping assembly
200	Mounting member	301	Clamping groove
				201	Mounting groove	310	Clamping piece
202	Receiving groove

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

The utility model provides a tank body structure of an electrolytic tank, which aims to avoid the swinging of a negative plate and the contact of the negative plate with an anode plate, and prevent the danger caused by the short circuit of a circuit.

Referring to fig. 1 to 3, in an embodiment of the present invention, a cell body structure 10 of an electrolytic cell includes a cell body 100, an installation member 200 and a clamping assembly 300, wherein an accommodating chamber 101 is disposed in the cell body 100, the installation member 200 is installed on a bottom wall of the accommodating chamber 101, a mounting groove 201 is concavely disposed on a surface of the installation member 200, which is away from the bottom wall of the accommodating chamber 101, and the clamping assembly 300 is installed in the mounting groove 201 for clamping an electrode plate 20 installed in the mounting groove 201.

The technical scheme of the utility model, be equipped with holding chamber 101 in the cell body 100, installed part 200 install in the diapire of holding chamber 101, installed part 200 deviates from the surface indent of the diapire of holding chamber 101 is equipped with mounting groove 201, install centre gripping subassembly 300 in the mounting groove 201. When being applied to the installation of negative plate, the negative plate install in mounting groove 201, centre gripping subassembly 300 centre gripping negative plate in the mounting groove 201 to realized fixed the installation to the negative plate, avoided this negative plate to appear swinging and contact the anode plate, prevented because the danger that the circuit short circuit caused.

It should be noted that the mounting member 200 may be a separate structure, the mounting groove 201 is formed by enclosing the separate structure, the mounting member 200 may also be an integrally formed structure, the mounting groove 201 is formed by recessing the surface of the mounting member 200 away from the bottom wall of the accommodating cavity 101, of course, the mounting member 200 may be fixed to the bottom wall of the accommodating cavity 101 by welding, or may be fixed to the bottom wall of the accommodating cavity 101 by other methods. In addition, the clamping component 300 can be installed at the bottom of the installation groove 201, and also can be installed at the groove wall of the installation groove 201, the embodiment of the present invention is not limited thereto, and the installation manners of the above different structures are all within the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, the mounting member 200 includes a receiving plate 210 and two surrounding plates 220, the surrounding plates 220 are protruded from the bottom wall of the accommodating chamber 101, the surrounding plates 220 are disposed opposite to each other, the receiving plate 210 is disposed opposite to the bottom wall of the accommodating chamber 101, the receiving plate 210 is sandwiched between the surrounding plates 220, and the receiving plate 210 and the surrounding plates 220 enclose and form the mounting groove 201. The utility model discloses a set up the mounting groove 201 that both sides link up to this makes the electrolyte in the mounting groove 201 can flow into holding chamber 101, and the electrolyte in holding chamber 101 also can flow into mounting groove 201, thereby has realized the circulation flow of electrolyte, has guaranteed the electrolytic ion's of electrolyte evenly distributed. Particularly, when the waste etching solution is electrolyzed, the uniformity of the distribution of copper ions in the waste etching solution is ensured through the circular flow of the waste etching solution.

Referring to fig. 1 to 3, in an embodiment of the present invention, the clamping assembly 300 includes two clamping members 310, the clamping members 310 are clamped between two of the surrounding plates 220, and the two clamping members 310 are spaced apart and arranged opposite to each other along the extending direction of the mounting groove 201, and are used for clamping two side edges of the electrode plate 20 mounted in the mounting groove 201. It should be noted that, in order to further improve the stability of the installation of the electrode plate 20, the utility model discloses can also set up two card fasteners 310 along the extending direction of mounting groove 201 to this makes two relative card fasteners 310 that set up can hold in the both sides limit of electrode plate 20 simultaneously, like this, avoid electrode plate 20 to take place the swing along with the flow of electrolyte in the circulating flow of electrolyte, realized that the installation to the base of electrode plate 20 and both sides limit is fixed, guaranteed the fixed stability of electrode plate 20 installation, thereby solved because the circuit short circuit that the swing arouses takes place for the negative plate.

Referring to fig. 1 to 3, in an embodiment of the present invention, a surface of one of the clamping members 310 facing the other clamping member 310 is recessed with a clamping groove 301, and the clamping groove 301 extends along a depth direction of the mounting groove 201 and penetrates through the clamping member 310. Thus, when the electrode plate 20 is installed, the electrode plate 20 can be inserted into the installation groove 201 from the notch of the installation groove 201 along the extending direction of the clamping groove 301 until the electrode plate is abutted against the bottom wall of the installation groove 201, so that the installation of the electrode plate 20 is facilitated; on the contrary, when the electrode plate 20 is disassembled, the electrode plate 20 can move in the direction away from the bottom wall of the mounting groove 201 until being separated from the clamping groove 301 and being disassembled from the notch of the mounting groove 201, thereby realizing the disassembly of the electrode plate. The utility model discloses the setting extends the draw-in groove 301 that sets up along the degree of depth direction of mounting groove 201 to this makes draw-in groove 301 along plate electrode 20's thickness direction centre gripping plate electrode 20 for plate electrode 20's the front and plate electrode 20's the back support respectively and hold in the both sides wall of draw-in groove 301, plate electrode 20's side supports and holds in the diapire of draw-in groove 301, like this, under the prerequisite of guaranteeing plate electrode 20 fixed stability of installation, need not to set up and draw-in groove 301 complex fixture block, provides convenience for plate electrode 20 dismouting.

Referring to fig. 1 to 3, in an embodiment of the present invention, the retaining member 310 is installed in a notch of the installation groove 201. The embodiment of the utility model provides a through holding the card and holding a 310 setting at the notch of mounting groove 201, like this, hold the card that the notch that locates mounting groove 201 with plate electrode 20 card set up and hold after 310, push into mounting groove 201 with plate electrode 20 along the extending direction of the draw-in groove 301 that holds a 310 again to this makes the base of plate electrode 20 support the diapire of holding in mounting groove 201, thereby has realized the location installation to plate electrode 20. The utility model discloses accomplish the location of plate electrode 20 and draw-in groove 301 at the notch of mounting groove 201 to this provides convenience for the location installation of plate electrode 20.

Referring to fig. 1 to 3, in an embodiment of the present invention, a through hole 211 is formed on a surface of the receiving plate 210 away from the bottom wall of the accommodating cavity 101 for allowing a separated object dropping from the electrode plate 20 to pass through. When the etching waste liquid is electrolyzed, the graphite plate is taken as an anode plate to generate oxidation reaction in an anode region, graphite slag falls off from the surface of the graphite plate under the action of anodic oxidation, and the falling graphite slag is deposited at the bottom of the electrolytic tank 1; in the same way, in the circulating flow process of the etching waste liquid, the copper powder deposited on the negative plate can fall off, and the fallen copper powder can be deposited at the bottom of the electrolytic cell 1 and forms an electrolytic loop with the deposited graphite powder, so that the circuit load is increased, the circuit resistance is increased, the temperature of the electrolytic cell 1 is increased, and the electrolytic cell 1 is burnt. In order to solve the problem, in the embodiment of the present invention, the receiving groove 210, the two enclosing plates 220 and the bottom wall of the accommodating cavity 101 enclose to form the receiving groove 202, so that the through hole 211 communicates the mounting groove 201 with the receiving groove 202, and the receiving groove 202 is located below the mounting groove 201. Thus, when the graphite plate is disposed in the mounting groove 201, the graphite slag falling from the graphite plate is deposited on the receiving groove 202 from the through hole 211 of the receiving groove 202 by gravity. Similarly, when the waste liquid is electrolyzed and etched, and when the cathode plate is disposed in the mounting groove 201, the copper powder falling from the cathode plate is deposited on the receiving groove 202 from the through hole 211 on the receiving groove 202 under the action of gravity. Of course, the installed part 200 is the fashioned structure of insulating acid and alkali corrosion resistant material, and is preferred, the installed part 200 is the fashioned structure of polyvinyl chloride material to the blocking effect that forms through insulating acid and alkali corrosion resistant material and accept groove 202 makes sedimentary graphite powder and copper powder can't form closed circuit, thereby has avoided the problem that electrolytic cell 1 that leads to because electrolyte high temperature is burnt out. And simultaneously, in the embodiment of the utility model, accept groove 202 is enclosed to close by the diapire of two bounding walls 220, accept board 210 and holding chamber 101 and forms, like this, follows accept the both sides wall that groove 202 extends the setting and communicate in holding chamber 101, so, for the washing of accepting groove 202 provides convenience, when accepting the separator that the groove 202 is filled up plate electrode 20, the utility model discloses can spray the water under high pressure in the electrolyte discharge back in holding chamber 101 to mounting groove 201 to this makes the water under high pressure that sprays to accept groove 202 from mounting groove 201 flow direction to by accepting groove 202 and storage tank intercommunication department outflow, thereby realize the washing to accepting groove 202.

Referring to fig. 1 to 3, in an embodiment of the present invention, a plurality of through holes 211 are formed on a surface of the receiving plate 210 away from the bottom wall of the receiving cavity 101, and the through holes 211 are spaced apart from each other along an extending direction of the mounting groove 201. Certainly, in order to facilitate the deposit of the separator on the electrode plate 20 installed on the receiving plate 210 and collect in the receiving groove 202, the separator on the electrode plate 20 is prevented from dispersing in the mounting groove 201 or even falling into the accommodating cavity 101, the embodiment of the present invention can be followed the extending direction of the receiving groove 202 sets up the through hole 211 on the surface of the receiving plate 210, of course, the present invention can set the aperture of the through hole 211 and the two adjacent through holes 211 to make the separator of the electrode plate 20 fully deposit in the receiving groove 202.

Referring to fig. 1 to 3, in an embodiment of the present invention, a spraying pipe 230 is installed in the tank body 100, the spraying pipe 230 has a liquid inlet end and a liquid outlet end opposite to each other, the liquid inlet end of the spraying pipe 230 is disposed in the accommodating cavity 101 and is communicated with the accommodating cavity, and the liquid outlet end of the spraying pipe 230 is clamped between the two side plates and is communicated with the installation groove 201. Certainly, in order to realize the installation of the shower pipe 230, an end plate is further clamped between the two enclosing plates 220, and the surface of the end plate is convexly provided with the two enclosing plates 220, so that the shower pipe 230 penetrates through the end plate, and the shower pipe 230 is installed and fixed. The embodiment of the utility model provides a through the setting of shower 230, like this, the electrolyte in holding chamber 101 can flow into shower 230 and flow into mounting groove 201 from the play liquid end of shower 230 through the feed liquor end of shower 230, flows to holding chamber 101 by mounting groove 201 again to this circulation that has formed the electrolyte flows, thereby has guaranteed the electrolytic ion's of electrolyte evenly distributed. Particularly, when the waste etching solution is electrolyzed, the uniformity of the distribution of copper ions in the waste etching solution is ensured through the circular flow of the waste etching solution.

Referring to fig. 1 to 3, in an embodiment of the present invention, the surface of the liquid outlet end of the spraying pipe 230 is provided with a plurality of liquid outlets distributed at intervals. It should be noted that the surface of the spraying pipe 230 is provided with a plurality of liquid outlets distributed at intervals, and the plurality of liquid outlets may be arranged at intervals along the length direction of the spraying pipe 230 or arranged at intervals along the circumferential direction of the spraying pipe 230, so that the electrolyte flowing into the spraying pipe 230 is uniformly dispersed into liquid drops and is ejected from all directions, the effect of fully mixing the electrolyte is increased, and the homogeneity of the electrolyte in the accommodating cavity 101 is ensured.

Referring to fig. 1 to 3, in an embodiment of the present invention, the present invention further provides an electrolytic cell 1, which includes a plate electrode 20 and the tank structure 10 of the electrolytic cell, wherein the bottom edge of the plate electrode is inserted into the mounting groove 201 of the mounting member 200 of the tank structure 10 of the electrolytic cell. This practical embodiment is through setting up installed part 200, like this, installs the plate electrode in the mounting groove 201 of installed part 200 to this centre gripping subassembly 300 through in the mounting groove 201 is installed fixedly to plate electrode 20 respectively, thereby has improved and has avoided the plate electrode because unfixed contact short circuit problem that causes.

Referring to fig. 1 to 3, in an embodiment of the present invention, the electrode plate includes a plurality of cathode plates and a plurality of anode plates, the tank body structure 10 of the electrolytic tank includes a plurality of mounting members 200, the cathode plates and the anode plates are alternately arranged in the mounting grooves 201 of the mounting members 200 at intervals, so as to realize the installation of the double-electrode-plate electrolytic tank, and the double-electrode-plate electrolytic tank formed by the above method improves the uniformity of the current density of the electrode plate 20, thereby ensuring the electrolytic quality of the electrolytic tank 1.

The above is only the preferred embodiment of the present invention, not so limiting the patent scope of the present invention, all of which are in the utility model discloses a conceive, utilize the equivalent structure transform that the content of the specification and the attached drawings did, or directly/indirectly use all to include in other relevant technical fields the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a cell body structure of electrolysis trough, its characterized in that, includes cell body, installed part and centre gripping subassembly, be equipped with the holding chamber in the cell body, the installed part install in the diapire in holding chamber, the installed part deviates from the concave mounting groove that is equipped with in surface of the diapire in holding chamber, install in the mounting groove the centre gripping subassembly for the centre gripping install in plate electrode in the mounting groove.

2. The electrolytic cell body structure of claim 1, wherein the mounting member comprises a receiving plate and two surrounding plates, the two surrounding plates are arranged on the bottom wall of the accommodating cavity in a protruding manner, the two surrounding plates are arranged oppositely, the receiving plate is arranged opposite to the bottom wall of the accommodating cavity, the receiving plate is clamped between the two surrounding plates, and the receiving plate and the two surrounding plates surround to form the mounting groove.

3. The electrolytic cell body structure of claim 2, wherein the clamping assembly comprises two clamping members, the clamping members are clamped between the two enclosing plates, and the two clamping members are spaced and oppositely arranged along the extending direction of the mounting groove and used for clamping two side edges of the electrode plate mounted in the mounting groove.

4. The tank body structure of an electrolytic tank according to claim 3, wherein a surface of one of said retaining members facing the other retaining member is concavely provided with a catching groove extending in a depth direction of said mounting groove and penetrating through said retaining member.

5. The tank body structure of an electrolytic tank according to claim 4, wherein the retaining member is installed at a notch of the installation tank.

6. The electrolytic cell body structure of claim 2, wherein the surface of the bearing plate, which is away from the bottom wall of the accommodating cavity, is provided with a through hole for a separated object falling from the electrode plate to pass through.

7. The electrolytic cell body structure of claim 6, wherein the surface of the bearing plate, which is away from the bottom wall of the accommodating cavity, is provided with a plurality of through holes, and the through holes are arranged at intervals along the extending direction of the mounting groove.

8. The electrolytic cell body structure of claim 2, wherein a spray pipe is installed in the electrolytic cell body, the spray pipe is provided with a liquid inlet end and a liquid outlet end which are arranged in a back-to-back manner, the liquid inlet end of the spray pipe is arranged in the accommodating cavity and communicated with the accommodating cavity, and the liquid outlet end of the spray pipe is clamped between the two side plates and communicated with the installation groove.

9. The cell body structure of an electrolytic cell according to claim 8, wherein the surface of the liquid outlet end of the shower pipe is provided with a plurality of liquid outlets distributed at intervals.

10. An electrolytic cell, characterized by comprising an electrode plate and the cell body structure of the electrolytic cell of any one of claims 1 to 9, wherein the bottom edge of the electrode plate is inserted into the mounting groove of the mounting piece of the cell body structure of the electrolytic cell.

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