CN209456589U - A kind of Electrolytic copper insulation device - Google Patents

Abstract

The utility model discloses a kind of Electrolytic copper insulation devices, including electrolytic cell, cover board is provided at the top of the electrolytic cell, the electrolytic cell inner cavity is provided with titanium tube, cover board is extended vertically through at the top of the titanium tube front and rear sides, top is fixedly connected with solenoid valve on front side of the titanium tube, connecting tube is fixedly connected at the top of the solenoid valve, the cover board bottom is fixedly installed with temperature sensor, it is vertically welded with electric putter at left and right sides of the cover board, electric putter bottom described in two groups, which is respectively perpendicular, is welded in the left and right sides at the top of electrolytic cell.The setting that the utility model passes through titanium tube, titanium tube is by the heat transfer of steam to electrolyte, so that electrolyte temperature increases, for traditional heating method, the heating method of the present apparatus can be such that the temperature of electrolyte quickly increases, it has saved the process time of cathode copper, while the heating method of the present apparatus is more uniform to the heating method of electrolyte, is more conducive to the precipitation of copper ion.

Description

A kind of Electrolytic copper insulation device

Technical field

The utility model relates to Electrolytic copper insulation device technical field, specially a kind of Electrolytic copper insulation device.

Background technique

Currently, there is also the places of some shortcomings for existing electrolysis copper electrolysis cells, such as；Existing electrolysis copper electrolysis cells Not uniform enough to the heating of electrolyte during actual use, heating speed is slow, and the guarantor of existing electrolysis copper electrolysis cells Warm nature can be poor, causes thermal energy waste more serious, and cause the temperature of electrolyte that cannot stablize, influences the production of cathode copper.

Utility model content

The purpose of this utility model is to provide a kind of Electrolytic copper insulation devices, solve and ask proposed in background technique Topic.

To achieve the above object, the utility model provides the following technical solutions: a kind of Electrolytic copper insulation device, including electrolysis Slot, the electrolytic cell is interior to be filled with electrolyte, is provided with cover board at the top of the electrolytic cell, the electrolytic cell inner cavity is provided with titanium Pipe, the titanium tube front and rear sides top extend vertically through cover board, and top is fixedly connected with solenoid valve, the electricity on front side of the titanium tube Connecting tube is fixedly connected at the top of magnet valve, the cover board bottom is fixedly installed with temperature sensor, hangs down at left and right sides of the cover board It directly is welded with electric putter, electric putter bottom described in two groups, which is respectively perpendicular, is welded in the left and right sides at the top of electrolytic cell, before the cover board Side is fixedly installed with single-chip microcontroller and control panel, and the control panel is located on the right side of single-chip microcontroller, and the control panel bottom connects It is connected to power supply line, is symmetrically welded with cushion block at left and right sides of the bottom of electrolytic tank.

As a kind of preferred embodiment of the utility model, vacuum is offered inside the electrolyte bath and cover board Layer.

As a kind of preferred embodiment of the utility model, it is fixedly installed on the outside of the electrolytic cell and outside cover board Heat-preservation cotton.

As a kind of preferred embodiment of the utility model, a circle offers link slot at the top of the electrolytic cell, described The circle of cover board bottom one is fixedly installed with rubber strip, and the rubber strip is inserted into link slot.

As a kind of preferred embodiment of the utility model, the electric energy output end and electric putter, electromagnetism of the power supply line Valve is connected with the electrical energy inputs of temperature sensor, the signal output end of the control panel and the signal of single-chip microcontroller and electric putter Input terminal connection, the data output end of the temperature sensor and the data input pin of single-chip microcontroller connect, the letter of the single-chip microcontroller The signal input part of number output end and solenoid valve connects.

Compared with prior art, the beneficial effects of the utility model are as follows:

1. a kind of Electrolytic copper insulation device of the utility model, by the setting of titanium tube, titanium tube gives the heat transfer of steam Electrolyte, so that electrolyte temperature increases, for traditional heating method, the heating method of the present apparatus can make to be electrolysed The temperature of liquid quickly increases, and has saved the process time of cathode copper, while the heating method of the present apparatus is to the heating side of electrolyte Formula is more uniform, is more conducive to the precipitation of copper ion.

2. a kind of Electrolytic copper insulation device of the utility model, by the setting of vacuum layer, vacuum layer can reduce electrolytic cell With the heat transference efficiency of cover board so that the heat of electrolytic cell inner cavity electrolyte is easily detected by electrolytic cell and cover board is transmitted to the external world In environment, the consumption of thermal energy is effectively reduced, and makes the temperature of electrolyte more stable.

3. a kind of Electrolytic copper insulation device of the utility model, by the setting of heat-preservation cotton, heat-preservation cotton can be further decreased The heat exchange of electrolytic cell and cover board and external environment further reduces the waste of thermal energy.

4. a kind of Electrolytic copper insulation device of the utility model, by the setting of rubber strip, rubber strip can effectively increase The leakproofness of the present apparatus avoids the heat of electrolytic cell inner cavity from going out from the joint leadkage of cover board and electrolytic cell.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model Sign, objects and advantages will become more apparent upon:

Fig. 1 is a kind of front cross-sectional view of Electrolytic copper insulation device of the utility model；

Fig. 2 is a kind of front view of Electrolytic copper insulation device of the utility model；

Fig. 3 is a kind of cover board of Electrolytic copper insulation device of the utility model and the right pseudosection of titanium tube；

Fig. 4 is a kind of circuit diagram of Electrolytic copper insulation device of the utility model.

In figure: 1, cushion block；2, heat-preservation cotton；3, electrolytic cell；4, vacuum layer；5, titanium tube；6, electrolyte；7, temperature sensor； 8, link slot；9, rubber strip；10, electric putter；11, solenoid valve；12, connecting tube；13, cover board；14, single-chip microcontroller；15, power supply line； 16, control panel.

Specific embodiment

To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below In conjunction with specific embodiment, the utility model is further described.

Fig. 1-4 is please referred to, the utility model provides a kind of technical solution: a kind of Electrolytic copper insulation device, including electrolytic cell 3, the electrolytic cell 3 is interior to be filled with electrolyte 6, and cover board 13,3 inner cavity of the electrolytic cell setting are provided at the top of the electrolytic cell 3 There is titanium tube 5, cover board 13 is extended vertically through at the top of 5 front and rear sides of titanium tube, the 5 front side top of titanium tube is fixedly connected with electromagnetism Valve 11 is fixedly connected with connecting tube 12 at the top of the solenoid valve 11, and 13 bottom of cover board is fixedly installed with temperature sensor 7, Electric putter 10 is vertically welded at left and right sides of the cover board 13,10 bottom of electric putter, which is respectively perpendicular, described in two groups is welded in electrolytic cell The 3 tops left and right sides, 13 leading flank of cover board are fixedly installed with single-chip microcontroller 14 and control panel 16, the control panel 16 Positioned at 14 right side of single-chip microcontroller, 16 bottom of control panel is connected with power supply line 15, and 3 bottom of the electrolytic cell left and right sides is symmetrical It is welded with cushion block 1.

Setting (as shown in figures 1 and 3) by titanium tube 5 in the present embodiment, titanium tube 5 is by the heat transfer of steam to electricity Liquid 6 is solved, so that electrolyte temperature increases, for traditional heating method, the heating method of the present apparatus can make to be electrolysed The temperature of liquid 6 quickly increases, and has saved the process time of cathode copper, while heating of the heating method of the present apparatus to electrolyte 6 Mode is more uniform, is more conducive to the precipitation of copper ion.

Wherein, vacuum layer 4 is offered inside 3 inside of electrolytic cell and cover board 13.

(Fig. 1 is please referred to) in the present embodiment, and by the setting of vacuum layer 4, vacuum layer 4 can reduce electrolytic cell 3 and cover board 13 heat transference efficiency, so that the heat of 3 inner cavity electrolyte 6 of electrolytic cell is easily detected by electrolytic cell 3 and cover board 13 is transmitted to outside In boundary's environment, the consumption of thermal energy is effectively reduced, and makes the temperature of electrolyte 6 more stable.

Wherein, heat-preservation cotton 2 is fixedly installed with outside 3 outside of electrolytic cell and cover board 13.

(Fig. 1 is please referred to) in the present embodiment, and by the setting of heat-preservation cotton 2, heat-preservation cotton 2 can further decrease electrolytic cell 3 With the heat exchange of cover board 13 and external environment, the waste of thermal energy is further reduced.

Wherein, 3 top of electrolytic cell, one circle offers link slot 8, and 13 bottom one of the cover board circle is fixedly installed with rubber Adhesive tape 9, the rubber strip 9 are inserted into link slot 8.

(Fig. 1 is please referred to) in the present embodiment, and by the setting of rubber strip 9, rubber strip 9 can effectively increase the present apparatus Leakproofness, avoid the heat of 3 inner cavity of electrolytic cell from going out from cover board 13 and the joint leadkage of electrolytic cell 3.

Wherein, the electric energy output end Yu electric putter 10 of the power supply line 15, solenoid valve 11 and temperature sensor 7 electric energy Input terminal connection, the signal output end of the control panel 16 are connect with the signal input part of single-chip microcontroller 14 and electric putter 10, institute The data output end for stating temperature sensor 7 is connect with the data input pin of single-chip microcontroller 14, the signal output end of the single-chip microcontroller 14 It is connect with the signal input part of solenoid valve 11.

(Fig. 4 is please referred to) in the present embodiment, by the setting of single-chip microcontroller 14 and temperature sensor 7, so that the temperature of the present apparatus Degree control is more intelligent.

When a kind of Electrolytic copper insulation device uses, power supply line 15 is connected to external power supply, then by connecting tube 12 are connected to external steam equipment gas outlet, and 5 backside top of titanium tube is connected to external steam equipment air inlet, temperature sensor 7 temperature datas that can detecte the temperature of electrolyte 6, and will test are transferred to single-chip microcontroller 14, when temperature reaches certain value, Single-chip microcontroller 14 controls solenoid valve 11 and closes, so that the steam in external steam equipment not can enter 5 inner cavity of titanium tube, when temperature is lower than When certain value, single-chip microcontroller 14 controls solenoid valve 11 and opens, so that the steam in external steam equipment enters 5 inner cavity of titanium tube, titanium tube 5 by the heat transfer of steam to electrolyte 6 so that electrolyte temperature increases, for traditional heating method, the present apparatus Heating method the temperature of electrolyte 6 can be made quickly to increase, saved the process time of cathode copper, at the same the present apparatus plus Hot mode is more uniform to the heating method of electrolyte 6, is more conducive to the precipitation of copper ion, and vacuum layer 4 can reduce electrolysis The heat transference efficiency of slot 3 and cover board 13, so that the heat of 3 inner cavity electrolyte 6 of electrolytic cell is easily detected by electrolytic cell 3 and cover board 13 It is transmitted in external environment, effectively reduces the consumption of thermal energy, and make the temperature of electrolyte 6 more stable, heat-preservation cotton 2 can To further decrease the heat exchange of electrolytic cell 3 and cover board 13 and external environment, the waste of thermal energy, rubber strip are further reduced 9 can effectively increase the leakproofness of the present apparatus, avoid seam crossing of the heat of 3 inner cavity of electrolytic cell from cover board 13 and electrolytic cell 3 It lets out, electric putter 10 can be directly controlled by control panel 16 and worked, electric putter 10 can drive cover board 13 to rise.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, for For those skilled in the art, it is clear that the present invention is not limited to the details of the above exemplary embodiments, and without departing substantially from this In the case where the spirit or essential attributes of utility model, the utility model can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is by institute Attached claim rather than above description limit, it is intended that will fall within the meaning and scope of the equivalent elements of the claims All changes are embraced therein.It should not treat any reference in the claims as limiting related right It is required that.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (5)

1. a kind of Electrolytic copper insulation device, including electrolytic cell (3), it is characterised in that: be filled with electrolyte in the electrolytic cell (3) (6), it is provided with cover board (13) at the top of the electrolytic cell (3), electrolytic cell (3) inner cavity is provided with titanium tube (5), the titanium tube (5) it is extended vertically through cover board (13) at the top of front and rear sides, top is fixedly connected with solenoid valve (11), institute on front side of the titanium tube (5) It states and is fixedly connected with connecting tube (12) at the top of solenoid valve (11), cover board (13) bottom is fixedly installed with temperature sensor (7), It is vertically welded with electric putter (10) at left and right sides of the cover board (13), electric putter described in two groups (10) bottom, which is respectively perpendicular, to be welded in The left and right sides, cover board (13) leading flank are fixedly installed with single-chip microcontroller (14) and control panel (16), institute at the top of electrolytic cell (3) It states control panel (16) to be located on the right side of single-chip microcontroller (14), control panel (16) bottom is connected with power supply line (15), the electricity Solution is symmetrically welded with cushion block (1) at left and right sides of slot (3) bottom.

2. a kind of Electrolytic copper insulation device according to claim 1, it is characterised in that: the electrolytic cell (3) is internal and covers Vacuum layer (4) are offered inside plate (13).

3. a kind of Electrolytic copper insulation device according to claim 1, it is characterised in that: on the outside of the electrolytic cell (3) and cover Heat-preservation cotton (2) are fixedly installed with outside plate (13).

4. a kind of Electrolytic copper insulation device according to claim 1, it is characterised in that: one encloses at the top of the electrolytic cell (3) It offers link slot (8), the circle of cover board (13) bottom one is fixedly installed with rubber strip (9), rubber strip (9) the insertion connection In slot (8).

5. a kind of Electrolytic copper insulation device according to claim 1, it is characterised in that: the electric energy of the power supply line (15) is defeated Outlet is connect with the electrical energy inputs of electric putter (10), solenoid valve (11) and temperature sensor (7), the control panel (16) Signal output end is connect with the signal input part of single-chip microcontroller (14) and electric putter (10), and the data of the temperature sensor (7) are defeated Outlet is connect with the data input pin of single-chip microcontroller (14), the signal output end of the single-chip microcontroller (14) and the signal of solenoid valve (11) Input terminal connection.