CN105063737A - Electrode assembly and method of electrifying electrolytic etching processed plate - Google Patents

Abstract

The invention discloses an electrode assembly and a method of electrifying an electrolytic etching processed plate. The electrode assembly comprises a mother electrode plate, wherein the mother electrode plate is electrically connected with electrifying faces; seal rings are arranged on the peripheries of the electrifying faces; when the top surfaces of the seal rings are not stressed, the top surfaces of the seal rings are higher than the surfaces of the electrifying faces; and processed plate clamping devices are arranged on or beside the mother electrode plate. The method comprises the steps: the electrode assembly is adopted, and the seal rings are arranged on the peripheries of the electrifying faces of the electrode assembly; the lower surface of the electrolytic etching processed plate and the seal rings are pressed together, and the lower surface of the electrolytic etching processed plate maintains contact with the electrifying faces, so that the seal rings are used for separating the electrifying faces of the electrode assembly from electrolytic etching liquid, and electricity provided by the electrode assembly is transmitted to the electrolytic etching processed plate by the electrifying faces. According to the invention, the electrode assembly is prevented from being consumed, so that the electrode assembly can be used for a long time; the production cost is greatly reduced; the use efficiency of the electrode assembly is improved; and quantity production is facilitated.

Description

Electrode device and the method for powering on to the processed plate of electrolytically etching

Technical field

The present invention relates to a kind of to the method that powers on of the processed plate of electrolytically etching and electrode used therein device.

Background technology

At present, in existing electrolytically etching equipment, no matter be by the indirect conducting of electrolytic solution between electrode device with the processed plate of electrolytically etching or directly contact, because electrode device and electrolytic solution can both contact all the time, therefore, in process of production, electrolytic solution also can cause certain consumption to electrode device while processing the processed plate of electrolytically etching, so electrode device just needs to change at regular intervals, which greatly increases production cost, have impact on equipment use efficiency.

Summary of the invention

The first object of the present invention is to provide a kind of electrode device that electrode device can be avoided to consume.

The second object of the present invention is to provide a kind of method powered on to the processed plate of electrolytically etching avoiding electrode device consumption.

In order to reach above-mentioned first object, technical scheme of the present invention is: a kind of electrode device, comprise female battery lead plate, described female battery lead plate is electrically connected the face that powers on, the power on periphery in face is provided with sealing-ring, the end face of described sealing-ring is not when being stressed, and the end face of sealing circle is higher than the surface in the face of powering on, and on described female battery lead plate or side is provided with processed board clamping device.

On described female battery lead plate with or sub-electrode is housed, sub-electrode is equipped with grandson's electrode, the face of powering on is the end face of grandson's electrode, and described female battery lead plate is equipped with insulating support plate, insulating support plate has sealing groove, described sealing-ring is embedded in sealing groove.

On described female battery lead plate except with the joint face of sub-electrode except other surface all there is electric insulation layer, on described sub-electrode except with the joint face of female battery lead plate and grandson's electrode except other surface all there is electric insulation layer, on described grandson's electrode except with the joint face of sub-electrode and the end face of grandson's electrode except other surface all there is electric insulation layer.

The described face of powering on is a region on female battery lead plate, and have sealing groove around the face that powers on female battery lead plate, described sealing-ring is embedded in described sealing groove.

The described face of powering on is a region on female battery lead plate, is lined with mounting plate under female battery lead plate, and described sealing-ring supports on a mounting board and is centered around the periphery of female battery lead plate.

On described female battery lead plate with or sub-electrode is housed, the face of powering on is the end face of sub-electrode, and the end face of described sub-electrode has sealing groove, and described sealing-ring is embedded in described sealing groove.

On described female battery lead plate with or sub-electrode is housed, the face of powering on is the end face of sub-electrode, and described sealing-ring to be supported on female battery lead plate and to be centered around the periphery of sub-electrode.

On described female battery lead plate with or sub-electrode is housed, the face of powering on is the end face of sub-electrode, described female battery lead plate is equipped with insulating support plate, the end face of described sub-electrode has heavy stand, surround sealing groove between described heavy stand and insulating support plate, described sealing-ring is embedded in described sealing groove.

On described female battery lead plate with or sub-electrode is housed, the face of powering on is the end face of sub-electrode, and described female battery lead plate is equipped with insulating support plate, insulating support plate has sealing groove, described sealing-ring is embedded in described sealing groove.

On described female battery lead plate with or sub-electrode is housed, sub-electrode is equipped with grandson's electrode, the face of powering on is the end face of grandson's electrode, and the end face of described grandson's electrode has sealing groove, and described sealing-ring is embedded in described sealing groove.

On described female battery lead plate with or sub-electrode is housed, sub-electrode is equipped with grandson's electrode, the face of powering on is the end face of grandson's electrode, and described sealing-ring to be supported on female battery lead plate and to be centered around the periphery of sub-electrode and grandson's electrode.

Described processed board clamping device comprises pressing plate, governor lever, spring, operating nut, insulating positioning sleeve, inner ring and insulating washer, described pressing plate is located at the top of governor lever, spring is nested with on governor lever, operating nut is screwed on governor lever, described female battery lead plate has open holes, insulating positioning sleeve and inner ring are housed in open holes, the shaft of governor lever to be inserted in inner ring and to be slidably matched with inner ring, one end and the pressing plate of described spring offset, the other end and inner ring offset, operating nut is by insulating washer and insulating positioning sleeve, the bottom of inner ring and female battery lead plate offsets.

In order to reach above-mentioned second object, technical scheme of the present invention is: a kind of method of powering on to the processed plate of electrolytically etching,

Adopt the electrode device described in above-mentioned any one, sealing-ring is set around the face that powers on of electrode device;

The lower surface of processed for electrolytically etching plate is pressed mutually with sealing-ring, and the lower surface of the processed plate of electrolytically etching and the face of powering on are kept in touch, the face that powers on of electrode device and electrolytically etching liquid separate by sealing-ring, and the electricity on described electrode device is conducted on the processed plate of electrolytically etching by the face of powering on.

After adopting said structure and method, owing to arranging sealing-ring around the face that powers on of electrode device; The lower surface of processed for described electrolytically etching plate is pressed mutually with sealing-ring, and the processed plate lower surface of electrolytically etching and the face of powering on are kept in touch, the face that powers on of electrode device and electrolytically etching liquid separate by sealing-ring, therefore electrode device consumption can be avoided, electrode device can use for a long time, significantly reduce production cost, improve equipment use efficiency, be convenient to batch production.

Accompanying drawing explanation

The present invention is further detailed explanation for the embodiment provided below in conjunction with accompanying drawing.

Fig. 1 is the structure schematic front view of electrode device of the present invention first embodiment;

Fig. 2 is the vertical view of Fig. 1 (add and be decorated with the processed plate of electrolytically etching);

Fig. 3 is the left view of Fig. 1;

Fig. 4 is the A-A sectional view of Fig. 2;

Fig. 5 is the B-B sectional view of Fig. 2;

Fig. 6 is the structure schematic front view of electrode device of the present invention second embodiment;

Fig. 7 is the structure schematic front view of electrode device of the present invention 3rd embodiment;

Fig. 8 is the structure schematic front view of electrode device of the present invention 4th embodiment;

Fig. 9 is the structure schematic front view of electrode device of the present invention 5th embodiment;

Figure 10 is the structure schematic front view of electrode device of the present invention 6th embodiment;

The structure schematic front view of Figure 11 electrode device of the present invention 7th embodiment;

Figure 12 is the structure schematic front view of electrode device of the present invention 8th embodiment;

Figure 13 is the structure schematic front view of electrode device of the present invention 9th embodiment;

Figure 14 is the structural representation of the grandson's electrode in Fig. 4;

Figure 15 is the structural representation of the sub-electrode in Fig. 4;

Figure 16 is the structural representation of pressing plate in Fig. 4 and governor lever;

Figure 17 is the left view of Figure 16;

Figure 18 is the vertical view of Figure 16.

Embodiment

As shown in Fig. 1 ~ 5, electrode device of the present invention, comprises female battery lead plate 1,

Described female battery lead plate 1 is electrically connected the face 5 that powers on, and the periphery in the face 5 that powers on is provided with sealing-ring 8,

The end face of described sealing-ring 8 when not being stressed, the end face of sealing circle 8 higher than the surface in the face of powering on 5,

On described female battery lead plate 1 or side is provided with processed board clamping device 6.

As shown in Fig. 5,14,15, in first embodiment of the present invention, on described female battery lead plate 1 with or sub-electrode 2 is housed, grandson's electrode 3 sub-electrode 2 is equipped with, the face 5 that powers on is the end face of grandson's electrode 3, described female battery lead plate 1 is equipped with insulating support plate 4, insulating support plate 4 has sealing groove 9, described sealing-ring 8 is embedded in sealing groove 9.

As shown in Fig. 5,14,15, on described female battery lead plate 1 except with the joint face of sub-electrode 2 except other surface all there is electric insulation layer, on described sub-electrode 2 except with the joint face of female battery lead plate 1 and grandson's electrode 3 except other surface all there is electric insulation layer, on described grandson's electrode 3 except with the joint face of sub-electrode 2 and the end face of grandson's electrode 3 except other surface all there is electric insulation layer.

The benefit that other surface except the joint face between female battery lead plate 1, sub-electrode 2, grandson's electrode 3 on above-mentioned electrode device has electric insulation layer is: other surface described can completely cut off with the contact of electrolytic solution and not by electrolytically etching, its result of use and sealing-ring similar, and make the longer service life of whole electrode device.

Described insulation layer can be electrical isolation enamelled coating, also can be electrically insulating plastic material layer, or other suitable electrically insulating material tectum.

As shown in Figure 6, electrode device of the present invention second embodiment, described in the face 5 that powers on are regions on female battery lead plate 1, have sealing groove 9 around the face that powers on 5 on female battery lead plate 1, described sealing-ring 8 is embedded in described sealing groove 9.

As shown in Figure 7, electrode device of the present invention 3rd embodiment, described in the face 5 that powers on are regions on female battery lead plate 1, female battery lead plate is lined with mounting plate 71 time, and described sealing-ring 8 to be supported on mounting plate 7 and to be centered around the periphery of female battery lead plate 1.

As shown in Figure 8, electrode device of the present invention 4th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, the face 5 that powers on is the end face of sub-electrode 2, and the end face of described sub-electrode 2 has sealing groove 9, and described sealing-ring 8 is embedded in described sealing groove 9.

As shown in Figure 9, electrode device of the present invention 5th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, the face 5 that powers on is the end face of sub-electrode 2, and described sealing-ring 8 to be supported on female battery lead plate 1 and to be centered around the periphery of sub-electrode 2.

As shown in Figure 10, electrode device of the present invention 6th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, the face 5 that powers on is the end face of sub-electrode 2, described female battery lead plate 1 is equipped with insulating support plate 4, the end face of described sub-electrode 2 has heavy stand, surrounds sealing groove 9 between described heavy stand and insulating support plate 4, described sealing-ring 8 is embedded in described sealing groove 9.

As shown in figure 11, electrode device of the present invention 7th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, the face 5 that powers on is the end face of sub-electrode 2, described female battery lead plate 1 is equipped with insulating support plate 4, insulating support plate 4 has sealing groove 9, described sealing-ring 8 is embedded in described sealing groove 9.

As shown in figure 12, electrode device of the present invention 8th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, grandson's electrode 3 sub-electrode 2 is equipped with, the face 5 that powers on is the end face of grandson's electrode 3, and the end face of described grandson's electrode 3 has sealing groove 9, and described sealing-ring 8 is embedded in described sealing groove 9.

As shown in figure 13, electrode device of the present invention 9th embodiment, on described female battery lead plate 1 with or sub-electrode 2 is housed, grandson's electrode 3 sub-electrode 2 is equipped with, the face 5 that powers on is the end face of grandson's electrode 3, and described sealing-ring 8 to be supported on female battery lead plate 1 and to be centered around the periphery of sub-electrode 2 and grandson's electrode 3.

As Fig. 1, 2, 3, 5, 16, 17, shown in 18, described processed board clamping device 6 comprises pressing plate 6-1, governor lever 6-2, spring 6-3, operating nut 6-4, insulating positioning sleeve 6-5, inner ring 6-6 and insulating washer 6-7, described pressing plate 6-1 is located at the top of governor lever 6-2, spring 6-3 is nested with on governor lever 6-2, operating nut 6-4 is screwed on governor lever 6-2, described female battery lead plate 1 has open holes 11, insulating positioning sleeve 6-5 and inner ring 6-6 is housed in open holes 11, the shaft of governor lever 6-2 to be inserted in inner ring 6-6 and to be slidably matched with inner ring 6-6, one end and the pressing plate 6-1 of described spring 6-3 offset, the other end and inner ring 6-6 offset, operating nut 6-4 is by insulating washer 6-7 and insulating positioning sleeve 6-5, the bottom of inner ring 6-6 and female battery lead plate 1 offsets.

Certainly, also open holes 11 can be established, to install processed board clamping device 6 by female battery lead plate 1 or on the mounting plate 7 of bottom; such as; in second and third embodiment of the present invention, just have such example, these changes all should within protection scope of the present invention.

As shown in Fig. 1 ~ 13, a kind of method of powering on to the processed plate of electrolytically etching of the present invention,

Adopt the electrode device described in above-mentioned any one, sealing-ring 8 is set around the face that powers on 5 of electrode device;

By the lower surface of processed for electrolytically etching plate 10 and sealing-ring 8 phase pressure, and the lower surface of the processed plate 10 of electrolytically etching is kept in touch with the face 5 that powers on, the face that powers on 5 of electrode device separates with electrolytically etching liquid by sealing-ring 8, and the electricity on described electrode device is conducted on the processed plate 10 of electrolytically etching by the face of powering on 5.

Claims (13)

1. an electrode device, comprises female battery lead plate (1), it is characterized in that:

A, described female battery lead plate (1) are electrically connected the face (5) that powers on, and the periphery of the face that powers on (5) is provided with sealing-ring (8),

The end face of b, described sealing-ring (8) when not being stressed, the end face of sealing circle (8) higher than the surface of the face of powering on (5),

On c, described female battery lead plate (1) or side is provided with processed board clamping device (6).

2. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, grandson's electrode (3) sub-electrode (2) is equipped with, power on the end face that face (5) is grandson's electrode (3), described female battery lead plate (1) is equipped with insulating support plate (4), insulating support plate (4) has sealing groove (9), described sealing-ring (8) is embedded in sealing groove (9).

3. electrode device according to claim 2, it is characterized in that: on described female battery lead plate (1) except with the joint face of sub-electrode (2) except other surface all there is electric insulation layer, on described sub-electrode (2) except with the joint face of female battery lead plate (1) and grandson's electrode (3) except other surface all there is electric insulation layer, on described grandson's electrode (3) except with the joint face of sub-electrode (2) and the end face of grandson's electrode (3) except other surface all there is electric insulation layer.

4. electrode device according to claim 1, it is characterized in that: described in the face (5) that powers on be a region on female battery lead plate (1), the face that powers on (5) on female battery lead plate (1) has sealing groove (9) around, and described sealing-ring (8) is embedded in described sealing groove (9).

5. electrode device according to claim 1, it is characterized in that: described in the face (5) that powers on be a region on female battery lead plate (1), be lined with mounting plate (7) under female battery lead plate (1), described sealing-ring (8) is supported on mounting plate (7) and goes up and the periphery being centered around female battery lead plate (1).

6. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, power on the end face that face (5) is sub-electrode (2), the end face of described sub-electrode (2) has sealing groove (9), described sealing-ring (8) is embedded in described sealing groove (9).

7. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, power on the end face that face (5) is sub-electrode (2), and it is upper and be centered around the periphery of sub-electrode (2) that described sealing-ring (8) is supported on female battery lead plate (1).

8. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, power on the end face that face (5) is sub-electrode (2), described female battery lead plate (1) is equipped with insulating support plate (4), the end face of described sub-electrode (2) has heavy stand, surround sealing groove (9) between described heavy stand and insulating support plate (4), described sealing-ring (8) is embedded in described sealing groove (9).

9. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, power on the end face that face (5) is sub-electrode (2), described female battery lead plate (1) is equipped with insulating support plate (4), insulating support plate (4) has sealing groove (9), described sealing-ring (8) is embedded in described sealing groove (9).

10. electrode device according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, grandson's electrode (3) sub-electrode (2) is equipped with, power on the end face that face (5) is grandson's electrode (3), the end face of described grandson's electrode (3) has sealing groove (9), and described sealing-ring (8) is embedded in described sealing groove (9).

11. electrode devicies according to claim 1, it is characterized in that: on described female battery lead plate (1) with or sub-electrode (2) is housed, grandson's electrode (3) sub-electrode (2) is equipped with, power on the end face that face (5) is grandson's electrode (3), and it is upper and be centered around the periphery of sub-electrode (2) and grandson's electrode (3) that described sealing-ring (8) is supported on female battery lead plate (1).

12. electrode devicies according to claim 1, it is characterized in that: described processed board clamping device (6) comprises pressing plate (6-1), governor lever (6-2), spring (6-3), operating nut (6-4), insulating positioning sleeve (6-5), inner ring (6-6) and insulating washer (6-7), described pressing plate (6-1) is located at the top of governor lever (6-2), spring (6-3) is nested with on governor lever (6-2), operating nut (6-4) is screwed on governor lever (6-2), described female battery lead plate (1) has open holes (11), insulating positioning sleeve (6-5) and inner ring (6-6) are housed in open holes (11), the shaft of governor lever (6-2) to be inserted in inner ring (6-6) and to be slidably matched with inner ring (6-6), one end and the pressing plate (6-1) of described spring (6-3) offset, the other end and inner ring (6-6) offset, operating nut (6-4) is by insulating washer (6-7) and insulating positioning sleeve (6-5), the bottom of inner ring (6-6) and female battery lead plate (1) offsets.

13. 1 kinds of methods of powering on to the processed plate of electrolytically etching, is characterized in that:

Adopt the electrode device as described in any one of claim 1 ~ 12, sealing-ring (8) is set around the face that powers on (5) of electrode device;

The lower surface of processed for electrolytically etching plate (10) is pressed mutually with sealing-ring (8), and the lower surface of the processed plate of electrolytically etching (10) is kept in touch with the face (5) that powers on, the face that powers on (5) of electrode device and electrolytically etching liquid separate by sealing-ring (8), and the electricity on described electrode device is conducted on the processed plate of electrolytically etching (10) by the face of powering on (5).