CN1039140C - Chemical formation container for containing the lead wire terminals of electrolytic capacitors - Google Patents

Abstract

A cylindrical container of non-magnetic material is provided with funnel-like baffle press-fitted in the cylindrical container with its reduced diameter end put on the bottom of the cylindrical container so that plurality of lead wire terminals, can be smoothly guided along the tapering wall of the funnel-like baffle to be converged and collected together. When the container containing the lead wire terminals is turned upside down, and when a magnet electrode is put on the bottom of the container to attract the lead wire terminals, the flattened aluminum sections of all lead wire terminals will be put in good alignment on same level.

Description

The electrochemistry of the ccontaining electrolytic condenser lead-in wire electrode container of energizing

The electrochemistry that the present invention relates to be used for the lead-in wire electrode of the ccontaining electrolytic condenser improvement of (chemical formation) container and associated components of energizing.

As shown in Figure 7, lead-in wire electrode 14 comprises a lead-in wire 13 and the aluminum steel 12 that is welded on the lead-in wire, and a flat part 11 is wherein arranged on the aluminum steel 12.Need be until the joint generation one deck oxide film of aluminum steel 12 on aluminum steel 12 with lead-in wire 13.The container of energizing of electrochemistry has for this purpose used wire clamp 36, has many lead-in wire electrodes 14 to insert in its corresponding holes 35 on the anchor clamps 36.

Lead-in wire electrode 14 is inserted into the degree of depth that inserts in the hole of wire clamp 36 for be stuck in the edge of the patchhole of wire clamp 36 up to its flat part 11, and like this, the end of the flat part 11 of lead-in wire electrode 14 just is arranged on the same level.Then, lead-in wire 13 is pressed between the conduction brush of groove 37 on the wire clamp 36 and propulsion unit 38, propulsion unit 38 links to each other with the positive pole of power supply 39, and another electrode links to each other with the negative pole of power supply 39, and impregnated in electrochemistry and energize in the treatment solution 41.

Yet, because it is bad that the conduction brush of propulsion unit 38 and going between comes in contact between 13 easily, make the processing of energizing of the incomplete electrochemistry of flat part 12 generations link to each other with this lead-in wire 13, cause to produce electrical spark between lead-in wire and the conduction brush, or, make lead-in wire 13 from wire clamp 36, come off owing to impose on the thrust deficiency of lead-in wire.In addition, lead-in wire being inserted in the hole deeply also is a loaded down with trivial details job.This all is its weak point.

In order to address the above problem, Japanese Patent Application Publication No.24 has disclosed a kind of cup-shaped receptacle made from nonmagnetic substance in 852/1992.As shown in Figure 8, many lead-in wire electrodes 14 are placed cup-shaped receptacle 42, then a magnetic pole 43 is placed the bottom of cup-shaped receptacle 42, electrode 14 attracts in cup-shaped receptacle 42 bottoms going between.Cup-shaped receptacle 42 is inverted, is energized in the treatment solution so the flat part 11 of lead-in wire electrode 14 just suspends and impregnated in electrochemistry.

As previously mentioned, lead-in wire electrode 14 comprises a ligament 13 and a wide and flat aluminum steel 12.In cup-shaped receptacle 42, even the flat part of many lead-in wire electrodes 14 is closely arranged, can closely not contact mutually between the lead-in wire 13 of lead-in wire electrode 14 yet, can leave bigger space between the lead-in wire 13.Some lead-in wire electrode 14 can be inclined in the cup-shaped receptacle 42 between other axial lead-in wire electrodes, shown in " A " among Fig. 8.At this moment, the flat part 11 of tilting lead-in wire electrode 14 just can not impregnated in the solution, therefore, also energizes with regard to not carrying out electrochemistry effectively on flat part 11.

One of purpose of the present invention provides the cup-shaped receptacle that a kind of electrochemistry that is used for the lead-in wire electrode of electrolytic condenser is energized and handled, lead-in wire electrode in this container can not produce undesirable inclination and make the flat part of the lead-in wire electrode in the container be in state of disarray, thereby avoided the processing of energizing of the incomplete electrochemistry of lead-in wire electrode.

In order to achieve the above object, the invention provides a kind of electrochemistry that is used for electrolytic condenser lead-in wire electrode container of energizing, comprise a container that made by nonmagnetic substance, upper opening and a funnel shaped baffle plate that is assemblied in the described drum ladle, the baffle plate small-caliber end is positioned at the bottom of described drum ladle.

According to the electrochemistry of the present invention container of energizing, comprise that made by nonmagnetic substance a, upper opening and bottom have the drum ladle of water vent, have the doline baffle plate of notch with a small-caliber end periphery, described doline baffle plate is assemblied in the described drum ladle, make described water vent be positioned at the above the periphery of doline baffle plate small-caliber end of base plate, like this, the solution in the described drum ladle just can be discharged in described notch and water vent.

According to the electrochemistry of the present invention container of energizing, described doline baffle plate is assemblied in the described drum ladle, and baffle plate bottom small-caliber end places the bottom of described container, and baffle plate top heavy caliber end fits on the inwall of described drum ladle.

According to the electrochemistry of the present invention container of energizing, the top heavy caliber end of described doline baffle plate integrally is connected with an annular lip, and described annular lip fits on the inwall of described drum ladle.

According to the electrochemistry of the present invention container of energizing, described doline baffle plate bottom integrally is associated with a base plate for small-bore section, makes it disk-shaped.

According to the electrochemistry of the present invention container of energizing, described doline baffle plate is an aluminum.

Because energizing, electrochemistry assembled the doline baffle plate in the container, a large amount of lead-in wire electrodes are under the guiding of doline baffle plate conical wall, locate reposefully, like this, these lead-in wire electrodes are by boundling and concentrating in together, avoided in traditional cup-shaped receptacle as shown in Figure 8 some lead-in wire electrode upright, some electrode incline that goes between, and the flat aluminum portions on the lead-in wire electrode is remained on the same level, thereby it is identical to make the lead-in wire electrode impregnated in the degree of depth that electrochemistry energizes in the treatment soln, avoid producing the possibility of underproof lead-in wire electrode, therefore improved the quality that the electrochemistry on the lead-in wire is energized.

For aforesaid, comprise having the drum ladle that upper opening and bottom have water vent, and the electrochemistry that described water vent is positioned at the periphery of the above doline baffle plate small-caliber end of the base plate container of energizing, need not the lead-in wire electrode is shifted out container, just washing water can be discharged from the water vent of the notch of doline baffle plate and container bottom, therefore, easy and simple to handle.The water vent of container bottom is hidden by the doline baffle plate, and therefore, the lead-in wire electrode can not pass these water vents.

Further,, the doline baffle plate closely is assemblied in the container, between doline baffle plate and container wall, does not have the space, make the lead-in wire electrode can not insert therebetween according to the electrochemistry of the present invention container of energizing.The lower open end of doline baffle plate places container bottom, and like this, magnetic force can pass nonmagnetic container bottom and directly act on the lead-in wire electrode, attracts these lead-in wire electrodes that it is steadily fixed.

Further, according to the electrochemistry of the present invention container of energizing, doline baffle plate upper, open end integrally is associated with an annular lip, and the diameter of this annular lip is less than the diameter of drum ladle upper, open end.The doline baffle plate is pressed in the drum ladle, and its flange and drum ladle upper, open end closely cooperate.Therefore, onesize drum ladle is if assembling this flanged doline baffle plate just can be used for the thin footpath electrode that goes between is carried out the electrochemistry processing of energizing.Only need select for use boundless or flanged baffle plate to be fit to the lead-in wire electrode of different thicknesses, just can carry out the electrochemistry processing of energizing to the lead-in wire electrode of different thicknesses with the drum ladle of same size.Use has transportation and the operation that compatible same drum ladle helps container, because less than the operational trouble of bringing because of the container that uses different size.

Further, according to the electrochemistry of the present invention container of energizing, doline baffle plate bottom integrally is associated with a base plate for small-bore section, makes it disk-shaped.

The effect of base plate is an intensity of strengthening baffle plate, and like this, it can not deform when baffle plate is pressed into drum ladle, thereby can not produce the slit because of the baffle plate distortion between baffle plate and the drum ladle wall.

Further, according to the electrochemistry of the present invention processing vessel of energizing, the doline baffle plate is an aluminum.Therefore reduced the cost of container production, this container is thrown aside after can using up.

Other purposes of the present invention and advantage can from following, obtain explanation the preferred embodiment of the present invention as shown in drawings.

Brief Description Of Drawings:

Fig. 1 is the energize sectional view of container of the electrochemistry of one embodiment of the invention;

Fig. 2 is improved doline baffle plate skeleton view;

Fig. 3 has illustrated the mode of using this container for the energize sectional view of container of electrochemistry among Fig. 1;

Fig. 4 has used the energize sectional view of container of the electrochemistry of the doline baffle plate among Fig. 2;

Fig. 5 is the energize sectional view of container of the electrochemistry of using another kind of improved baffle plate;

Fig. 6 carries out the energize diagrammatic cross-section of the mode handled of electrochemistry for using container of the present invention to the lead-in wire electrode;

Fig. 7 carries out the energize diagrammatic cross-section of the mode handled of electrochemistry for using the conventional wire anchor clamps to the lead-in wire electrode;

Fig. 8 carries out the energize diagrammatic cross-section of the mode handled of electrochemistry for using conventional container to a large amount of lead-in wire electrodes.

As shown in Figure 1, for according to one embodiment of present invention, i.e. the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser container 1 of energizing, it comprises drum ladle 2 and doline baffle plate 3, baffle plate 3 will be pressed in the drum ladle 2.Drum ladle 2 is made by nonmagnetic aluminium, and a plurality of water vents 5 are arranged at its bottom 4.

Baffle plate 3 is doline, is made by nonmagnetic aluminium.The diameter of baffle plate upper, open end equates that with the internal diameter of drum ladle 2 baffle plate bottom opening end periphery 6 has a plurality of notches 7.Funnel baffle plate 3 is pressed in the drum ladle 2, just becomes the electrochemistry container 1 of energizing.

As shown in Figure 3, electrochemistry is energized and is equipped with a plurality of lead-in wire electrodes 14 in the container 1.Each lead-in wire electrode 14 comprises aluminum steel 12 that has flat part 11 and the lead-in wire 13 that is welded on the aluminum steel 12.These lead-in wire electrodes 14 are placed the electrochemistry container 1 of energizing, and its 13 ends that go between are positioned at the bottom of container 1, and its flat part 11 is positioned at the top of container 1 and exceeds the top of container 1.

As shown in Figure 6, with placing one group of electrochemistry on the microscler magnetic pole 21 container 1 of energizing to be inverted, be equipped with a plurality of lead-in wire electrodes in each container 1.Then, magnetic pole 21 is connected on the positive pole of power supply 22.The lead-in wire electrode is attracted to the bottom of each container 1 by magnetic pole 21, and like this, these lead-in wire electrodes just can not come off in container 1.The lead end of leaded electrode 14 all be attracted in the bottom of container 1, therefore, flat part 11 just is arranged on the same level.

All aluminium electrodes 12 all are immersed in electrochemistry in the container 23 and energize in the treatment soln 24.The negative pole of power supply 22 and the electrochemistry treatment soln 24 of energizing communicates, and like this, just the dipping flat part 11 of lead-in wire electrode 14 is carried out the electrochemistry processing of energizing.These flat parts 11 are arranged on the same level.Therefore, the electrochemistry of flat part 12 is energized and is handled also on same level.The two ends of connecting rack 25 have screw 26, and rotary screw 26, the flat part 12 that just can regulate lead-in wire electrode 14 immerse energize the degree of depth in the treatment soln 24 of electrochemistry.

From above-mentioned as can be seen, the inventive method can be very effectively carried out the electrochemistry processing of energizing to a large amount of lead-in wire electrodes 14, and because the sucking action of 21 pairs of lead-in wires of magnetic pole electrode 14, guaranteed that all lead-in wire electrodes arrange regularly, guarantee not have bad contact and irregular location, thereby avoided the processing of energizing of consequent incomplete electrochemistry.

Doline baffle plate 3 is pressed in the drum ladle 2, and therefore, when placing a large amount of lead-in wire electrodes 13 in the drum ladle 2, the level and smooth guide function by means of the taper wall of doline baffle plate can make it locate reposefully, and boundling with concentrate in together.So, can not produce because of using traditional drum ladle, as shown in Figure 8, one or more in the axial lead-in wire electrode are easy to run-off the straight, make the lead-in wire electrode can not all be arranged in the phenomenon on the same level.According to the present invention, doline baffle plate 3 is assemblied in the drum ladle, guarantee that leaded electrode can be arranged on the same level, thereby it is identical to make these lead-in wire electrodes be impregnated into the degree of depth that electrochemistry energizes in the treatment soln, thereby the electrochemistry of the flat part of the electrode 14 of guaranteeing the to go between degree of treatment of energizing is also identical.

In cleaning step, the washing water in the drum ladle 2 will be discharged in the water vent 5 on the base plate 4 of the drum ladle 2 of the notch on the bottom sides of doline baffle plate 37.Therefore, need not to shift out aluminium wire electrode 13 just can clean.In cleaning process, the lead-in wire electrode can not pass water vent 5, because doline baffle plate 3 has hidden water vent 5.

Doline baffle plate 3 is pressed in the drum ladle 2, therefore, need not any binding agent, just baffle plate 3 can be fixed on the container 2.Therefore, the energize assembling of container of electrochemistry is easy.The top periphery of doline baffle plate 3 fits tightly on the inwall of drum ladle 2, does not have the space to exist therebetween, so the lead-in wire electrode can not insert wherein.The doline baffle plate is at bottom opening, and lead-in wire electrode 14 can stand on the bottom of drum ladle 2.Therefore, the magnetic attraction of magnetic pole 21 bottom 4 that can pass drum ladle 2 directly acts on the end of lead-in wire electrode 13.Therefore, leaded electrode can steadily be located.

The lead-in wire electrode size difference that dissimilar electrolytic condenser are required.Energize when handling when thin footpath lead-in wire electrode being carried out electrochemistry, thereby can use the top integrally to have the doline baffle plate that can form ring-shaped area 31 of flange, it is better than and can replaces using above-mentioned boundless doline baffle plate.By the no side guard of transposing with have the baffle plate of flange, just can be with the big or small lead-in wire electrodes of the ccontaining difference of the drum ladle of same size.Use the drum ladle of same or same size can be ccontaining the lead-in wire electrodes of different sizes.From the viewpoint of producing and operating, the compatibility of same drum ladle is used has superiority.

The electrochemistry container 1 of energizing all is an aluminum, compares with the other materials that uses non-aluminium, and it is with low cost.Therefore, the electrochemistry of this type of aluminum container 1 of energizing is suitable for using in batches.Yet drum ladle 2 also can use other nonmagnetic substances except that aluminium to make.In electrochemistry is energized treating processes, do not need electric current in the doline baffle plate 3 or 32 and pass through, therefore, doline baffle plate 3 or 32 need not to have electroconductibility, therefore can make of plastics or other insulating material.

Fig. 5 is improved baffle plate 51, and it is shaped as dish type, it by bottom integrated be connected with that the doline baffle plate of base plate 52 forms.Base plate 52 has been strengthened the intensity of doline baffle plate, therefore, produce distortion in the time of can preventing to be pressed into baffle plate 51 in the drum ladle 2, also just do not have between the inwall of baffle plate 51 and drum ladle 2 baffle plate is pressed in the drum ladle process space that may be produced by distortion, the electrode of therefore just needn't worrying to go between can insert between baffle plate and the drum ladle wall.

In this special embodiment, the electrochemistry container 1 of energizing has baffle plate 3 and water vent 5, but also can have only baffle plate 3.

From as can be seen above-mentioned, according to the present invention, the electrochemistry container of energizing has a doline baffle plate that is pressed in the drum ladle, therefore, a large amount of lead-in wire electrodes can be through the level and smooth guide function of doline baffle plate conical wall and location reposefully, and by boundling with concentrate in together, so, the lead-in wire electrode just can not produce such state of disarray in as shown in Figure 8 traditional drum ladle, and make the flat aluminum portions of leaded electrode well be arranged on the same level.Reach desired horizontal so it is immersed in the degree of depth that electrochemistry energizes in the treatment soln, avoided the processing of energizing of incomplete electrochemistry, almost do not have waste product to produce.

The doline baffle plate of trough of belt mouth has covered the water vent of drum ladle bottom, and the notch of baffle plate communicates the inside of doline baffle plate and the inside of drum ladle, therefore, in rinse cycle, need not the lead-in wire electrode is shifted out container, just the washing water in the drum ladle can be discharged through the notch of doline baffle plate and the water vent of drum ladle.As a result, in rinse cycle, the lead-in wire electrode in the container can thoroughly rinsing under the good order state of maintenance.Water vent is covered by the doline baffle plate, thereby the electrode of just needn't worrying to go between passes water vent.

Claims (10)

1, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser container of energizing, comprise that one is made by nonmagnetic substance, the drum ladle of upper opening and a doline baffle plate that is assemblied in the described drum ladle, wherein the small-caliber end of doline baffle plate places the bottom of described drum ladle.

2, according to the electrochemistry of the lead-in wire electrode of the described ccontaining electrolytic condenser of claim 1 container of energizing, the bottom of the drum ladle of wherein said upper opening has water vent; The small-caliber end periphery of described doline baffle plate has notch, and described doline baffle plate is assemblied in the described drum ladle, so that described water vent is positioned at the above the periphery of doline baffle plate small-caliber end of base plate, thus, the liquid in the drum ladle can be discharged through described notch and water vent.

3, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 1 and 2 container of energizing, wherein said doline baffle plate is assemblied in the described drum ladle, baffle plate top heavy caliber section fits in the inwall of described drum ladle, and the small-caliber end of baffle plate bottom places the bottom of drum ladle.

4, the electrochemistry of the lead-in wire electrode of the ccontaining electrolysis electrical equipment according to claim 1 and 2 container of energizing, the top heavy caliber end of doline baffle plate wherein integrally is associated with an annular lip, and described annular lip fits on the inwall of described drum ladle.

5, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 1 and 2 container of energizing, the bottom of wherein said doline baffle plate integrally is associated with a base plate for small-bore section, makes baffle plate disk-shaped.

6, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 4 container of energizing, the bottom of wherein said doline baffle plate integrally is associated with a base plate for small-bore section, makes baffle plate disk-shaped.

7, according to the electrochemistry of the lead-in wire electrode of claim 1, the 2 or 6 described ccontaining electrolytic condenser container of energizing, wherein said doline baffle plate is an aluminum.

8, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 3 container of energizing, wherein said doline baffle plate is an aluminum.

9, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 4 container of energizing, wherein said doline baffle plate is an aluminum.

10, the electrochemistry of the lead-in wire electrode of the ccontaining electrolytic condenser according to claim 5 container of energizing, wherein said doline baffle plate is an aluminum.

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