DE1127473B - Electrical multiple capacitor - Google Patents

Description

Electrical multiple capacitor They are so-called folded capacitors known, which in contrast to the known wound capacitors from a. zigzag made of folded foil. In known electrolytic capacitors constructed in this way the folded packages are pressed together and with common power supply lines that touch all of the folds.

Often there is a need, especially with electrolytic capacitors, accommodate two or more partial capacitors in a common housing. this can only be achieved in the known folded capacitors that the film from two elongated assignments and one of these by a strip dielectric material separate common opposing occupancy is formed and that intermediate contacts are used to connect the assignments. These intermediate contacts are often a source of error and also require additional space.

In contrast, according to the invention, there is an electrical multiple capacitor with two partial capacitors, made of a zigzag folded sheet of the specified Kind is constructed, characterized in that the film in the middle of its length is folded over in a U-shape by the apex of a fold so that the apex of this Fold comes to lie inwards and that the separation point between the two partial assignments lies at the outer vertex of a fold.

Since in this construction the connections of the assignments are the same Side of the foil package come to rest, these connections can be used at the same time Hold and fix the packages are used. Preferably, the film is with their both ends attached to a cover made of insulating material. The fastening devices carry terminals for electrical connection each with a partial assignment, and the two ends the common counter-assignment are led to a third connection terminal.

The multiple capacitor according to the invention is special. advantageous for balanced circuits where symmetrical partial capacities are required are. If here the connection point between the two partial assignments at the outside The vertex of the U-shaped fold lies, so, is a completely symmetrical structure and thus a perfect adjustment is guaranteed. The aging of the electrolyte Temperature influences and the like act on both partial capacitors in exactly the same way Wise one.

Some embodiments of multiple capacitors according to the invention are now described with reference to the drawing. In the drawing, Fig. 1 is a schematic one Cross section of a piece of the capacitor film, FIG. 2 is a schematic cross section a partially disassembled capacitor arrangement using a foil according to FIG 1, the folds being pulled apart for the sake of clarity, FIG. 3 a representation of the electrical arrangement of the capacitor according to FIG. 2 and FIG. 4 is a view similar to FIG. 2 of a modified capacitor.

In the manufacture of the capacitors according to the invention, first the capacitor foil folded in a known manner. This capacitor film in an electrolytic capacitor comprises an aluminum foil as cathode, a gauze or paper strips as an electrolyte carrier and a gauze strip sprayed with aluminum, that serves as the anode, in that order. The latter strip can be made up of two Layers of gauze exist. This arrangement appears in alternating directions on fold lines bent, which are about the width of the strip apart, so that gives the indicated zigzag or harmonic shape. The assembly is then immersed in an electrolyte dipped and formed an oxide layer on the gauze sprayed with aluminum.

According to the invention, a piece of the folded material is in the correct Cut to length. This piece is shown schematically in Fig. 1® the simple aluminum foil, 11 the liner Paper or Gauze and 12 the gauze layer with the formed aluminum cover. The cuts are guided on the fold lines, both on the same edge of the assembly. Further becomes a short length of the anode strip 12 at a bow of a fold of the strip cut out, - z :. B. by. Sections 13 and 14 in Fig. 1. In this example these cuts are made at the central position of the arrangement.

The arrangement will. bent in the heat around an axis passing through the vertex of a fold goes through the edge opposite the edge, at which the ends of the strip lie. It is advantageous if this axis passes through the middle layer at 15.

The arrangement is bent over by 180 ° so that it assumes an approximately U-shaped shape and the apex of this fold comes to lie inward, as shown in FIG. The two ends of the cathode foil 10 are fastened to one another and to an insulating strip 16 by means of a rivet 17, which is also used to attach a soldering lug 18. The ends of the two parts 12 a and 12 b are attached to the strip 16 with rivets 19 and 20 , which also carry solder tails 21 and 22. The arrangement is accommodated in a rectangular housing 23 with the insulating strip attached. This housing can be made of aluminum, in which case a liner 24 made of paper or a similar insulator can be used. The strip 16 can be made of hard paper with a sealing layer of synthetic rubber or the like. It also serves as the cover of the housing. Instead, the housing 23 can be made of an insulating material such as polyethylene and the strip 16 can be made of the same material. In the former case, the housing can be sealed by flanging its edges. In the latter case, welding can be carried out.

From Fig. 2 it can be seen that the strips 12a and 12b are electrical are isolated from each other. The electrical arrangement is shown in Fig. 3 d. H., the two capacitors have a common opposite assignment 10. In the arrangement According to FIG. 2, this assignment is the common cathode; however, it could also be a common anode can be made by changing the position of the strips 10 and 12 in Fig. 1 is swapped. The end. 1 and 2 it can also be seen that the two Parts 12a and 12b of the strip 12 have the same length and area. Since they are formed in the described method with preferably the same voltage, they have about the same capacity.

If this is not what you want, you can. modified the construction that the two parts have different capacities. So it is when you look at it 1 possible, the interruption 13, 14 in the strip 12 in the same way as not in the middle beforehand, but in a different place and make the arrangement to bend the top of the same layer. This would have the disadvantage that several Number of layers in the two parts of the arrangement on each side of the bending point would be present. whereby the housing space would not be used .. If 'different If large capacities are desired, the interruption is therefore preferred in the strip 12 by cuts 25, 26 (Fig. 1) on opposite sides of the Part of a fold on the same edge as the ends of the strips lie.

As before, the arrangement is bent symmetrically around the axis 15, so that the shape of FIG. 4 results. The two parts of the strip 12 that in Fig. 4 with 12 c and 12 d, are without the use of additional insulating means isolated from each other, and you get the same space-saving arrangement as in Fig. 2.

In FIGS. 1, 2 and 4, the strip thickness is not given to scale. The number of layers changes with the desired capacity. Furthermore, when inserting in the housing the folded material is compressed so that the adjacent surfaces touch each other. If more than two capacitors in a common housing are to be accommodated, additional wraps can be used on request.

Claims (3)

PATENT CLAIMS: 1. Electrical multiple capacitor with two partial capacitors, consisting of one of two elongated assignments. and one of these through a strip of dielectric material separated common sheet formed, which is folded in a zigzag shape, characterized in that the film is in the middle its length is folded over in a U-shape through the apex of a fold so that the apex this fold comes to lie inwards and that the dividing point between the two Partial assignments are located on the outer vertex of a fold. 2. Multiple capacitor according to claim 1, characterized in that in the case of symmetrical partial capacitances Separation point between the two partial assignments on the outer vertex of the U-shaped Folding lies. 3. Multiple capacitor according to claim 1 or 2 with a housing and a cover for the same, characterized in that the film with its two Ends at the one out. Insulating material is attached to the existing cover and that the Fastening devices, terminals for electrical connection, each of a partial occupancy wear and the two ends of the common opposite assignment to a third connection terminal are led. Documents considered: German Patent No. 907 806; British Patent No. 483,480; U.S. Patent No. 2,703,857: