DE1271794B - Closure that acts as a safety valve for accumulators and stabilization cells - Google Patents

Description

Closure that acts as a safety valve for accumulators and stabilization cells The invention relates to a closure for accumulators which acts as a safety valve and stabilization cells.

The known stabilization cells contain a negative electrode, which consists essentially of cadmium and cadmium oxide, and a positive electrode made of nickel. Both electrodes are through a separator soaked with electrolyte separated and located in a steel cylinder, the one with the negative electrode is conductively connected and forms the negative pole of the cell. The positive pole is led out of the steel cylinder through an insulated seal.

With these stabilization and accumulator cells it is difficult to the closure for a temperature range of -30 to -I-100 ° C gas and liquid-tight to train. In addition, the material used for closure and insulation must be used chemical resistance to the electrolyte enclosed in the cell exhibit. The known insulating materials that can be used in alkaline cells for this purpose consistently have a low elasticity and a low strength relatively large coefficient of thermal expansion.

The upper and lower parts of the above are omitted Temperature range, you can use harder and more elastic plastics that are only chemically resistant at room temperature. Also are by mutual Narrowing the temperature range the expansion differences of the various used Materials so small that they may depend on the elasticity of the plastic can be caught.

Attempts have also been made to fix the insulating material by gluing, To connect sintering or melting with the conductive metal parts. However this approach has not led to satisfactory results either.

It is also a pressure safety device for permanently gas-tight seals Accumulators with diaphragms lying one above the other are known whose rupture pressure increases a certain maximum pressure is coordinated and when it is exceeded come to shreds. Of the two membranes arranged one above the other, there is the the print side. facing membrane made of soft and dense rubber and the outer one thinner membrane made of hard plastic. over the outer membranes is a third Layer of a loosely stored, sound-absorbing substance arranged. The outside one thin membrane is only intended and serves as protection for the soft rubber membrane not to generate a counter pressure. In addition, the well-known seal is only for low pressures suitable and on the other hand not chemically especially against potassium hydroxide solution resistant. The known device is therefore a safety valve with a relatively large overall height, in which both membranes tear when the pressure is high enough.

Furthermore, a closure for drying elements is known in which as Seal a metal washer with a plastic rim is inserted into the housing. Of the The plastic edge only seals under the action of the beaded edge of the housing. at an expansion of the closure under the influence of heat, the plastic expands more than the metal, when it cools the plastic does not return to its original state Lay back so that the seal is imperfect and possibly the electrolyte can escape.

The invention is based on the object for accumulators and stabilization cells to create a seal against the alkaline agent present in the cells resists, causes a high contact pressure on the sealing surfaces and in one wide temperature range is to be used.

The solution to this problem is characterized according to the invention by one soft body facing the inside, one facing the outside elastic, hard body and a rigid support part between this hard body and the housing of the cell, the inner edge of which rests on the hard body and the outer edge of which is supported against a flanged edge of the housing.

In a further embodiment of the invention, the disk-shaped one soft body in the Middle with a tubular neck for one provided conductor. and the support part shaped to be circular rests on the elastic, hard body and against the housing as well as with the aid an insulating ring and a washer is supported against the conductor.

Three embodiments of the invention are shown in the drawing and are described in more detail below. It shows F i g. 1 a shutter an insulating washer, an elastic washer and a wide support ring, F i G. 2 a closure with implementation and FIG. 3 a closure made of an insulating washer, an elastic disc and a narrow support ring.

In the case of the closure according to FIG. 1 rests on a screwed-in step 1 of the housing 2, the insulating, soft and actually sealing body consisting of a disk 3. Above this, viewed from the inside out, the hard, elastic body and the rigid support part 5 are arranged in the form of the disk 4. The support part 5 is a conically pressed, round and flat disk made of rigid material with a central hole, on the inner edge of which the disk 4 rests, while the support part is supported with its outer edge on the housing 2. The round disk 4 is pressed ring-shaped by the inner edge of the rigid support part 5 against the plastic disk 3 and this thereby against the edge of the screwed-in step 1 of the housing 2 to be sealed. The disk 3 made of chemically resistant plastic takes on the sealing, and the smooth, elastic disk 4, for example made of steel, absorbs the overpressure present or arising in the housing by bending outward.

The F i g. Fig. 2 shows the closure of a stabilization cell, which is both serves for the implementation of a conductor as well as for fastening the same. The for Sealing, insulating, soft body is a flat disk 6 which is inserted into the middle is provided with a tubular extension through which the conductor 7 is passed is. The elastic disc 8 is pushed over the tubular extension and lies on the disk 6. The support ring 9 is also pushed over the tubular extension and has previously been deformed so that, firstly, it is circular on the elastic disc 8 rests, secondly is supported against the housing 1 and thirdly with the help of a Isolierringes 10 and a washer 11 is supported against the conductor 7. Since the Head 7 is attached to the disc 11, for example by crimping, forms the whole is a rigid connection; only the elastic disc 8 can be used for Move the pressure compensation under the support ring 9. The elastic is used for this closure Disc 8 in conjunction with the soft disc 6 for sealing the housing and the implementation.

If necessary, the elastic disc with the appropriate Design of the same and the insulating soft body several closure surfaces, d. H. also several bushings and the housing closed at the same time and to be isolated.

The F i g. 3 shows a closure similar to FIG. 1, however with a support part 12, which has a very large hole, so that the elastic Disk 4 is supported on the edge. The other reference symbols have the same meaning as in Fig. 1.

As already mentioned; becomes that which arises in the stabilization cell overpressure due to deformation of the elastic disc 4, in particular due to the deflection balanced outwards. This bending of the disk 4 is shown in phantom in FIG. 3 indicated.

The advantages achieved with the invention are in particular: that the insulating, soft body only takes over the seal, while the elastic Body absorbs the pressure present or arising in the cell through deformation. Now they can be relatively soft, but against the electrolyte in the cell, for example potassium hydroxide, chemically resistant plastics for sealing purposes too can be used at higher temperatures and high gas pressures, although these plastics often have strong thermoplastic properties. So these closures allow the stabilization cells provided with them in the width indicated above Temperature range from -30 to -I-100 ° C to be used. over this entire temperature range the closure is absolutely gas- and liquid-tight. Even if there is no overpressure is present in the cell, exists on the sealing surfaces, due to the hard, elastic disc 4 or 8, a high contact pressure of about 200 kg / cm2. All too differences in expansion due to the different temperature coefficients of various materials within the wide temperature range are made of added to the elastic hard body.

When an overpressure occurs, the internal pressure acts evenly on the entire inner surface of the hard, elastic body, especially on the hard, elastic disc 4 or B. This can in the support part 5 or 12 rigidly supported diameter (inner diameter of the support part) does not give way, but probably at all other points. Therefore, first the inner part of the disc 4 or 8 give in to the internal pressure and bulge outwards, thereby increasing the contact pressure enlarged on the outside of the sealing edge in the housing 2. However, if the internal pressure increases much further, then it is sufficient to cover the outside of the support diameter lying part of the hard, elastic disc 4 or 8, d. H. the outer part the same to lift so that gas can escape from the housing 2. When it slackens the overpressure returns the hard, elastic disc 4 or 8 to its original position back and the cell is tight again.

Due to the elasticity of the disc 4 and the choice of the inside diameter of the support ring 5 or 12, the closure can be adapted to different pressures in the cell will. It can be achieved that the bearing force of the elastic disc with increasing internal pressure increases in a certain fixed ratio, decreases or stays the same. In this way the shutter can be adjusted that the bearing force of the elastic disc is not from a certain pressure on increases more, so that the existing overpressure escape from a certain level can. The closure then acts as a safety valve at the same time.

Because the overpressure in the cell is caused by deformation of the elastic disc 4 or 8 is recorded, this is the deformation, especially the deflection the Disc, for example through a concentric embossing, visible and measurable, like this that the existing overpressure is displayed without interfering with the closure or the housing must be made.

Claims (3)

Claims: 1. As a safety valve acting closure for accumulators and stabilization cells, characterized by a soft body facing the inside (3, 6), an elastic, hard body facing the outside (4,8) and a rigid support part (5,9 ) between this hard body (4, 8) and the housing (2) of the cell, the inner edge of which rests on the hard body and the outer edge of which is supported against a beaded edge (1) of the housing (2). 2. Closure according to claim 1, characterized in that that the disc-shaped soft body (6) in the middle with a tubular Approach for a lead through conductor (7) provided and the support part (9) shaped is that it rests in a circle on the elastic, hard body (8) and against the housing (2) and with the help of the insulating ring (10) and a washer (11) against the conductor (7) is supported. 3. Closure according to claim 1 or 2, characterized in that that the support part (5, 9) is a round flat disc with a central hole and concentric Embossing is. -4. Closure according to one of Claims 1 to 3, characterized in that that the support part (5, 9) is a round flat disc with a central hole and concentric V-shaped embossing is. Publications considered: German Patent Specifications No. 954 889, 964 519; German utility model No. 1715 345; British patent specification No. 667,931; U.S. Patent No. 2,447,493.