DE896386C - Voltage-dependent resistance body, especially for surge arresters - Google Patents

Description

Voltage-dependent resistance body, especially for surge arresters Voltage-dependent resistors are used to dissipate overvoltages. whose resistance value drops sharply when the voltage increases. For this is; it known, substances in grains @ r or. Powder form to use which for the detector construction are suitable, especially silicon carbide, also black lead, red zinc metal, etc. These powdery substances are held together by putty substances "which by a Setting process or burning process with the active powder to form bodies (discs, sticks) are processed. It has also been suggested that glass be used as a cement to use.

The invention relates to voltage-dependent resistance bodies with a glass bond and is that one consisting of resistor powder and glass powder The mixture is heated to the softening temperature of the glass and one in the warm state high pressure. The resistance body according to the invention differs by the simultaneous occurrence. of heat and pressure in its manufacture of the known resistance bodies. Because with these either only pressure is applied, to deform the mixture, or- but it works with resistance bodies, for example Porcelain bond the shaping under pressure prior to the firing process.

The invention provides numerous over the known methods Advantages. When using glass without the application of pressure, the proportion of the resistance material is only slightly dimensioned, furthermore the individual conductors Granules more or less enveloped by the flow of glass; so that the emerging Body has too high a resistance for practical purposes. In addition, results the invention body of high dimensional accuracy and at the same time high mechanical and thermal strength. To be emphasized over the by one; Setting process manufactured bodies. is the resistance of the body of the invention against moisture and the associated high creep resistance.

The characteristics of the resistance can be used in a manner known per se can be influenced by the addition of conductive substances such as metal or graphite powders. The metal particles can be produced by reducing metal compounds present in the glass develop.

The nature of the method according to the invention allows a number of things of constructive measures, which the usability of the arising-.the body increases. The electrodes can be used as metal plates or nets during hot pressing be pressed in in a known manner. When choosing metals from When the glass is wetted, they combine with the resulting resistance body.

The surface of the body can be made insulating. To this Purpose can, pure glass powder be pressed on the surface or to increase mechanical strength with the addition of mica powder. It is also possible; to use a thin glass tube in the mold, which is when hot-pressed welded to the glass powder. The electrode edges can be used in the same way Increase in the resistance to interference can be embedded in insulating material. It can For this purpose, perforated disks made of glass are used, which cover the electrodes at the edge. Finally, protrusions can be made on the periphery of the discs to further increase the rollover strength must be provided. Such bodies can be in the Can be used outdoors.

Slurry use of hard silicon carbide is to be made whenever possible avoid that this comes into contact with the walls of the mold to avoid a too strong to prevent wear and tear of the mold. This is done through the application described of insulating glass powder or glass tubes or disks on the surface or, also achieved by graphitizing the form.

In the drawing, FIG. I shows how the subject of the invention for example can be produced. This is done using a hot press mold i equipped with two plungers: 2 and 3, one of which is fixed can be. A glass tube is inserted into the space between the two pressure pistons 4 and a mixture 5 consisting of resistance powder and glass powder, preferably in the form of pre-pressings. Furthermore, are advantageous at the same time two electrodes 6 and 7 inserted. The resistance body is then under simultaneous Application of heat and pressure completed.

The resistor body according to the invention shown in FIG. 2 is correct essentially the same as that of Fig. i, but with the difference, that from the glass mass 4 lateral projections i i over the circumference of the resistor body protrude.

Claims (7)

PATENT CLAIMS: i. Voltage-dependent resistance body, in particular For surge arresters made from a powdery resistance material, preferably Silicon carbide with a glass bond, characterized in that the. Production of the resistance body from resistance: tandss.toffpulver and glass powder existing.-the mixture is heated to the temperature of the glass and crazy warm condition. a new high pressure is applied. 2. Resistance body according to claim i, characterized in that the supply of heat and the dirt effect on the Mixture. Take place at the same time. 3. Resistance body according to claim i, characterized in that that the resistance material or the binding material or both in the form of pre-presses come to use. 4. Resistance body according to claim i, characterized in that that the connecting electrodes belonging to the resistor body are made of a new metal, which is wetted by the glass, so that the electrodes inserted in the press: forrn during Hot pressing are welded to the resistance body. 5. Resistance body after Claim i, characterized in that the surface of the resistance body consists of Glass powder or Glasglimmeirpulver. Is formed and thus fully insulated. 6. Resistance body according to claim 4 and 5, characterized in that also the Edges of the electrodes are enclosed by the insulating layer. 7. Resistance body make claim i, characterized in that projections made of glass on the circumference. intended and form a unit with the resistance body. B. resistance body after Claim i, characterized in that the resistance body continues to be used is built up by glass tubes or in yoke disks, which are removed during hot pressing weld with the resistor body and essentially the surface of the finished Body form.