SU1201915A1 - Fuse - Google Patents

Abstract

A FUSE FUSE containing an insulating body filled with a filler, current-carrying leads, fusible elements located perpendicular to the longitudinal axis of the insulating body, and intermediate electrodes connecting the fusible elements, characterized in that in order to increase the reliability of operation, increase the rated current and downsizing, it is equipped with an additional output and is insulating. The element, the fusible elements are connected by intermediate electrodes into two groups, each of which is fusible. with one of the intermediate electrodes, one end is connected to the current lead and the other end, via the other intermediate electrode, to the additional lead, these groups of fusible elements are located in two adjacent chambers formed in an insulating body and separated from one another by a combined partition, consisting of an additional terminal and an isolation element, the length of the additional terminal being more than half and not less than one-third of the length of the clod (L of the binirovanny partition , and both the current lead outputs and the auxiliary lead are made with forced cooling. to about sd

Description

The invention relates to electrical engineering, to low-voltage electrical equipment, in particular, to fuses.

The purpose of the invention is to increase the reliability of operation, to increase the nominal current and to reduce overall dimensions.

The drawing presents the fuse design.

The fuse consists of an insulating body 1 filled with a filler ... (not shown), current-carrying terminals 2 and 3, fusible elements 4 and 5, intermediate electrodes 6-9, additional terminal 10, insulating section 11 and nozzles 12-17 for connection to a forced cooling system. In order not to darken the drawing, the fuse covers are not shown.

The insulating body 1 may be made of a heat-resistant material, for example, porcelain, ultra-porcelain, fiberglass or plastics. The power supply terminals 2 and 3 are made, for example, of copper or aluminum, they are arranged parallel to each other and perpendicular to the longitudinal axis of the fuse.

The fuse elements of the fuse are divided into two groups 4 and 5 and are made, for example, from silver, copper or aluminum. Groups of fusible elements 4 and 5 are located in the two adjacent chambers formed in the insulating body 1 and separated from one another by a combined partition consisting of the insulating section 11 and the section of the additional terminal 10.

A group of fuse elements 4 connected in parallel with each other is connected to the current supply terminal 2 via an intermediate electrode on the one hand, and to an additional output 10 via an intermediate electrode 7 on the other hand. A group of fuse elements 5 connected in parallel with each other is connected to the current supply terminal 3 through the intermediate electrode 8, and on the other hand - to the additional output 10 through the intermediate electrode 9.

Thus, both groups 4 and 5 of fusible elements are connected in series between the current lead pins 2 and 3. Groups 4 and 5 of fusible elements are located in adjacent chambers separated by a combined partition consisting of additional terminal 10 and insulating section 11. Additional terminal 10 is made of the same material as the current lead pins 2 and 3, i.e. from copper or aluminum. The insulation section 11 is made of the same material as the housing 1, i.e. from porcelain, ultrafarcera, fiberglass.

Insulation section 11 provides electrical and other types of insulation for fusible elements of groups 4 and -5, electrical

the potentials of which are significantly different.

The end faces of the current lead pins 2 and 3 and the additional lead 10 are connected to nozzles 12-17, which ensure that the fuse is connected to the forced cooling system.

One of the important objectives of the invention is to reduce the size of the fuse (the size of the fuse in the longitudinal direction), i.e. the distance between the current lead pins 2 and 3, measured along the longitudinal axis of the fuse.

This fuse is intended

to protect the power semiconductor valves, the so-called tablet structure, and the design of the fuse is rigidly associated with the design of the semiconductor valve. In particular, it is required that the cross-sectional dimensions of the thyristor and the fuse be the same. For example, one of the newest thyristors with a rated current of 1250 A has an outer diameter of 110 mm.

Obtaining an appropriate fuse with the same diameter is not particularly difficult. At the same time, the height of the washer of the same thyristor is 26 mm and the fuse for this thyristor should not be measured in the longitudinal direction, much greater than

0 26 mm. This is due to the action of at least two factors: with a large length of the fuse assembled in one unit together with the thyristor, the conditions for cooling the fuse and to a certain extent the thyristor deteriorate significantly; when the fuse length is long, the filling factor of the converter unit cabinet and other design indicators are significantly deteriorated. However, if you effectively use the available space

Q in the transverse direction, by properly positioning the fuse elements in it, it will be possible to satisfy fairly stringent requirements in terms of the dimensions of the fuse. The fusible fuse elements are divided into two consecutively connected groups located in adjacent chambers. This arrangement of the elements almost halves the length of the fuse compared with the known.

At the same time, due to this arrangement, some (20-30%) increase in the cross section of the fuse is quite acceptable from the point of view of satisfying the above mentioned requirements.

 The arrangement of the elements in the vertical parallel regions allows the cross section to be obtained in order to obtain a predetermined value of the rated current and efficient use of the volume of the housing. With

Claims (1)

FUSE, containing an insulating casing filled with filler, current-carrying leads, fusible elements perpendicular to the longitudinal axis of the insulating casing, and intermediate electrodes connecting fusible elements, characterized in that, in order to increase the reliability of operation, increase the rated current and reduce the size , it is equipped with an additional output and an insulating element, fusible elements are connected by intermediate electrodes in two groups, in each of which fusible elements with by the power of one of the intermediate electrodes, at one end are connected to the current-supplying terminal, and at the other ends through the other intermediate electrode, to the additional terminal, these groups of fusible elements are located in two adjacent chambers formed in an insulating casing and separated from each other by a combined partition consisting of an additional terminal and an insulating member, wherein the length _with additional output is more than half the aisle and at least one third of the combined length of the partition and both Toko odvodyaschih O and additional pin arranged to forced cooling.