SU1026169A1 - Resistor - Google Patents

Abstract

A RESISTOR containing a frame with an “1” on its surface a resistive element in the form of two equidistant resistive elements; “, 13 .... tracks interconnected on the same side of the frame, so that In order to expand the range of resistor values, the frame is made in the form of a flexible dielectric tube with a linearly decreasing cross section in the direction to the connected ends of the resistive tracks, the dielectric tube being made in the form of a toroid consisting of two sections of different diameters The smaller diameter section is located inside the large diameter section.

Description

The invention relates to electrical engineering and can be used to adjust the current of different values. A resistor is known that contains a sealed frame made in the B1 of a tube filled with a substance having a melting temperature below the operating temperature of a resistive element that is spirally wound on a frame (1. However, in a resistor of this design it is impossible to extend the range of resistance values without increasing the size of the frame preserving the manufacturing technology of the resistive element, the closest in technical terms to the proposed is the resistor, the frame holding the frame with the cutting surface located on its surface This element is in the form of two equidistantly arranged screw resistive tracks interconnected on the same side of the frame. The frame is installed on an elastic body and placed in the heat absorbing soil 2. However, this resistor does not expand the range of manufactured resistors without increasing its dimensions. range of resistor values. The goal is achieved by the fact that in a resistor containing a skeleton with a spaced film on its surface a resistive element in the form of two equidistantly located screw resistive tracks connected between each other on one side of the frame, the frame is made in the outer dielectric tube with a linearly decreasing cross section in the direction to the connected ends of the resistive tracks, and the dielectric tube is made in the form of a toroid consisting of two. plots of different diameters, while the area with smaller diameters is located inside the area with large diameters. This resistor design extends the range of the resistor without increasing its size. The drawing shows a resistor with a partial cut / general view. The resistor consists of a frame 1 with a linearly decreasing cross section made of a dielectric tube and rolled into a toroid so that a section of a tube with smaller diameters is located inside a section of a tube with larger diameters. On the surface of frame 1 is applied, a resistance element 2 in the form of two equidistant screw resistive 3 tracks separated by a gap, connected so that their closed ends are inside frame 1, and external open ends 4 are connected to an electrical circuit. The internal cavity of frame 1 is filled with heat-absorbing substance 5, for example, lithium Hzdrite, which has a melting point below the operating temperature of the resistor, which improves the thermal mode of the resistor and improves the stability of the resistor values. Equidistant resistive tracks allow to expand the range of resistor values and reduce inductance. To work effectively, the heat sink of substance 5, the dielectric tube of frame 1 must be made of a material with high conductivity, for example, polymers containing boron nitride.

Claims (1)

A RESISTOR containing a frame with a threading element located on its surface in the form of two equidistant resistive tracks connected to each other on one side of the frame, and so that, in order to expand the range of resistor ratings, the frame made in the form of a flexible dielectric tube * with a linearly decreasing cross section towards the connected ends of the resistive tracks, the dielectric tube being made in the form of. a toroid consisting of two sections of different diameters, while the section with smaller diameters is located inside the section with large diameters.