JPS59901A - Resistor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] The present invention relates to a novel solid type resistor.

Conventional solid resistors are made by combining carbon powder as a conductive material, inorganic powder as a filler, and a single bonding material, each weighed in a predetermined amount based on data obtained through prototype experiments. One resistor is provided, which is formed by heating and molding a mixture with resin powder. The resistor is generally made of a large number of resistor elements molded by press work, filled into a set of molds, and then heated and molded, and the resistance value varies, so it is not a solid resistor. In manufacturing the device, there was a drawback that it required a lot of effort to select the resistance value.

The present invention was achieved as a result of research into a solid type resistor that can be set to a desired resistance value without requiring any effort to select the resistance value.

An object of the present invention is to provide a solid type resistor having a desired resistance value by incorporating an appropriate number of resistance bases.

The present invention provides a solid type resistor in which 1. A resistor is constructed by inserting an appropriate number of resistor bases each having an electrode on the upper surface with the upper surface thereof facing in the same direction, and a rear end resistor base constituting the resistor. The lower surface of the is pressed by a metal spring protruding from the inner surface of the metal cap provided at the rear end, and the electrode on the upper surface of the resistance base at the front end is in contact with the inner surface of the metal cap provided at the front end, The resistor is a solid type resistor characterized in that the resistor is formed by combining resistor bases up to a predetermined resistance value.

The resistance substrate in the present invention is a mixture of tin oxide or carbon powder, inorganic powder and synthetic resin powder as a conductive material, or a mixture of the above conductive material powder and inorganic powder, or a mixture of the above conductive material powder. A resistive element is obtained by molding a mixture of and synthetic resin powder into a disc or column with a desired diameter and height, placing it in a mold, subjecting it to heating and pressure molding or sintering, and aging. A resistor with an electrode in the center of the upper surface of the resistor, and a resistor of a product resistor (
means a small resistor that constitutes a resistor (having a desired resistance value).

Carbon black is preferably used as the carbon powder, ceramic powder such as porcelain or glass is used as the inorganic powder, and powder of phenol resin or other resin is used as the synthetic resin.

Furthermore, in the present invention, composing a resistor having a desired resistance value by combining resistor bases means, for example, when constructing a resistor having a resistance value of 30Ω, three resistor bases having a resistance value of 10Ω, Resistance value 4.5Ω, 5.5Ω.

This means that a resistor with a desired resistance value is constructed by a combination of resistance bases with the same resistance value, or a combination of resistance bases with different resistance values, such as four resistance bases of 5.0Ω and 15Ω. . It is preferable that the resistor element has the same composition.

Here, an example of manufacturing the resistance base is as follows: (1) Carbon black 151i as a conductive material and ceramic powder 85- as an inorganic substance are homogeneously mixed and pressed to form a band-shaped body of a desired thickness. Then, this strip is punched out to obtain a disk of the desired diameter, and then sintered in a furnace, a silver electrode is attached to the upper surface of the obtained disk, and an aging process is performed. A resistive substrate of 10Ω was obtained by performing the process in a continuous manner.

(2) As a mixed material, 25-s of brewed tin powder and 75s of glass powder are mixed, and IK is obtained by the processing steps described in (1) above.
A resistance substrate of Ω was obtained. Similarly, a mixture of carbon blacks 7 to 20- and plastic powders 93 to 804 was molded under heat and pressure, and subjected to aging treatment to obtain a resistor body.

Next, one embodiment of the present invention will be explained with reference to the drawings.

The drawings show an example of the implementation of the present invention, and FIG. 1 is a longitudinal sectional front view of the present invention, and FIG. 2 is a resistor base according to the present invention, in which (a) is a top view of the resistor base. (b) shows a front view of the resistance base.

In the figure, reference numeral 1 is a solid resistance element that has been heat-molded and aged, and has an outer diameter t that is slightly shorter than the inner diameter of the outer tube 3 and an appropriate height h, and electrodes (A) on the top and sides. 2 is a resistance base provided with an appropriate number of resistors inserted into the outer tube 3 to form a resistor of a product resistor; 2 is provided at the center of the upper surface of the resistor base 1; 3 is an insulating hollow tube into which a ceramic such as porcelain or glass or polyvinyl chloride is inserted, 4 is a hollow tube 3
0 metal caps attached to both ends, 5 lead wire terminals attached to the metal caps 4 attached to both left and right ends, 6 the inner bottom surface of one of the gold striped caps 4 attached to the hollow tube 3. A protruding metal spring that elastically presses the resistance base inserted into the hollow tube 3 and is connected to the metal cap 4 or the metal cap lead wire terminal 5 is shown.

According to the present invention, a resistor that can be freely selected can be obtained by combining an appropriate number of resistor bodies having an appropriate resistance value, and a solid type resistor with good productivity can be obtained. be.

[BRIEF DESCRIPTION OF THE DRAWINGS] The drawings show an example of the implementation of the present invention, and FIG. 1 is a longitudinal sectional front view of the present invention, and FIG. 2 (A) is a top view of the resistor base of the present invention. (b) shows a front view of the resistance base according to the present invention.

Claims (1)

[Claims] In a resistor, a conductive material powder is placed in an insulating hollow tube provided with metal cap lead wire terminals at both ends. Finally, a suitable number of resistance substrates are formed by heating and molding a mixture containing a desired amount of at least one selected from inorganic material powder and synthetic resin powder, and electrodes are provided on the upper surface of the molded product. Jj! is a solid type resistor with a desired resistance value. A resistor characterized in that it is made of a metal.