DE112018004738T5 - resistance - Google Patents

Abstract

A three-terminal type resistor with excellent stability and reliability is provided. The three-terminal type resistor has a first resistor (21), a second resistor (22) and an intermediate terminal (23) connecting the first and second resistors (21, 22). The intermediate connection (23) has a first holding part (23a) and a second holding part (23b) for holding the first and second resistors (21, 22) linearly in the axial direction. The first and second resistors (21, 22) are held with a gap (S) between the first holding part (23a) and the second holding part (23b).

Description

Technical field

The present invention relates to a resistor, and more particularly to a three-terminal resistor with an intermediate terminal in the middle and additional terminals at both ends of the resistor.

background

Typically, a three-terminal type resistor is known in which a wire resistor or wound wire resistor or a metal oxide film resistor is enclosed in a molding compound case or the like. The wire resistor is a resistor in which a resistor wire is wound around a glass core or a ceramic core. The metal oxide film resistor is a resistor in which a metal oxide resistor film is arranged on a ceramic core. With such resistors, flame resistance and large power capacity can be obtained, and in particular, resistors which are excellent in pulse resistance / inrush current preventing function and are suitable for applications such as capacitor balance resistors.

An example of a conventional three-terminal type resistor is shown in FIG 5 shown. A wire 12 is about a core link 11 wrapped, connectors 13 and 14 are provided at both ends, and an intermediate connection 15 is in the middle between the connections 13 and 14 provided (see disclosed Japanese Patent Publication No. S49-78154 ).

A core material can be divided into two core materials that are arranged to face each other, and the wire windings are arranged separately on the two core materials so that separate resistance values can be obtained. There is also a three-terminal type resistor, where cap end faces of two wire resistors are capped and welded, and an intermediate terminal is fixed to the adjacent and welded caps (see Japanese Patent Laid-Open Publication No. 2010-212483).

Summary of the invention

Technical problem

In the conventional three-terminal type resistors, which have a relatively long axial length, the amount of thermal expansion / contraction deviates along the axial position of the resistor. As a result, there was a problem regarding the stability and reliability of the resistance in long-term use.

The invention has been made based on the circumstances described above, and it is an object thereof to provide a three-terminal type resistor which has excellent stability and reliability.

Solution to the problem

The three-terminal type resistor according to the invention has a first resistor, a second resistor and an intermediate terminal that connects the first and second resistors. The intermediate terminal has a first gripping part and a second holding part in order to grip or hold the first and second resistors linearly in the axial direction. And the first and second resistors are held with an interval between the first holding part and the second holding part. The interval or space is preferably formed by a slot.

According to the invention, the first resistor and the second resistor are spaced from each other between the gripping parts of the first resistor and the second resistor of the three-terminal type resistor. Therefore, the first resistor and the second resistor are independent of each other. Thus, in the three-terminal type resistor having a relatively long axial length, the first resistor and the second resistor can expand and contract independently of each other even if the amount of thermal expansion / contraction is different along the axial position of the resistor. Therefore, the problem which arises in the stability and reliability of the three-terminal type resistor during long-term use can be solved, and it becomes possible to provide a three-terminal type resistor of excellent stability and reliability.

Figure list

• 1 Figure 3 is a front view of an embodiment of a three terminal type resistor in accordance with the invention.
• 2nd is at (a) a front view and at (b) a side view of an embodiment of an intermediate connector according to the invention.
• 3rd FIG. 12 is a front view of another embodiment of a three-terminal type resistor according to FIG Invention, and 3rd is a cross-sectional view along a line at (b) AA ' in 3 (a) , and 3rd is a cross-sectional view along a line at (c) BB ' in 3 (a) .
• 4th shows side views of another embodiment of connections according to the invention, wherein 4 (a) shows a step provided between a holding part and a connecting part, and wherein 4 (b) shows a twist that is provided between a holding part and a connecting part.
• 5 Fig. 10 is a front view of a conventional three-terminal type resistor.

Description of exemplary embodiments

Embodiments of the invention are described below with reference to FIGS 1 to 4th described. In the figures, the same or corresponding parts or elements are described with the same reference numerals.

1 shows a three-terminal type resistor according to an embodiment of the invention, and 2nd shows a structural example of an intermediate connection. As in 1 shown, the resistor according to the invention has a first resistor 21st , a second resistance 22 and an intermediate connection 23 that connects the first and second resistors. As the first resistance 21st and the second resistance 22 For example, a wire resistor is used in which a wire is wound on a glass core or a ceramic core, or a metal oxide film resistor in which a metal oxide film is arranged on a ceramic core.

The ends of the first resistance 21st and the second resistance 22 on the opposite side of the intermediate connection 23 are with a connection 24th or with a connection 25th connected so that a total of three-terminal type resistor is formed. The resistor is encapsulated in a cast mass container or the like. The resistor is fire retardant, the resistor has a large power capacity, and the resistor is used in particular as a resistor that is excellent in pulse resistance / inrush current preventing function.

The intermediate connection 23 has a first gripping or holding part 23a and a second gripping or holding part 23b on which the first resistance 21st and the second resistance 22 grasp or hold linearly in the axial direction. The first and second resistors 21st and 22 with an interval S between the first holding part 23a and the second holding part 23b held. In the exemplary embodiment, the intermediate connection has 23 a slot S between the first holding part 23a and the second holding part 23b on, and the gap S is formed by the slot S.

The intermediate connection 23 has a common connecting part 23c from the first holding part 23a and the second holding part 23b extends. The connections 24th , 25th also have connecting parts 24c and 25c on, which is different from the holding part 24a and the holding part 25b extend which are the opposite ends of the first resistor 21st and the second resistance 22 hold. The connecting parts 23c , 24c , 25c are connected to a circuit at the time of assembly, and the three-terminal type resistor is used.

According to such a resistor of the three-terminal type, the first resistor 21st , a second resistance 22 and an intermediate connection 23 has, with a gap (slot S) between the holding part 23a who the first resistance 21st holds, and the holding part 23b which is shaped the second resistor 22 holds, are therefore the first resistance 21st and the second resistance 22 independently of each other.

Therefore, the stability and reliability of the three-terminal resistance to thermal expansion and contraction of the molding compound housing can be improved. For example, if the first resistance 21st expands due to heat generation, and the second resistance 22 no heat is generated and remains contracted, the holding part remains 23a of the first resistance 21st spaced from the holding part 23b of the second resistance 22 . Because the first resistance 21st and the second resistance 22 are spaced, affects the thermal expansion of the first resistor 21st not the second resistance 22 .

Thus, with the three-terminal type resistor having a relatively long axial length, the first resistor and the second resistor can expand and contract independently of each other even if the amount of thermal expansion / contraction is different along the axial position of the resistor. Accordingly, although there has been a problem in terms of stability and reliability of resistance due to thermal expansion / contraction in long-term use, the problem is solved by designing a handle so that the holding part 23a of the first resistance 21st from the holding part 23b of the second resistance 22 is spaced.

By arranging the slot S in the center of the three-terminal type resistor, the first resistor can 21st and the second resistance 22 be assembled in a well balanced manner when installed in a cast mass container. That is, a partition plate is provided in the center of the molding compound container and the slit S is fitted on the partition plate, then the three-terminal type resistor can be easily mounted in the molding compound housing with good balance.

The intermediate connection 23 is formed by plating a metal film (for example an Sn film) on a base material of a thin single plate-like metal, for example a metal such as Fe or Cu. In the embodiment, the thickness of the metal plate is approximately approximately 0.5 mm. The inner diameter of the annular holding parts 23a and 23b which are the axial ends of the resistors 21st and 22 hold are set as follows. For example, if a resistor with a diameter of 4.0 mm is to be held, the dimensions are set such that the fitting can be carried out and a spring force is obtained which can permanently hold the resistor with a diameter of 4.0 mm.

For example, the length is in the axial direction of the annular holding parts 23a and 23b which hold the resistor with a diameter of 4.0 mm, approximately 3.5 mm. The space between the ring-shaped holding parts 23a and 23b , that is, the length in the axial direction of the slit S is approximately 1 mm, and the depth of the slit S is approximately approximately 7 mm. Thereby, the thermal expansion and the contraction of the resistance are repeatedly absorbed in the axial direction by the elasticity of the metal plate, and the two resistors 21st and 22 are kept apart from each other without interacting with each other.

The intermediate connection also points 23 a connecting part 23c on that of the ring-shaped holding parts 23a and 23b extends. However, the distance from the holding parts should be 23a and 23b to the connecting part 23c , ie the height of the intermediate connection 23 , to be determined according to the specifications of the molding compound container or the like to be assembled.

3rd shows a further embodiment of a three-terminal type resistor according to the invention. In the exemplary embodiment are the intermediate connection 23 and the connectors 24th , 25th with an embossing or bead O by pressing or the like shaped as in 3 (b) and (c) shown. This increases the strength of the intermediate connection 23 and the connections 24th , 25th improved against bending stress.

4th shows a modification of the intermediate connection 23 and the connections 24th , 25th , in the 2nd are shown. 4 (a) shows an example in which a "step" in the middle of the intermediate connection 23 and the connections 24th , 25th is shaped. 4 (b) shows an example in which a "twist", which the connecting parts 23c , 24c , 25c rotated by 90 ° in the middle of the intermediate connection 23 and the connections 24th , 25th is shaped. These processes or features can be used in a corresponding manner in accordance with various types of assembly.

Although exemplary embodiments of the invention have been described, it is clear that the invention is not restricted to the exemplary embodiments described above and can be implemented in various forms within the scope and technical concept of the invention.

Industrial applicability

The invention can be suitably used for a three-terminal type resistor which has an intermediate terminal in the middle in addition to terminals at both ends of the resistor, which is typically used in a molded resistor or the like.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• JP S4978154 [0003]

Claims (4)

Three-terminal type resistor that includes: a first resistor, a second resistor and an intermediate terminal that connects the first and second resistors; wherein the intermediate terminal has a first holding part and a second holding part which linearly hold the first and second resistors in the axial direction; wherein the first and second resistors are held with a gap between the first holding part and the second holding part. Three terminal type resistor after Claim 1 , the space being formed by a slot. Three terminal type resistor after Claim 1 , wherein the intermediate terminal has connecting parts extending from the first holding part and the second holding part. Three terminal type resistor after Claim 1 , wherein the intermediate connection consists of its thin single or one-piece plate-like metal.

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