JPH01270731A - Surge absorber - Google Patents

Abstract

PURPOSE:To suppress the rise in a limiting voltage by interposing an intermediate terminal between a varistor and a coil spring, and leading externally the terminal through the outer wall of an insulation cylinder. CONSTITUTION:First and second cap terminals 1, 2 are connected to the surge invasion side of a power source or the like, and an intermediate terminal 6 and the terminal 2 are connected to a circuit to be protected for use. A voltage between the terminal 6 and the terminal 2 is determined only by the limiting voltage of a varistor 4, and the voltage drop of a coil spring 5 is not applied. Thus, even if an invaded surge current is large or the rise of a surge current waveform is abrupt, the limiting voltage is not largely raised.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a surge absorber that protects various electrical and electronic devices from momentary abnormal voltages.

BACKGROUND OF THE INVENTION Conventionally, this type of surge absorber has had a configuration as shown in FIG. In FIG. 3, 1 is a first cap terminal, and 2 is a second cap terminal.

Reference numeral 3 denotes an insulating cylinder, and openings at both ends thereof are sealed by a first cap terminal 1 and a second cap terminal 2, respectively. 4
is a varistor whose resistance value decreases as the voltage increases, and has the function of absorbing surges.

6 is a coil spring. These varistor 4 and coil spring 5 are housed in an insulating cylinder 3, and the coil spring 5
is fixed by pressure welding. And the first cap terminal 1
, coil spring 6, varistor 4° second cap terminal 4
are electrically connected in series. FIG. 4 is a circuit diagram showing an electrical equivalent circuit of this conventional surge absorber.

The operation of the surge absorber configured as described above will be explained below.

Now, when a momentary overvoltage is applied between the first cap terminal 1 and the second cap terminal 2, a momentary overvoltage is also applied to the varistor 4. Then, the resistance value of the varistor 4 rapidly decreases, current flows, and surge absorption is performed. Here, the coil spring 5 that presses and fixes the spring and lister 4 as described above.
is electrically connected in series with the varistor 4. Therefore, the limit voltage of the surge absorber is the sum of the limit voltage of the varistor 4 and the voltage drop due to the surge current of the coil spring 6. Therefore, when the surge current flowing through the varistor 4 is large, or when the rise of the surge current waveform is steep, the voltage drop across the coil spring 6 becomes large, and the limiting voltage of the surge absorber becomes high.

Problems to be Solved by the Invention In such a conventional configuration, there is a problem in that the limiting voltage becomes high in response to a large surge or a surge with a steep rise, and the surge suppression effect deteriorates.

The present invention solves these problems, and aims to provide a surge absorber with a good surge suppressing effect.

Means for Solving the Problems In order to solve this problem, the present invention provides an insulating tube between a varistor and a coil spring in an insulating cylinder whose openings at both ends are sealed by a first cap terminal and a second cap terminal, respectively. The entire series body with an intermediate terminal interposed therebetween is fixed by pressure contact, and the intermediate terminal is led out to the outside by passing through the outer wall of the insulating cylinder.

Effect With this configuration, the first cap terminal and the second cap terminal are connected to the surge entry side of the power supply, etc., and the intermediate terminal and the second
When the cap terminal is connected to the sand protection circuit side, the voltage between the intermediate terminal and the second cap terminal is determined only by the limited voltage of the varistor, and the voltage drop of the coil spring is not affected. Therefore, even in response to a large surge current or a surge current with a steep rise, the limit voltage will not increase significantly.

EXAMPLE Hereinafter, an example of the present invention will be described with reference to the drawings.

FIG. 1 is a front sectional view of a surge absorber according to an embodiment of the present invention, and the same parts as in the conventional example are given the same numbers. In FIG. 1, 1 is the first cap terminal, 2
is the second cap terminal. Reference numeral 3 denotes an insulating cylinder, and openings at both ends thereof are sealed by a first cap terminal 1 and a second cap terminal 2, respectively. 4 is a varistor whose resistance value decreases as the voltage increases, and has the function of absorbing surges. 6 is a coil spring, and 6 is an intermediate terminal. These varistor 4, coil spring 5, and intermediate terminal 6 are housed in an insulating tube 3. Then, the varistor 4° intermediate terminal 6. The coil springs 6 are pressed and fixed in series in this order. Moreover, the intermediate terminal 6 penetrates the outer wall of the insulating tube 3 and is led out. 7, 8 and 9 are bolts and nuts for mounting. FIG. 2 is a circuit diagram showing an electrical equivalent circuit of the surge absorber of this embodiment.

The operation of the surge absorber configured as described above will be explained below. Now, when a momentary overvoltage is applied between the first cap terminal 1 and the second cap terminal 2, the momentary overvoltage is also applied to the varistor 4 via the coil spring 6 and the intermediate terminal 6. Then, the resistance value of the varistor 4 rapidly decreases, current flows, and surge absorption is performed. Here, in the surge absorber of this embodiment, the first cap terminal 1 and the second cap terminal 2 are connected to the surge entry side of the power supply, etc., and the intermediate terminal 6 and the second cap terminal 2 are connected to the protected circuit side. Use by connecting to. The voltage between the intermediate terminal 6 and the second cap terminal 20 is determined only by the limited voltage of the varistor 4, and the voltage drop of the coil spring 5 is not added. Therefore, even if the intruding surge current is large or the rise of the surge current waveform is steep, the limit voltage will not increase significantly.

Effects of the Invention As described above, according to the present invention, the varistor 5. The intermediate terminal and the coil spring are all press-fitted in series in this order, and the intermediate terminal is led out to the outside through the outer wall of the insulating tube.
It is possible to realize a surge absorber that does not significantly increase the limiting voltage even in the case of large surge currents or surge currents with a steep rise, and has a good surge suppressing effect, which has great practical effects.

[Brief explanation of the drawing]

FIG. 1 is a front sectional view showing a surge absorber according to an embodiment of the present invention, FIG. 2 is a circuit diagram showing an electrical equivalent circuit of the surge absorber according to the same embodiment, and FIG. 3 is a conventional surge absorber. FIG. 4 is a circuit diagram showing a one-gas equivalent circuit of the conventional surge absorber. DESCRIPTION OF SYMBOLS 1...First cap terminal, 2...Second cap terminal, 3...Insulating tube, 4...-
... Ballista, 5... Coil spring, 6...
...Intermediate terminal. Name of agent: Patent attorney Toshio Nakao and 1 other person/-
--1st horse bag 1 child 4- Harista 2nd figure

Claims (1)

[Claims] A series body with an intermediate terminal interposed between a varistor and a coil spring is fixed by pressure in an insulating cylinder whose openings at both ends are sealed by a first cap terminal and a second cap terminal, respectively, and the intermediate terminal is connected to the insulating cylinder. A surge absorber that penetrates the outer wall of the cylinder and is led to the outside.