JPS62223633A - Spark monitoring device - Google Patents

Abstract

PURPOSE:To obtain an inexpensive, reliable device which is easily handled and to prolong its life by using a photodetection diode as a spark detector. CONSTITUTION:The photodetection diode 1 as the spark detector, a rectifying circuit, a DC amplifier 3, a current amplifier 4, an indicator 5, etc., are provided. Then, the diode 1 generates a pulse signal 1 proportional to the size of a spark and the circuit 2 converts the signal 1a into an analog signal 2a. Then the signal 2a is amplified 4 by amplifiers 3 and 4 to a level high enough to drive the indicator 5. The meter of the indicator 5 is driven with the amplified 4 signal 4a and the size of the spark is displayed. In this case, as the diode 1 which generates the signal 1a is a semiconductor, stable characteristics and long life are obtained, while the size is small, and the handling is easy.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a spark monitoring device that can be priced at a fixed price and have high reliability.

[Prior art] Generally, sparks occur between the brushes and commutator of a DC machine, but in order to prevent accidents, it is necessary to always know the size of the spark. Figure 2 shows a conventional spark monitoring device. 0 which is a block diagram showing
In the figure, (6) is an ultraviolet discharge tube as a spark detector, (7) is a rectifier circuit that rectifies the output signal (6a) of the ultraviolet discharge tube (6), and (8) is a rectifier circuit that rectifies the output signal (6a) of the ultraviolet discharge tube (6). a DC amplifier (9) for amplifying the output signal (7a);
is a current amplifier for further amplifying the output signal (8a) amplified by the DC amplifier (8), and (10) is a current amplifier (
9) is an indicator that drives a meter according to the level of the amplified output signal (9a); (11) is an ultraviolet discharge tube; 6)
A DC power supply (12) is an AC power supply for supplying power to the DC power supply (11).

A conventional spark monitoring device is configured as described above, and uses an ultraviolet discharge tube (6) to output a voltage signal proportional to the amount of ultraviolet light contained in sparks generated from, for example, the brushes and commutator (not shown) of a DC machine. The signal is taken out as a signal (6a), rectified by a rectifier circuit (7), amplified via a DC amplifier (8) and a current amplifier (9), and then displayed by an indicator (10).

First, an ultraviolet discharge tube (6) consisting of a detection wire housed in a hood is used in a special way to prevent continuous discharge, and a rectifier circuit ( 7) converts the number of pulses of the output signal (6a) into an analog quantity and outputs an output signal (7a) proportional to the amount of incident ultraviolet light. Subsequently, the DC amplifier (8) and the current amplifier (9) output an analog output signal (
7a) to a signal level sufficient to drive the indicator (10).

An indicator (<10) displays the magnitude of the spark, and when it exceeds a predetermined value, an alarm signal is output via a level detector (not shown). It goes without saying that this predetermined value can be adjusted as appropriate by the user.

[Problems to be Solved by the Invention] As described above, the conventional spark monitoring device uses an ultraviolet discharge tube (6) as a spark detector, so a DC power source (11) is required to supply power. Additionally, there were problems in that the stability of the characteristics was poor and the lifespan was short.

This invention was made to solve the above-mentioned problems, and aims to provide a spark monitoring device that is inexpensive, highly reliable, easy to handle, and has a long life.

[Means for Solving the Problems] A spark monitoring device according to the present invention uses a photodetection diode as a spark detector.

[Operation] In the present invention, the photodetection diode generates a pulse signal proportional to the amount of ultraviolet light contained in the spark, and the indicator displays the size of the spark based on this pulse signal.

[Example] Hereinafter, an example of the present invention will be described with reference to the drawings. 1st
In Figure 9, which is a block diagram showing an embodiment of the present invention, (1) is a photodetection diode as a spark detector;
(2) is the pulse output from the photodetection diode (1),
A rectifier circuit that converts a large signal (1a) into an analog quantity, (3
) is a DC amplifier that amplifies the analog signal (2a) from the rectifier circuit 2), (4) is a current amplifier that further amplifies the signal (3a) amplified by the DC amplifier (3), and (5) is a current amplifier. It is an indicator driven by the signal (4a) amplified in (4), and (2) to (5> correspond to the rectifier circuit (7) to indicator (10) in the conventional device described above, respectively). .

Next, the operation of the embodiment of the present invention shown in FIG. 1 will be explained.

First, when a photodetection diode (1) is installed close to a spark generation source (for example, a rectifying spark in a DC machine), the photodetection diode (1) generates a pulse signal <1 that is proportional to the size of the spark.
a). From then on, similarly to the conventional device described above, the rectifier circuit (2) converts the pulse signal (1a) into an analog signal (2).
a) Convert to DC amplifier (3) and current amplifier (4)
amplifies the analog signal (2a) to a magnitude sufficient to drive the indicator (5). And the amplified signal (
4a) drives the meter of the indicator (5) to display the magnitude of the spark.

At this time, since the photodetection diode (1) that generates the pulse signal (1a) is a semiconductor, it has stable characteristics and a long life, and is small and easy to handle.

Also, since power consumption is low, no power source is required.

In the above embodiment, the spark is directly detected by the photodetection diode (1), but an optical fiber is provided between the spark generation part and the photodetection diode (1), and the Sparks may also be detected.

In addition, the size of the spark was displayed using an indicator (5), but
A level detector may be provided in place of the indicator (5), and an alarm or switch (not shown) may be operated via this level detector.

Further, the source of sparks is not limited to rectifying sparks in a DC machine, but the present invention can also be applied to sparks from a slip ring in a rotating electrical machine, and it goes without saying that similar effects can be achieved.

[Effects of the Invention] As described above, according to the present invention, since a photodetection diode is used as a spark detector, it is possible to obtain a spark monitoring device that is inexpensive, highly reliable, easy to handle, and has a long life. .

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram showing a conventional spark monitoring device. (1)...Photodetection diode

Claims (7)

[Claims] (1) A photodetector that converts the amount of spark light from a spark source into a pulse signal, a rectifier circuit that converts the pulse signal output from this photodetector into an analog signal, and an analog output from this rectifier circuit. 1. A spark monitoring device comprising an amplifier for amplifying a signal and a drive section driven by a signal output from the amplifier, characterized in that a photodetection diode is used as the photodetector. (2) The spark monitoring device according to claim 1, wherein the spark generation source is a brush and a commutator of a DC machine. (3) The spark monitoring device according to claim 1, wherein the spark generation source is a slip ring of a rotating electric machine. (4) The spark monitoring device according to any one of claims 1 to 3, wherein the photodetection diode is located close to a spark generation source. (5) A patent claim characterized in that an optical fiber is provided between a spark generation source and a photodetection diode, and the photodetection diode detects sparks from the spark generation source via this optical fiber. The spark monitoring device according to any one of items 1 to 3. (6) The spark monitoring device according to any one of claims 1 to 5, wherein the drive unit is an indicator that displays the magnitude of sparks using a meter. (7) The spark according to any one of claims 1 to 5, wherein the driving unit is a level detector and an alarm or a switch driven by the level detector. monitoring equipment.