KR900010939Y1 - Using time accumulation device - Google Patents

Abstract

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Description

Hours Totalizer

1 is a perspective view of one embodiment of the present invention.

2 is a schematic cross-sectional view of the present invention, in which a related power supply circuit is added.

* Explanation of symbols for main parts of the drawings

1: glass tube 2: scale

3, 3 ': terminal 4: electrolyte solution

5, 5 ': Mercury 6, 6': Sealing means

The present invention is a time integration totalizer that can confirm the usage time of A / S set of electronic products, and mercury and electrolyte are enclosed in a glass tube, and mercury separated to both sides by the electrolyte is a terminal. By connecting the controller, the actual operating time of a mechanical device or a specific part can be accumulated.

The present invention utilizes electrolysis caused by energizing a direct current through a glass tube sealed with mercury and an electrolyte. When a direct current voltage is applied between the electrodes, mercury is electrolytically precipitated from the + side to the-side through the electrolyte, and vice versa. When moving from the-side to the + side, the amount of mercury moving, i.e., the moving distance, can be known.

The main purpose of the present invention is to integrate the actual service time of various mechanical devices or parts and to indicate the life and replacement time of the parts. Examples of the use include a recotter needle, a VTR head TV camera, a photocopier and a copier lamp. Predicting the remaining service life of parts, such as the detection of parts life and replacement time, measurement of MTBF (Mean Time Between Failure), computer terminals, measuring instruments, and communication equipment. Facsimile, measuring the operating time of broadcasting equipment, main time of mechanical components, cleaning time of air conditioner filter, regular inspection time of C / TV, data recorder, over whole time marking of machine tools, home appliances Implement the guarantee system by measuring the time, the proper arrangement of the facility by measuring the operation of the facility, the integration of the temperature, the amount of sunshine, the amount of noise, etc. using various transformers, and the measurement of the average value.

Another object of the present invention is to provide a usage time totalizer that is simple in structure, easy to manufacture, and small in size, easy to mount, and can be directly mounted on a related circuit of the device, and eliminates troubles and improves reliability. will be.

Another object of the present invention is to provide a totalizer for easy adjustment of coefficients, repeated use, long service life, extremely low power consumption, easy to read coefficients, and no vibration or noise.

Hereinafter, the contents of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of an exemplary embodiment of the present invention, and FIG. 2 is a cross-sectional view of an internal power supply circuit of the present invention.

That is, the glass tube 1 having a scale 2 on the outer circumferential surface is composed of a small diameter transparent tube having a predetermined diameter, and the mercury constituting the electrode is replaced by a surface tension with an electrolyte solution 4 interposed therebetween. (5) and (5 '), and the mercury (5) and (5') are configured by connecting and connecting terminals (3) and (3 ') connected to negative (-) and positive (+) electrodes, respectively. It is a total use time totalizer.

As for the inner diameter of the glass tube 1 used in the structure of this invention, 1-5 mm is common, and even if it is more or less, mercury (5) (5 ') is carried out in the temperature environment, such as a mechanical apparatus or components mounted. Instead of flowing in the glass tube 1, it must be replaced by surface tension to form an electrode.

In the present invention, the electrolyte 4 is moved while delivering mercury (5) (5 ') when a direct current voltage is applied between the positive electrodes by the terminals (3) (3'), and moves from the start point of the graduation (2) to the end point. In this case, the use time is displayed as the moving distance at this time.

In addition, the sealing means 6, 6 'in this invention can melt | dissolve the edge part of the glass tube 1 as it is, or can select and use resin type sealing material or inorganic sealing material, such as a silicone caulking material, and glass and a thermal expansion coefficient May be the same, and there is no leakage of mercury or electrolyte, and may be an electrical insulator.

Terminals 3 and 3 'in the present invention are fixedly supported by sealing means 6 and 6', and their inner ends are connected to mercury 5 and 5 ', respectively. The outer end of the terminals (3) and (3 ') is made in the shape of a roof or a line as in the example of the accompanying drawings, or a terminal cap that can be directly connected to a circuit or inserted into a socket, or a screw head terminal that can be screwed into a circuit. Either is possible.

The integration time of the present invention is described as follows.

First, the electrolytic solution 4 encapsulated in the glass tube 1 and projected before the integration process is located at the starting point of the scale 2, and electrolysis occurs as a current voltage is applied between the electrodes.

In other words, the integration is performed by applying a very small DC voltage of several microamps to several tens of microamperes to connect the negative electrode to the start of the scale and the positive electrode to the end of the scale.

At this time. Referring to FIG. 2, the integration function of the electrolyte solution 4 is connected to the electrode on the plug side when a DC voltage is applied between the electrodes through the terminals 3 and 3 'on both sides of the glass tube 1. The mercury 5 'is electrolytically precipitated toward the mercury 5 on the other side, which is connected to the negative electrode on the other side through the electrolytic solution 4, while the electrolyte 4 and the connection surface portion are electrolyzed.

This action causes the mercury 5 'connected to the positive electrode to move toward the mercury 5 connected to the negative electrode, and thus the electrolyte 4 moves in the opposite direction of the mercury movement. Will be done.

That is, the electrolyte solution 4 proceeds from the start point of the scale 2 toward the end point.

At this time, the amount of mercury moves is proportional to the amount of electricity applied according to Faraday's Law, so if the current is constant, it corresponds to the integrated value proportional to the use time by the moving distance of mercury, that is, the moving distance of the electrolyte. You can grasp the scale.

In addition, the resistor 7 shown in FIG. 2 is an example of a circuit for adjusting the voltage of the battery 8, and by adjusting the impedance on the circuit, the communication time of the current corresponding to the unit of the scale can be obtained.

However, since the amount of energization is affected by the temperature change of the circuit, the temperature and environmental conditions of the mounting device should be considered.

The present invention can integrate the use time by supplying a constant current to both terminals of the glass tube only during the operation of the mounting device, i.e., a mechanical device that has an integrating period of use. It is very convenient to use because it can be prepared and distributed inexpensively and cheaply, and can be attached on a circuit board or directly connected to a mechanical device like other electronic components. The adjustment of the coefficient is performed by adjusting the amount of energization, so that the operation is easy, the consumption current is very small, and the reading of the organic tubular scale is easy to read the accumulated amount, there is no vibration or noise, and there is a fear of fixing. Not at all and semi-permanent, but also highly reliable.

In addition, when the electrolyte is moved to the end point of the scale, it can be reused by resetting the electrolyte to the starting point by applying a strong current in reverse.

Claims (1)

Mercury (5) comprising a glass tube (1) having an outer circumferential scale (2) composed of a small diameter transparent tube having a constant diameter, and is replaced by a surface tension with an electrolyte solution (4) interposed therebetween in the glass tube (1). (5 '), and the mercury (5) (5') is characterized in that the terminal (3) (3 ') connected to the negative (-) and plus (+) electrode connected to each other is installed and installed Time totalizer.