KR20060105216A - A tester for checking the quality of vibration-senors - Google Patents

Abstract

The present invention relates to a vibration sensor failure inspection device designed to be connected to the circuit to obtain accurate measurement value even if the vibration sensor is not defective on the measuring plate even in high vibration, even in high vibration state in the measuring unit formed on the vibration device In order to accurately check the vibration sensor, it is newly developed and applied the support plate with high tension spring and pressing plate made of high strength urethane.

Therefore, by maintaining a close state to enable accurate measurement of the inspection of the vibration sensor for inspection, there is no error in the inspection of the failure of the vibration sensor by connecting the circuit stably. Economical effect on maintenance.

Vibration sensor, inspection device,

Description

A tester for checking the quality of vibration-senors}

1 is a configuration diagram of a conventional vibration sensor failure inspection device;

2 is a configuration diagram of a substrate with a vibration sensor;

Figure 3 is an illustration of a conventional push pin,

4 is a main configuration diagram of the present invention;

5 is an enlarged view of the pressing plate of FIG. 4.

[Description of Major Symbols in Drawing]

10-support 12-vibrator

14-vibration plate 16-measuring unit

30-Pressure Unit 32-Vertical Support

34-Horizontal Support 36-Spring

38-Pressure Support 40-Pressure Plate

42-Pressure 44-Pressure

46-pressure side

100-vibration sensor 200-substrate

The present invention relates to a device for inspecting whether a vibration sensor produced in the production of a vibration sensor for detecting vibration is defective, and in particular, even in high vibration, the vibration sensor is connected to a circuit without being separated from the measurement plate, accurate measurement value The present invention relates to a device for inspecting whether a vibration sensor is defective.

Sensor is a sensor that applies the principle of human being to feel by using five senses in technology. Various kinds of sensors are developed such as vibration sensor, pressure sensor and temperature sensor according to its function.

The present invention is to provide an accuracy in the use of equipment equipped with a vibration sensor by testing whether the dual vibration sensor is defective, the general vibration sensor failure inspection device is configured as shown in FIG.

That is, the conventional vibration sensor inspection device is provided with a vibration device 12 on the lower support 10, the measuring unit 16 is provided with the vibration plate 14 of the upper vibration device (12). In particular, the measuring unit 16 is the work table 18 on which the produced vibration sensor 100 is placed, and while lifting the upper part of the work table 18 to the vibration sensor 100 during the inspection time of the vibration sensor 100. The pressing pin 20 is pressed, and the pressing pin 20 is composed of a support 22 for supporting the work table 18.

Therefore, as shown in FIG. 2, when the substrate 200 on which the plurality of vibration sensors 100 are formed is placed on the work table 18, the push pin 20 descends and the edge of the substrate 200 to which the vibration sensors 100 are attached. When the pins 102 formed on the vibration sensor 100 come into contact with a pre-installed short-circuit detection circuit (not shown), a predetermined current flows and the performance test of the vibration sensor 100 is performed. While being made, the result is that the monitor or speaker (not shown) connected by wiring is visually confirmed or transmitted by sound to cover whether the vibration sensor 100 is defective.

In particular, when an artificial vibration is generated to check whether the vibration sensor 100 is defective, the acceleration of gravity of 10G to 50G acts, so that the circuit board 200 on which the vibration sensor 100 is installed is not separated. The technology that ensures that the device is connected is the heart of the device.

However, in the conventional vibration sensor failure inspection apparatus, the pressing pin 20 of the measuring unit 16 is made of a cylindrical metal material as shown in FIG. The contact resistance of the push pin has been a very big obstacle in detecting the failure of the vibration sensor due to the characteristics of the device that detects the failure of the vibration sensor, and the spring in the form of cylinder and piston in order to increase the shock absorption and the pressing effect when descending. Since the push pin 20 manufactured with the built-in (not shown) has a piston movement, the number of high vibrations has a certain limit, as well as an increase in parts costs due to precision processing, as well as a problem in that productivity is reduced due to frequent defects.

The present invention is to provide a new and advanced vibration sensor defect inspection developed to solve the problems of the conventional apparatus described above, and can be applied to any type of apparatus for inspecting whether the vibration sensor is defective. It is intended to provide a means to this.

To this end, the present invention is a new development of a pressing plate made of a high-strength urethane and a support having a high-strength spring is installed in place of the pressing pin of the measuring unit formed on the vibration device to accurately check whether the vibration sensor is defective even in a high vibration state.

Here, the support is coupled to raise and lower the pressing plate with vertical and horizontal supports, and the vertical support is provided with a spring to provide a constant contact pressure even if vibration occurs.

Therefore, using the apparatus of the present invention to which the above means is applied, the circuit is stably connected to the circuit by stably maintaining the state in which the vibration sensor for inspection can be accurately measured and there is no error in the inspection of the vibration sensor. In particular, the inspection work was performed quickly, which drastically increased the working speed and efficiency, as well as the economical effect of maintenance because there was no failure of the measuring part used in high vibration.

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

In the present invention, the vibration device 12 is installed on the lower support 10, the measurement unit 16 is installed together with the vibration plate 14 of the upper vibration device 12,

 The measuring unit 16 is pressed against the worktable 18 on which the produced vibration sensor 100 is placed, and presses the vibration sensor 100 during the inspection time of the vibration sensor 100 while being lifted from the upper worktable 18. In the vibration sensor failure inspection device composed of a portion 30,

The pressure contact portion 30 is a vertical support 32 is installed on the work table 18, a horizontal support 34 is installed to be horizontal to the work table 18 above the vertical support 32, and the horizontal The pressing contact support 38 is installed vertically at the central position of the support 34, and the pressing plate 40 is installed below the pressing contact support 38 and is supported by a spring 36 is characterized by having a feature.

In addition, the pressing plate 40 is a urethane plate-like structure while the lower pressing portion 42 is the pressing surface 44 and the pin of the vibration sensor 100 in contact with the substrate 200 to which the plurality of vibration sensors 100 are attached. (102) the pressing surface 46 for pressing the portion is formed with a step, the pressing plate 40 is installed in the fitting hole 52 formed in the pressing table 50, the upper end is fixed by the forced fitting installation work However, the replacement work is very quick and easy.

Figure 4 is an enlarged view of the pressure-contacting portion 30 of the present invention, a plurality of vibration sensors 100 are arranged in two rows on the substrate 200 placed on the work table 18, the vibration sensor According to the size and working conditions of the 100, the number that can be inspected at one time is determined differently, and in the embodiment of the present invention, two lines of one at a time, that is, whether the four vibration sensors can be inspected.

5 is a front configuration diagram of the pressing plate 40, the pressing surface 44 and the pressing surface 46 of the lower portion is formed to form a step (d) so that the pressing surface 46 slightly protrudes than the pressing surface 44 The range of the step may vary depending on the size of the vibration sensor and the size of the substrate, but in the embodiment of the present invention, the step is set to a range of 0.1 mm to 1 mm.

Referring to the operation of the present invention of the above configuration is as follows.

The process of placing the substrate 200 on which the vibration sensor is attached on the work table 18 of the device configured to vibrate the vibration plate 14 through the vibration device 12 is not different from the conventional method.

When the pressing plate 40 is lowered after the substrate 200 is placed and the pressing surface 44 of the pressing part 42 presses the substrate 200, the pressing surface 46 is vibrated by the step d. The pin 102 of the) is pressed to a little stronger, so even if the vibration (10G ~ 50G) state does not occur separation of the substrate 200, in particular, the connection of the circuit to determine whether the vibration sensor is defective It keeps the pressurized state to prevent short circuit.

At this time, the spring 36, the pressing plate 40 to provide a constant tension in order to cancel even if the pressing force of the pressing plate changes instantaneously by high vibration.

By repeating this operation, the vibration sensor is inspected for defects.

On the other hand, the above configuration of the present invention described one embodiment, the same analogous technology that falls within the scope of the technical idea of the present invention will fall within the scope of the present invention within an equivalent range.

As described above, the present invention maintains a constant adhesion force of the vibration sensor to be inspected even at high vibrations, thereby ensuring accuracy in the inspection of the vibration sensor defect due to a short circuit, and the pressing plate is formed at the upper end of the fitting hole formed in the presser bar. It is fixedly installed by this forced fitting so that installation work or replacement work can be done very quickly and easily. The simple structure of the press plate and the accurate inspection and measurement effect provide a great economic effect on work efficiency and equipment maintenance.

Claims (2)

A vibration device is installed on the supporting object, and a measuring part is installed together with a vibration plate on the upper part of the vibration device. The measuring part is provided with a work table on which the produced vibration sensor is placed. Composed of pressurized contact part The pressure contact portion and the vertical support is installed on the work object; A horizontal support installed to be horizontal with the work table in the vertical support object; A pressure contact support vertically installed at a central position of the horizontal support; Vibration sensor failure inspection device, characterized in that the pressure contact support is installed in the lower portion is provided with a pressing plate which is supported by a spring. The method of claim 1, The pressing plate is a urethane plate-like structure, the upper end portion of the pressing plate is installed in the fitting hole by force fitting, and the lower pressing portion is a vibration sensor defect inspection device, characterized in that the pressing surface is formed with a step.

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