KR101965492B1 - Rotate type shock sensor tester and method of measuring impact force thereof - Google Patents

Abstract

According to the present invention, one end is fixed to a rotating shaft and rotates about the rotating shaft, and a sensor fixing unit equipped with a charging and detecting sensor, one end is fixed to a spring shaft and a shock plate rotating around the spring shaft, the spring shaft is fixed to the It includes a torsion spring for providing an elastic force to the shock plate, by hitting the sensor fixing unit at a constant rotation radius by rotating the shock plate in the opposite direction of gravity by the torsion spring to evaluate the performance of the impact sensor And by applying a predetermined pressure to the other end of the shock plate and then removing the impact plate by hitting the sensor fixing unit by the elastic force of the torsion spring, thereby evaluating the performance of the impact sensor. It relates to a sensor measuring device.

Description

ROTATE TYPE SHOCK SENSOR TESTER AND METHOD OF MEASURING IMPACT FORCE THEREOF}

The present invention relates to a mechanical impact test apparatus for realizing the impact environment of the impact sensor, and more specifically, by using the angle adjustment and torsion spring of the impact plate simpler and smaller volume than the conventional pendulum impact test equipment The present invention relates to a rotary impact sensor measuring device and an impact force measuring method, which implements an impact environment in a simple and effective manner.

Conventional impact test apparatus has to increase the height in order to implement a high impact with a pendulum-type tester using potential energy. Therefore, the size of the tester becomes larger the higher the impact amount (the height and the length of the pendulum). This has the disadvantage that the manufacturing cost increases or mobility is reduced due to the size of the device and the maximum limit of the amount of impact in the size of the equipment is fixed.

In order to solve the above problems, to implement a shock environment in a simpler manner and to reduce the volume of the device to reduce the cost, increase the mobility and storage.

In addition, by applying the angle-adjustable shock plate and the torsion spring mechanism to implement the impact force, when a higher impact force is realized, the maximum value can be easily adjusted only by replacing the torsion spring. The purpose is to implement a shock sensor measuring device that can be applied.

A sensor fixing unit, one end of which is fixed to the rotary shaft and rotates about the axis of rotation, and equipped with an impact sensor, an impact plate of which one end is fixed to the spring shaft and rotates around the spring shaft, and fixed to the spring shaft to provide elastic force to the shock plate. It includes a torsion spring, and by hitting the sensor fixing unit at a constant rotation radius by rotating the shock plate in the opposite direction of gravity by the torsion spring to evaluate the performance of the impact sensor, and the other end of the shock plate It is a rotary impact sensor measuring device characterized in that the impact plate by the elastic force of the torsion spring by applying a predetermined pressure to strike the sensor fixing unit to evaluate the performance of the impact sensor.

Rotation type impact sensor measuring device according to the present invention can be easily manufactured at low cost than the conventional impact test device of the pendulum type using the potential energy, easy to store and transport in a small volume, the maximum by only replacing the torsion spring Impact force can be adjusted, using the rotary impact sensor measuring device according to the present invention has the effect of increasing the ease of work when the shock sensor and shock switch inspection.

1 is a perspective view of a rotary impact sensor measuring apparatus according to the present invention.
Figure 2 is an exploded development view of the rotation type shock sensor measurement apparatus according to the present invention.
3 is a view showing an operating mechanism of the rotary impact sensor measuring apparatus according to the present invention.
Figure 4 is a block diagram of a sensor fixing unit of the rotary impact sensor measuring apparatus according to the present invention.
Figure 5 is a flow chart of the operation of the rotary impact sensor measuring apparatus according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same configuration in each drawing is shown with the same reference numerals. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

According to the present invention, one end is fixed to the rotating shaft 25 and rotates about the rotating shaft and the sensor fixing unit is mounted with a shock sensor, one end is fixed to the spring shaft 80 and the shock plate 60 is rotated about the spring shaft ), A torsion spring (70) and a support (90) fixed to the spring shaft to provide an elastic force to the shock plate, and the torsion spring rotates the shock plate in a direction opposite to gravity on the bottom surface (91). By hitting the sensor fixing unit at a constant rotation radius by evaluating the performance of the impact sensor, by applying a constant pressure to the other end of the shock plate and removing it by the elastic force of the torsion spring, the impact plate is fixed to the sensor fixing unit It relates to a rotary impact sensor measuring apparatus 100, characterized in that to hit the impact to evaluate the performance of the impact sensor. The support 90 is inserted into the bottom surface 91 which is a reference of the angle of the impact plate 60, the first hole 92a and the spring shaft 80 into which the rotation shaft 25 is inserted and fixed. It includes a support pillar 92 including a second hole (92b) is fixed.

1 is a perspective view of a rotary impact sensor measuring apparatus according to the present invention, Figure 2 is an exploded development view of a rotary impact sensor measuring apparatus according to the present invention, Figure 3 is a rotary impact sensor measurement according to the present invention A diagram showing the operating mechanism of the device. 1 to 3 will help to understand the configuration and operation principle of the present invention.

The sensor fixing unit includes a sensor fixing plate 10 hit by the impact plate 60, and an electronic unit unit 20 electrically connected and short-circuited by the impact detecting sensor.

The electronic unit 20 is short-circuited when the impact force transmitted to the sensor fixing plate by the impact of the impact plate is less than the operating range of the impact detection sensor.

It is characterized in that it is designed to conduct when included in the operating range of the impact sensor.

The maximum value of the angle between the impact plate 60 and the bottom surface 91 of the support 90 is determined by the angle of the torsion bar 71 located at both ends of the torsion spring 70.

Figure 4 is a block diagram of a sensor fixing unit of the rotary impact sensor measuring apparatus according to the present invention. Referring to Figure 4 describes the operation principle of the impact sensor is as follows.

The sensor fixing plate 10 includes a hitting part 10a hit by the impact plate 60, a sensor mounting part 10b on which the impact sensing sensor is seated, and a rotating shaft hole 12 into which the rotating shaft is inserted. The sensor fixing plate 10 may be divided into three parts in the vertical direction of the rotation shaft 25. The sensor fixing plate 10 includes both ends (left / right) 13 and 14 and a central portion 11. The both ends 13 and 14 are formed of a conductor, and the central part 11 is formed of an insulator so that the body side of the impact sensor is the central part 11 when the shock sensor is mounted on the sensor mounting part 10b. It is seated in the terminal portion of the sensor to be seated on the both ends (13, 14).

In addition, the electronic unit unit 20 includes a + shaft terminal 24 and a-shaft terminal 23 fastened to one side and the other side of the rotating shaft 25 which is an insulator, and the + and-shaft terminals are separated by a predetermined distance. It is fastened to the outside of the rotating shaft. Wires 21 and 22 are connected to the + and − shaft terminals 23 and 24 to receive electric energy, thereby electrically connecting the electronic unit unit 20 and the sensor fixing plate 10. By connecting the wires 21 and 22 to the + and-shaft terminals 23 and 24 without directly connecting the wires to the terminal part of the impact sensor, the wire twists due to the rotation of the sensor shock plate 10 during the impact test. Avoided.

When the pressure of the shock plate 60 is removed as shown in FIG. 4, the shock plate rotates about the rotation shaft 25 by the elastic force of the torsion spring 70 to strike the sensor fixing plate 10. At this time, when the shock sensor is activated, electrical energy is transmitted to the rotating shaft 25 through the conductor parts (both ends) 13 and 14 of the sensor fixing plate 10, and finally, the electric wires 21 and 22 are energized. . Through this electrical connection it can be seen that the shock sensor is operated. In this case, when the impact amount is not sufficient, the angle of the impact plate 60 may be adjusted by manual or a specific angle adjusting device to increase or decrease the impact amount. When the angle of the impact plate is a maximum value, the torsion spring may be replaced. You can adjust the range of impact through.

The following is a method of measuring impact force according to the present invention.

5 is described with reference to the operation flow chart of the rotary impact sensor measuring apparatus according to the present invention. The impact force measuring method of the rotary impact sensor measuring device 100 according to the present invention is a sensor mounting step (S10), the impact plate (60) for mounting the impact shock sensor to be verified in the rotary shock sensor measuring device An angle adjusting step (S20) of adjusting the angle of the impact plate by applying pressure to the other end), a blow step (S30) of hitting the sensor fixing plate 10 by rotating the impact plate by removing the pressure; It includes a check step (S40) to determine whether the sensor detects the impact force, generating the elastic force of the torsion spring 70 in the angle adjustment step and rotating the impact plate with the elastic force in the striking step the sensor fixing plate It is characterized by evaluating the performance of the impact sensor by hitting.

The angle of the impact plate 60 in the angle adjusting step (S20) is the minimum value of the angle between the bottom surface 91 of the support and the impact plate when the torsion spring 70 is free and the other end of the impact plate. The maximum value which is an angle of the said impact plate and the said bottom surface at the time of contact with this bottom surface is included.

The striking step S30 is a step of converting the elastic force generated in the angle adjusting step S20 into the impact force.

If the check step (S40) is not satisfied, proceed to the angle value check step (S41) to check whether the angle of the impact plate 60 is the maximum value, and if the angle value check step is satisfied the torsion spring (70) If it is determined that the elastic force of the impact sensor is not included in the operating range of the spring to replace the torsion spring replacement step (S50), if the angle value check step is not satisfied proceeds from the angle adjustment step again. .

The spring replacement step (S50) proceeds before the angle adjustment step (S20).

The implementation of the impact force in the present invention is confirmed by the experimental value, because the impact force and the impact transmission time is different depending on the angle of the spring constant and the torsion bar of the torsion spring 70, the material of the impact plate 60 to be impacted. According to the inherent progression time of each material based on the database, the actual collision is progressed and the angle range is adjusted and inspected. This is the same method as the conventional pendulum type impact tester.

Therefore, a feature of the present invention, which is clearly distinguished from the prior art, is that a wide range of impact force can be realized according to the length of the impact plate 60 and the torsion spring 70. Conventional pendulum-type impact tester has a limit that can adjust the impact force depending on the length of the pendulum and the material of the impact plate by using the acceleration of gravity. However, the rotary impact sensor measuring device 100 according to the present invention can implement a relatively wide range of impact force than the pendulum by using the torsion spring 70 instead of the acceleration of gravity.

In addition, the rotary impact sensor measuring apparatus 100 according to the present invention can implement a range of impact force within a limited volume. For example, the conventional pendulum-type impact tester has a limitation in the length of the pendulum falling due to gravity acceleration by utilizing gravity acceleration. If a higher impact force is to be realized, the volume has to be increased because a longer arm length pendulum has to be used or the angle has to be increased. On the contrary, the rotary impact sensor measuring apparatus 100 according to the present invention can realize a higher impact force within a limited volume only by replacing the torsion spring 70. Therefore, it can be designed (or assembled) according to the limited space or required impact force, and is easy to transport and store.

Embodiments of the present invention described above are merely exemplary, and those skilled in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents, and substitutes within the spirit and scope of the invention as defined by the appended claims.

100: rotary impact sensor measuring device
10: sensor fixing plate
20: electronic unit
60: shock plate
70: torsion spring
80: spring shaft
90: support
10a: hitting part
10b: Sensor mounting part
11: center (insulator)
12: rotating shaft hole
13: Both ends (conductor)
14: both ends (conductor)
21: wire (-)
22: electric wire (+)
23: -axis terminal
24: + shaft terminal
25: axis of rotation
71: torsion spring torsion bar
91: bottom surface
92: support pillar
92a: Hall 1
92b: Second Hall

Claims (13)

A sensor fixing unit having one end fixed to the rotating shaft and rotating about the rotating shaft and equipped with an impact sensor;
An impact plate having one end fixed to a spring shaft and rotating about the spring shaft;
A torsion spring fixed to the spring shaft to provide an elastic force to the shock plate; Including
By rotating the shock plate in the opposite direction of gravity on the floor surface by the torsion spring
Evaluate the performance of the impact sensor by hitting the sensor fixing unit at a constant rotation radius,
The sensor fixing unit
A sensor fixing plate hit by the impact plate;
An electronic unit that is electrically connected and short-circuited by the shock sensor; Including,
The electronic unit is short-circuited when the impact force transmitted to the sensor fixing plate by the impact of the impact plate is less than the operating range of the impact sensor.
Rotational shock detection sensor measuring device characterized in that it is designed to conduct when included in the operating range of the shock sensor. delete delete A sensor fixing unit having one end fixed to the rotating shaft and rotating about the rotating shaft and equipped with an impact sensor;
An impact plate having one end fixed to a spring shaft and rotating about the spring shaft;
A torsion spring fixed to the spring shaft to provide an elastic force to the shock plate; Including
By applying a predetermined pressure to the other end of the impact plate and removing it, the impact plate strikes the sensor fixing unit by the elastic force of the torsion spring, thereby evaluating the performance of the impact sensor.
The sensor fixing unit
A sensor fixing plate hit by the impact plate;
An electronic unit that is electrically connected and short-circuited by the shock sensor;
The electronic unit is short-circuited when the impact force transmitted to the sensor fixing plate by the impact of the impact plate is less than the operating range of the impact sensor.
Rotational shock detection sensor measuring device characterized in that it is designed to conduct when included in the operating range of the shock sensor. delete delete In the impact force measuring method by the rotary impact sensor measuring apparatus of claim 4,
A sensor mounting step of mounting the impact detection sensor to be verified on the rotational impact detection sensor measuring device;
An angle adjusting step of adjusting an angle of the impact plate by applying pressure to the other end of the impact plate;
A blow step of removing the pressure to rotate the impact plate to strike the sensor fixing plate;
A checking step of checking whether the shock sensor senses an impact force; Including
Evaluate the performance of the impact sensor by generating an elastic force of the torsion spring in the angle adjustment step and hitting the sensor fixing plate by rotating the impact plate with the elastic force in the striking step,
The angle of the impact plate in the angle adjustment step is the minimum value of the torsion spring is free;
A maximum value at which the other end of the impact plate is in contact with the bottom surface; Impact force measuring method comprising a. delete The method of claim 7, wherein
The striking step is a step of measuring the impact force, characterized in that for converting the elastic force generated in the angle adjustment step to the impact force. The method of claim 7, wherein
An angle value checking step of checking whether the angle of the impact plate is the maximum value if the checking step is not satisfied; Impact force measuring method, characterized in that to proceed. The method of claim 10,
When the angle value check step is satisfied, it is determined that the elastic force of the torsion spring is not included in the operating range of the impact sensor, and the spring replacement step of replacing the torsion spring: the impact force measuring method, characterized in that to proceed. delete The method of claim 10,
If the angle value check step is not satisfied, the impact force measuring method, characterized in that for performing the angle adjustment step again.

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