KR101374204B1 - Impact detection device - Google Patents

Abstract

The present invention relates to an impact detection device which visually checks vibration and impact which is propagated to an article when the article which is vulnerable to the vibration and the impact is transferred and installed, and safely performs processes. To solve the above-mentioned problems, the impact detection device includes a device body made of a transparent material, a combination part which is formed in the device body, combined with the device body, and separated from the device body, a detection unit which allows a user to visually check vibration and impact which is propagated to the inner part of the device body.

Description

Shock detection device {IMPACT DETECTION DEVICE}

The present invention relates to a shock sensing device, and more particularly, to ensure that the shock and vibration is conducted to the target article in the process of transporting the article or device that shock or vibration should not be conducted, paying attention to handling and stability The present invention relates to the provision of an impact sensing device that can be ensured.

Various measuring instruments used in industrial academia or munitions for precision measurement, or a variety of articles that can cause abnormalities in the product when an explosive or shock or vibration are conducted, and such articles have a great deal of care in handling. Tilt shall be such that shock or vibration is not transmitted to the object.

Shock and vibration must not be conducted in the process of carrying such a short or long distance, as well as it can be called an important factor because it can ensure safety when the impact and vibration is not conducted in the installation process.

In order to transport the articles to which such shocks and vibrations should be excluded, the means for absorbing shocks and vibrations are often sealed and transported inside the packing box, and in order to install or mount the articles, The goods are installed or mounted while a dedicated worker or worker moves and moves them.

In this way, when vibration or vibration occurs due to an operator's mistake or a malfunction of a machine or the like, a shock is generated due to a worker's mistake or a malfunction of a machine in the process of carrying out or installing a means for preventing shock and vibration and ensuring safety. The problem arises that the object becomes unavailable.

If the object to be transported or installed is a simple mechanical device, it can be repaired by repairing the object, but if the object is a dangerous item such as an explosive or flammable item, an explosion or fire may occur due to shock and vibration. Generated and harmful gas leaks.

In this case, not only the danger of the surroundings due to explosion, fire, and harmful gas, but also the safety of the worker may not be guaranteed, and the secondary problem may be caused.

In the prior art, there is no means for visually confirming that the shock and vibration are conducted in the process of carrying or installing a precision measuring instrument or an object vulnerable to shock and vibration, such as an explosion or flammable article or material. In the process of transporting or installing by using it becomes difficult to determine whether the shock and vibration conduction to the object.

In the course of work, the shock and vibration can be easily recognized by the actual worker or people around him and visually felt and felt by the body.However, when the vibration and impact are minutely conducted to the object, the actual object cannot be understood. You will not be aware of the dangers that occur.

Even if the shock and vibration are not conducted during the temporary transfer for transport, the destination of the destination may be the case where the shock and vibration are conducted to the object inside the packing box while being transported using a vehicle such as a car, a ship or an aircraft. This becomes difficult to figure out.

In such a case, it is determined that there is no abnormality at the destination, and when the packing box is opened, the object subjected to shock or vibration may cause an explosion or fire, so there is no preparation for this. do.

In the process of carrying or installing an object that is vulnerable to vibration and shock, vibrations and shocks that cannot be detected by a worker or a person are transferred to the object and do not exclude the possibility of a safety accident leading to explosion and fire. There are several problems, such as the need for costly and time-consuming maintenance, causing damage to parts and components.

In the present invention, to solve the problems described above, the device body made of a transparent material visible inside, the coupling portion formed on the device body to combine and detach the device body, and the device It consists of a sensing means for the operator to visually check that the shock and vibration is conducted inside the body;

When carrying and installing the goods vulnerable to shocks and vibrations, it is possible to visually check whether the shocks and vibrations are conducted to the target goods, thereby achieving the purpose of performing a safe work.

The present invention is attached to the surface of the object or sensitive to vulnerable to shock and vibration or attached to the outside of the packaging box for packaging the object to enable the operator to visually check whether the shock and vibration occurs during the transport or installation process through a safe operation The invention has a variety of effects, such as to ensure the safety of the object without being exposed to dangerous situations.

1 is an overall perspective view showing a shock detection device to which the technique of the present invention is applied.
2 is a cross-sectional view taken along the line A-A of the shock detection device to which the technique of the present invention is applied.
3 is a cross-sectional view of an exploded state taken along line A-A of the impact detection device to which the technique of the present invention is applied.
Figure 4 is a state diagram attached to the outside of the packaging box as a state of use of the shock detection device to which the technique of the present invention is applied.
Figure 5 is an exemplary state attached to the actual product as a state diagram of the impact detection device to which the technique of the present invention is applied.

Hereinafter, with reference to the accompanying drawings will be described a preferred configuration and operation of the present invention for achieving the above object.

1 is an overall perspective view showing an impact sensing device to which the technique of the present invention is applied, FIG. 2 is a cross-sectional view taken along line A-A of the impact sensing apparatus to which the technique of the present invention is applied, and FIG. 3 is an impact to which the technique of the present invention is applied. 4 is a cross-sectional view of an exploded state taken along line A-A of the sensing device, FIG. 4 is a state diagram of a shock sensing device to which the technique of the present invention is applied, and FIG. As an operational state diagram of the impact sensing device, an example diagram attached to an actual product will be described together.

The shock detection device 100 to which the technique of the present invention is applied has a rectangular device body 101 made of a material such as transparent plastic or acrylic visible inside, and the device body 101 is to be separated and coupled at the center portion. Form the coupling portion 102 to be able to.

The coupling part 102 forms an outer jaw 103 and an inner jaw 104 that are coupled to each other at a separate position of the device body 101, and the outer jaw 103 and the inner jaw 104 are formed. In the intermediate position, the locking protrusion 105 and the locking groove 106 are formed in the shape of a mountain, a semi-circular protrusion so as to continuously maintain the coupled state.

Although the device body 101 is illustrated in the drawings and description of the present invention as having a substantially rectangular cross section, the device body 101 may be configured in various shapes such as a triangular shape, a semicircle having a plane, and a pentagonal shape.

The interior of the device body 101 has a detection means 110 for detecting that the shock and vibration is conducted so that the operator can visually determine whether the shock and vibration conduction by looking at the detection means (110).

The sensing means 110 is integrally formed or separately fixed to the spring retainer 112 on both side wall 111 of the device body 101, the coil spring 113 is coupled to the spring retainer 112 do.

Between the coil spring 113 coupled to the spring retainer 112, when the shock and vibration is conducted through the sphere 115, the sphere 115 is dropped from the coil spring 113 to determine whether the vibration and shock conduction. Make it easy to see visually.

The spheres 115 may be made of various materials such as steel balls, wooden balls, glass balls, plastic balls, or the like to perform coloring to increase visibility, or to apply or include fluorescent or photoluminescent materials to be easily identified in a dark place. You can do it.

The length and elastic modulus of the coil spring 113, the distance between the coil spring 113 interposed with the sphere 115 and the weight and diameter of the sphere 115 may be calculated by mathematical calculation according to the type of object. The present invention does not specifically embody or limit the numerical content, and it should be visually confirmed that the vibrations and shocks are conducted before the actual shocks and vibrations are transmitted to the target article, so that the value is smaller than the threshold that is conducted to the target article. It will be desirable to allow the impact detection device 100 to operate.

Looking at the state of use of the impact detection device 100 to which the technology of the present invention is applied as described above are as follows.

The impact detection device 100 may be formed on the outer surface of the packing box 150 that packs the target article or on the outer surface of the target article 155 using conventional attachment means such as double-sided tape, magnet, adhesive, band, or the like. Mount it more than one place.

When the impact sensing device 100 is mounted on the packing box 150 or the object article 155, the shock sensing device 100 may be freely mounted regardless of the horizontal direction or the vertical direction. Shock and vibration can be easily detected.

When the packaging box 150 or the object article 155 is transported or installed by a worker or a mechanical means in such a state, if a shock or vibration occurs, the shock and vibration device receives the shock and vibration. Since the operator or manager can visually confirm, safety can be ensured by eliminating the cause of shock and vibration conduction while temporarily stopping the transportation or installation work.

Of course, when the shock and vibration are conducted, the shock detection device 100 can operate below a threshold that will damage the object 155. Of course, it is natural to be able to check and take corrective action.

That is, when shock and vibration are conducted, the spherical body 115 interposed between the coil spring 113 and the coil spring 113 coupled to the spring holder 112 in the device body 101 is elastic and self-weighted. In this case, the spheres 115 fall out between the coil springs 113.

Then, the worker is in the situation of watching the impact detection device 100 in the process of work visually confirms that the sphere 115 is dropped, and the work is stopped before the shock and vibration is further conducted, the sphere 115 is Even before dropping, if the shaking of the coil spring 113 and the sphere 115 is severe, visually confirming this stops the work, thereby ensuring safety.

In addition, even when the transport is completed by using a vehicle such as a vehicle, the vibration sensing device 100 is first opened without immediately opening the packing box 150 even when the packing box 150 is to be opened in the loading or unloading state. In the case of checking the dropping of the sphere 115, when the safety box and the security box are strengthened, the packing box 150 is opened, and shock and vibration are conducted to the object article 155 during the transport process, resulting in the opening of the packing box 150. Safety accidents such as explosions, fires or gas leaks can be prevented beforehand.

After the transport or installation of the target article is completed as described above, the vibration sensing device 100 may be separated and recycled. In this process, the device body 101 is separated using the coupling part 102 and then coiled. Intervening the sphere 115 between the springs 113 and then recombining, there is no problem in use.

The present invention has the advantage of performing the work in a safe state by visually confirming whether the shock and vibration is conducted to the target article during transportation and installation of the article vulnerable to shock and vibration.

100; Shock detection device
101; Device body
102; Engaging portion
105; Obstacle
106; Latching groove
110; Sensing means
112; Spring retainer
113; Coil spring
115; sphere

Claims (3)

A device body composed of a transparent material visible inside;
A coupling part formed on the device body to allow the device body to be coupled and separated;
It consists of a sensing means for the operator to visually check that the shock and vibration is conducted inside the device body;
The sensing means includes a spring holding formed on both side walls of the device body;
A coil spring coupled to the spring holder;
The shock sensing device, characterized in that composed of spheres that fall from the coil spring when the shock and vibration is conducted between the coil springs. delete delete

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