KR20080027003A - Device for attaching and detaching accelerometer using cylinder - Google Patents

Abstract

An apparatus for attaching and detaching an accelerometer using a cylinder is provided to extend a frequency range of vibration that is measured from a vibration source by measuring the vibration with the accelerometer attached to the vibration source. An apparatus for attaching and detaching an accelerometer comprises an accelerometer(20) for measuring vibration of a vibration source. An accelerometer coupling jig(13), including conductive material, is integrally coupled with the accelerometer. An electromagnet(12) is attached to and detached from the accelerometer coupling jig with a magnetic force. One end of a cylinder(11) is connected to the electromagnet. An adhesive member is coated on one side of the accelerometer to attach the accelerometer to the vibration source. Adhesive material removing jigs(14,15) remove adhesive material from the accelerometer after the vibration of the vibration source is measured.

Description

Accelerometer detachable device using cylinder {DEVICE FOR ATTACHING AND DETACHING ACCELEROMETER USING CYLINDER}

1 is a configuration state of the accelerometer detachable device using a cylinder according to the present invention.

Figure 2a to 2c is a state diagram showing the use process of the accelerometer detachable device using a cylinder according to the present invention.

Figure 3 is a perspective view of the adhesive removal jig in the accelerometer detachable device using a cylinder according to the present invention.

Explanation of symbols on the main parts of the drawings

11.cylinder 12.electromagnet

13. Accelerometer coupling jig 14,15. Adhesive Removal Jig

16. Cylinder for adhesive application 20. Accelerometer

21. Adhesive

The present invention relates to an accelerometer detachable device for attaching and detaching an accelerometer to a vibration source for measuring vibration using a cylinder, and more particularly, using an attached cylinder with an accelerometer to measure the vibration of the vibration source. The present invention relates to an accelerometer detachable device for attaching and detaching an accelerometer.

In general, for the inspection for evaluating the noise and vibration level of the product during the production of the product, a sample product was selected and the noise and vibration inspection was selectively performed.

However, the inspection of the entire product cannot be confirmed only by the inspection of the sample product. Therefore, the entire product is inspected for noise and vibration.

The whole inspection may be carried out using a microphone or an accelerometer. If a microphone is used, use a noise chamber that sufficiently blocks external noise, and if using an accelerometer, use a pneumatic cylinder.

When measuring the vibration of the excitation circle using the accelerometer in the method of the total inspection as described above, it is attached to the excitation circle with the accelerometer using a pneumatic cylinder.

In other words, the pneumatic cylinder is attached to the accelerometer and the pneumatic cylinder is extended to contact a circle (vibration structure) with the accelerometer. When the accelerometer contacts the excitation circle, the piston extension of the pneumatic cylinder is stopped, and the accelerometer connected to the pneumatic cylinder is attached to the excitation circle. While the accelerometer is fixed to the excitation circle by a pneumatic cylinder, the vibration of the excitation circle is measured using the accelerometer.

However, if the vibration of the excitation circle is measured by attaching the accelerometer to the circle with the accelerometer and attaching and fixing the accelerometer to the circle with the accelerometer, the vibration of the excitation circle is not transmitted to the accelerometer but is transmitted to the pneumatic cylinder and measured by the accelerometer. The vibration of the excitation source is distorted in the high frequency region, which limits the upper limit of the frequency accurately measured by the accelerometer.

The pneumatic cylinder is convenient to attach to the circle with the accelerometer, but due to the dynamic characteristics of the pneumatic cylinder, the vibration is absorbed, which has the adverse effect of reducing the frequency of the measurable vibration of the accelerometer connected to the pneumatic cylinder. Therefore, when the accelerometer is fixed to the existing pneumatic cylinder and the accelerometer is attached to the surface of the vibrating structure, the measurable frequency is relatively low.

Therefore, the technical problem to be achieved in the present invention is that the cylinder is used as a means for attaching the accelerometer to the excitation circle and by measuring the vibration of the excitation circle with the accelerometer attached to the excitation circle with an adhesive, The present invention provides an accelerometer detachable device using a cylinder that adjusts the frequency domain upward and automatically attaches and detaches the accelerometer to a circle with a cylinder.

Accelerometer detachable device using a cylinder of the present invention for solving the above technical problem, the accelerometer detachable device for automatically detaching the accelerometer with a circle, an accelerometer for measuring the vibration of the excitation circle; and is integrated with the accelerometer Accelerometer coupling jig of the conductive material; and an electromagnet detachably attached to the accelerometer coupling jig by magnetic force; and the cylinder is connected to one end of the cylinder to the piston movement.

Applying an adhesive means on one side of the accelerometer attaches the accelerometer to the excitation circle and provides an accelerometer detachable device using a cylinder, characterized in that it further comprises an adhesive removal jig to remove the adhesive of the accelerometer after vibration measurement of the excitation circle do.

The adhesive removal jig is an accelerometer detachable device using a cylinder, characterized in that consisting of a movable rod for reciprocating linear movement, and a removal plate which is inclined to one end of the movable rod to easily remove the adhesive means by the reciprocating linear movement of the movable rod. To provide.

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

In describing the present invention, the direction will be described with reference to the drawings. The vertical direction is determined based on the horizontal direction of the drawing, the left and right direction is determined based on the vertical direction of the drawing, the direction toward the center of the vertical image of the drawing is set to the inside, and the opposite direction of the inside is set to the outside.

1 is a configuration diagram of an accelerometer detachable device using a cylinder according to the present invention.

As shown in Figure 1, the accelerometer detachable device according to the present invention is a device for automatically detachable to a circle with an accelerometer.

Electromagnet is installed at the end of the cylinder to attach and detach it to the accelerometer coupling means, and bee-wax is applied to the accelerometer surface so that the accelerometer is attached to the surface of the vibration structure even if the cylinder is not connected to the accelerometer.

In addition, by using a separate jig after a certain number of times to remove the beeswax applied to the accelerometer surface and to apply a new beeswax to maintain a good state of adhesion between the accelerometer and the vibration structure.

In more detail, the accelerometer detachment apparatus of the present invention includes an accelerometer, an accelerometer coupling jig, an electromagnet, a cylinder, and an adhesive removal jig.

Accelerometer 20 is a device for measuring the vibration of the excitation circle.

The accelerometer coupling jig 13 is integrally coupled with the accelerometer and is made of a conductor material so that attraction and repulsion are generated by magnetic force upon contact with an electromagnet described later.

Electromagnet 12 is provided to be easily attached to the accelerometer coupling jig by the magnetic force. One side of the electromagnet has a piston (11a) portion of the cylinder 11 is connected to the piston portion is connected to the electromagnet to the piston movement. The cylinder used in the present invention uses a pneumatic cylinder, but does not limit the type of cylinder.

The adhesive 21 is applied to one side of the accelerometer to attach the accelerometer to the excitation circle 30. The means for applying the adhesive to the accelerometer is not limited, but in the present invention, the adhesive applying cylinder 16 is separately provided, and the adhesive is applied to one side of the accelerometer by applying an adhesive to the end portion of the piston 16a of the cylinder.

Here, the adhesive may be any means capable of temporarily attaching the accelerometer to the excitation circle so that the vibration of the excitation circle can be measured through the accelerometer. Examples of the adhesive include beeswax, bond, and adhesive sheets.

After vibration measurement of the excitation circle, separate adhesive removal jig 14 and 15 are provided to remove the adhesive of the accelerometer. The adhesive removal jig 14 removes the adhesive applied to one side of the accelerometer while reciprocating as shown by the arrow, and the adhesive removal jig moves to the maximum position of another adhesive removal jig 15.

That is, one adhesive removing jig 15 is positioned at one end of the accelerometer to which the adhesive is applied, and the other adhesive removing jig 14 is moved to remove the applied adhesive.

The adhesive removal jig 14 and 15 is composed of removal plates 14a and 15a and moving rods 14b and 15b. The ends of the removal plate are formed so sharp that the adhesive can be easily removed from the accelerometer. The removal plate is connected to one end of the movable rod but is inclinedly connected to easily remove the adhesive. The other end of the moving rod is connected to a separate cylinder or motor and gear so that the adhesive removing jig reciprocates.

Looking at the operation of the accelerometer detachable device using a cylinder according to the present invention made as described above are as follows.

2a to 2c is a state diagram showing the use process of the accelerometer detachable device using a cylinder according to the present invention.

Connect the accelerometer to the cylinder and apply adhesive to one side of the accelerometer. Then, extend the piston of the cylinder and attach it to the circle with the accelerometer, and then measure the vibration of the circle with the accelerometer. Then remove it from the circle with the accelerometer and remove the adhesive.

First, as shown in FIG. 2A, an accelerometer is connected to a cylinder, and then an adhesive is applied to one side of the accelerometer.

The magnetic force flows through the electromagnet so that the accelerometer coupling jig is attached to the electromagnet, and the accelerometer coupling jig connects the cylinder and the accelerometer. The coil is wound around the electromagnet to generate magnetic force on the electromagnet by applying power to the coil.

It regulates the generation and release of attraction to the accelerometer coupling jig which is a conductor by controlling the flow of electric current to the coil of electromagnet. Adjust the poles so that the magnets are attracted to the accelerometer coupling jig.

When power is applied to the coil of the electromagnet, the electromagnet and the accelerometer coupling jig are connected by the attraction force. When power is cut off to the coil of the electromagnet, the generated magnetic force is no longer generated and the electromagnet and accelerometer coupling jig are disengaged.

The electromagnet is integrally connected to the cylinder, the accelerometer coupling jig is magnetically connected to the electromagnet, and the accelerometer is integrally connected to the accelerometer coupling jig, thereby holding the accelerometer.

Adhesive is applied to one side of the accelerometer while the accelerometer is held in the cylinder. This adhesive is intended for attaching to accelerometers. Here, one side of the accelerometer refers to a side of the accelerometer attached to the excitation circle.

In the present invention, a cylinder is used as the adhesive applying means. Glue the piston end of the cylinder for adhesive application and extend the piston to one side of the accelerometer side. The adhesive is applied to the side of the accelerometer while moving the cylinder with the adhesive from one side of the accelerometer to the other side.

Next, as shown in FIG. 2B, the piston of the cylinder is extended and attached to a circle having an accelerometer, and then the vibration of the circle is measured using an accelerometer.

The piston of the cylinder is elongated and moved to the circle where the accelerometer coupling jig and accelerometer are attached to the electromagnet. At this time, the piston is extended so that the surface of the accelerometer to which the adhesive is applied faces the excitation circle.

The extension length of the piston of the cylinder is controlled by a separate control unit and is movable to a position where the accelerometer abuts the excitation circle. When the accelerometer contacts the excitation circle as the piston moves, the accelerometer is attached to the excitation circle by an adhesive.

When the accelerometer is attached to the excitation circle, it cuts off the power applied to the coil of the electromagnet to block the attraction of the electromagnet and the accelerometer coupling jig, and moves the piston in reverse to separate the accelerometer coupling jig from the electromagnet.

With the accelerometer coupling jig separated from the electromagnet, measure the vibration of the excitation circle using the accelerometer. Since the vibration of the excitation circle is transmitted only to the accelerometer and accelerometer coupling jig, the frequency of the vibration that can be measured by the accelerometer can be used to measure the vibration of the excitation circle in a wider frequency range than measuring the vibration of the excitation circle with the cylinder It can be measured accurately.

Then, as shown in Fig. 2c, it moves away from the circle with the accelerometer and removes the adhesive.

When the vibration measurement of the excitation circle is completed, the cylinder is extended to couple the electromagnet to the accelerometer coupling jig, and the electromagnet is applied to the coil of the electromagnet to integrate the electromagnet and the accelerometer coupling jig using the attraction force generated by the electromagnet.

The cylinder is then retracted to separate it from the source with the accelerometer. The adhesive strength of the adhesive that attaches the accelerometer to the excitation circle is weaker than the attractive force of the electromagnet. When the cylinder is contracted while the electromagnet is connected to the accelerometer coupling jig, the accelerometer is released from the excitation circle.

Figure 3 is a perspective view of the adhesive removal jig in the accelerometer detachable device using a cylinder according to the present invention.

As shown in FIG. 3, the accelerometer is connected to the cylinder by an electromagnet, and the adhesive is removed from the excitation circle. One adhesive removal jig 15 is positioned at one end of the accelerometer to which the adhesive is applied, and the other adhesive removal jig 14 is scraped and removed while reciprocating the other adhesive removal jig 14.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

As described above, the accelerometer detachment apparatus using the cylinder of the present invention is used as a means for attaching the accelerometer to the excitation circle and by measuring the vibration of the excitation circle with the accelerometer attached to the excitation circle using an adhesive, The frequency range of measurable vibrations can be adjusted upward and the cylinders can be automatically attached to or detached from the circle with the accelerometer.

Claims (3)

In an accelerometer detachable device that automatically attaches and detaches a circle with an accelerometer, An accelerometer which measures the vibration of the excitation circle; An accelerometer coupling jig of a conductor material integrally coupled with the accelerometer; An electromagnet detachably attached to the accelerometer coupling jig by magnetic force; And Accelerometer detachable device using a cylinder, characterized in that the electromagnet comprises a cylinder connected to one end to the piston movement. The method according to claim 1, Accelerometer detachable device using a cylinder characterized in that it further comprises an adhesive removal jig to apply the adhesive means to one side of the accelerometer to attach the accelerometer to the excitation circle and to remove the adhesive of the accelerometer after vibration measurement of the excitation circle. The method according to claim 2, The adhesive removal jig is an accelerometer detachable using a cylinder, characterized in that consisting of a movable rod for reciprocating linear movement, and a removal plate which is inclined to one end of the movable rod to easily remove the adhesive means by the reciprocating linear movement of the movable rod. Device.

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