KR20130068778A - The height alignment device of the vibration exciter - Google Patents

Abstract

PURPOSE: A height aligning device of an exciter bearing is provided to measure the height by directly fixing the device to the bearing, thereby obtaining an accurate result by minimizing errors generated by a measuring point. CONSTITUTION: A height aligning device of an exciter bearing comprises a bearing joining unit(10), a first measurement frame(20), a second measurement frame(30), a first length measuring unit(40), and a second length measuring unit(50). The bearing joining unit is joined to the exciter bearing. The first measuring frame is extended from one side of the bearing joining unit. The second measuring frame is extended from the other side of the bearing joining unit. The first length measuring unit is joined to the first measuring frame and measures a distance between the first measuring frame and a surface plate(200). The length measuring device is joined to the second measuring frame and measures a distance between the second measuring frame and the surface plate.

Description

The height alignment device of the vibration exciter

The present invention relates to a height aligning device of the vibrator bearing, and more particularly, to measuring and aligning the height of the vibrator bearing when the experiment.

In order to align the gap between the vibrator bearing and the surface plate, the measuring equipment is placed on the surface plate to measure the height of the vibrator bearing. To illustrate more specifically, FIG. 1 is shown.

1 is a perspective view showing a measuring device for measuring the height of the exciter bearing in the conventional experiment.

Referring to Figure 1, the conventional measuring equipment is composed of a dial gauge (1) and a dial gauge stand (2). In carrying out the experiment using the measuring equipment, the exciter bearing 100 is installed inside the slip table, which is an experimental equipment, and aligns the interval between the surface plate 200 and the exciter bearing 100 positioned on the slip table. The dial gauge stand 2 and the dial gauge 1 are installed on the left and right surface plates 200 of the vibrator bearing 100 to measure the height of the vibrator bearing 100.

In this case, in order to measure the left and right of the exciter bearing 100, there is a problem in that a measurer has to make a measurement while moving the dial gauge stand 2 and the dial gauge 1, which are measuring equipment, one by one.

In addition, since the measurer measures the dial gauge stand 2 by fixing it on the surface plate 200, an error in the measured value may occur by the measurer.

As designed to solve the above problems of the present invention, it is to provide a height aligning device of the vibrator bearing fixed to the vibrator bearing during the experiment to measure the left and right height of the vibrator bearing at a time.

Height alignment device of the exciter bearing according to the embodiments of the present invention described above is a bearing coupling portion coupled to the bearing of the exciter, a first measuring frame extending from one side of the bearing coupling portion, extending from the other side of the bearing coupling portion A second measuring frame, a first length measuring unit coupled to the first measuring frame to measure the distance between the first measuring frame and the surface plate and a distance between the second measuring frame and the surface plate coupled to the second measuring frame It is configured to include a second length measuring unit for measuring. Here, the bearing coupling portion is formed in a plate shape that can be in close contact with the vibrator bearing. In addition, the bearing coupling portion is formed with a through hole through which the fastening member can pass.

According to one example, the first and second measuring frame comprises a fixed arm for holding the first or second length measuring unit and a fixed arm support extending from the bearing coupling portion to support the fixed arm. The first and second length measuring units may be any one of a dial gauge, an ultrasonic range finder, and a laser beam range finder. The first and second length measuring units measure a length between the surface plate and the fixed arm, and subtract the sum of the thickness of the bearing coupling portion and the length of the fixed arm support portion from the length between the surface plate and the fixed arm. The distance between the bearing and the surface plate is measured by the value.

With such a configuration, when using the height aligning device of the exciter bearing when performing the experiment, it is possible to shorten the time required for the experiment because the left and right are measured at a time instead of moving the bearing from side to side. In addition, since the height aligning device of the exciter bearing is directly fixed to the bearing, the measurement results can be reduced to a minimum, thereby obtaining accurate results.

As described above, according to the embodiments of the present invention, when using the height aligning device of the exciter bearing in the experiment, instead of measuring the movement of the bearing left and right one by one instead of measuring the left and right at a time, It can save time.

In addition, since the height aligning device of the exciter bearing is directly fixed to the bearing, the measurement results can be reduced to a minimum, thereby obtaining accurate results.

1 is a perspective view showing a measuring device for measuring the height of the exciter bearing in the conventional experiment.
Figure 2 is a perspective view of the height alignment device of the exciter bearing in accordance with an embodiment of the present invention.
3 is a cross-sectional view of the height alignment device of the exciter bearing according to an embodiment of the present invention applied to the experiment.

2 to 3 will be described in detail with respect to the height aligning device of the exciter bearing according to an embodiment of the present invention.

Figure 2 is a perspective view of the height aligning device of the exciter bearing according to an embodiment of the present invention and Figure 3 is a cross-sectional view applying the height aligning device of the exciter bearing according to an embodiment of the present invention in the experiment.

2 to 3, the height alignment device of the exciter bearing is a bearing coupling portion 10 coupled to the bearing 100 of the exciter, a first measuring frame extending from one side of the bearing coupling portion 10 20, a second measuring frame 30 extending from the other side of the bearing coupling part 10, coupled to the first measuring frame 20, between the first measuring frame 20 and the surface plate 200. A second length measuring unit coupled to the first length measuring unit 40 and the second measuring frame 30 to measure the distance of the second measuring frame 30 to measure the distance between the second measuring frame 30 and the surface plate 200. It consists of 50.

The bearing coupling portion 10 is manufactured in the form of a plate that can be in close contact with the vibrator bearing 100, the through hole through which the fastening member 11 can be fastened to the vibrator bearing 100 ( 12) is formed. The exciter bearing 100 and the bearing coupling part 10 are fixedly installed by the fastening member 11, and the fastening member 11 may be fastened using a bolt.

The first and second measurement frames 20 and 30 are provided on both sides of the bearing coupling part 10, respectively, and include fixed arms 21 and 31 and fixed arm supports 22 and 32.

Here, the fixed arms 21 and 31 are fastened and supported by the fixed arm supports 22 and 32 and bolts (not shown), and are positioned at the centers in the width direction of the fixed arm supports 22 and 32. In addition, the fixed arms (21, 31) in the present invention used a rod-shaped rod, but the shape can be changed depending on the conditions.

The fixed arm support parts 22 and 32 are supported on the bearing coupling part 10 to securely fix the fixed arms 21 and 31 without shaking, and to fasten the fixed arms 21 and 31. It has a fastening hole (not shown) for.

The first and second length measuring parts 40 and 50 are fixed to the fixed arms 21 and 31 and installed in the vertical direction on the surface plate 200. In addition, the measuring device of the first and second length measuring unit (40, 50) may be any one of the measuring device of a dial gauge, an ultrasonic range finder and a laser beam distance measurer in the embodiment of the present invention use.

Here, the surface plate 200 has an even and flat top surface, a hole is exposed in the center of the exciter bearing 100 is exposed. The surface plate 200 is made of marble with a uniform surface.

On the other hand, it will be described in detail the experimental method according to an embodiment of the present invention. When the experiment proceeds, the bearing coupling part 10 is fixed to the upper surface of the exciter bearing 100 with the fastening member 11 and the fixing arms 21 and 31 of the first and second measuring frames 20 and 30 are fixed to the arm. After fastening to the support parts 22 and 32, the first and second length measuring parts 40 and 50 are gripped. Thereafter, the first and second length measuring units 40 and 50 measure the length between the surface plate 200 and the fixed arms 21 and 31, and the surface plate 200 and the fixed arms 21 and 31. The distance between the vibrator bearing 100 and the surface plate 200 is determined by subtracting the sum of the thickness of the bearing coupling part 10 and the length of the fixed arm support parts 22 and 32 from the length between the two ends. The excitation bearing 100 is aligned by calculating the measured measurement value.

With such a configuration, when the height aligning device of the exciter bearing is used in the experiment, the time taken for the experiment can be shortened because the right and left are measured at the same time instead of moving the left and right of the exciter bearing 100 one by one. have. In addition, since the measurement is performed by directly fixing to the vibrator bearing 100 having the height aligning device of the vibrator bearing, it is possible to obtain an accurate result by reducing the error generated by the measurer to a minimum.

As described above, the present invention has been described by specific embodiments, such as specific components, and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention. In addition, the present invention is not limited to the above-described embodiments, and various modifications and variations are possible to those skilled in the art to which the present invention pertains. Therefore, the spirit of the present invention should not be limited to the above-described embodiments, and all the things that are equivalent to or equivalent to the scope of the claims as well as the claims to be described later belong to the scope of the present invention.

1: dial gauge
2: dial gauge stand
10: bearing coupling part
11: fastening member
12: Through hole
20: first measuring frame
21: fixed arm
22: fixed arm support
30: second measuring frame
31: fixed arm
32: fixed arm support
40: first length measuring unit
50: second length measuring unit
100: Exciter Bearing
200: plate

Claims (6)

A bearing coupling portion coupled to the bearing of the exciter;
A first measuring frame extending from one side of the bearing coupling part;
A second measuring frame extending from the other side of the bearing coupling part;
A first length measuring unit coupled to the first measuring frame and measuring a distance between the first measuring frame and the surface plate; And
A second length measuring unit coupled to the second measuring frame and measuring a distance between the second measuring frame and the surface plate;
Height alignment device of the exciter bearing comprising a. The method of claim 1,
The bearing coupling portion is a height alignment device of the vibrator bearing is formed in a plate shape that can be in close contact with the vibrator bearing. The method of claim 1,
Height matching device of the exciter bearing is formed in the bearing coupling portion through holes through which the fastening member can pass. The method of claim 1,
The first and second measurement frame
A fixed arm fixing the first or second length measuring unit; And
A fixed arm support extending from the bearing coupling part and supporting the fixed arm;
Height alignment device of the exciter bearing comprising a. 5. The method of claim 4,
The height alignment device of the exciter bearing, characterized in that the first and second length measuring unit is a measuring device of any one of a dial gauge, an ultrasonic range finder, and a laser beam range finder. 5. The method of claim 4,
The first and second length measuring units measure the length between the surface plate and the fixed arm, and subtract the sum of the thickness of the bearing coupling portion and the length of the fixed arm support portion from the length between the surface plate and the fixed arm. Height aligning device of the exciter bearing for measuring the distance between the bearing and the surface plate.

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