KR920006157Y1 - Measuring equipment of anti-explosion band position for crt - Google Patents

Abstract

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Description

Explosion-proof band positioning device of cathode ray tube

1 is a perspective view showing an embodiment of the present invention.

2 is a plan view of the subject innovation device.

3 is a side view of FIG.

* Explanation of symbols for main parts of the drawings

2: bed 3α-3b: sensing rod

4: intersection part 5: central axis

6: ball joint 7,8: swing detection rod

9, 10: ring body 11, 12: dial gauge

The present invention relates to an explosion-proof band position measuring device of the cathode ray tube.

The explosion-proof band mounted on the outer circumferential surface of the cathode ray tube has a lug for fixing the cathode ray tube to the cabinet, and it becomes difficult to fix the cathode ray tube to the cabinet unless it is correctly mounted at a designated position.

Therefore, conventionally, a cathode ray tube equipped with an explosion-proof band has been placed on the position measuring device to check whether it is correctly mounted. The position measuring device used in this work has a gauge rod for placing the lug of the explosion-proof band on a bed. Since the worker is standing up, the cathode ray tube to be measured is placed by placing a lug on the gauge rod of the bed and measuring the accuracy of the position.

However, this type of measuring device only measures the position of the explosion-proof band on the outer circumferential surface of the cathode ray tube, so that there is a drawback that the error cannot be measured when the cathode ray tube is placed obliquely with respect to the explosion-proof band.

In the cathode ray tube inspecting the mounting position of the explosion-proof band due to the above-described drawbacks, when connected to the cabinet, sometimes a defect is found, which causes a problem of lowering the efficiency of the assembly line.

An object of the present invention is to provide a device for measuring the position of the explosion-proof band of the cathode ray tube configured to measure the mounting position of the explosion-proof band more accurately by collectively measuring the slope of the cathode ray tube in measuring the position of the explosion-proof band. . In accordance with the above object, the present invention extends in all directions from the lower center of the bed to the sensing rod which protrudes upwards through the electric bed, and a ball joint which supports the central axis extending from the intersection of these sensing rods so as to swing. And a swing sensing rod which is divided up and down at two lower places of the center axis as described above, and is horizontally extended in the outer periphery of the shaft, and a ring body connected to a normal dial gauge on one side of the outer periphery while surrounding the swing sensing rod. It is done.

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

1 is a perspective view showing in detail the configuration of the present invention, the four sensing rods (3α-3d) extending in all directions at the lower center of the bed (2) where the gauge rod (1) is standing on the four corners, the electric bad It extends upward through (2).

2 is a plan view showing the arrangement pattern of the sensing rods 3α-3d.

The sensing rods 3α-3d are protruded to the positions opposite to the gauge rods 1, respectively.

Returning to FIG. 1 again, at the intersection portion 4 where the sensing rods 3α-3d are staggered, the central axis 5 extends to the lower half thereof, and the central axis 5 has a ball joint approximately midway. It is supported by (6) and is provided so that rocking | fluctuation is possible, and the fluctuation detection rods 7 and 8 are extended in four directions up and down in two outer peripheral surfaces extended below the ball joint 6, respectively.

Ring bodies 9 and 10 are enclosed around these fluctuation detecting rods 7 and 8, respectively. The ring bodies 9 and 10 described above are provided on the outer circumferential side of the micro switches 11 and 12. It is arranged to be connected and interlocked.

Referring back to FIG. 2, it can be seen that the microswitches 11 and 12 are arranged perpendicular to each other.

According to the present invention configured as described above, the cathode ray tube T having the explosion-proof band B mounted on the outer circumference is placed on the bed 2 in the same manner as the conventional measuring operation, and the lug L on the outer circumference as shown in FIG. ) Is inserted into the gauge rod (1) to measure the mounting position of the explosion-proof band (B), at the same time the face surface of the cathode ray tube (T) is projected upward through the bed (4) It comes into contact with the three sensing rods 3α-3d.

In this case, the explosion-proof band B is horizontal so that when the four sensing rods 3α-3d are in contact with the face surface of the cathode ray tube at the same height, the central axis 5 maintains a vertical posture. Since it does not oscillate, it can be determined that the center axis of the cathode ray tube T does not take an inclined posture with respect to the explosion-proof band B. On the contrary, when one of the sensing rods 3α-3d comes into contact with a lower position, The central axis (5) is influenced to oscillate in the vertical posture, and as a result, the micrometer (11) in which the swing detection rods (7) (8) push and pull the ring bodies (9) (10) is arranged to cross each other. (12) is interlocked so that the amount of oscillation appears on the micrometers (11) (12).

Therefore, the operator can measure the inclination of the cathode ray tube (T) with respect to the explosion-proof band (B) by looking at the scale of the micrometers (11) and (12), and the measured value is inversely determined for the cathode ray tube (T). It becomes the same as the oblique degree of the explosion-proof band B, and becomes an installation of an explosion-proof band.

As described above, according to the present invention, when measuring the position accuracy of the explosion-proof band mounted on the outer circumference of the cathode ray tube, it is also configured to measure the attitude of the cathode ray tube at the same time. There is an advantage that the assembly line can be significantly improved efficiency.

Claims (1)

Sensing rods 3α-3d extending in all directions from the lower center of the bed 2 and protruding upward through the bed 2, the tip of which is crossed, and an intersection portion 4 of these sensing rods 3α-3d. Ball joint 6 for oscillating the central axis 5 extending from the back side), and swinging horizontally extending in the outer circumferential direction of the shaft 5 divided up and down at two lower positions of the central axis 5 described above. Surrounding the sensing rods (7) (8) and the periphery of the swing detection rods (7) (8), the outer circumference of which is connected to the ordinary dial gauge (11) (12) to ring bodies (9) (10). Explosion-proof band position measuring device of the cathode ray tube, characterized in that configured.