KR200162739Y1 - Tilt compensation device of deflection yoke - Google Patents

Abstract

By allowing accurate correction of the tilt of the deflection yoke mounted on the CRT within a short time, it is possible to improve the productivity according to the characteristic inspection of the deflection yoke, and predetermined along the circumferential surface of one side of the CRT to which the deflection yoke is mounted. Attached at angular intervals, multiple distance measuring sensors for measuring the distance to the deflection yoke, display for displaying the distance measured by the distance measuring sensor on the screen, and controlling the operation of the display according to the measured values of the distance measuring sensor Design of a deflection yoke tilt correction device consisting of a configuration including a controller for.

Description

Deflection yoke tilt correction device

The present invention relates to a deflection yoke tilt correction device, and in particular, the deflection yoke is installed on the CRT in an accurate posture by being installed in a deflection yoke characteristic inspection device that inspects and adjusts various characteristics such as the convergence of the deflection yoke after the deflection yoke is manufactured. To a deflection yoke tilt correction device.

In general, the deflection yoke should be mounted on a CRT, a yam tester, after its manufacture, and its properties should be inspected. To do this, the deflection yoke must be mounted in the correct position on the CRT of the test equipment. This will be described with reference to FIGS. 1 and 2.

FIG. 1 is a perspective view showing a general deflection yoke, and FIG. 2 is a perspective view showing a characteristic inspection device for inspecting a characteristic of a deflection yoke.

The deflection yoke 10 is shown in FIG. The deflection yoke 10 is mounted on the CRT 36 as shown in FIG. 2 to deflect the R (red), G (green), and B (blue) electron beams emitted from the electron gun in the horizontal and vertical directions. For the purpose of stabilizing the horizontal deflection coil mounted on the inner circumferential surface of the separator 12 and the separator 12, the core 16 and the vertical deflection coil 18 and the CRT 36 mounted on the outer circumferential surface can be stabilized. And a cross arm 20. The coil spacer 13 is formed in front of the separator 12 of the deflection yoke 10. As shown, the coil spacer 13 has a groove 14 formed therein. These grooves 14 are each formed symmetrically on both sides, which are used for fixing to the deflection yoke holder during the property inspection.

2 shows a characteristic inspection device 30 of a deflection yoke, commonly referred to as a yam. This characteristic test equipment 30 has a CRT support 34 provided on a rotatable disc 32. The CRT support 34 is equipped with a CRT 36. A neck 38 protruding backward is formed in the CRT 36, and pins 40 are provided at the rear end of the neck 38. The deflection yoke 10 described with reference to FIG. 1 is mounted on the neck 38.

As shown in FIG. 2, a deflection yoke holder 50 is provided behind the CRT 36. As shown in FIG. The deflection yoke holder 50 is for holding the deflection yoke 10 in an accurate posture. The deflection yoke holder 50 is supported by the holder support 56. The deflection yoke holder 50 is capable of moving forward, backward, left and right by the holder operating mechanism 58 or the like, and the tilt can also be adjusted.

As shown, the deflection yoke holder 50 has a hole 52 formed therein. The neck 38 of the CRT 36 is inserted through the hole 52. On both sides of the inner circumference of the hole 52, projections 54 face each other and protrude. This projection 54 is a portion to which the grooves 24 formed in the coil spacer 13 shown in FIG. 1 are coupled.

That is, the projection 54 is formed in the deflection yoke holder 50 and the groove 14 formed in the separator 12 is coupled to the projection 54 so that the deflection yoke 10 can be mounted. With the deflection yoke 10 mounted to the deflection yoke holder 50, the tilt of the deflection yoke 10 is visually checked and the posture of the deflection yoke holder 50 is repeatedly adjusted using the holder operating mechanism 58 or the like. The tilt of the deflection yoke 10 was corrected. In this case, since the operator checks the tilt of the deflection yoke 10 with the naked eye, not only the skill of the operator but also takes a lot of time. In addition, there is a disadvantage that a precise characteristic check is not made because a lot of errors occur.

It is an object of the present invention to provide a deflection yoke tilt correction device that can improve the productivity of the deflection yoke by checking the tilt of the deflection yoke mounted on the CRT within a short time.

1 is a perspective view showing a general deflection yoke,

2 is a perspective view showing a characteristic inspection equipment for resolving the characteristics of the deflection yoke,

3 is a perspective view of a characteristic inspection equipment to which the deflection yoke tilt correction device according to the present invention is applied.

* Explanation of symbols for main parts of the drawings

10: deflection yoke 12: separator

13: coil spacer 14: groove

16 core 18 vertical deflection coil

20: cross arm 30: characteristic inspection equipment

32: negative 34: CRT support

36: CRT 38: Neck

40: pin 50: deflection yoke holder

52: hole 54: protrusion

56 holder holder 58 holder mechanism

72: distance measuring sensor 74: controller

76: display 77: switch

78: screen

An object of the present invention is to install a deflection yoke characteristic inspection device having a CRT, and to measure and display the degree of tilt of the deflection yoke, the deflection yoke tilt correction device for easily correcting the tilt of the deflection yoke, Attached to the circumferential surface of one side of the CRT on which the yoke is mounted, a plurality of distance measuring sensors for measuring the distance to the deflection yoke, a display and a distance for displaying the measured distances on the screen, respectively It can be achieved by the deflection yoke tilt correction device, characterized in that it comprises a controller for controlling the operation of the display according to the measured value of the measuring sensor.

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

3 is a perspective view of a specific inspection equipment to which the deflection yoke tilt correction device according to the present invention is applied.

3 shows the characteristic inspection device 30 of the deflection yoke. This characteristic test equipment 30 has a CRT support 34 provided on a rotatable disc 32. The CRT support 34 is equipped with a CRT 36. A neck 38 protruding backward is formed in the CRT 36, and pins 40 are provided at the rear end of the neck 38. The deflection yoke 10 is mounted on the neck 38.

As shown in FIG. 3, a plurality of distance measuring sensors 72 are attached to the rear surface of the CRT 36. As shown in FIG. This distance measuring module 72 is for measuring the distance from the deflection yoke 10 mounted on the CRT 36. The distance measuring sensor 72 may be a distance measuring sensor using ultrasonic waves or the like.

A controller 74 is connected to the distance measuring sensor 72, and a display 76 is connected to the controller 74. The display 76 is for displaying the distance value of each point measured by the distance measuring sensor 72 on the screen 78 as a number or a chart, respectively, and the controller 74 displays each distance measuring sensor 72. In order to control the operation of the display 76 according to the measured value applied from.

As shown, the deflection yoke holder 50 is installed at the rear of the CRT 36. The deflection yoke holder 50 is for holding the deflection yoke 10 in an accurate posture. The deflection yoke holder 50 is supported by the holder support 56. The deflection yoke holder 50 is capable of moving forward, backward, left and right by the holder operating mechanism 58 or the like, and the tilt can also be adjusted.

A hole 52 is formed in the deflection yoke holder 50. The neck 38 of the CRT 36 is inserted through the hole 52. On both sides of the inner circumference of the hole 52, projections 54 face each other and protrude. This projection 54 is a portion to which the grooves 24 formed in the coil spacer 13 shown in FIG. 1 are coupled.

That is, the projection 54 is formed in the deflection yoke holder 50 and the groove 14 formed in the separator 12 is coupled to the projection 54 so that the deflection yoke 10 can be mounted. When the deflection yoke 10 is mounted on the deflection yoke holder 50 and the switch 77 installed on the display 76 is turned on, the controller 74 sends a signal to each distance measuring sensor 72 and measures each distance. The sensor 72 measures the distance from the deflection yoke 10 and applies it to the controller 74. The controller 74 then displays the measured value on the screen 78 of the display 76 according to the signal applied from the distance measuring sensor 72. The operator judges which direction the deflection yoke 10 is inclined by reading the measured value at each position, and repeatedly adjusts the posture of the deflection yoke holder 50 by using the holder operating mechanism 58 or the like, so that the deflection yoke 10 This is done by adjusting the tilt of.

As can be seen from the above description, when using the deflection yoke tilt correction device according to the present invention, it is possible to check the exact value of the deflection yoke tilt, not only requiring the skill of the operator but also taking much less time. In addition, since there is little error, there is an advantage in that a precise characteristic inspection is performed.

Claims (1)

In a deflection yoke tilt correction device installed in a deflection yoke characteristic inspection device having a CRT to measure and display the tilt degree of the deflection yoke, the deflection yoke tilt correction device can be easily corrected. A plurality of distance measuring sensors attached to the circumferential surface of one side of the CRT on which the deflection yoke is mounted at predetermined angle intervals to measure a distance from the deflection yoke; A display for respectively displaying the distance measured by the distance measuring sensor on a screen; And And a controller for controlling the operation of the display according to the measured value of the distance measuring sensor.