KR200142295Y1 - Poles magnet fixing structure of deflection yoke - Google Patents

Abstract

The present invention forms a resilient piece 6 protruding upward and stepped on the lower end portion 5 of which the diameter of the neck portion 3 of the coil space 2 forming the body of the flat yoke 1 is different, The upper end portion 4 of the neck portion 3 having a different diameter is formed with a protrusion 7 to reinforce the fixing force of the four-pole magnet 8 fixed to the neck portion 3 of the deflection yoke 1 to the outside. By preventing the change of the adjustment position of the four-pole magnet (8) set to the output characteristics of the deflection yoke (1) by the impact or vibration to maintain the output characteristics of the product uniformly.

Description

4-pole magnet fixing structure of deflection yoke

The present invention relates to a four-pole magnet fixing structure of a deflection yoke. More specifically, a plurality of fixing jaws are projected on the upper outer periphery of the neck so as to form an upper boundary when the four-pole magnet moves upward. It relates to a four-pole magnet fixing structure of the deflection yoke composed of a structure formed by bending a plurality of elastic pieces on the lower outer periphery of the neck portion so as to be elastically pushed up toward the plurality of fixing jaw.

Generally, the deflection yoke 100 is a device for deflecting an electron beam emitted from an electron gun of a cathode ray tube, and includes a vertical deflection coil (not shown) for deflecting the electron beam in a vertical direction and a horizontal deflection coil for deflecting the electron beam in a horizontal direction ( Not shown), and the separator 110 is configured to precisely distinguish the positions of the horizontal deflection coil and the deflection coil and to electrically insulate each other.

At this time, the electron beams of R (Red), G (Green), and B (Blue) emitted to the electron gun of the cathode ray tube are deflected at a predetermined angle by the deflection yoke 100 and pass through the through holes formed in the shadow mask. By sealing the light on each stripe mounted on the inner circumference of the penel and emitting light, an image can be realized on the screen of the television.

As described above, the horizontal deflection coil and the vertical deflection coil which perform a function of deflecting the R, G and B electron beams emitted from the electron gun of the cathode ray tube at a predetermined angle are mounted or wound around the inner and outer circumferences of the separator 110. In some cases, the deflection angle is shifted, which causes mis-landing and mis-convergence of the electron beam, thereby failing to realize a normal image. In this case, the 4-pole magnet 120 commonly called a purity magnet or a convergence magnet is rotated left and right. By changing the magnetic field, it is possible to overcome the mislanding and miss convergence by adjusting the trajectory of the electron beam.

On the other hand, the four-pole magnet 120 to perform the function is provided with a handle 121 protruding on one side is made of a circular ring type to be mounted on the neck portion 111 of the separator 110, The neck portion 111 of the separator 110 has a structure capable of supporting the bottom surface of the four-pole magnet 120 by forming a step 112 having an enlarged diameter in a lower portion thereof.

Referring to the four-pole magnet fixing operation of the deflection yoke in the prior art made of the above structure as follows.

First, when the four pole magnet 120 is gripped and pressed to the neck portion 111 of the separator 110, the four poles naturally enter the smaller neck portion 111, and then the diameter of the four poles 112 is increased. The fixing of the bottom surface of the magnet 120 is completed.

Thereafter, when the deflection angle is shifted according to the wound shapes of the horizontal deflection coil and the vertical deflection coil mounted on the inner and outer circumferences of the separator 110, the four pole magnet 120 actively responds to the misalignment and the misconvergence. By grasping the handle 121 and moving in the left and right direction, it is possible to overcome mis-landing and misconvergence through the trajectory adjustment of the electron beam.

However, the four-pole magnet fixing structure of the deflection yoke according to the prior art has a diameter while the four-pole magnet 120 for correcting mis-landing or miss convergence is supported by the end 112 of the neck portion 111 whose diameter is enlarged. Since the close contact with the outer circumference of the small neck portion 111 is made of a structure that can be fixed while maintaining the adjusted position of the four-pole magnet 120 is changed to the left and right to adjust the trajectory of the electron beam outside, The change of position of the 4-pole magnet 120 that has already been adjusted due to the impact or vibration of the device occurs so frequently that the position of the 4-pole magnet 120 for mis-landing or mis-convergence adjustment must be redone at that time. There was this.

That is, since the adjusted position of the 4-pole magnet 120 for correcting mis-landing or miss convergence is fixed depending on the frictional force between the outer circumference of the neck 111 and the inner circumference of the 4-pole magnet 120. There was a problem that can not easily use the fixing force.

Therefore, the present invention was devised to solve the above problems, and its purpose is to protrude and form a plurality of fixing jaws at the upper outer periphery of the neck so that it becomes an upper boundary when the 4-pole magnet moves upward. Consists of a structure formed by bending a plurality of elastic pieces on the lower outer periphery of the neck portion so that the four-pole magnet can be pushed up and fixed toward the plurality of fixing jaws to change the state of the four-pole magnet. It is to provide 4-pole magnet fixing structure of deflection yoke that can be fixed while maintaining it.

1 is a front view showing a four-pole magnet fixing structure of a deflection yoke according to the prior art.

Figure 2 is a perspective view for explaining a four-pole magnet fixing structure of the deflection yoke according to the prior art.

Figure 3 is a front view showing a four-pole magnet fixing structure of the deflection yoke according to the present invention.

Figure 4 is a perspective view for explaining a four-pole magnet fixing structure of the deflection yoke according to the present invention.

* Explanation of symbols for main parts of the drawings

100: deflection yoke 110: separator

111: neck portion 111a: fixed jaw

111b: inclined surface 111c: elastic piece

112: Dan 120: Magnet

121: handle

The present invention for achieving the above object is a separator having a cylindrical neck portion on which the electron gun of the cathode ray tube is mounted, and a circular ring type to be mounted on the neck portion of the separator to correct mislanding and miss convergence. In the 4-pole magnet fixing structure of the deflection yoke comprising a 4-pole magnet to have a slope so as to be guided by sliding when mounted downward movement of the 4-pole magnet to be an upper boundary when moving the 4-pole magnet upward. A plurality of fixing jaw protrudingly formed on the upper outer periphery of the neck portion and the four-pole magnet inserted and moved downward along the inclined surface of the fixing jaw so as to be pushed up and fixed elastically toward the plurality of fixing jaws. Plural number bent in step shape on the lower outer periphery of the neck portion And that comprising the elastic pieces to the basic feature of the technical construction.

Hereinafter, a preferred embodiment of the 4-pole magnet fixing structure of the deflection yoke according to the present invention will be described with reference to FIGS. 3 and 4.

3 is a front view showing a four-pole magnet fixing structure of the deflection yoke according to the present invention, Figure 4 is a perspective view for explaining a four-pole magnet fixing structure of the deflection yoke according to the present invention, the same function as the conventional configuration About the structure, the same name and the same code | symbol are used together.

The four-pole magnet fixing structure of the deflection yoke according to the present invention accurately distinguishes the vertical deflection coil which deflects the electron beam in the vertical direction and the horizontal deflection coil which deflects in the horizontal direction, as shown in FIGS. 3 and 4. And the inclined surface 111b to be slidably guided and mounted when the 4-pole magnet 120 moves downward on the upper outer circumference of the neck 111 of the separator 110 so as to be electrically insulated from each other. When the 4-pole magnet 120 moves upward, a plurality of fixing jaws 111a, which are upper boundary lines, are protruded and moved downward along the inclined surface 111b of the fixing jaws 111a. The plurality of elastic pieces 111c are bent and formed into a step 112 on the lower outer periphery of the neck portion 111 so as to push the 120 toward the plurality of fixing jaws 111a. It is done.

Referring to the four-pole magnet fixing operation of the deflection yoke according to the present invention made of the above structure.

First, when the four pole magnets 120 are gripped and pressed to the neck 111 of the separator 110, the four pole magnets 120 are naturally moved downwardly along the inclined surface 111b of the fixing jaw 111a and then fitted with a plurality of elastic members. The elasticity is pushed upward again by the upward elasticity of the piece 111c.

At this time, the four-pole magnet 120 is closely supported between the fixing jaw (111a) by the elastic force of the elastic piece (111c) and the horizontal deflection coil and the vertical deflection coil mounted on the inner and outer circumference of the separator (110) If the deflection angle is shifted according to the wound shape of the coil, it causes mis-landing and miss convergence. If the grip 121 of the 4-pole magnet 120 is moved to the left or right direction, the changed position is closely maintained while maintaining the changed position. It can be fixed.

As described above, according to the 4-pole magnet fixing structure of the deflection yoke according to the present invention, a plurality of fixing jaws are protruded and formed on the upper outer periphery of the neck so that the upper limit line becomes upper limit when the 4-pole magnet moves upward. Positional change of the four-pole magnet that compensates for mis-landing and miss convergence by constructing a structure in which a plurality of elastic pieces are bent and formed on the lower outer periphery of the neck so as to be elastically pushed up and fixed toward the plurality of fixing jaws. Since it can be fixed while maintaining the changed state, it has an excellent effect of improving the reliability and assemblability of the product.

Claims (1)

A deflection yoke comprising a separator having a cylindrical neck portion on which an electron gun of a cathode ray tube is mounted, and a four-pole magnet shaped into a circular ring type to be mounted on the neck portion of the separator to compensate for mislanding and miss convergence. In the four-pole magnet fixing structure of the four pole magnet has a slanted surface so that it can be guided and mounted when moved downwards and protruded to the upper outer periphery of the neck portion so as to be the upper limit boundary when the four-pole magnet moves upward Stepped to the lower outer periphery of the neck portion so as to elastically push up the plurality of fixing jaw and the four-pole magnet inserted and moved downward along the inclined surface of the fixing jaw toward the plurality of fixing jaws. It comprises a plurality of elastic pieces bent and molded 4-pole magnet fixed structure of the deflection yoke to the gong.