KR200186996Y1 - A deflection coil winding device - Google Patents

Abstract

The present invention relates to a deflection coil winding machine, a male winding type having a saddle type saddle assembled to a male disc member rotated by an external power source, and a female winding type saddle assembled to an arm disc member rotating by an external power source. In the deflection coil winding machine including the arm winding provided, the upper surface and six lower pin shafts are provided on the edge surface of the male winding saddle corresponding to the female winding saddle of the female winding, that is, Four upper pin shafts and six lower pin shafts are provided on the corners of the male wound saddle corresponding to the dark winding saddles, allowing the coils drawn from the coil bobbin to be rounded and gently wound to prevent stripping of the coil coating. At the same time, the coil distribution can be made uniform, which helps to prevent unbalance between R / B of the electron beam. There.

Description

Deflection coil winding machine

The present invention relates to a deflection coil winding machine, and more specifically, four upper pin shafts and six lower pin shafts on the edge surface of a male winding saddle corresponding to a female winding saddle can be made uniform in coil distribution. It relates to a deflection coil winding machine.

In general, the deflection coil (deflection coil) 100 is divided into a horizontal deflection coil and a vertical deflection coil, and serves to change the traveling direction of the electron beam in the television receiving tube. At this time, the horizontal deflection coil is mounted in a shape that is seated on the inner circumferential surface of the separator 200 formed in a substantially trumpet shape, and mounted in a shape in which the vertical deflection coil is seated on the outer circumferential surface of the separator 200 as shown in FIG. do.

Here, the deflection coil 100 for deflecting the advancing direction of the electron beam horizontally and vertically in the receiving pipe is configured to be wound a plurality of times by a winding machine in a roughly saddle shape so as to be seated on the inner and outer circumferential surfaces of the separator 200. As shown in FIG. 2, an upper flange portion 110 having two upper pinholes 111, a lower flange portion 120 having four lower pinholes 121, and an upper flange portion ( It consists of a body portion 130 provided between the 110 and the lower flange portion 120.

Here, the two upper pinholes 111 and the four lower pinholes 121 operate to change the inductance and impedance values of the deflection coil 100 to appropriately adjust the deflection of the electron beam to achieve smooth convergence adjustment. do.

Meanwhile, the deflection coil winding machine for winding the deflection coil 100 will be described with reference to FIG. 3.

3 is a perspective view illustrating main parts of a deflection coil winding machine according to the related art.

As shown in FIG. 3, the deflection coil winding machine 300 according to the prior art draws a coil wound on a coil bobbin (not shown) and wound-rolls the wound coil to a saddle-shaped deflection coil 100. 310 and a dark winding 320.

Here, the male winding 310 is composed of a male disc member 311 rotated by an external power source, a male saddle 312 assembled to the male disc member 311, and the female winding 320 ) Is composed of an arm disc member 321 rotated by an external power source, and a female winding saddle 322 assembled to the arm disc member 321.

In addition, two upper pin shafts 410 protruding and retracted by an air cylinder to form the upper pinhole 111 and the lower pinhole 121 of the deflection coil 100 on the corner face of the male saddle 312 and Four lower pin shafts 420 are respectively installed.

Referring to the winding operation of the deflection coil winding machine 300 made as described above are as follows.

First, when the male winding 310 and the female winding 320 rotate in a clockwise and counterclockwise direction by an external power source, the coil supplied through the coil bobbin is between the male winding 310 and the female winding 320. The upper flange 110, the lower flange 120 and the body portion 130 is provided with a wound around the horse saddle shape.

At this time, during the rotation of the male winding 310 and the female winding 320, the upper pin shaft 410 and the lower pin shaft 420 is projected by the pressure of the air cylinder by the already woven program, the upper pin shaft 410 and Two upper pinholes 111 and four lower pinholes 121 are provided in the upper flange portion 110 and the lower flange portion 120 of the deflection coil 100 by the lower pin shaft 420, respectively.

By the way, the deflection coil winding machine 300 according to the prior art as described above, the edge surface of the male wound saddle 312 to be wound by adjusting the thickness and winding angle of the deflection coil 100 mounted on the separator 200 Since only two upper pin shafts 410 and four lower pin shafts 420 are provided, the upper flange portion 110 has only two upper pin holes 111 and the lower flange portion 120. Only four lower pinholes 121 were configured, respectively, and there was a big disadvantage in that it was not possible to completely compensate for the convergence of the deflection yoke.

In addition, although the correction coil and the correction magnet may be additionally installed in order to solve the above-mentioned disadvantages, such additional components are pointed out as a problem of greatly increasing productivity due to the increase in manufacturing cost.

The present invention has been devised to solve the above problems, and its purpose is to have four upper pin shafts and six lower pin shafts on the edges of the male saddle corresponding to the dark wound saddle, and withdraw from the coil bobbin. The present invention provides a deflection coil winding machine which can be wound while gently rounding the coils to prevent the peeling phenomenon of the coil coating and at the same time make the coil distribution uniform.

1 is a perspective view showing a separator having a general deflection coil.

2 is a perspective view showing a general deflection coil.

Figure 3 is a perspective view of the main portion showing a deflection coil winding machine according to the prior art.

Figure 4 is a perspective view of the main portion showing a deflection coil winding machine according to the present invention.

5 is a perspective view showing a deflection coil according to the present invention.

* Explanation of symbols for main parts of the drawings

100: deflection coil 110: upper flange

111: upper pin hole 120: lower flange portion

121: lower pinhole 130: body

200: separator 300: deflection coil winding machine

310: male winding type 311: male disc member

312: wound wound saddle 320: dark wound type

321: disc member 322: dark wound saddle

410: upper pin shaft 420: lower pin shaft

A deflection coil winding machine according to the present invention for achieving the above object is a male winding type having a saddle type saddle assembled to a male disc member that is rotated by an external power source, and assembled to an arm disc member that is rotated by an external power source. A deflection coil winding machine comprising a female winding having a female winding saddle, the four windings having six pins and six lower pin shafts at the edges of the female winding saddles corresponding to the female windings of the female windings. It is made into the basic characteristic on the technical structure.

Hereinafter, a preferred embodiment of the deflection coil winding machine according to the present invention will be described with reference to FIGS. 4 and 5.

4 is a perspective view showing a main portion of the deflection coil winding machine according to the present invention, Figure 5 is a perspective view showing a deflection coil according to the present invention, and the same name and the same reference numerals are used for the same configuration having the same function as the conventional configuration The detailed description thereof will be omitted.

As shown in FIG. 4, the deflection coil winding machine 300 according to the present invention draws the coil wound around the coil bobbin and wound around the wound coil 310 and the wound winding to form the saddle-shaped deflection coil 100. It consists of 320.

At this time, the male winding 310 is composed of a male disc member 311 rotated by an external power source, and a male saddle 312 assembled to the male disc member 311, and the female winding 320 ) Is composed of an arm disc member 321 rotated by an external power source, and a female winding saddle 322 assembled to the arm disc member 321.

Here, four upper pin shafts 470 and six lower pin shafts 420 are provided at the corners of the male wound saddle 312 corresponding to the female winding saddle 322 of the female winding 320.

At this time, the male winding 310 and the female winding 320 is rotated in a clockwise and counterclockwise direction by an external power source to wind the coil supplied through the coil bobbin into a rough saddle shape. The upper pin shaft 410 and the lower pin shaft 420 provided on the edge surface of the 312 is wound around the coil drawn out from the coil bobbin gently as shown in FIG. 5 to round the upper flange of the deflection coil 100. Four upper pinholes 111 and six lower pinholes 121 are provided in the 110 and the lower flanges 120, respectively.

Here, it can be seen that the four upper pinholes 111 and the six lower pinholes 121 of the deflection coil 100 function to accurately adjust the deflection angle of the electron beam by preventing unbalance between R / B of the electron beam. have.

As described above, according to the deflection coil winding machine according to the present invention, the coil drawn out from the coil bobbin is provided with four upper pin shafts and six lower pin shafts on the corner face of the male winding saddle corresponding to the female winding type saddle. It can be wound while rounding to prevent the peeling phenomenon of the coil coating and at the same time to uniformly distribute the coil has a useful effect of preventing the unbalance between the R / B of the electron beam.

In addition, it is possible to accurately match the deflection angle of the electron beam and at the same time produce a deflection coil capable of realizing a high quality image.

Claims (1)

A deflection coil comprising a male winding having a saddle-shaped saddle assembled to a male disc member rotated by an external power source, and a female winding having a female winding-type saddle assembled to a female disc member rotated by an external power source. The winding machine according to claim 1, wherein the upper coil shaft and the six lower pin shafts are provided on the edge surface of the male winding saddle corresponding to the female winding saddle of the female winding type.