KR200353560Y1 - A deflection coil winding machine - Google Patents

Abstract

The present invention relates to a deflection coil winding machine, which uses the coupling structure of the right hand thread (104a) and the left hand thread (104b) alternately during the coupling operation of the male winding saddle 100, The twist effect of the screw rotation is minimized by the offset effect, thereby improving the ease of operation.

Description

Deflection coil winding machine

The present invention relates to a deflection coil winding machine for shaping a coil into a desired winding structure by interacting with a male winding and a female winding. More specifically, the coil is assembled to a male disc member that is rotated by a power source and interacts with a female winding. The coupling structure of the Wound saddle directly involved in the shaping was improved to improve the ease of coupling.

As is known, electron deflection is employed in current television receivers, and a horizontal and vertical deflection magnetic field must be applied to the neck portion of the CRT in order to scan the electron beam.

In order to make such a deflection field, basically, two coils which are combined at right angles are referred to as horizontal and vertical coils, and a deflection yoke is composed of both deflection coils and an advisory ferrite core.

In the winding structure of the deflection yoke, both deflection coils are saddle-shaped saddle-saddle, the horizontal deflection coils are saddle-shaped, and the vertical deflection coils are wound directly on ferrites. (semi-toroidal), and three types of toroidal-toroidal type winding both deflection coils directly to ferrite.

In addition, according to the conventional deflection yoke manufacturing process, the saddle-shaped deflection coil is first molded by using a winding machine and mounted on the inner or outer circumference of the resin molded separator.

1 is a perspective view of a deflection coil winding machine for shaping a deflection coil into a saddle shape as described above, and FIG. 2 is an exploded perspective view of a male winding according to the prior art.

The deflection coil winding machine includes a male winding type 10 and a female winding type 20 which take out coils wound around coil bobbins (not shown) and wound them into roughly saddle-shaped deflection coils.

The male winding 10 is composed of a male disc member 11 that is rotated by an external power source, and a male saddle 12 that is assembled to the male disc member 11, and the female winding 20 is connected to an external power source. It consists of a female disc member 21 which is rotated by, and a female winding saddle 22 assembled to the female disc member 21.

The male wound saddle 12 is coupled to the male disc member 11 to guide the coil 12a, which is drawn out of the coil bobbin, to the central portion, and coupled to the central portion of the coil wound by the interaction with the female winding 22. It consists of a winding member 12b for molding to a predetermined shape.

A plurality of lugs 2 are formed in the winding member 12b, and the lug 2 through which the screw hole 1 is drilled is provided in a plurality, and the guide member 12a is formed with a screw groove 3 corresponding to the screw hole 1. Usually, the threaded thread of the screw hole 1 and the screw groove 3 is formed to be coupled by a right screw coupling structure, and the guide member 12a and the winding member 12b are coupled by the right screw 4.

The deflection coil winding machine configured as described above is rotated in a clockwise or counterclockwise direction by the external winding power source 10 and the female winding type 20, and the mutually matching the female winding saddle 12 and the female winding 22 By winding the coil into a roughly saddle, it forms the desired deflection coil.

On the other hand, such a deflection coil winding machine is not capable of forming only one type of deflection coil, and replaces the various types of deflection coils by replacing the male saddle 12 and the dark winding saddle 22 with those corresponding to the work characteristics. It can be molded.

Here, in the replacement assembly or initial assembly process of the male saddle 12, the guide member 12a is first coupled to the male disc member 11, and the winding member 12b is positioned at the center thereof.

Then, while the screw hole 1 of the lug 2 extended to the winding member 12b and the screw groove 3 formed in the guide member 12a are correctly aligned, the winding member 12b is moved with the right screw 4. It is coupled to the guide member (12a).

At this time, the winding member 12b must be installed at the horizontal and the correct position, so that the coil can be formed into the desired winding structure with high precision, so special care is required for the horizontal and the correct position installation.

Therefore, it is known that the right screw 4 is sandwiched in the diagonal order of the plurality of loves 2 protruded to the winding member 12b.

However, in the related art, since the threads of the screw holes 1 and the screw grooves 3 are all formed in the right-hand thread manner and the guide member 12a and the winding member 12b are coupled by the right screw 4, the joining procedure is performed. Even if the diagonal order was taken in accordance with the crystallization, the inertia generated in the same direction due to the rotation of the screw caused distortion.

Therefore, in order to prevent twisting, there was a need to perform a coupling operation after rearranging the positions of the winding members 12b, and intermittently, there was a problem in that the assembly defects were generated and the degree of the formed coil fell.

The present invention is proposed to solve the problems of the prior art as described above, and drills the right screw hole and the left screw hole in a plurality of lugs that are addressed to the winding member of the winding type, and guides the right screw groove and the left screw groove corresponding thereto. Formed in the member so that the winding member and the guide member are coupled by right and left screws,

The purpose is to minimize twisting by the offset effect of the two action forces generated by the mutual action in the opposite direction due to the rotation of the right or left screw during the coupling operation.

1 is a perspective view of a general deflection coil winding machine.

Figure 2 is an exploded perspective view of a male winding applied to a deflection coil winding machine according to the prior art.

3 is an exploded perspective view of a male winding applied to a deflection coil winding machine according to the present invention;

* Description of the symbols for the main parts of the drawings *

100: male winding 101a: right screw hole

101b: left screw hole 102: lug

103a: right screw groove 103b: left screw groove

104a: Right hand thread 104b: Left hand thread

110: male disc member 120: male wound saddle

121: guide member 122: winding member

The deflection coil winding machine according to the present invention for achieving the above object, the coil is formed into a desired winding structure by the interaction between the male winding and the female winding; The male winding is a male disc member rotated by a power source, a guide member coupled to the male disc member to send a coil drawn out of the coil bobbin to a central portion, and coupled to the central portion to form a coil in interaction with the female winding type. In a deflection coil winding machine comprising a winding member molded into a predetermined shape:

A plurality of lugs are spoken to the winding member, a predetermined one of the plurality of lugs is drilled with a right screw hole in which a thread in a right direction is formed, and a left screw hole in which a thread in a left direction is formed in a hole;

The guide member is provided with a right screw groove and a left screw groove corresponding to the right screw hole and the left screw hole;

The winding member and the guide member are coupled to the right screw and the left screw in the screw hole and the screw groove.

Preferably, the screw holes drilled in two lugs in the opposite or diagonal directions among the plurality of lugs are formed with threads in different directions.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Through this embodiment, it is possible to better understand the objects, features and advantages of the present invention.

3 is an exploded perspective view of a male winding applied to a deflection coil winding machine according to the present invention.

The male winding 100 is composed of a male disc member 110 that is rotated by an external power source, and a male saddle 120 that is assembled to the male disc member 110.

The male winding saddle 120 is coupled to the male disc member 110 to guide the coil drawn from the coil bobbin to the central portion 121, and coupled to the central portion of the coil winding by the interaction with the female winding saddle predetermined The winding member 122 is formed into a shape.

A plurality of lugs 102 are spoken to the winding member 122, and a predetermined screw hole 101a in which a right-hand thread is formed is drilled in one of the lugs 102, and a left-hand thread is formed in the other. The left screw hole 101b is drilled. Here, the screw holes 101a and 101b drilled in the two lugs 102 in the opposite or diagonal directions are formed with threads in different directions.

The guide member 121 is formed with a right screw groove 103a and a left screw groove 103b corresponding to the right screw hole 101a and the left screw hole 101b.

In this male winding type 100, the right hand thread 104a and the left hand thread 104b are fitted into the screw holes 101a and 101b and the screw grooves 103a and 103b so that the winding member 122 is located at the center of the guide member 121. Combined.

The assembly process of the male winding 100 configured as described above is performed in the same order as that in the prior art.

First, the guide member 121 is coupled to the male disc member 110, and the winding member 122 is positioned at the center thereof.

Then, the right screw 104a is turned right in a state where the screw holes 101a and 101b of the lug 102 and the screw grooves 103a and 103b formed in the guide member 121 are correctly aligned with the winding member 122. Tighten into the hole 101a and the right screw groove 103a.

Next, the left screw 104b is screwed into the left screw hole 101b and the left screw groove 103b. At this time, when the left screw 104b is first tightened, the coupling operation is performed in the order of tightening the right screw 104a next. That is, the winding member 122 is coupled to the center portion of the guide member 121 by alternately using the right screw coupling structure and the left screw coupling structure.

At this time, the winding member 122 must be installed at the horizontal and the correct position, so that the coil can be formed into the desired winding structure. Therefore, special attention should be paid to the installation of the horizontal and the exact position. It is preferable to tighten the screw with a.

Then, the undesired force generated by the rotation of the screw when tightening the right hand screw 104a is directed to the right side, and the ineffective force caused by the rotation of the screw when tightening the left hand thread 104b is directed to the left side.

Therefore, the unnecessary force generated in the opposite directions due to the rotation of the right hand thread 104a or the left hand thread 104b brings about a mutual offsetting effect even if they do not occur at the same time.

In other words, even if the position of the winding member 122 is slightly twisted to the right by the inerting force to the right, the position of the winding member 122 is twisted to the left again due to the inerting force to the left, which is generated next. The original position is restored.

Therefore, the twisting of the winding member 122 which may occur due to the rotation of the screw during the coupling operation of the guide member 121 and the winding member 122 is minimized.

As described above, the deflection coil winding machine according to the present invention alternately uses the coupling structure of the right hand thread method and the left hand thread method during the coupling operation of the winding type saddle, thereby canceling the screw due to the offset effect of the unnecessary force generated in the opposite direction. Since twisting by the rotation is minimized, the ease of operation is improved.

Claims (2)

The coil is formed into a desired winding structure by the interaction between the male winding and the female winding; The male winding is a male disc member rotated by a power source, a guide member coupled to the male disc member to send a coil drawn out of the coil bobbin to a central portion, and coupled to the central portion to form a coil in interaction with the female winding type. In a deflection coil winding machine comprising a winding member molded into a predetermined shape: A plurality of lugs are spoken to the winding member, a predetermined one of the plurality of lugs is drilled with a right screw hole in which a thread in a right direction is formed, and a left screw hole in which a thread in a left direction is formed in a hole; The guide member is provided with a right screw groove and a left screw groove corresponding to the right screw hole and the left screw hole; The winding member and the guide member is a deflection coil winding machine, characterized in that the right screw and the left screw is fitted into the screw hole and the screw groove. The method of claim 1, And a screw hole drilled in two lugs facing or opposite to each other among the plurality of lugs has threads formed in different directions.