KR19980020863U - Saddle type coil forming structure of deflection yoke - Google Patents

Abstract

The present invention relates to a deflection yoke, and in the related art, since the main pusher is formed by pushing only the main pusher when forming the coil, the coil between the female winding type and the male winding type has less coil density than the coil density of the molding portion to accommodate the variation of the coil. As a result, the deflection yoke has a problem that a large amount of positive SMC (+ SMC) such as convergence is a pattern.

Therefore, the present invention is to form a saddle-shaped coil by changing the structure so that the male winding type to be combined with the female winding type to solve the above problems, to completely complement the convergence characteristics of the deflection yoke, as well as the product It is a saddle-shaped coil-shaped structure of deflection yoke to improve the productivity of the product by keeping the density of coil wound on dark winding type and male winding type regardless of coil's acidity or thickness.

Description

Saddle type coil forming structure of deflection yoke

1 is an exploded cross-sectional view showing a saddle-shaped coil forming structure of a conventional deflection yoke.

2 is an exploded cross-sectional view of a dark winding type and a male winding type in a saddle coil forming structure of a conventional deflection yoke.

3 is an exploded cross-sectional view of a female winding and a male winding and a main pusher coupled in a saddle-shaped coil forming structure of a conventional deflection yoke.

(A) of Figure 4 is a side view showing the saddle coil forming structure

(B) is front view showing saddle type coil forming structure

5A is a cross-sectional view of a coil wound on a dark winding type and a male winding type combined in a saddle-shaped coil forming structure of a conventional deflection yoke.

(B) shows the convergence of the deflection yoke.

6 is an exploded cross-sectional view of a dark winding and a male winding in a saddle coil forming structure of the present invention deflection yoke.

7 is a cross-sectional view of the male winding separated from the saddle coil forming structure of the present invention deflection yoke.

8 is an exploded cross-sectional view of the female winding and male winding and the main pusher coupled in the saddle coil forming structure of the present invention deflection yoke

9 is a cross-sectional view showing the sliding operation state of the male winding type in the saddle coil forming structure of the present invention deflection yoke

10A is a cross-sectional view of a coil wound on a female winding and a male winding combined in a saddle coil forming structure of the present invention deflection yoke.

(B) shows the convergence of the devised deflection yoke

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

1: cancer wound type 2: cancer wound face plate

3: Wound winding type 4: Wound winding faceplate

5: male-type guide 6: main pusher

The present invention relates to a deflection yoke, and more particularly, to a saddle-shaped coil shaping structure of a deflection yoke, in which a saddle-shaped coil is formed by changing a structure so that the male winding can be slid.

The saddle-shaped coil forming structure of the conventional deflection yoke has a dark winding type (not shown) attached with a dark winding guide (not shown) to guide the lead wire and the winding of the coil during the winding of the coil, as shown in FIG. (1), a female winding face plate (2) supporting the female winding (1), a male winding (3) coupled with the female winding (1) so as to wind a coil, and the male winding (3) To the wound wound face plate (4) and the winding wound guide (5) to guide the lead wire of the coil is attached to the winding winding (3) and the wound winding (1) and the winding (3) Hardening the shape of the wound coil and at the same time melt the bonding layer at a specific temperature to form a main pusher 6 for forming a shape according to the characteristics of the coil.

The saddle-shaped coil shaping structure of the conventional deflection yoke configured as described above, as shown in FIG. 2, the arm winding guide (not shown) is attached to guide the lead wire and the alignment winding of the coil when the coil is wound. The female winding (1) supported by the winding face plate (2) and the male winding (3) supported by the male winding face plate (4) are wound in the direction of the arrow (P) to wind the coil, and then the coupling Turning the wound winding (1) and the male winding (3) to the winding machine, the coil wound by the female winding guide and the male winding guide (5) attached to the female winding (1) and the male winding (3) is coupled It is drawn between the female winding (1) and the male winding (3).

At this time, after winding the coil with a predetermined number of turns, and transmitting a voltage and a current to the coil in an electric device to form the wound coil, the wound coil generates heat and at the same time self The bonding layer of the bonding coil (self bonding wire) is melted, and the melted bonding layer is bonded to each other.

In addition, when the main pusher 6 is pushed in the direction of the arrow Q as shown in FIG. Due to the air (AIR) of the winding winding the coil wound on the female winding (1) and the male winding (3) to which the bonding layer is coupled, and when the coiled coil is taken out of the female winding (1) and the male winding (3) As shown in Figure 4, the saddle-shaped coil of the deflection yoke is completed.

However, since the saddle-shaped coil forming structure of the deflection yoke is formed by pushing only the main pusher 6 when forming the coil, the coil is divided between the female winding 1 and the male winding 3 according to the fifth diagram (a) of the drawing. As shown, since the coil density of the window portion is smaller than the coil density of the molding portion, it cannot accommodate the deviation of the coil, so that the amount of positive SM (+ SMC) in which the deflection yoke is the same as the convergence of FIG. There were many problems with the pattern.

Therefore, to solve this problem, the present invention forms a saddle-shaped coil by changing the structure so that the male winding combined with the female winding can be slid, thereby completely complementing the convergence characteristics of the deflection yoke as well as the product. The purpose is to improve the productivity of the product by maintaining the constant density of the coil wound in the dark winding type and male winding type irrespective of the acidity or thickness of the coil during mass production.

Saddle coil shaping structure of the present invention deflection yoke for achieving the above object is as shown in Figure 6 and 7 of the accompanying drawings, the arm so as to induce the lead line and the winding of the coil during the winding (winding) of the coil A female winding (1) with a winding guide (not shown), a female winding face plate (2) supporting the female winding (1), and a male winding coupled with the female winding (1) so as to wind a coil. (3), a male winding face plate (4) supporting the male winding (3), a male winding guide (5) guided by a lead wire of a coil attached and wound to the female winding (3), and the combined arm The saddle-shaped coil of the conventional deflection yoke, which consists of a main pusher 6 for hardening the shape of the coil wound on the winding 1 and the male winding 3 and simultaneously melting the bonding layer at a specific temperature to form a shape according to the characteristics of the coil. In the forming structure, to completely complement the convergence characteristics of the deflection yoke A free space (A) is formed between the female winding (3) and the male winding face plate (4) so that the female winding (3) coupled with the female winding (1) can be separated by sliding to form a saddle coil. It is characterized by being molded.

The saddle-shaped coil forming structure of the invention yoke deflection yoke configured as described above, as shown in Figure 2, while the winding winding guide (not shown) is attached to guide the lead wire and the alignment winding of the coil during winding of the coil After the female winding (1) supported by the female winding face plate (2) and the female winding (3) supported by the male winding face plate (4) are wound in the direction of the arrow (P) to wind the coil, When the combined female winding (1) and the male winding (3) is turned to a winding machine, the coil wound by the female winding guide and the male winding guide (5) attached to the female winding (1) and the male winding (3) is coupled. It is pulled in between the wound winding (1) and the male winding (3).

Here, as shown in FIG. 8, the male winding 3 is located at a predetermined position b of the male winding face plate 4, so that the male winding 3 is located at the predetermined position b. As a result, the space in the dark winding (1) and the male winding (3) becomes wider and, of course, the coil drawability is good.

On the other hand, after winding the coil having a good pullability with a predetermined number of turns, and transmitting a voltage and a current to the coil in an electric device to form the wound coil, the wound coil generates heat and at the same time The heat causes the bonding layer of the self bonding coil to melt, and the melted bonding layer is bonded to each other.

At this time, the sliding type (3) located at a predetermined position (b) of the wound surface face plate (4) by sliding the position to a certain position (a) as shown in Figure 9, the bonding layer is When the main pusher 6 is pushed in the direction of the arrow P1 as shown in FIG. 8 to the combined female winding type 1 and the male winding type 3, the air is pushed into the main pusher 6 by air. Due to the coil wound on the winding type (1) and the male winding (3) to which the bonding layer is coupled, the coil is cooled, and when the cooled coil is taken out of the female winding (1) and the male winding (3), it is shown in FIG. As shown, the saddle-shaped coil of the deflection yoke is completed.

That is, as shown in Fig. 10A, the coil density of the window portion and the coil density of the molding portion are substantially equal between the dark winding 1 and the male winding 3, and as shown in Fig. 10B. The convergence of the deflection yoke is complemented, and of course, it can accommodate the deviation of the coil.

As described above, the present invention forms a saddle-shaped coil by changing the structure so that the male winding coupled with the dark winding can be slid, thereby completely complementing the convergence characteristics of the deflection yoke and of the coil in mass production. Regardless of the acidity or thickness, it is effective to improve the productivity of the product by keeping the density of the coil wound on the dark winding type and the male winding type constant.

Claims (1)

A female winding (1) with a wound winding guide (not shown) attached to guide the lead wire and the winding of the coil during winding of the coil, and a female winding face plate (2) for supporting the female winding (1). And, it is attached to the wound winding (3) and the wound winding face plate (4) for supporting the wound winding (3) coupled to the female winding (1), so that the coil can be wound, and the winding (3) The winding of the coil wound around the winding winding guide (5) and the combined winding winding (1) and the winding (3) of the coil to be coiled and at the same time to melt the bonding layer at a specific temperature to the characteristics of the coil In the saddle-shaped coil forming structure of the conventional deflection yoke consisting of a main pusher (6) for molding the shape according to, In order to form a saddle-shaped coil to completely complement the deflection yoke of the deflection yoke, the male winding (3) coupled with the female winding (1) can be detached by sliding operation. 4) Saddle yoke-shaped coil forming structure, characterized in that the clearance space (A) is formed between.