KR200176213Y1 - A deflection coil winding machine - Google Patents

Abstract

The present invention relates to a deflection coil winding machine comprising: a male winding having a male disc member and a male saddle; a coil support groove having a substantially d-shaped coil shape recessed in the outer periphery of the male disc member; A deflection coil winding machine including a coil gripper installed in a supporting groove to hold a coil supplied from a coil feeder, wherein the coil gripper and the coil feeder are supported by the coil gripper and the coil feeder when the shaft is rotated. Since the coil is provided with a sliding cut rounded at the corners of the coil support groove so that the coil can slide out of the coil support groove and enter the saddle-shaped saddle, that is, the coil supplied through the coil feeder By providing a sliding surface with a rounded cut in a coil support groove in which a firmly gripped coil gripper is installed, When the coil is rotated, the coil is slidably guided so that the coil can be inserted into the male and saddle saddles, thereby preventing the insulation coating from peeling off when the coil is wound, and being able to overcome the winding failure of the coil. It works.

Description

Deflection coil winding machine

The present invention relates to a deflection coil winding machine, and more particularly, to provide a coiled groove in which a coil gripper for firmly holding a coil supplied through a coil feeder is provided with a rounded cut-off sliding surface to insulate an insulating coating when the coil is wound. It relates to a deflection coil winding machine that can prevent the peeling phenomenon.

In general, a deflection coil is divided into a horizontal deflection coil 10 and a vertical deflection coil, and serves to change the direction of travel of the electron beam in a television receiver. At this time, the horizontal deflection coil 10 is mounted in a shape seated on the inner circumferential surface of the separator 20 formed in a substantially trumpet shape, as shown in the perspective view of Figure 1, the vertical deflection is not shown on the outer circumferential surface of the separator 20 The coil is mounted in the shape of seating.

In addition, the deflection coil for horizontally deflecting and vertically deflecting the propagation direction of the electron beam in the receiving tube 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 20. An insulating coating made of enamel or the like is coated on the surface of the coil. Such an insulation coating generates an adhesive force at a predetermined temperature of approximately (38 ° C. ± 1). By using this adhesive force, the saddle-shaped deflection coil can be maintained.

Referring to FIG. 2, a deflection coil winding machine according to the related art for forming the saddle-shaped deflection coil is as follows.

FIG. 2 is a schematic perspective view showing a deflection coil winding machine according to the prior art, and FIGS. 3A and 3B are explanatory views for explaining the operation of the deflection coil winding machine according to the prior art.

The deflection coil winding machine 100 according to the prior art, as shown in Figs. 2 and 3 (a), (b), a wound winding to take out the coil wound on the bobbin and wound-molded into a saddle-shaped deflection coil. (110) and the female winding 120, the support box 130 for supporting the male winding 110 and the female winding 120, and the coil wound around the bobbin to take out the male winding 110 and the arm The coil feeder 140 is supplied to the winding 120.

At this time, the male winding 110 is composed of a male disc member 111 that is rotated in the interior of the support box 130, the male saddle 112 is assembled to the male disc member 111, The female winding 120 is composed of a female disc member 121 that is rotated by an external power source, and a female winding 122 is assembled to the female disc member 121.

On the other hand, in the outer periphery of the male disc member 111 is formed a recessed shape of the coil support groove 111a having a substantially d-shaped (C) shape, and the coil supplied from the coil supply 140 to the coil support groove 111a. A coil gripper 150 is attached to hold the coil.

Referring to the operation of the deflection coil winding machine 100 according to the prior art made of the above configuration as follows.

First, as shown in FIG. 3A, the coil wound around the bobbin is supplied to the coil gripper 150 installed in the coil support groove 111a of the male disc member 111 through the coil feeder 140. In this case, the coil gripper 150 firmly grips the coil supplied from the coil supply 140.

Thereafter, when the male winding 110 and the female winding 120 are rotated while being mutually moved by an external power source, the coil is held from the coil gripper 150 and the bobbin installed at the outer circumference of the male disc member 111. The coil, which was tightly supported by the coil feeder 140 for drawing out and feeding, is rotated by the male winding 110 and the female winding 120, as shown in FIG. The coiled groove 111a of the depressed-shaped coil support groove 111a formed in the outermost periphery of the coil is wound between the male saddle 112 and the female wound saddle 122 to be molded into a desired saddle-shaped deflection coil.

However, in the deflection coil winding machine 100 according to the related art, each of the coil support grooves 111a in which the coil gripper 150 is firmly gripped to hold the coil supplied through the coil feeder 140 has an approximately depressed shape. Due to the shaping of the coil, the coil is easily inserted into the male wound saddle 112 and the female wound saddle 122 when the male winding 110 and the female winding 120 are rotated while being mutually finished by an external power source. However, there was a big disadvantage that the coil is broken or the insulation coating is caught on the edge of the coil support groove 111a, resulting in a winding failure of the coil.

The present invention has been devised to solve the above problems, the object of the bar is to provide a coiled groove in which the coil gripper is provided with a rounded sliding surface that is rounded, the coil is rotated when the male and female winding type The present invention provides a deflection coil winding machine which is smoothly guided so that it can be smoothly inserted into a male winding and a female winding saddle.

1 is a perspective view showing a separator having a general horizontal deflection coil;

Figure 2 is a schematic perspective view showing a deflection coil winding machine according to the prior art.

Figure 3 (a), (b) is an explanatory diagram for explaining the operation of the deflection coil winding machine according to the prior art.

Figure 4 (a), (b) is an explanatory diagram for explaining the operation of the deflection coil winding machine according to the present invention.

* Explanation of symbols for main parts of the drawings

10: horizontal deflection coil 20: separator

100: deflection coil winding machine 110: male winding

111: male disc member 111a: coil support groove

111b: sliding surface 112: male saddle

120: dark winding type 121: arm disc member

122: dark wound saddle 130: support box

140: coil feeder 150: coil gripper

The present invention for achieving the above object is a male winding type having a male disc member and a male winding saddle, and a coil support groove having a shape of a recess in the outer periphery of the male disc member. A deflection coil winding machine including a coil gripper installed in a support groove to hold a coil supplied from a coil feeder, wherein the coil gripper and the coil feeder are tightly supported when the number winding is rotated. The technical features of the technical configuration of the coil is provided with a sliding cut rounded on the corner surface of the coil support groove so that the coil can slide out of the coil support groove and drawn into the male saddle.

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

Figure 4 (a), (b) is an explanatory diagram for explaining the operation of the deflection coil winding machine according to the present invention, the same name and the same reference numerals will be used for the same configuration having the same operation as the conventional configuration. .

The deflection coil winding machine 100 according to the present invention, as shown in Figure 4 (a), (b), the male disc member 111 and the male disc member that is rotated embedded in the interior of the support box 130 A male disk 110 having a male saddle 112 assembled to a 111 and an arm disc member 121 and an arm disc member 121 that are rotated by being built into the support box 130. A female winding 120 having an arm wound saddle 122 to be assembled, and a coil feeder 140 for taking out the coil wound on the bobbin and supplying the coil wound to the male winding 110 and the female winding 120.

On the other hand, in the outer periphery of the male disc member 111 is formed a recessed shape of the coil support groove 111a having a substantially d-shaped (C) shape, and the coil supplied from the coil supply 140 to the coil support groove 111a. Coil gripper 150 for holding the is attached.

In addition, the coil, which is tightly supported by the coil gripper 150 and the coil feeder 140, slides out of the coil support groove 111a when the male winding 110 is rotated, and the male saddle 112 At the edge surface of the coil support groove 111a, the sliding surface 111b is rounded and cut so as to be inserted into the coil support groove 111a.

Referring to the operation and action of the deflection coil winding machine 100 according to the present invention made of the above configuration.

First, as shown in FIG. 4A, the coil wound around the bobbin is supplied to the coil gripper 150 installed in the coil support groove 111a of the male disc member 111 through the coil feeder 140. In this case, the coil gripper 150 firmly grips the coil supplied from the coil supply 140.

Thereafter, when the male winding 110 and the female winding 120 are rotated while being mutually moved by an external power source, the coil is held from the coil gripper 150 and the bobbin installed at the outer circumference of the male disc member 111. The coil, which was tightly supported by the coil feeder 140 which draws out the supply, is a depressed-shaped coil formed in the outermost periphery of the male disc member 111 by rotation of the male winding 110 and the female winding 120. Escape from the support groove 111a is wound between the male wound saddle 112 and the female wound saddle 122 to be shaped into a desired saddle-shaped deflection coil.

Here, the coil held tightly by the coil gripper 150 and the coil feeder 140 has a sliding surface rounded and cut at the corner of the coil support groove 111a as shown in FIG. Sliding along 111b) allows for simple retraction between the female saddle 112 and the female wound saddle 122.

According to the deflection coil winding machine according to the present invention as described above, by having a sliding surface rounded cut in the coil support groove in which the coil gripper for firmly holding the coil supplied through the coil feeder is installed, The coil is guided by sliding smoothly when rotated so that it can be inserted into the male winding and the female winding saddle to prevent the peeling of the insulation coating during coil winding, and has an excellent effect to overcome the winding failure of the coil. .

Claims (1)

A male winding having a male disc member and a male saddle, an approximately d-shaped coil support groove recessed and molded in the outer circumference of the male disc member, and installed in the coil support groove and supplied from a coil feeder. In a deflection coil winding machine including a coil gripper for holding a coil, a coil, which is tightly supported by the coil gripper and a coil feeder, is slipped from the coil support groove when the male winding is rotated. A deflection coil winding machine comprising a sliding surface that is rounded and cut on an edge surface of the coil support groove so as to be inserted into the male saddle.