KR900004872Y1 - Focus unit for fly back transformer - Google Patents

Abstract

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Description

Flyback Transformer Focus Unit

1 is a cross-sectional view of a conventional focus unit integrated flyback transformer.

Figure 2 is an assembly cross-sectional view of one example of the focus unit of the present invention.

3 is an exploded view of the assembled state of FIG.

Figure 4 is another embodiment of the focus unit assembly structure of the present invention.

* Explanation of symbols for main parts of the drawings

1: flyback transformer body 2: groove

3: Combined end 4: Focus unit

5: Focus unit case 6: Volume knob

7: alumina substrate 8: soft epoxy resin layer

9: fixed piece 10: hard epoxy resin

5a: front panel of case 5b: rear panel

5a ': End of front panel 5b': Upper edge of side wall of rear panel

11: side wall 11a: step of side wall

12: compartment 13: accessor

14: adhesive 15a: front panel end stepped

15b: side wall upper edge 16: terminal

The present invention relates to a focus unit of a flyback transformer, and is characterized by simplifying the manufacturing process of the focus unit by improving the case structure of the special focus unit.

The conventional focus unit integrated flyback transformer has a coupling end 3 having grooves 2 formed on one side of the flyback transformer main body 1 as shown in FIG. 1, and the focus unit 4 has a case in which the rear side is open. Insert the volume knob (6) to (5) first, and then cover the alumina substrate (7) printed with a variable resistance and the fixed epoxy resin layer (8) of fixed thickness to the back of the mold by hardening the molded case 5 ) The fixing piece 9 protruding to the outer periphery is assembled to the coupling end 3 of the flyback transformer main body 1 and insulated and molded with a hard epoxy resin 10 at the bottom of the main body 1 of the flyback transformer. It became. This structure is alumina located on the rear side of the focus unit 4 due to the molding configuration of the hard epoxy resin 10 inside the main body 1, which is inevitably adopted for insulation between the high voltage portion of the flyback transformer and the focus unit. In order to protect the substrate 7, that is, when the hard epoxy resin 10 is used for the flyback transformer body 1, the hard epoxy resin 10 directly contacts the rear surface of the alumina substrate 7 during the thermal shock test. When the mold is molded, a defect in which the alumina substrate 7 is cracked or broken due to a difference in the coefficient of thermal expansion occurs, so that the soft epoxy resin layer 8 is separately molded on the rear surface of the substrate during the manufacturing of the focus unit 4. As a result, additional use of epoxy resin, injection process, and hardening device are required. It is distinguished by combining the back panel and the front panel while fusion bonding the joint part by ultrasonic processing, and the alumina substrate is fixed between the front and rear panel cases by the volume knob and the elasticity of the connector. It will be described in detail with the drawings of the embodiment as follows.

2 is a cross-sectional view of an assembly focus unit according to one embodiment of the present invention. A side wall 11 is formed around the rear plate 5b to form a casing on both sides of the back plate 5b, and has a height to form an appropriate width in which the alumina substrate 7 is installed. (11) In the middle of the inner stage, the alumina substrate 7 is placed in the outward direction so that the abutment 11a is seated, and the alumina substrate 7 and the ballistics with the volume knob 6, the elastic body and the connector 13 inside the front plate 5a. After the assembly is connected, the end portion 5a 'of the front plate 5a and the upper side edge portion 5b' of the rear plate 5b of the front plate 5a coincide with each other by ultrasonic processing. The present invention of such a configuration is because the case material of the focus unit is a synthetic resin and its thickness is formed to about 1m / m and can be ultrasonically processed very easily, in some cases the front panel as shown in Figure 4 to increase the adhesion At the end portion 5a 'of the stepped outwardly open step (15a), the side wall upper edge portion (15b') has an inwardly open stepped step (15a) in the inner upper end to securely match the widening Fusion processability by the main surface ultrasonic wave is more efficiently formed.

In this configuration, the focus unit has alumina substrate 7 seated on the stepped portion 11a of the inner end of the side wall 11 in the compartment 12 formed of the side wall 11, and a separate adhesive 14 is applied only on the periphery thereof. The terminals 16 of the alumina substrate are fixed by exposing the rear plate 5b to the rear side, and the alumina substrate 7 is positioned at a distance t from the rear plate 5b. It is bonded with the transformer main body 1 to mold a hard epoxy resin for high voltage insulation and is not in contact with the alumina substrate 7 so as to contact the rear surface of the back plate 5b so that the alumina substrate ( 7) It is possible to prevent cracks and breakage, and the focus unit itself eliminates the conventional molding process of the soft epoxy resin layer for protection, which eliminates the need for a curing device and shortens the labor time. It has the advantage of increasing the product reliability of the flyback transformer.

Claims (1)

In forming the flyback transformer-integrated focus unit, the case is formed on two sides of the flat front plate 5a and the rear plate 5b having the fixing piece 9 formed at the outer circumferential portion thereof. An alumina substrate 7 is provided with side walls 11 having 11a, and the upper edge portion 5a 'of the side wall 11 and the end portion 5b' of the front plate 5a extend across the outer and outer circumferences. A focus unit for a flyback transformer, characterized by fusion and ultrasonic welding.