JPH0670926B2 - Flyback transformer - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a flyback transformer.

2. Description of the Related Art FIGS. 3 and 4 are views showing a conventional flyback transformer. In FIGS. 3 and 4, 1 is a core having a gap, 2 is a primary coil, 3 is a secondary coil, 4 is a case cover accommodating the primary coil 2 and the secondary coil 3,
Reference numeral 5 is a ceramic substrate on which an electric resistor is printed, 6 is a unit frame that houses the ceramic substrate 5, the unit frame 6 is a square dish, and the ceramic substrate 5 is a casting resin 7 and is a unit frame 6 It is fixed in the recess. The unit frame 6 is provided with a through hole 6a and a rib 6b. 8 is a slider that slides on an electric resistor printed on the ceramic substrate 5, and 9 is a rotatable shaft attached to the ceramic substrate 5, and the surface of the outer wall plate of the unit frame 6 through the through hole 6a. Is sticking out. A slider 8 is attached to the shaft 9. The shaft 9, the slider 8, and the electric resistor form a variable resistor. 10 is a casting resin containing red phosphorus.

The assembling method and operation of the conventional flyback transformer configured as described above will be described.

The shaft 9 is inserted into the through hole 6a from the concave portion to the convex portion of the unit frame 6, the ceramic substrate 5 is fitted into the unit frame 6, and the ceramic substrate 5 is fixed to the unit frame 6 by the casting resin 7. At that time, the casting resin 7 does not flow further toward the slider 8 by the ribs 6b so that the casting resin 7 does not flow into the slider 8 and harden and the slider 8 does not move. I have to. Next, the unit frame 6 is attached to the case cover 4, and the casting resin 10 is poured into the unit frame 6 and the case cover 4 to insulate the primary coil 2 and the secondary coil 3 from the ceramic substrate 5 and to separate the unit frame 6 from each other. It was fixed to the case cover 4. When adjusting the focus, the shaft 9 is rotated to move the slider 8 to change the voltage applied to the circuit connected to the secondary coil 3 to adjust the focus of the electron beam emitted from the electron gun. It was

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the above-described conventional configuration, if insulation failure or cracks occur in the unit frame 6 due to factors such as chemicals and solvents adhering to the unit frame 6, the unit frame 6 and the ceramic substrate 5 are separated. When a user happens to rotate the shaft 9 to adjust the focus of the electron beam when the user accidentally touches the unit frame 6, the user may get an electric shock or destroy other parts on the side. There was a thing to do. Further, as the resin used for the casting resin 7, a soft resin is used so that stress is not applied to the ceramic substrate 5 when the temperature changes, but in general, the soft resin is liable to cause insulation failure when the temperature rises. The heat generated from the coil 2 and the secondary coil 3 causes the casting resin 7 to reach a high temperature (80 ° C to 100 ° C), causing the insulation failure of the casting resin 7 and causing the unit frame due to the adhesion of chemicals, solvents, etc. There is a problem that a user who accidentally touches the portion through the insulation failure or the cracked portion of 6 receives an electric shock.

The present invention solves the conventional problems as described above, and the insulation performance between the unit frame and the ceramic substrate is improved even if the unit frame causes insulation failure or cracks, or the casting resin causes insulation failure due to heat. The purpose is to provide a flyback transformer that is not inferior.

In order to solve the above problems, the flyback transformer of the present invention has a substrate provided with a variable resistor for adjusting the voltage applied to the circuit connected to the secondary coil. Insert the mounting plate provided on the unit frame into the groove provided on the peripheral edge of the opening of the case cover, and close the opening with the mounting plate.
The unit frame is floated and fixed in the case cover, and a resin is interposed between the case cover and the substrate.

With this configuration, the unit frame can be accurately positioned inside the case cover, and the insulation performance between the substrate and the mounting plate of the case cover can be further improved.

Embodiment FIG. 1 and FIG. 2 are a perspective view and a side sectional view showing a flyback transformer in an embodiment of the present invention. Figure 1,
In FIG. 2, 1 is a core provided with a gap, 2
Is a primary coil, 3 is a secondary coil, 5 is a ceramic substrate,
Reference numeral 7 is a cast resin, 8 is a slider, and 9 is a shaft, which have the same structure as the conventional flyback transformer shown in FIG. 11 is a case cover, and the case cover 11 has an opening.
11a is provided, and a groove 11b is provided at the peripheral edge of the opening 11a. 12 is a unit frame, the unit frame 12 is a groove 11
The mounting plate 12a that inserts the peripheral edge into b to close the opening 11a and the rib 1
2b and a board housing 12 to which the ceramic board 5 is attached
The through hole 12d is formed by c, and the shaft 9 is inserted from the substrate housing portion 12c toward the mounting plate 12a.

The assembling method and operation of the flyback transformer of the present embodiment configured as above will be described.

First, the rotatable shaft 9 is attached to the ceramic substrate 5, the slider 8 is further attached to the shaft 9, and the shaft 9 is inserted into the through hole 12d from the main body of the unit frame 12 toward the attachment plate 12a. Is fitted in the substrate housing portion 12c, and then the ceramic substrate 5 is fixed to the substrate housing portion 12c with the casting resin 7. At this time, the casting resin 7 does not flow toward the slider 8 by the rib 12d so that the casting resin 7 does not flow into the slider 8 and harden and the slider 8 does not move. I have to. Next, place the board housing part 12c inside the case cover 11 and attach the mounting plate.
The peripheral edge of 12a is inserted into the groove 11b, and the mounting plate 12a is mounted so as to close the opening 11a, and the board housing 12c is attached to the case cover 11.
It is fixed in a state of being floated inside, and the casting resin 13 is poured into the case cover 11 to be solidified. With this configuration, since the board housing portion 12c is fixed to the mounting plate 12a,
The substrate housing 12c can be accurately and easily positioned in the case cover 11 by simply attaching the 12a to the groove 11b so as to close the opening 11a, and the ceramic substrate 5 is provided in the substrate housing 12c. Covered with 13, so
The insulation performance between the substrate 5 and the case cover 11 does not deteriorate.

EFFECTS OF THE INVENTION The present invention provides a mounting plate provided on a unit frame to which a substrate having a variable resistor for adjusting a voltage applied to a circuit connected to a secondary coil is mounted, at a peripheral portion of an opening of a case cover. The unit frame is accurately positioned inside the case cover by inserting it into the groove and closing the opening with the mounting plate, floating and fixing the unit frame inside the case cover, and inserting resin between the case cover and the substrate. In addition, since the insulation performance between the board and the mounting plate of the case cover can be improved, it is possible to prevent electric shock even if the user accidentally touches the cover.

[Brief description of drawings]

FIG. 1 is a perspective view showing a flyback transformer in an embodiment of the present invention, FIG. 2 is a sectional view of the same side, FIG. 3 is a perspective view showing a conventional flyback transformer, and FIG. 4 is a sectional view of the same side. Is. 1 ... Core, 2 ... Primary coil 3 ... Secondary coil, 5 ... Ceramic substrate 8 ... Slider, 9 ... Shaft 11 ... Case cover, 11a ... Opening 11b ... Groove, 12 ...... Unit frame 12a …… Mounting plate, 12c …… Board housing 13 …… Casting resin

Claims (1)

[Claims] 1. A unit having an electric resistor formed thereon and provided with a rotatable shaft on which a slider for sliding on the electric resistor is attached. The substrate is fixed to a unit frame, and the unit is fixed. An attachment plate is attached to the frame, and an opening having a groove on the peripheral edge is provided in the case cover provided to protect the primary coil and the secondary coil wound around the core, and the unit frame is provided inside the case cover. So that the peripheral edge of the mounting plate is inserted into the groove so that the opening is closed by the mounting plate, the unit frame is floated and fixed in the case cover, and resin is injected into the case cover. A flyback transformer in which a resin is interposed between the substrate and the case cover.