JPS6225863Y2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a flyback transformer used in a television receiver, and more particularly to a flyback transformer integrally equipped with a high voltage variable resistor.

Fig. 1 shows the circuit of a flyback transformer. 1 is a low-voltage coil, 2 is a high-voltage coil that is divided and wound into a plurality of winding units, and a rectifier diode D ₁ is connected between each winding unit. D ₂ and D ₃ are arranged, and the high voltage obtained from the cathode side of the diode D ₁ is smoothed by the capacitor C and divided into a predetermined voltage by the high voltage variable resistor 3, and the focus voltage and screen voltage are applied to the cathode ray tube. We are trying to supply the following. When configuring such a circuit, the rectifier diodes D ₁ , D ₂ , D ₃ and the capacitor C
is integrally attached to the high voltage coil bobbin around which the high voltage coil 2 is wound, and the high voltage variable resistor 3 is provided separately from the flyback transformer. However, in recent years, in order to rationalize television sets, many television sets have been manufactured in which the high voltage variable resistor is integrated into a flyback transformer.

This flyback transformer with integrated high-voltage variable resistor includes one in which the high-voltage variable resistor is assembled all at once and resin molded so that the high-voltage variable resistor is built into the case of the flyback transformer. However, in the case of such a flyback transformer with an integrated high-voltage variable resistor, assembly is complicated because the high-voltage variable resistor and flyback transformer are connected inside the case, and it is difficult to assemble either the high-voltage variable resistor or the flyback transformer. If either one becomes defective, the other becomes unusable.

Additionally, the resistor of a high-voltage variable resistor is generally printed and fired on a porcelain substrate such as alumina, which makes it vulnerable to shock, and requires the use of a flexible resin as the insulating resin applied to the substrate. , it is necessary to use a resin different from the resin applied to the coil portion of the flyback transformer. Furthermore, when attaching the high-voltage variable resistor to the case of the flyback transformer, it is necessary to prevent resin leakage at the joint, which has the disadvantage of increasing the number of assembly steps.

The present invention proposes a flyback transformer devised to eliminate such drawbacks, and will be explained below with reference to FIGS. 1 to 6 showing the present invention.

FIG. 2 is a perspective view of the flyback transformer of the present invention. The high voltage variable resistor 3 is press-fitted into the housing portion 4a, and the high voltage obtained from the high voltage coil is applied to the resistor 3 through the connector 5. is giving to In order to adopt such a configuration, in the present invention, the input terminal 3a, the focus voltage output terminal 3b, the screen voltage output terminal 3c, and the ground terminal 3d (see Fig. 1), which are the external connection terminals of the high voltage variable resistor 3, are connected to resistors. The body projects parallel to the printed and fired substrate (not shown in FIG. 2). Further, in order to supply a high voltage to the input terminal 3a, the inside of the flyback transformer main body 4b is designed as shown in FIGS. 3 and 4.

FIG. 3 is a sectional view showing the internal structure of the flyback transformer 4 of the present invention, and 6 is a high voltage coil 2.
is a high-voltage coil bobbin that is divided and wound around a plurality of grooves 6a, and 7 is a low-voltage coil around which the low-voltage coil 1 is wound, and the low-voltage coil bobbin 7 is integrated into a hollow portion (not shown) of the high-voltage coil bobbin. . D ₁ , D ₂ , D ₃ are the high voltage coil bobbin 6
8 is a high voltage rectifier diode arranged in each winding unit 2a, 2b, 2c of the high voltage coil 2, and 8 rectifies and smoothes the high voltage obtained in the winding unit 2a by the rectifier diode _D1 and the smoothing capacitor C. This is a connection terminal to which a lead wire 16 is connected in order to draw out the voltage to the outside. The connection terminal 8 is attached to a terminal holding portion 9 integrally molded on the high voltage coil bobbin 6, and also has a fitting means 9a provided on the terminal holding portion 9 and a case 4c formed on the flyback transformer main body 4b. The socket portion 8a of the connecting terminal 8 is housed in the terminal accommodating portion 4d by closely fitting the cylindrical terminal accommodating portion 4d. At this time, the low voltage coil bobbin 7 is fitted into the core insertion hole 4e of the case 4c. 10 is a high voltage coil 2
High voltage lead wire 1 for leading the high voltage obtained from the end of the winding to the anode terminal of the cathode ray tube.
The socket 10 is provided for connecting the high voltage rectifier diode _D3 to the high voltage rectifier diode D3.
Can be attached to 2. This socket holding part 12
is a conical pedestal portion 4f provided in the case 4c.
A fitting means 12a is formed for fitting with. FIG. 4a shows the fitted state of the terminal storage part 4d and the terminal holding part 9, and FIG. 4b shows a plan view of the terminal holding part 9. As shown in the figure, the terminal storage part 4
The fitting means 9a formed by the cylindrical wall portion 9b that fits into the terminal accommodating portion 4d is used to ensure this fitting. For ease of use, each is provided with an inclined surface. In the embodiment shown in FIG. 4, the conductive pin of the connector 5 is attached to the socket part 8a of the connecting terminal 8, which is attached by press-fitting a bent part with spring properties into the slit 9c of the terminal holding part 9. 5a is press-fitted, as shown in FIG.
It may also be a cylindrical socket 14 that fits into the socket 3.
Incidentally, FIG. 5b shows the A- of the cylindrical socket 14.
This is a cross-sectional view of A', in which the cylindrical socket 1 is inserted so that the terminal pin 13 can be fitted with elastic force.
A notch 14a is formed in the axial direction of 4. FIG. 6 is a cross-sectional view showing a state in which the thermosetting resin 15 is injected into the case 4c of the flyback transformer main body 4b from a nozzle (not shown), and the terminal housing portion 4d and the conical base portion 4f are each filled with a thermosetting resin 15. The fitting means 9a of the terminal holding part 9 and the fitting means 12a of the socket holding part 12 are closely fitted, and the low voltage coil bobbin 7 is also tightly fitted into the core insertion hole 4e of the case 4c of the flyback transformer main body 4b. Therefore, even if the thermosetting resin 15 is injected, it will not leak from the case 4c. In this way, the flyback transformer main body 4 heat-cures the resin 15 injected into the case 4c, stores the separately manufactured high-voltage variable resistor 3 in the storage part 4a, and then connects the connection terminal 8 with the high-voltage variable resistor 3. The flyback transformer main body 4b and the high voltage variable resistor 3 are electrically connected to the input terminal 3a of the high voltage variable resistor 3 arranged in parallel in the same direction through a connector 5.

As described above, according to the flyback transformer of the present invention, the high voltage coil bobbin is provided with a terminal holding portion that holds the connection terminal for connecting the high voltage obtained from the middle of the high voltage coil to the high voltage variable resistor. Electrical coupling between the high voltage variable resistor and the flyback transformer can be easily performed. Therefore, it is very suitable that the high-voltage variable resistor and the flyback transformer can be molded separately into resin and then assembled together easily.

In addition, since the terminal holding portion is provided with a fitting means that tightly fits into the terminal storage portion of the flyback transformer case, there is no leakage to the outside of the case even if resin is injected into the case. There is.

[Brief explanation of the drawing]

The drawings all relate to the present invention; FIG. 1 is a circuit of a flyback transformer, FIG. 2 is a perspective view of the flyback transformer, and FIG. 3 is a sectional view of the flyback transformer. FIG. 4a is a sectional view of a main part of the flyback transformer, and FIG. 4b is a plan view showing a part of the flyback transformer. FIG. 5a is a sectional view of a main part of another embodiment of the flyback transformer, and FIG. 5b is a sectional view taken along line A-A' in FIG. 5a. FIG. 6 is a sectional view showing a state in which resin is injected into the flyback transformer main body. 2...High voltage coil, 3...High voltage variable resistor, 4
...Flyback transformer, 4c...Case, 4
d...Terminal storage part, 8... Connection terminal, 9... Terminal holding part, 9a... Fitting means, 16... Lead wire.

Claims (1)

[Scope of utility model registration request] One end is connected to a lead wire that derives the high voltage obtained from the middle of the high voltage coil of the flyback transformer, and the other end is connected to the high voltage variable resistor.The one end protrudes into the flyback transformer storage case. The other end is attached to a terminal holding part integrally molded on the high voltage coil bobbin so that it is exposed in a cylindrical terminal storage part formed in the case, and the holding part is attached to the terminal by a fitting means provided on the terminal holding part. The high-voltage variable resistor is press-fitted into the housing part, and the high-voltage variable resistor is press-fitted and stored in the housing part provided in the flyback transformer housing case, and the connecting terminal and the high-voltage variable resistor are arranged in parallel in the same direction as the terminal. A flyback transformer that is connected to the terminals of the device using a connector.