KR840002856Y1 - Ceramic trimmer condenser - Google Patents

Abstract

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Description

Ceramic trimmer capacitor

1 is a side view showing a conventional example.

2 to 6 show ceramic trimmer capacitors according to one embodiment of the present invention.

2 is a side view of the whole,

3 is a plan view of an insulating frame.

4 is a perspective view of an elastic ring

5 is a bottom view of a dielectric.

6 is a bottom view of the rotor panel.

7 is a cross-sectional side view showing another embodiment of the present invention.

The present invention relates to a ceramic trimmer capacitor. The object of the present invention is to improve the adhesion of a thin ceramic dielectric and prevent breakage of the dielectric and to change the electrostatic capacity with respect to the rotor load. The point is to improve the characteristics.

In order to contrast with the present invention, first, a conventional trimmer capacitor of this type will be described with reference to FIG. In the figure, a semicircular stator electrode 5 is formed on one side of the dielectric 4 made of thin ceramic by printing and firing with silver paste or the like, and the dielectric 4 forms the stator electrode 5. It is mounted on the inner bottom face of the insulated frame 1 so that rotation is impossible. In addition, one end of the external wire for heating wire 2 attached to the insulating frame 1 by means of insert mold or press-fitting is narrow groove 1f of the insulating frame 1. In Fig. 3, the stator electrodes 5 are in contact with each other so that the protons 2 and 5 are electrically connected to each other.

On the other hand, a disk-shaped rotor plate 6 formed by zinc die-casting or the like is placed on the dielectric 4 to insert the rotor plate 6, the dielectric 4, and the insulating frame 1 into the lower surface of the insulating frame 1. The rotor plate 6 is rotatably supported by the rotor shaft 7 made of metal intersecting the earth lead 8. The lower surface of the rotor plate 6 is provided with a semicircular rotor electrode portion 6c, and a projection 6d having a return phase of the same height as the electrode portion 6c. As the rotor rotates, the opposing area of the rotor electrode portion 6c and the stator electrode 5 changes to change the capacitance.

In the above structure, the dielectric 4 is subjected to precision polishing. Similarly, the rotor electrode portion 6c and the projection 9d of the rotor plate 6 subjected to the precision polishing have good flatness. In the case where the stator electrode portion 5 of the dielectric 4 is formed, the flatness decreases by the thickness of the stator electrode portion 5, and the insulating frame 1 which abuts this has a value in terms of cost reduction. Since it is formed of this inexpensive plastic material, molding shrinkage occurs and flatness is lowered.

Therefore, since both the insulating frame 1 and the dielectric 4 are supported opposite to each other in which the flatness is deteriorated, many voids are generated between the quantums 1 and 4 practically insignificant. The adhesiveness between (1) and (4) was poor. Therefore, when the rotor shaft 7 is fitted or the capacity is adjusted, the pressure 4 applied to the rotor plate 6 distorts the dielectric material 4, so that the capacitance change characteristics with respect to the rotor plate 6 load deteriorate. The dielectric 4 had an adverse effect such as unevenness in breaking strength.

Further, in accordance with the demand for miniaturization and large capacity of this type of trimmer capacitor, the thickness of ceramic dielectrics having a thickness of 0.2 to 0.4 mm is further required. Therefore, the thinner the ceramic, which is harder to be brittle and extremely weak against bending, the more the reliability of breakage of the above-described dielectric material 4 is further deteriorated. In order to provide a large quantity, the poor adhesion between the dielectric 4 and the insulating frame 1 has been a major obstacle.

The present invention is constructed in view of the above points, and the detailed description of the present invention will be described with reference to one embodiment shown in FIGS. 2 to 6. In the drawing, numeral 1 denotes a substantially cylindrical insulating frame made of an insulating synthetic resin, which has a bottom portion 1a and a main side portion 1b, and has a hole for insertion of the rotor shaft 7 in the center of the bottom portion 1a. 1c) At the same time, the straight portion 1d and the rotor plate 6 for supporting the dielectric material 4 in a floating state as shown in FIG. 3 are formed on the inner circumference of the main portion 1b. An arc portion 1e is formed to support the die with the rotating material. 1f is a narrow groove formed in the upper surface side of the bottom part 1a, and the small hole 1g which penetrated the bottom part 1a is laid in the edge part of the narrow groove 1f (refer FIG. 2). 2 is a hot wire made of a conducting metal thin plate, which is mounted by being pressed or strongly fitted into the small hole 1g, and one end thereof is bent to form an elastic contact portion 2a. (In the embodiment, the hot wire 2 is mounted by press-fitting, but the hot wire 2 can be attached by fitting or insert mold, etc.) 3 is an elastic ring (elastic material) formed of an insulating elastic body such as silicone rubber. As shown in FIG. 4, it is set to a thin thickness and a narrow width (about 1.5 mm in width), and is mounted on the upper surface of the bottom 1a of the insulating frame 1.

4 is a dielectric composed of ceramic thin plates subjected to precision polishing on both sides, and is almost elliptical. As shown in FIG. 5, the rotor shaft 7 insertion hole 4a is laid at the center thereof, and at the same time, almost on one surface thereof. The semicircular stator electrode 5 is formed by printing and baking a conductive paste such as silver paste. The dielectric material 4 is placed on the elastic ring 3 with the stator electrode 5 below, and the contact portion 2a of the heating wire 2 is firmly in contact with the stator electrode 5 so that both of the 2) and 5 are electrically conducted.

6 is a disk-shaped rotor plate (rotor member) formed of zinc die-cast or the like, in the center of which a driver groove 6a and a hole 6b for inserting the rotor shaft 7 connected thereto are laid. As shown in FIG. 6, a semicircular rotor electrode portion 6c is formed in one half of the bottom of the rotor plate 6, and at the same time as the rotor electrode portion 6c in the outer periphery of the other half of the bottom. The projection 6d of the return phase of is formed, and the surface of both 6c and 6d is precision-polished.

The rotor plate 6 is placed on the dielectric 4 with its rotor electrode portion 6c and the projection 6d down, and the rotor plate 6, dielectric 4, elastic ring 3, and insulating frame. It is supported by the rotor material of the metallic rotor shaft 7 which inserted (1), and the rotor shaft 7 has the other end 7b in the state which contacted the head 7a to the bottom face of the driver groove 6a. The lead 8 made of both conductive metal thin plates is sandwiched outside the bottom portion 1a of the insulating frame 1.

That is, the dielectric 4 and the elastic ring 3 are press-contacted to the rotor plate 6 and the insulating frame 1, and the rotor plate 6 is electrically connected to the earth lead 8 by inserting the rotor shaft 7. It is.

Even if the flatness of the upper surface of the bottom of the insulating frame 1 is reduced by molding shrinkage or the like, and the flatness of the bottom of the dielectric 4 is reduced by the thickness of the stator electrode 5, the elastic ring 3 deforms. Accordingly, the outer periphery of the dielectric 4 is brought into close contact with the elastic ring 3 on the insulating frame 1, so that there are no minute voids between the dielectric 4 and its supporting surface. Therefore, since the deterioration of the capacitance change characteristic with respect to the load of the rotor plate 6 due to the generation of minute voids between the dielectric 4 and the insulating frame 1 as in the prior art can be eliminated (4) It was also possible to improve the reliability of breakage and to set the thickness of the dielectric material 4, which had previously been 0.2 mm thick, to 0.15 mm.

In the above embodiment, a trimmer capacitor of the type using the rotor shaft 7 is shown, but the present invention is not limited thereto. For example, as shown in FIG. 7, the trimmer of the type without the rotor shaft 7 is shown. It is also applicable to a capacitor.

In this embodiment, the elastic ring 3, the dielectric 4, and the rotor plate 6 'are sequentially placed on the inner bottom surface of the insulating frame 1' and mounted to the insulating frame 1 'by insert mold or the like. As a heating wire 2 'and an earth lead 8', the rotor plate 6 'and the dielectric 4 are clamped and clamped, and at the same time, the fitting portion 1b on the upper side of the insulating frame 1' is opened. Iii) the rotor plate 6 ', the dielectric 4 and the turn ring 3 are pressed downwards by inserting the earth lead 8' by deforming by fitting or the like. You can expect the effect.

As described above, according to the present invention, since the dielectric is interposed between the elastic ring (elastic material) on the insulating frame and the rotor plate (rotor member) in a press-contacting state, it is possible to absorb a large amount of air gap between the insulating frame and the dielectric. Since the weight applied to the rotor can be received from the entire outer periphery of the dielectric, the reliability of dielectric breakdown can be improved, and the dielectric can be thinned, so that a large capacity can be achieved. Is improved. In addition, the stabilizing effect of the rotational torque is also generated, and it is possible to provide a ceramic trimmer capacitor having excellent re-characteristics, all of which are small or large in size, and its practical value is very large.

Claims (1)

A thin plate-shaped ceramic dielectric 4 having a semi-circular stator electrode 5 formed on one surface thereof is placed with an insulating annular elastic body 3 sandwiched between the insulating frame 1, and a metal rotor is placed on the dielectric. 6) A ceramic trimmer capacitor wherein the member is placed and the dielectric outer periphery is sandwiched between the elastic member and the rotor member by pressure welding.