JPH073569Y2 - High frequency relay structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to the structure of a high-frequency relay for soldering a ground terminal to a printed board.

[Prior Art] FIG. 5 shows a high-frequency relay of this type, in which an armature 1 is rotatably arranged by a shaft 2, and box-shaped shield plates 3 are arranged on both sides of the armature 1. The contact portion 4 is arranged inside the plate 3. Amateur 1
A coil block 6 is disposed below the coil via a separator 5, and both ends of an iron core 7 are positioned between both magnetic poles of the armature 1. The contact spring block 8 is driven by the rotation of the armature 1. The contact spring block 8 is a card 9,
It is composed of a contact spring 10, and a contact terminal 11 and a ground terminal 12 are arranged facing the end of the contact spring 9, respectively. 13 is a return spring.

When this high-frequency relay is mounted on a printed board, a printed board 15 having through-holes 14 for double-sided through holes is formed as shown in FIG. 6 in order to obtain good isolation characteristics.
To use.

By inserting the earth terminal 12 protruding from the relay body 16 into the through hole 14 of the through hole and soldering 17 the tip, the ground patterns 18 on both sides are connected through the through hole, and good isolation is obtained. ing. But,
The double-sided through-hole board has a problem of high cost.

Further, when the double-sided printed board 15 having no through hole is used as shown in FIG.
There is a problem that it is difficult to make contact between the ground pattern 18 on the side of the relay body 16 and 12 and sufficient isolation characteristics cannot be obtained.

[Problems to be Solved by the Invention] The present invention is provided in view of the above-mentioned points, and it is a high frequency wave that can obtain excellent isolation characteristics even when an inexpensive double-sided printed board without through holes is used. It is intended to provide a relay structure.

[Means for Solving the Problems] In the present invention, a wide portion is formed by widening the base portion of the ground terminal, and the end face of the wide portion is brought into contact with the ground pattern on the relay body side.

[Operation] The end face of the wide portion provided at the base of the earth terminal is brought into contact with the earth pattern of the printed board.

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings. As shown in FIG. 3, the ground terminal 12 is integrally formed by cutting and raising from the shield plate 3 surrounding the contact portion 4. A wide portion 19 is formed at the base of the ground terminal 12, and an end surface of the wide portion 19 is formed. 19a is brought into contact with the earth pattern 18 on the relay body 16 side of the printed board 12. Ground terminal 12
The tip portion of is soldered 17 to the other ground pattern 18. FIG. 2 is a perspective view of the relay main body 16 in which the ground terminal 12 and the contact terminal 11 are projected from the bottom surface of the body 20.
Even when the double-sided printed board 15 having no through hole is used as described above, the ground terminal 12 is inserted into the insertion hole 14, the end surface 19a of the wide portion 19 is brought into contact with one ground pattern 18, and the other ground pattern 18 is formed. By soldering 17 to the tip of the ground terminal 12, the front surface and the back surface of the printed board 12 have the same potential around the ground terminal 12, and the same isolation characteristics as when using a double-sided through-hole board are obtained. It is what is done. The wide portion 19 of the ground terminal 12 is a so-called standoff, and can be standoff without a special standoff structure.

Incidentally, in FIG. 4, a large number of ground terminals 21 are formed on the shield case 20. A good isolation characteristic is obtained by press-fitting the relay body 16 into the shield case 20 and contacting or connecting the ground terminal 21 to the ground pattern of the printed board. Further, the projection 22 is cut and formed on the side surface of the shield case 20 to hold the relay body 16.

[Advantage of the Invention] As described above, the present invention forms the wide portion in which the base portion of the ground terminal is widened, and the end face of the wide portion is brought into contact with the ground pattern on the relay body side. By contacting the ground pattern of the printed circuit board on the relay body side, even on a double-sided printed circuit board without through holes, good isolation characteristics equivalent to double-sided through-hole boards can be obtained, and cost reduction can be achieved. There is an effect that can be done. Further, the wide portion serves as a standoff, and the standoff can be performed without a special standoff structure.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part of an embodiment of the present invention, FIG. 2 is a perspective view of the relay body of the above, and FIGS. 3 (a) to (c) are a plan view, a cutaway front view, and a seal plate of the same. Sectional view, FIG. 4 is an exploded perspective view of the same shield plate with a ground terminal,
5 (a) to (c) are plan views of a conventional relay body,
Front view and side view of fracture, FIG. 6 is a sectional view of a conventional example, FIG.
The figure is a cross-sectional view of another conventional example. 12 ... ground terminal, 14 ... insertion hole, 15 ... printed board, 16 ... relay body, 18 ... ground pattern, 19 ... wide part, 19a ... end face.

Claims (1)

[Scope of utility model registration request] 1. A ground pattern projecting from a relay body, and the ground terminal is inserted through an insertion hole of a printed board having ground patterns on both sides, and the tip of the ground terminal and the ground pattern on the opposite side of the relay body. In a high-frequency relay for soldering and, a wide-width portion is formed by widening a base portion of a ground terminal, and an end face of the wide-width portion is brought into contact with a ground pattern on the relay body side.