JP2003133013A - Coaxial connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enhance reliability of the bonding connection of a coaxial connector and an apparatus interior component and miniaturize the connector. SOLUTION: This coaxial connector, whose front side is connected to and disconnected from another connector and whose rear side is connected to an apparatus mounting component, is equipped with a coaxial outer conductor 2 fixed to an apparatus casing or the like; a coaxial core wire 3 installed inside the coaxial outer conductor by supporting with an insulator 4; and a movable core wire 5 rotatably inserted into the inside 3a of a pipe-like part formed by working in a pipe shape the rear end part of the coaxial core wire, and a flat part 5a is formed at one end of the movable core wire 5 exposed from the inside 3a of the pipe-like part.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coaxial connector used as an interface for high frequency equipment,
It is intended to improve the joint reliability between a high-frequency component inside a device and a connector core wire and to miniaturize the connector and the device.

[0002]

2. Description of the Related Art FIG. 5 is a sectional side view showing a conventional coaxial connector provided for interfacing a microstrip line mounted inside a device and the outside. In the figure, 20 is a coaxial connector whose front side (left side in the figure) is attached to and detached from another connector and whose rear side (right side in the figure) is connected to a microstrip line. This coaxial connector 20
Is composed of a cylindrical outer coaxial conductor 21 and a coaxial core wire 22 supported by an insulator 23 on the outer coaxial conductor 21. The coaxial core wire 22 is a conductor having a circular cross section, and both the front end and the rear end thereof protrude from the insulator 23.

Reference numeral 24 is a metallic device housing, and reference numeral 25 is a component mounted therein. A conductive pattern 26 is formed on the upper surface. Reference numeral 27 is a connecting wire such as a gold ribbon or a gold wire that connects the conductive pattern 26 and the coaxial core wire 22.

To attach the coaxial connector 20 to the equipment casing 24, first, the base of the coaxial outer conductor 21 is inserted into the opening of the equipment casing 24 and fixed with a conductive adhesive 28, and then the coaxial core wire 22 is attached. The conductive pattern 26 is bonded by a connecting wire 27.

FIG. 6 shows another conventional coaxial connector in which a flat portion 22a is formed at the end of a coaxial core wire 22 and a flange 21a is provided on an outer coaxial conductor 21. 29 is a screw for attachment.

The device housing 24 is attached to the device housing 2 by
After fitting the coaxial outer conductor 21 into the opening of No. 4, the flange 21a is screwed to the device housing 24. Then, the connecting wire 27 is connected to the flat portion 22a of the coaxial core wire 22 by bonding. The mounting position of the flange 21a on the device housing 24 must be designed such that the flat surface of the flat portion 22a is parallel to the mounting component surface, for example.

[0007]

By the way, in FIG.
Although the connecting wire 27 such as a gold ribbon is bonded to the coaxial core wire 22 having a circular cross section, in this case, the bonding area between the connecting wire and the surface of the coaxial core wire is small, and sufficient bonding strength cannot be obtained.

Further, in the case of FIG. 6, the flange 21a is indispensable to the coaxial connector, and as described above, not only the mounting position of the coaxial connector is restricted by the orientation of the flat portion 22a, but also the coaxial portion by the flange. The size of the connector and the equipment housing to which it is attached increases. Further, there is a drawback that the mounting work with screws is complicated.

The present invention has been made to solve the above-mentioned problems, and makes it easy to connect the coaxial core wire of a connector and a connecting wire, and downsizes the connector.
Further, it is intended to obtain a coaxial connector which can be easily attached.

[0010]

A coaxial connector according to the present invention has a coaxial outer conductor fixed to a device housing or the like in which the front side is detachably attached to another connector and the rear side is connected to a device mounting component. A coaxial core wire supported by an insulator in the coaxial outer conductor, and a movable core wire having a rear end portion of the coaxial core wire formed in a pipe shape and rotatably inserted into the pipe shape portion. And a flat portion is formed at one end of the movable core wire exposed from the inside of the pipe-shaped portion.

Further, the movable core wire is fixed inside the pipe-shaped portion by a conductive adhesive.

Further, the flat portion of the movable core wire is formed thin enough to have flexibility.

The movable core wire is prevented from coming off by an inner fold portion formed inside the pipe-shaped portion of the coaxial core wire.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. Embodiment 1 of the present invention will be described below with reference to the drawings. In FIG. 1, 1
Is a coaxial connector whose front side (left side in the figure) is attached to and detached from another connector and whose rear side (right side in the figure) is connected to other components. Reference numeral 2 is a coaxial outer conductor made of a metal cylinder, 3 is a coaxial core wire supported in the coaxial outer conductor 2 by an insulator 4 made of Teflon, glass, or the like.
More prominent. The end portion of the coaxial core wire 3 is formed in a pipe shape, and 3a is the inside of the pipe portion.

Reference numeral 5 denotes a movable core wire whose one end is inserted into the inside 3a of the pipe-shaped portion, and a flat portion 5a is formed at one end which extends rearward from the inside 3a of the pipe-shaped portion and is exposed. The flat portion 5a is formed by cutting the side surface of the movable core wire 5 having a circular cross section into a flat shape. Reference numeral 6 denotes a conductive adhesive that fixes the movable core wire 5 to the inside 3a of the pipe-shaped portion. The movable core wire 5 can freely rotate within the interior 3a of the pipe-shaped portion until it is fixed with the conductive adhesive 6.

Reference numeral 7 is a metal device housing, 8 is a component mounted on the housing, and has a conductive pattern 9 on its upper surface. Reference numeral 10 is a connecting wire such as a gold ribbon or gold wire that connects the conductive pattern 9 and the movable core wire 5, and 11 is a conductive adhesive that fixes the coaxial outer conductor 2 to the housing 7.

Next, a procedure for attaching the coaxial connector 1 to the equipment casing 7 will be described. First, the outer conductor 2 of the coaxial connector
The base part of (1) is fitted into the opening of the equipment casing 7 and fixed with the conductive adhesive 11. After that, one end of the movable core wire 5 is inserted into the inside 3a of the pipe-shaped portion of the coaxial core wire 3, and the flat portion 5a exposed from the inside of the pipe-shaped portion is moved so that the plane of the flat portion 5a is parallel to the mounting component 8 of the device. Adjust while rotating the core wire 5. The movable core wire 5 is fixed to the coaxial core wire 3 with the conductive adhesive 6 at the parallel position. Further, the mounting component 8
Connecting the conductive pattern 9 and the flat portion 5a of the movable core wire
Bonding connection is made with 0.

As a method of fixing the coaxial outer conductor 2 to the equipment casing 7, in addition to using the conductive adhesive as described above, screws are formed on the coaxial outer conductor 2 and the equipment casing 7 to form the coaxial outer conductor. 2 may be screwed into the device housing 7.

Embodiment 2. 2 is a sectional view showing a second embodiment of the present invention. In FIG. 2, 5b is a thin flat portion in which the flat portion 5a of FIG. 1 is further shaved from the lower side and thinned to have flexibility. Since the other parts are the same as those in FIG. 1, the corresponding parts are designated by the same reference numerals and the description thereof will be omitted. The term "thin flat portion" means 5 in FIG.
As indicated by b, the lower surface of the thin flat portion 5b is made flat like the upper surface, and the lower surface plane indicates a shape that can approach the surface of the mounted component 8 infinitely. Further, “having flexibility” means that when the connecting wire 10 is bonded onto the thin flat portion 5b, the movable core wire 5 pressed from above is not damaged and the upper surface of the mounting component 8 is used as a base for bonding. It means that the thin flat portion 5b is bent until it is possible.

In this structure, the movable core wire 5 can be rotated to adjust the direction of the thin flat portion 5b, as shown in the first embodiment. In addition, the height of the flat portion of the movable core wire 5 and the mounting height of the component 8 can be made close to each other, and since the thin flat portion 5b has flexibility, when the connecting wire 10 is bonded to the upper surface of the thin flat portion 5b. The upper surface of the mounted component 8 can be used as a base, reliable bonding can be performed, and the reliability of bonding connection can be improved. Furthermore, since the gap in the height direction between the component and the coaxial core can be minimized, the reflection loss can be reduced.

Embodiment 3. 3 and 4 are sectional side views showing a third embodiment of the present invention. 3 and 4, an inner fold 3b is formed inside the pipe-shaped portion 3a of the coaxial core wire 3, and a constriction is formed at the end of the movable core wire 5 inserted into the inside 3a of the pipe-shaped portion. 5c are provided respectively.

Therefore, when the movable core wire 5 is fitted into the inside 3a of the pipe-shaped portion of the coaxial core wire 3, the inner folded portion 3b and the constriction 5c are engaged with each other to prevent the movable core wire 5 from coming off in the removing direction and to move the movable core wire 5 Is electrically connected to the coaxial core wire 3. There is no restriction in the direction of rotation, and the direction of the flat portion 5b can be adjusted by rotating the movable core wire 5.

[0023]

As described above, according to the present invention, the rear side of the coaxial core wire of the coaxial connector is formed in a pipe shape, and the coaxial movable core wire having the flat portion inside the pipe-shaped portion is inserted. By allowing the flat portion to be adjusted in the optimum direction, the reliability of the bonding method is improved, the method of fixing the connector body to the housing is simplified, and the size can be reduced.

Further, since the flat portion of the movable core wire is made thin so as to have flexibility, it is possible to perform bonding with the mounting parts as a base, and the reliability of the bonding connection is increased. Further, the coaxial core wire and the parts are bonded. The distance can be reduced, and the reflection loss can be reduced.

Further, since the coaxial core wire and the movable core wire are joined by a mechanical structure without using an adhesive, the assembling work becomes easy.

[Brief description of drawings]

FIG. 1 is a sectional side view showing a coaxial connector according to a first embodiment of the present invention.

FIG. 2 is a sectional side view showing a coaxial connector according to Embodiment 2 of the present invention.

FIG. 3 is a sectional side view showing a coaxial connector according to a third embodiment of the present invention.

FIG. 4 is an enlarged sectional side view showing a coaxial core wire and a coaxial movable core wire of a coaxial connector according to a third embodiment of the present invention.

FIG. 5 is a cross-sectional side view showing a conventional adhesive fixed connector.

FIG. 6 is a sectional side view of a conventional flange screw type connector.

[Explanation of symbols]

1 coaxial connector, 2 coaxial outer conductor, 3 coaxial core wire, 3a inside pipe part, 3b inward folding part,
4 insulator 5 movable core wire 5a
Flat part, 5b Thin flat part, 5c
Constriction, 6 Conductive adhesive, 7
Equipment housing, 8 mounting parts, 9
Conductive pattern, 10 connecting wires,
11 Conductive adhesive.

Claims (4)

[Claims] 1. A coaxial connector in which one side is attached to and detached from another connector and the other side is connected to a device mounting component, and a coaxial outer conductor fixed to a device housing and the like are supported by an insulator in the coaxial outer conductor. And a movable core wire that is rotatably inserted into the inside of the pipe-shaped portion by forming a rear end portion of the coaxial core wire into a pipe shape and exposed from the inside of the pipe-shaped portion. A coaxial connector characterized in that a flat portion is formed at one end of the movable core wire. 2. The coaxial connector according to claim 1, wherein the movable core wire is fixed inside the pipe-shaped portion by a conductive adhesive. 3. The coaxial connector according to claim 1, wherein the flat portion of the movable core wire is formed thin enough to have flexibility. 4. The coaxial connector according to claim 1, wherein the movable core wire is prevented from coming off by an inner fold portion formed inside a pipe-shaped portion of the coaxial core wire.