JPH0743980Y2 - Coaxial connector - Google Patents

Description

[Detailed description of the device]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a push-on type coaxial connector for quick disconnection, and particularly when a radio device or the like uses a high frequency signal of 800 MHz or more to connect between amplifiers, high frequency signal leakage. The present invention relates to a coaxial connector that can reduce the amount.

[0002]

2. Description of the Related Art Conventional push-on type coaxial connectors are widely used as coaxial connectors because they can be easily attached and detached. Regarding the conventional small push-on type coaxial connector, the relationship between the jack-side connector and the plug-side connector will be described with reference to the sectional explanatory view of FIG.

The jack side connector 1 is provided with a convex male type hot side core wire 11 on its center axis, and a dielectric body 12 which determines the characteristic impedance of the connector is the core wire 11.
And a metal skin 14 on the cold side is formed so as to further surround the dielectric body 12.
On the outer surface of 4, a thread portion 13 having a thread shape is formed.

Then, a guide wire 2 having a guide wire screw portion 21 having a shape corresponding to the thread shape of the screw portion 13 on the inner surface.
Are threaded around the metal skin 14. Furthermore,
The jack side connector 1 is attached to the attachment plate 3.

The plug-side connector 4 is provided with a concave female-type hot-side core wire 41 corresponding to the convex-shaped core wire 11 of the jack-side connector 1 on the central axis thereof, and a dielectric for determining the characteristic impedance of the connector. 42 is formed so as to surround the core wire 41, surrounds the dielectric 42, and is shaped so that the metal jacket 14 of the jack-side connector 1 fits.
3 is formed.

The guide 2 attached to the jack-side connector 1 is attached to the attachment plate 3 by the jack-side connector 1.
It plays the role of a nut when attaching, and because the push-on type coaxial connector is small,
It also has a role of protecting the jack-side connector 1 so that an unreasonable force is not applied during the connection operation.

Next, the jack side connector 1 shown in FIG.
The fitting state of the plug-side connector 4 will be described with reference to FIG. FIG. 6 is a cross-sectional explanatory view showing a state in which the plug-side connector is fitted in the jack-side connector.

When the plug-side connector 4 is fitted to the jack-side connector 1, the metal outer cover 43 of the plug-side connector 4 covers the metal outer cover 14 of the jack-side connector 1.
The core wire 11 of the jack-side connector 1 and the core wire 41 of the plug-side connector 4 are inserted as a result.
Are designed to connect.

However, when the contact point between the metal outer cover 14 of the jack side connector 1 and the metal outer cover 43 of the plug side connector 4 is not sufficiently in contact, the core wire 11 of the jack side connector 1 and the plug side connector are connected. The high-frequency electric signal flowing between the core wire 41 of the connector 4 and the metal wire 4 of the plug-side connector 4
There was a case where it leaked out through the gap of the contact point A of No. 3. For example, when this coaxial connector is used in a connection part between amplifiers or an input part from an antenna in a radio device, leakage of a high frequency electric signal may occur.

Specifically, as shown in the schematic view of FIG.
When a push-on type coaxial connector is used for the high-gain amplifier 10 and the like, a fitting gap between the input side jack side connector 31 and the input side plug side connector 32, the output side jack side connector 33 and the output side plug are provided. Side connector 34
In some cases, the high-frequency electric signal leaked from the fitting gap of (1) and the amplifier 10 oscillated.

For this reason, an N-type or SMA-type screw-type coaxial connector as shown in the schematic view of FIG. 8 has been used. The screw-in type coaxial connector allows the male screw and the female screw to come into contact with each other with sufficient pressure, and the amount of leakage can be made extremely small.

[0012]

However, in the above-mentioned conventional screw-in type coaxial connector, the amount of leakage can be extremely reduced, but the threaded portion makes the shape large and the connection operability is poor, so that the device is not easily connected. There was a problem that it was not suitable for miniaturization.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a push-on type low-leakage type coaxial connector having a small size and good connection operability.

[0014]

DISCLOSURE OF THE INVENTION The present invention for solving the above-mentioned problems of the prior art is, in a coaxial connector, a jack side dielectric formed to surround a jack side core wire, and the jack side dielectric. A jack-side connector that is formed so as to surround the body and has a jack-side metal outer cover having a threaded portion formed on the outer surface thereof, and a Gaito that is provided by being screwed into the threaded portion of the jack-side metal outer cover, and the jack-side connector. The plug-side dielectric formed to surround the plug-side core wire connected to the core-side core wire and the plug-side dielectric body so that the inner surface contacts the outer surface of the jack-side metal skin. A plug-side connector having a formed plug-side metal outer shell, and a hollow cylindrical shape, wherein an abdominal portion of the cylindrical side surface is extruded to the inside of the inner wall of the Gaito, It is characterized by having a spring disposed to contact the outer surface of the metal covering.

[0015]

According to the present invention, the metal outer surface of the plug-side connector is formed so that the inner surface of the metal outer surface of the plug-side connector contacts the outer surface of the metal outer surface of the jack-side connector, and the hollow cylindrical shape is formed on the inner wall of the jack-side connector. This is a coaxial connector that is installed so that the belly part of the spring pushes out toward the inner surface of the inner wall of the Gaito to contact the outer surface of the metal outer surface of the plug side connector. When the plug is inserted, the outer surface of the metal outer skin of the jack side connector and the inner surface of the metal outer skin of the plug side connector come into contact, and the outer surface of the metal outer skin of the plug side connector comes into contact with the belly part of the spring. To prevent leakage of high frequency electrical signals at each contact point on the inner and outer surfaces of the metal outer surface of the plug-side connector It can be.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional explanatory view of a jack side connector and a plug side connector of a coaxial connector according to an embodiment of the present invention. It should be noted that parts having the same configurations as those in FIG. 5 and FIG. 6 will be described with the same reference numerals.

The structure of the jack-side connector 1 of the coaxial connector of the present embodiment is provided with a convex male type hot core wire 11 on its central axis, and a dielectric body 12 for determining the characteristic impedance of the connector is a core wire. A metal sheath 14 on the cold side is formed so as to surround 11 and further surrounds the dielectric 12, and a thread portion 13 is formed on the outer surface of the metal sheath 14.

Then, a guide wire 2 having a guide wire screw portion 21 having a shape corresponding to the thread shape of the screw portion 13 on the inner surface.
Are screwed to wrap around the metal skin 14. And, as a characteristic part of this embodiment, a spring 7 is fitted and fixed to the inner surface of the guide toe 2. The spring 7 is made of metal and has a hollow cylindrical shape. The belly part of the spring 7 is fitted in the recess of the inner surface of the guide 2 so as to be pushed out in the inner surface direction. Further, the jack side connector 1 is adapted to be attached to the attachment plate 3.

Further, the plug-side connector 4 is provided with a concave female type hot-side core wire 41 corresponding to the convex-shaped core wire 11 of the jack-side connector 1 on the central axis thereof, and determines the characteristic impedance of the connector. Dielectric 42 is core wire 41
Is formed so as to surround the dielectric body 42, and further surrounds the dielectric 42, and is formed with a metal outer cover 43 having a shape corresponding to the fitting of the metal outer cover 14 of the jack-side connector 1.

The guide 2 attached to the jack side connector 1 is attached to the attachment plate 3 by the jack side connector 1.
It plays the role of a nut when attaching, and because the push-on type coaxial connector is small,
It also has a role of protecting the jack-side connector 1 so that an unreasonable force is not applied during the connection operation.

Next, the jack side connector 1 shown in FIG.
The fitted state of the plug-side connector 4 will be described with reference to FIG. FIG. 2 is a cross-sectional explanatory view showing a state in which the plug-side connector is fitted to the jack-side connector.

When the plug-side connector 4 is fitted to the jack-side connector 1, the metal outer cover 43 of the plug-side connector 4 covers the metal outer cover 14 of the jack-side connector 1.
The core wire 11 of the jack-side connector 1 and the core wire 41 of the plug-side connector 4 are inserted as a result.
Are designed to connect. However, as a characteristic part of this embodiment, since the spring 7 is fitted on the inner surface of the guide wire 2, the belly portion of the spring 7 comes into contact with the outer surface of the metal outer cover 43 of the plug-side connector 4. There is.

As described above, since the spring 7 is present, when the contact point where the metal outer skin 14 of the jack side connector 1 and the metal outer skin 43 of the plug side connector 4 contact each other is not sufficiently contacted, the jack side Core wire 1 of connector 1
1 and a high-frequency electrical signal flowing between the core wire 41 of the plug-side connector 4 leaks out through the gap between the contact points A between the metal jacket 14 of the jack-side connector 1 and the metal jacket 43 of the plug-side connector 4. Even in the case, the leakage of the high frequency electric signal can be prevented at the contact point B where the antinode portion of the spring 7 and the outer surface of the metal outer cover 43 of the plug side connector 4 come into contact with each other.

A specific structure of the spring 7 portion of the coaxial connector of this embodiment will be described with reference to FIGS. 3 and 4. FIG. 3 is an external view of the spring 7, and FIG. 4 is a schematic view when the spring 7 is fitted into the guide wire 2.

As shown in FIG. 3, the spring 7 has a hollow cylindrical shape made of metal, and a hole 8 having a width of several millimeters is formed on the side surface of the cylinder. Hole 8 is spring 7
Is provided to facilitate processing. However, if the width of this hole 8 is, for example, a wavelength of about 40 cm in vacuum for a high frequency of 800 MHz, and a width of a span of 1/4 of this wavelength or less, a high frequency electric signal is transmitted. It does not pass.

Also, as shown in FIG. 4, the height of the cylinder of the spring 7 is about 5 mm, and the diameter of the cylinder of the spring 7 is about 10 mm. Then, the belly portion of the spring 7 is fitted into the inner surface of the guide 2 so as to face the inner surface direction.

According to this embodiment, there is an effect that the leakage amount of 20 dB or more can be improved with the high frequency electric signal of 1000 MHz. And, the spring 7 of this embodiment is
It is manufactured using a mold, and there is an effect that it can be put to practical use without increasing the price.

According to the coaxial connector of this embodiment, there is an effect that it is a small-sized coaxial connector with good operability of connection and a low-leakage type coaxial connector.

[0029]

According to the present invention, the metal skin of the plug-side connector is formed so that the inner surface of the metal skin of the plug-side connector contacts the outer surface of the metal skin of the jack-side connector.
Since the hollow cylindrical spring is pushed on the inner wall of the jack side connector of the jack side connector so that the belly part of the spring pushes to the inner surface of the inner side wall of the jack side connector so as to come into contact with the outer surface of the metal outer shell of the plug side connector, the jack side connector When the metal skin of the plug-side connector is fitted into the metal skin of, the outer surface of the metal skin of the jack side connector and the inner surface of the metal skin of the plug side connector make contact, and the outer surface of the metal skin of the plug side connector contacts the belly part of the spring. Since they come into contact with each other by being pressed by, there is an effect that a high frequency electric signal can be prevented from leaking at each contact point on the inner and outer surfaces of the metal outer shell of the plug-side connector.

[Brief description of drawings]

FIG. 1 is a cross-sectional explanatory view of a jack side connector and a plug side connector of a coaxial connector according to an embodiment of the present invention.

FIG. 2 is a cross-sectional explanatory view showing a state in which the plug-side connector is fitted to the jack-side connector of the present embodiment.

FIG. 3 is an external view of a spring of the coaxial connector of this embodiment.

FIG. 4 is a schematic view of a case where a spring is fitted in a guide.

FIG. 5 is a cross-sectional explanatory view of a jack-side connector and a plug-side connector of a conventional coaxial connector.

FIG. 6 is an explanatory sectional view showing a state in which a plug-side connector is fitted to a jack-side connector of a conventional example.

FIG. 7 is a schematic diagram when a push-on type coaxial connector is used in a conventional high-gain amplifier.

FIG. 8 is a cross-sectional explanatory view of a conventional screw-in type coaxial connector.

[Explanation of symbols]

1 ... Jack side connector, 2 ... Gaito, 3 ... Mounting plate, 4 ... Plug side connector, 7 ... Spring,
8 ... Hole, 10 ... Amplifier, 11 ... Core wire (male type hot side), 12 ... Dielectric material, 13 ... Screw part, 14 ...
Metal skin (cold side), 21 ...
31 ... Input side jack coaxial connector, 32 ... Input side plug coaxial connector, 33 ... Output side jack coaxial connector, 34 ... Output side plug coaxial connector, 41 ... Core wire (female type hot side), 42 ... Dielectric material, 43 ... Metal Skin (cold side), A ... Contact point between jack-side connector metal skin and plug-side connector metal skin, B ... Contact point between plug-side connector metal skin and spring

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshihiko Hamada 2-3-13 Toranomon, Minato-ku, Tokyo International Electric Co., Ltd. (72) Kenji Ishikawa 2-3-13 Toranomon, Minato-ku, Tokyo International Electric Co., Ltd. (56) Reference Japanese Unexamined Patent Publication No. 1-236589 (JP, A) Actually developed 61-194277 (JP, U)

Claims (1)

[Scope of utility model registration request] 1. A core wire on the jack side is formed to surround the core wire.
It is screwed into a jack-side dielectric body, a jack-side metal skin formed around the jack-side dielectric body, and having a screw portion formed on the outer surface, and a screw portion of the jack-side metal skin. Jack-side connector having
And the core on the plug side that connects to the core wire on the jack side.
The plug-side dielectric formed so as to surround the wire and the plug
It is formed to surround the dielectric on the lug side, and the jack side
The metal outer skin of the plastic is formed so that the inner surface contacts the outer surface.
Plug-side connector having a metal shell on the plug side, and a hollow circle
A cylindrical shape, the belly portion of the cylindrical side surface is pushed out to the inside of the inner wall of the Gaito,
And a spring provided so as to come into contact with the surface .