WO2009128457A1

WO2009128457A1 - Earth structure of coaxial connector

Info

Publication number: WO2009128457A1
Application number: PCT/JP2009/057529
Authority: WO
Inventors: 山口　徹
Original assignee: 矢崎総業株式会社
Priority date: 2008-04-15
Filing date: 2009-04-14
Publication date: 2009-10-22
Also published as: JP2009259500A

Abstract

An earth structure of a coaxial connector, of which the number of parts, the weight and the size can be prevented from being increase, and the yield can be improved. The earth structure of a coaxial connector comprises a housing (8), an insulative bracket housing (9) connected to the housing (8), a bracket (1) contained in the bracket housing (9) and connected to an earth, and an outer conductor terminal (2) with an integrally formed connection part (3) for the earth. The outer conductor terminal (2) is inserted into the housing (8) in such a manner that the connection part (3) is brought into contact with the bracket (1).

Description

Coaxial connector grounding structure

The present invention relates to a grounding structure for a coaxial connector.

A coaxial cable used for high-frequency signal transmission such as an antenna wire generally includes a core wire as a central conductor, an insulator as a dielectric, a metal tape conductor and a braid as an outer conductor, and an insulating sheath as an outer sheath. In order from the center. The coaxial cable having such a configuration is provided with a coaxial connector at the terminal in order to connect to a counterpart device, a coaxial cable, or the like.

The coaxial connector has an inner conductor terminal and an insulator that accommodates the inner conductor terminal, and an outer conductor terminal for blocking electrical noise such as electromagnetic waves and static electricity outside the insulator. The coaxial connector disclosed in the following Patent Document 1 is configured to be fixed to a body of an automobile or the like through a bracket and to be grounded through a ground terminal and the bracket. The ground terminal is provided as one component or a part integrated with the bracket. The ground terminal is in contact with the outer conductor terminal, thereby enabling body grounding.

Japanese Patent Laid-Open No. 11-67362

In the coaxial connector disclosed in Patent Document 1, when the ground terminal is provided as one component part of the connector, the number of parts increases, which causes cost increase and complicated parts management. On the other hand, when the grounding terminal is provided integrally with the bracket, the bracket is generally rigid and thick, which causes weight increase and external enlargement. It is difficult to remove and this is a big thing in the part like the ground terminal). When the ground terminal is provided integrally with the bracket, it is considered that the yield is poor with the bracket shape disclosed in Patent Document 1.

The present invention has been made in view of the circumstances described above, and provides a grounding structure for a coaxial connector that can prevent an increase in the number of parts, an increase in weight, and an external enlargement, and that can improve the yield. The task is to do.

The ground structure of the coaxial connector of the present invention made to solve the above problems includes a housing, an insulating bracket housing connected to the housing, a bracket housed in the bracket housing and connected to the ground, and an outer conductor. A terminal and a ground connection formed integrally with the outer conductor terminal, and the outer conductor terminal is inserted into the housing such that the ground connection contacts the bracket.
The ground structure of the present invention preferably includes a plurality of the outer conductor terminals, and each ground connection portion of the outer conductor terminal contacts the bracket or the adjacent outer conductor terminal.
In the ground structure of the present invention, preferably, the ground contact portion has a spring structure.
In the ground structure of the present invention, preferably, the outer conductor terminal and the ground connection are integrally formed from a metal plate.
In the ground structure of the present invention, preferably, the ground connection portion projects in a direction orthogonal to the terminal axis of the outer conductor terminal.
The ground structure of the present invention preferably includes a plurality of outer conductor terminals, and the ground contact portion is in contact with a bracket or an adjacent outer conductor terminal.

According to the present invention having such a feature, the ground contact portion is integrated with the outer conductor terminal connected to the braid of the coaxial cable, and the ground contact portion contacts the bracket or the adjacent outer conductor terminal. It becomes possible to take earth. According to the present invention, since the ground contact portion is integrated with the outer conductor terminal, the number of parts does not increase, and the outer conductor terminal is usually formed by processing a thin metal plate. Even if the contact parts are integrated, weight increase and external enlargement can be avoided as much as possible.

Further, according to the present invention having the above-described features, the contact property with respect to the bracket or the adjacent outer conductor terminal is improved by the spring structure.

The ground structure of the coaxial connector according to the present invention is the ground structure described above, wherein the outer conductor terminal includes a guide integrally formed with the outer conductor terminal at a position opposite to the ground contact portion, The housing includes a guide groove for guiding the guide, and the guide is connected to a ground contact portion of the adjacent outer conductor terminal.

According to the present invention having such a feature, adjacent outer conductor terminals can be grounded by contact between the ground contact portion and the guide.

A metal plate for creating an external terminal used in the ground structure of the present invention includes a plurality of crimping pieces for a coaxial cable, and the grounding contact portion is arranged in parallel with the crimping piece, and the crimping is performed. The length is equal to or shorter than the piece.

According to the present invention having such a feature, the ground contact portion is formed so as to be aligned with the crimping piece, so that a portion that has been unnecessary in the past is utilized.

According to the present invention described above, by integrating the contact portion for grounding with the outer conductor terminal, it is possible to prevent an increase in the number of parts, an increase in weight, and an enlargement of the outer shape.

According to the present invention described above, there is an effect that the spring contact structure can be used as a ground contact portion having good contact properties.

According to the present invention described above, by integrating the guide / connecting convex portion with the outer conductor terminal, there is an effect that it is possible to satisfactorily ground even with multiple poles.

According to the present invention described above, the ground contact portion is formed so as to be aligned with the crimping piece, and the ground contact portion is formed with a length corresponding to the crimping piece. There is an effect that the yield of the conductor terminals can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows one Embodiment of the ground structure of the coaxial connector of this invention, (a) is a rear view of the housing in the state which showed the outer conductor terminal and the bracket with the virtual line, (b) is the outer conductor terminal. It is a rear view. It is a top view of an outer conductor terminal. It is a front view of an outer conductor terminal. It is sectional drawing of an outer conductor terminal. It is a figure of the outer conductor terminal expansion | deployment shape before the bending process of an outer conductor terminal. It is a perspective view of a housing. It is sectional drawing of a housing. It is a perspective view of an insulator assembly. It is a perspective view which shows the fixed state of an insulator assembly. It is a figure which shows the state which takes the earth | ground at the time of multipolar.

Hereinafter, description will be made with reference to the drawings. 1A and 1B are views showing an embodiment of a grounding structure of a coaxial connector according to the present invention, in which FIG. 1A is a rear view of a housing in a state where outer conductor terminals and brackets are indicated by phantom lines, and FIG. It is a rear view of a conductor terminal. 2 to 5 are views of outer conductor terminals, FIGS. 6 to 7 are views of a housing, and FIGS. 8 to 9 are views of an insulator assembly.

In FIG. 1, the coaxial connector is fixed to a body of an automobile or the like via a bracket 1 and can be grounded by an outer conductor terminal 2 that contacts the bracket 1. The ground structure of the coaxial connector according to the present invention has a structure in which the ground contact portion 3 integrated with the outer conductor terminal 2 is brought into contact with the bracket 1. The bracket 1 is formed by pressing a thick metal plate having conductivity.

The coaxial connector includes an insulator assembly 7 (see FIG. 8) including a coaxial cable 4 (see FIG. 8), an inner conductor terminal 5 (see FIG. 8), and an insulator 6 (see FIG. 8). A coaxial connector subassembly (not shown) is formed by being connected and fixed to 2, and the coaxial connector subassembly is assembled to the insulating housing 8. A bracket fitting portion 9 for the bracket 1 is formed in the housing 8.

The coaxial connector is arranged at a position away from the body by a predetermined amount by forming a fitting state such that the bracket 1 is inserted into the bracket fitting portion 9, and with the insertion of the bracket 1. Then, the ground contact portion 3 of the outer conductor terminal 2 comes into contact with the bracket 1 so that the ground can be taken.

In FIG. 8, the coaxial cable 4 is a well-known one, and includes a core wire 10 as a central conductor, an insulator 11 as a dielectric, a metal tape conductor 12 and a braid 13 as external conductors, and a sheath. The insulating sheath 14 is provided in order from the center. The coaxial cable 4 is processed so that the core wire 10 is exposed with a predetermined length. The braid 13 is folded back onto the insulating sheath 14 and processed so that it can be connected to the outer conductor terminal 2 (see FIGS. 1 to 4).

The inner conductor terminal 5 is a metal member having conductivity, and has, for example, a pin-shaped electrical contact portion and a core wire connection portion 15 continuous to the electrical contact portion. The core wire connecting portion 15 is formed in a shape to be a pair of caulking pieces, and the core wire 10 of the coaxial cable 4 can be connected and fixed by caulking.

The insulator 6 is a so-called dielectric, and is formed using a synthetic resin material having insulating properties. A held portion 16 is formed on the outer peripheral surface of the insulator 6 to be fixed to the outer conductor terminal 2 (see FIGS. 1 to 4). Before and after the held portion 16,

annular flange portions

17 and 17 having a larger diameter than the held portion 16 are formed. In forming the coaxial connector subassembly, the held portion 16 is held by the outer conductor terminal 2 by crimping a pair of insulator holding crimping pieces 18 of the outer conductor terminal 2 as shown in FIG. It has come to be.

1 to 4, the outer conductor terminal 2 is formed by forming a conductive metal plate into an outer conductor terminal developed shape 19 as shown in FIG. 5 and then bending it. An electrical contact portion 20 that is in electrical contact with an outer conductor terminal of a counterpart coaxial connector (not shown) is formed at the front portion of the outer conductor terminal 2. The electrical contact portion 20 is formed in a substantially semi-cylindrical shape. The substantially semi-cylindrical portion extends to the middle portion of the outer conductor terminal 2. The electrical contact portion 20 is formed with the pair of insulator holding caulking pieces 18. The pair of insulator holding caulking pieces 18 are formed so as to be continuous with the substantially semi-cylindrical end faces 21, 21.

A pair of braid connecting caulking pieces 22 and a pair of sheath fixing caulking pieces 23 are formed at the rear part of the outer conductor terminal 2. The pair of braid connecting caulking pieces 22 and the sheath fixing caulking piece 23 are arranged in a line in the front-rear direction. The pair of braid connecting caulking pieces 22 is formed so that the braid 13 (see FIG. 8) of the coaxial cable 4 can be connected and fixed by caulking. Further, the pair of sheath fixing caulking pieces 23 are formed so that the insulating sheath 14 (see FIG. 8) can be fixed by caulking.

The ground contact portion 3 and the guide / connection convex portion 24 are formed in the intermediate portion of the outer conductor terminal 2. The ground contact portion 3 and the guide / connection convex portion 24 are formed so as to protrude in a direction orthogonal to the terminal axis of the outer conductor terminal 2. The ground contact portion 3 is formed so as to be continuous with one of the substantially semi-cylindrical end faces 21, 21, and the guide / connecting convex portion 24 is continuous with the other. The ground contact portion 3 and the guide / connecting convex portion 24 are configured such that their protruding directions differ by 180 °.

The contact portion 3 for grounding is formed as a portion to be brought into contact with the bracket 1 (or a portion to be brought into contact with the guide / connection convex portion 24 of the adjacent outer conductor terminal 2 in the case of multiple poles as shown in FIG. 10). The earth contact portion 3 is not particularly limited, but has a spring structure in this embodiment (a structure not having a spring structure is also possible). A spring portion 25 (spring structure) is formed by bending on the tip side of the ground contact portion 3 (for the spring structure, for example, a terminal material having spring properties such as brass, phosphor bronze, copper alloy for spring, etc. is used. (It is assumed that the shape of the illustrated spring portion 25 is an example). The ground contact portion 3 is formed so that a part thereof protrudes to the bracket fitting portion 9 of the housing 8.

The contact portion 3 for earth is formed at a position that improves the yield of the outer conductor terminal 2. Specifically, as can be seen from the outer conductor terminal development shape 19 shown in FIG. 5, it is formed in a portion that has become unnecessary in the prior art (the reference numeral in FIG. 5 corresponds to the portion after bending). And). The ground contact portion 3 is formed to be aligned with the braided connection crimping piece 22 in the state of the outer conductor terminal unfolded shape 19 before bending, and has a length substantially equal to that of the braided connection crimping piece 22. (In this embodiment, it is formed with a length that takes into account the spring portion 25).

The guide and connection convex portion 24 is formed as a guide portion for the housing 8 (in addition to this, as shown in FIG. 10, a connection portion for the ground contact portion 3 of the adjacent outer conductor terminal 2). The guide / connection convex portion 24 is formed in a convex piece shape that is shorter in the protruding direction than the ground contact portion 3. As shown in FIGS. 1B and 3, the guide / connection convex portion 24 is disposed at a position lower than the ground contact portion 3 by the thickness of the terminal as viewed in the vertical direction of the drawing.

1 (a), 6 and 7, the housing 8 has a connector fitting which is a fitting portion of a sub-assembly housing portion 26 for housing and locking a coaxial connector sub-assembly (not shown) and a mating coaxial connector (not shown). It has the joint part 27 and the bracket fitting part 9 used as the part fitted to the bracket 1. FIG.

A lance 29 for hooking and locking the locked portion 28 of the outer conductor terminal 2 is formed in the sub-assembly housing portion 26. Further, the sub-assembly housing portion 26 is formed with a contact portion guide 30 for the grounding contact portion 3 of the outer conductor terminal 2 and a connection convex portion guide groove 31 for the guide / connection convex portion 24. The contact portion guide 30 is formed so as to communicate with the bracket fitting portion 9.

In the above configuration, when a coaxial connector subassembly (not shown) is housed and locked in the subassembly housing portion 26 of the housing 8, the formation of the coaxial connector is completed. At this time, the guide / connection convex portion 24 of the outer conductor terminal 2 is inserted into the connection convex portion guide groove 31, and the ground contact portion 3 of the outer conductor terminal 2 is inserted into the contact portion guide 30. A part of the ground contact portion 3 protrudes from the bracket fitting portion 9.

After forming the coaxial connector, when the fitting to the bracket 1 is performed via the bracket fitting portion 9 of the housing 8, the fixing of the coaxial connector is completed. In the coaxial connector, since the part of the ground contact portion 3 comes into contact with the bracket 1, the body ground can be obtained.

As described above with reference to FIGS. 1 to 10, according to the present invention, the ground contact portion 3 is integrated with the outer conductor terminal 2, and the ground contact portion 3 contacts the bracket 1. It has a grounding structure. Such a ground structure can be grounded. In the present invention, since the ground contact portion 3 is integrated with the outer conductor terminal 2, the ground can be taken without increasing the number of components. Since the outer conductor terminal 2 is usually formed by processing a metal thin plate, even if the ground contact portion 3 is integrated with the outer conductor terminal 2, an increase in weight and enlargement of the outer shape can be avoided as much as possible. In the present invention, an increase in the product number can be avoided by integrating the ground contact portion 3 with the outer conductor terminal 2. In addition, the present invention can also improve the yield of the outer conductor terminals 2.

It goes without saying that the present invention can be variously modified without departing from the spirit of the present invention.
Although the invention has been described in detail and with reference to particular embodiments, it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit, scope or scope of the invention. is there.
The present invention is based on a Japanese patent application filed on April 15, 2008 (Japanese Patent Application No. 2008-105259), the contents of which are incorporated herein by reference.

The present invention has been made in view of the circumstances described above, and provides a grounding structure for a coaxial connector that can prevent an increase in the number of parts, an increase in weight, and an external enlargement, and that can improve the yield. To do.

DESCRIPTION OF SYMBOLS 1 Bracket 2 Outer conductor terminal 3 Grounding contact part 8 Housing 9 Bracket fitting part 19 Outer conductor terminal deployment shape 22 Braiding connection crimping piece (crimping piece)
23 Caulking piece for fixing sheath (crimping piece)
24 Convex and connecting projection 25 Spring (spring structure)
26 Subassembly housing part 27 Connector fitting part 29 Lance 30 Contact part guide 31 Connection convex part guide groove

Claims

Coaxial connector grounding structure,
A housing;
An insulating bracket housing connected to the housing;
A bracket housed in the bracket housing and connected to ground;
An outer conductor terminal, and a ground connection formed integrally with the outer conductor terminal,
The grounding structure according to claim 1, wherein the outer conductor terminal is inserted into the housing such that the ground connection portion contacts the bracket.
2. The ground structure according to claim 1, wherein a plurality of the outer conductor terminals are provided, and each ground connection portion of the outer conductor terminal is in contact with the bracket or an adjacent outer conductor terminal.
The coaxial connector grounding structure according to claim 1, wherein the ground contact portion has a spring structure.
2. The ground structure according to claim 1, wherein the outer conductor terminal and the ground connection portion are formed from a single metal plate.
2. The ground structure according to claim 1, wherein the ground connection portion projects in a direction orthogonal to a terminal axis of the outer conductor terminal.
The ground structure according to any one of claims 1 to 5, wherein the outer conductor terminal includes a guide integrally formed with the outer conductor terminal at a position opposite to the ground contact portion.
The housing includes a guide groove for guiding the guide,
The ground structure is characterized in that the guide is connected to a ground contact portion of the adjacent outer conductor terminal.
A metal plate for creating an external conducting terminal used in the ground structure according to claim 4,
With multiple crimping pieces for coaxial cable,
The ground contact portion is parallel to the crimping piece, and is a metal plate having a length equivalent to or shorter than the crimping piece.