1. Field of the Invention
This invention relates to a connector, and more particularly to a so-called shielded connector.
2. Description of the Related Art
Conventionally, there has been proposed a shielded connector which is comprised of a housing, a plurality of contacts held by the housing, and a metal shell surrounding contact portions of the contacts (see Japanese Patent No. 3298920).
The contact portions of the contacts are arranged in four rows, and a metal plate is disposed between the upper two rows and the lower two rows. Bent portions of opposite ends of the metal plate are in contact with an inner wall surface of the metal shell, whereby electrical conductivity between the metal plate and the metal shell is ensured, and hence this prevents crosstalk between the contacts in the upper two rows and the contacts in the lower two rows.
The metal plate is held by the housing by press-fitting, and the bent portions of the metal plate is not fixed by soldering but is merely in contact with the inner wall surface of the metal shell.
Therefore, if the dimensions of the metal plate and the metal shell are set such that the bent portions of the metal plate are positively brought into contact with the inner wall surface of the metal shell, the metal plate or the metal shell is deformed, which may make it difficult to fit the metal shell and a metal shell of a mating connector to each other. Further, this may also cause the metal plate or the metal shell to be damaged depending on the strength of the metal plate or the metal shell.
The present invention has been made in view of these circumstances, and an object thereof is to provide a connector which makes a shell unnecessary while ensuring a shielding function.
To attain the above object, the present invention provides a connector that is fitted to a mating connector including a plurality of mating contacts held by a mating housing, and a shell mounted on the mating housing such that the shell surrounds mating contact portions of the plurality of mating contacts, comprising a housing, a plurality of contacts that are held by the housing, and each include a contact portion which is brought into contact with an associated one of the mating contact portions of the plurality of mating contacts, and a shield member that is mounted on the housing, and includes a shield plate body which partitions the contact portions of the plurality of contacts into a plurality of groups, and a spring portion formed on the shield plate body, which is brought into contact with an inner wall surface of the shell.
With the arrangement of the connector according to the present invention, the contact portions of the plurality of contacts are partitioned into the plurality of groups by the shield plate body, and the spring portion formed on the shield plate body is brought into contact with the inner wall surface of the shell of the mating connector to thereby cause the spring force of the spring portion to act on the inner wall surface of the shell, and hence even if the accuracy of the dimensions of the shell of the mating connector and the shield member is not high, it is possible to ensure the stable contact state between the shell and the shield member, which makes it possible to cause the shell of the mating connector to serve as the shell of the connector itself.
Preferably, the inner wall surface of the shell includes two surfaces opposed to each other, and the spring portion comprises a first spring portion which is brought into contact with one of the two surfaces of the inner wall surface of the shell, and a second spring portion which is brought into contact with the other of the two surfaces of the inner wall surface of the shell.
Preferably, the shield plate body includes a connection portion provided for connection of cables thereto.
More preferably, the shield plate body includes a plate portion formed to be close to one of the two surfaces, and the connection portion is in the form of a plate which is close to the other of the two surfaces.
Further preferably, the shield plate body, the first spring portion, the second spring portion, the connection portion, and the plate portion are formed by blanking and bending a metal plate.
According to this invention, a shell of the connector can be made unnecessary while ensuring the shielding function.
The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.
The present invention will now be described in detail with reference to the drawings showing preferred embodiments thereof.
Referring to
As shown in
Referring to
Referring to
As shown in
The plurality of contacts 5′ each include a contact portion 51′, a terminal portion 52′, and a link portion 53′ (see
Referring to
The shield plate body 71 is substantially plate-shaped. A rear portion (left portion of the shield plate body 71 as viewed in
The first spring portion (spring portion) 72 protrudes forward (in the right direction of the shield plate body 71 as viewed in
The second spring portion (spring portion) 73 protrudes forward (in the right direction of the shield plate body 71 as viewed in
The ground portion 74 is plate-shaped, and is continuous to a lower end of the shield plate body 71. The ground portion 74 is disposed in the recess 313 of the rear housing 31 (see
The plate portion 75 is continuous to an upper end of the shield plate body 71. The plate portion 75 is disposed in the recess 312 of the rear housing 31 (see
Referring to
The mating housing 23 is substantially plate-shaped.
The mating contacts 25, four in number, are disposed on a right part of the mating housing 23 as viewed from the front (as viewed from the fitting side). The four mating contacts 25 each include a contact portion (mating contact portion) 251, a terminal portion 252, and a link portion (not shown). The mating contacts 25 are contacts for high-speed signals. The contact portion 251 is pin-shaped, and protrudes from the front face of the mating housing 23 (see
The mating contacts 25′, four in number, are disposed on a left part of the mating housing 23 as viewed from the front (as viewed from the fitting side). The four mating contacts 25′ each include a contact portion 251′, a terminal portion 252′, and a link portion (not shown). Each mating contact 25′ has the same shape as each mating contact 25. The mating contacts 25′ are contacts for power supply. The contact portion 251′ is pin-shaped, and protrudes from the front face of the mating housing 23 (see
The shell 29 includes a shell body 291 and a plate portion 292. The shell body 291 is substantially tube-shaped, and surrounds the contact portions 251 and 251′ of the plurality of mating contacts 25 and 25′. The plate portion 292 is connected to the shell body 291, and includes a plurality of mounting holes 292a.
The shell 29 is mounted on a casing body of an electronic device, not shown, by screws (not shown) inserted through the mounting holes 292a. The casing body has electric conductivity, and is electrically connected to the ground.
Referring to
Further, the contact portions 51 and 51′ of the plurality of contacts 5 and 5′ are partitioned into a plurality of groups A and B by the shield plate body 71 (see
As shown in
According to this embodiment, since it is possible to use the shell 29 of the mating connector 21 as the shell of the connector 1 itself, a shell of the connector 1 itself can be made unnecessary while ensuring the shielding function, and this also makes it possible to easily fit the connector 1 to the mating connector 21. Therefore, differently from the prior art, it is possible to prevent the fitting of the mating connector 21 and the connector 1 from becoming difficult, the breakage of the shell from being caused, due to deformation of the shell.
Further, since the first and second spring portions 72 and 73 are brought into contact with the respective opposed surfaces of the shell 29 to thereby cause electric current to flow in the whole shield plate body 71, it is possible to obtain higher shielding effectiveness. Referring to
Further, since the shell of the connector 1 is made unnecessary, and the shell 29 of the mating connector 21 is caused to serve as the shell of the connector 1 as well, it is possible to reduce the size of the connector 1.
It should be noted that although the ground portion 74 is for cable connection, it is not necessarily required to provide the ground portion 74.
Further, it is not necessarily required to provide the plate portion 75.
Although the shield member 7 of this embodiment is formed by blanking and bending a metal plate, the shield member 7 may be formed of a plurality of separate parts.
Further, although in this embodiment, the shield member 7 is one, a plurality of shield members may be employed according to the types, arrangements, and purposes or the like of the contacts. Further, although in this embodiment, the contact portions 51 and 51′ of the plurality of contacts 5 and 5′ of the connector 1 are partitioned into a plurality of groups in the left and right directions thereof by the shield member 7, the contact portions 51 and 51′ may be partitioned into a plurality of groups in the height direction H of the connector 1.
It is further understood by those skilled in the art that the foregoing are the preferred embodiments of the present invention, and that various changes and modification may be made thereto without departing from the spirit and scope thereof.
Number | Date | Country | Kind |
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2009-130946 | May 2009 | JP | national |