This application is based upon and claims the benefit of priority from Japanese Patent Application No. 2012-092896, filed on Apr. 16, 2012, the disclosure of which is incorporated herein in its entirety by reference.
This invention relates to a connector.
As a conventional connector, a connector 101 is known which has a plurality of contacts 110 and a housing 120 holding the contacts 110 and which is adapted to be fitted with a mating connector (not shown) along a predetermined fitting direction X, as shown in FIG. 17 (see, for example, JP-A-H11-329594 (Patent Document 1)).
In the connector 101 disclosed in Patent Document 1, the housing 120 has a first lateral portion 121 on a side fitted with the mating connector (not shown) and a second lateral portion 122 on the other side opposite to the first lateral portion 121 in the fitting direction X. Each of the contacts 110 has a contact press-fit portion 117 adapted to be press-fitted into the housing 120 from the side of the second lateral portion 122.
The connector 101 in Patent Document 1 adopts a structure in which each contact 110 is held by press-fitting the contact press-fit portion 117 of the contact 110 into the housing 120 from the side of the second lateral portion 122 along the fitting direction X. With the above-mentioned structure, upon fitting the connector 101 with the mating connector (not shown), a force is exerted from the mating connector (not shown) toward the second lateral portion 122 and acts on the contact 110. The force is received by a press-fit part R between the housing 120 and the contact 110.
In a case where the connector 101 is reduced in size, it is difficult to ensure a sufficiently large size of the press-fit part R between the contact 110 and the housing 120. Therefore, a sufficient contact holding force exerted by the housing 120 can not be ensured. By repetition of connection and disconnection between the connector 101 and the mating connector (not shown), the contact 110 is repeatedly moved with respect to the housing 120 due to the force exerted from the mating connector (not shown). As a consequence, the press-fit part R between the contact 110 and the housing 120 is gradually loosened so that undesired disengagement or misalignment of the contact 110 may possibly be caused to occur.
The present invention has been made in order to solve the above-described problem in the conventional connector. It is an object of the present invention to provide a connector which has a simple structure and which is capable of preventing undesired disengagement or misalignment of a contact, even when the connector is reduced in size.
According to an exemplary aspect of the present invention, there is provided a connector which comprising at least one contact, a housing holding the contact, and a holder member fixed to the housing and which is adapted to be fitted with a mating connector along a predetermined fitting direction, wherein the housing has a first lateral portion on a side to be fitted with the mating connector and a second lateral portion on the other side opposite to the first lateral portion in the fitting direction, wherein the contact has a contact press-fit portion press-fitted into the housing from the side of the second lateral portion, wherein the holder member has a restricting portion arranged adjacent to the contact on the side of the second lateral portion in the fitting direction and which is adapted to restrict the contact from moving toward the second lateral portion.
A plurality of the contacts may be arranged at a predetermined pitch along a longitudinal direction of the housing, and the holder member may be provided in common to all or a part of the contacts arranged along the longitudinal direction of the housing.
The connector may comprise a first contact row and a second contact row, the first contact row and the second contact row may comprise a plurality of the contacts arranged at a predetermined pitch along a longitudinal direction of the housing, respectively, the first contact row and the second contact row may be spaced apart from each other in a third direction perpendicular to the longitudinal direction of the housing and the fitting direction, and the holder member may be provided in common to the first contact row and the second contact row.
The connector may further comprise a metal plate arranged inside the housing and having a plate terminal portion for external connection, and the holder member may be formed of an insulating material and has a through hole allowing the plate terminal portion to be inserted therethrough.
The plate terminal portion may have a plate press-fit portion press-fitted into the through hole of the holder member.
The connector may further comprise a metal plate arranged inside the housing and having a plate terminal portion for external connection, and the metal plate may have a holding portion for holding the holder member.
The metal plate may be inserted into the housing from the side of the first lateral portion or the side of the second lateral portion and mounted to the housing in a state where movement of the metal plate at least in an insertion direction of the metal plate is restricted by the housing, and the plate terminal portion may be protruding toward the second lateral portion and to the outside of the housing.
The metal plate may be press-fitted into the housing.
The holder member may have a holder press-fit portion press-fitted into the housing from the side of the second lateral portion.
A plurality of the contacts may be arranged at a predetermined pitch along a longitudinal direction of the housing, each of the contacts may have a contacting portion, a contact terminal portion for external connection, a second extending portion connected to the contact terminal portion and extending along a third direction perpendicular to the longitudinal direction of the housing and the fitting direction, a first extending portion formed between the contacting portion and the second extending portion and extending along the fitting direction, and the contact press-fit portion formed at the first extending portion, and the restricting portion of the holder member may be arranged adjacent to the first extending portion on the side of the second lateral portion.
The contact may further have a crank portion formed between the first extending portion and the second extending portion, the crank portion may comprise a first portion connected to the first extending portion and extending toward the contact terminal portion and a second portion extending from the first portion toward the second lateral portion of the housing and connecting the first portion and the second extending portion, and the restricting portion of the holder member may be arranged adjacent to the first portion of the crank portion on the side of the second lateral portion.
The contact may be a signal contact, and the connector may further comprise a power supply contact and a shell covering at least a part of the housing.
In the present invention, the holder member is provided which has a restricting portion adapted to restrict or control movement of the contact toward the second lateral portion. With this structure, the movement of the contact with respect to the housing is restricted so as to prevent loosening at a press-fit part between the contact and the housing. Therefore, even when a sufficiently large size of the press-fit part between the contact and the housing is not ensured following reduction in size of the connector, undesired disengagement or misalignment of the contact can be prevented with a simple structure.
Now, a connector according to an embodiment of the present invention and a plurality of modifications will be described with reference to the drawing.
In the following description, a first direction X is defined as a fitting direction between the connector and a mating connector. A second direction Y is defined as a direction which is perpendicular to the first direction X and in which a plurality of contacts are arranged in parallel with one another with respect to a housing. A third direction Z is defined as a direction perpendicular to the first direction X and the second direction Y.
A connector 1 according to an embodiment of the present invention is constructed as a docking connector which is adapted to be mounted to a substrate (not shown) of a docking station for a personal digital assistant, such as a notebook or laptop computer, a slate computer, and a tablet terminal, and which is adapted to be fitted with and connected to a mating connector 80 mounted to the personal digital assistant. Herein, as a feature of the docking connector, the docking connector is required to have a sufficient mechanical strength since the connector is frequently connected to and disconnected from the mating connector 80 and is subjected to a great physical load from the personal digital assistant having the mating connector 80 mounted thereto. It is noted here that, a specific embodiment and application of the connector 1 are not limited to the docking connector.
The connector 1 is constructed as a so-called socket connector and has, as shown in
Each of the contacts 10 is a signal contact formed of conductive metal. As shown in
As shown in
The first extending portion 13 and the second extending portion 15 have contact press-fit portions 17 protruding in the second direction Y, as shown in
As shown in
The contact 10 is restricted from moving toward the second lateral portion 22 by a restricting portion 36 of the holder member 30. The restricting portion 36 is disposed adjacent to the first portion 14a of the crank portion 14 on the side of the second lateral portion 22, as shown in
In the example shown in
Further, as a modification shown in
The housing 20 is formed of an insulating resin and has, as shown in
As shown in
The holder member 30 is formed of an insulating resin. The holder member 30 is mounted to the housing 20 from the side of the second lateral portion 22 and fixed to the housing 20, as shown in
As shown in
As shown in
The metal plate 40 is an antistatic plate formed of conductive metal. As shown in
The metal plate 40 has a plate main body portion 41 extending along the second direction Y and a plurality of plate terminal portions 42 protruding from the plate main body portion 41 along the first direction X toward the second lateral portion 22, as shown in
By the housing 20, the plate main body portion 41 is restricted from moving toward the second lateral portion 22. As shown in
The plate terminal portions 42 are inserted into the through-holes 34 of the holder member 30, respectively, as shown in
As a modification shown in
Furthermore, as a modification shown in
The shell 50 is formed of conductive metal and, as shown in
The first power supply contacts 60 are formed of conductive metal and fixed to the housing 20. As shown in
The second power supply contacts 70 are formed of conductive metal and fixed to the housing 20. As shown in
The contact terminal portion 16, the plate terminal portion 42, the shell terminal portion 52, the first power supply terminal portion 62, and the second power supply terminal portion 72 are soldered to the substrate (not shown).
In the foregoing embodiment, the connector 1 is provided with the holder member 30 which has the restricting portion 36 for restricting the movement of the contact 10 toward the second lateral portion 22. Thus, the movement of the contact 10 with respect to the housing 20 is restricted so as to prevent occurrence of loosening at the press-fit part R between the contact 10 and the housing 20. Therefore, even when a sufficiently large size of the press-fit part R between the contact 10 and the housing 20 is not ensured following reduction in size of the connector 1, it is possible to prevent undesired disengagement and misalignment of the contact 10.
Number | Date | Country | Kind |
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2012-092896 | Apr 2012 | JP | national |