This application claims priority to prior Japanese patent application JP 2005-25696, the disclosure of which is incorporated herein by reference.
This invention relates to an electric connector having a shell to be fitted to a mating connector.
An electric connector having a conductive shell to be fitted to a mating conductive shell of a mating connector is known. Each of these shells is a pressed part formed by press-punching and bending a thin metal plate, and has a cylindrical shell fitting portion. The shell fitting portions are contacted and fitted to each other to be electrically connected (for example, see Japanese Unexamined Patent Application Publication No. H09-259981).
When the electric connector is fitted to the mating connector, i.e., when the shell fitting portions are contacted and fitted to each other, it is supposed that strong prying force is applied to the electric connector to expand the shell fitting portion of the electric connector by the principle of the lever. More particularly, since the prying force is received by the shell fitting portions alone, the shell fitting portions may possibly be deformed.
It is therefore an object of this invention to provide an electric connector which is effectively prevented from being deformed when the electric connector is fitted to a mating connector.
Other object of the present invention will become clear as the description proceeds.
According to an aspect of the present invention, there is provided an electric connector comprising a conductive shell fitting portion to be fitted to a mating connector and a receiving portion arranged within the shell fitting portion to receive a load by plying force between the electric connector and the mating connector.
Referring to FIGS. 1 to 6, description will be made of an electric connector according to a first embodiment of this invention.
In FIGS. 1 to 6, the electric connector depicted by a reference numeral 1 comprises a plurality of conductive contacts 11, an insulating housing 21 holding the contacts 11, a conductive shell 31, and a pair of receiving portions 41 fixed to the housing 21. The housing 21 has a holding portion 23 holding the shell 31, a pair of block portions 25 extending from opposite sides of the holding portion 23 in a longitudinal direction of the electric connector 1, respectively, and a pair of fixing portions 27 extending from the block portions 25 in the longitudinal direction, respectively. When the electric connector 1 is mounted to a substrate such as a printed circuit board, the fixing portions 27 serve to fix the electric connector 1 to the substrate via fastening members such as bolts.
The holding portion 23 has a main plate portion 25a extending long in the longitudinal direction of the electric connector 1 and a pair of wall portions 25c connected to longitudinal opposite ends of the main plate portion 25a, respectively, and faced to each other. The shell 31 has a generally flat and tubular or hollow shell fitting portion 33 which is disposed in a space surrounded by the main plate portion 25a and the wall portions 25c and which is held by the housing 21. The shell fitting portion 33 has a first shell plate portion 33a faced to an inner surface of the main plate portion 25a, a second shell plate portion 33b faced to and spaced from the first shell plate portion 33a generally in parallel thereto, and a pair of shell side plate portions 33c connected to longitudinal opposite ends of the first and the second shell plate portions 33c.
The shell 31 has a first guide portion 35c bent from a fitting-side or front opening end of the first shell plate portion 33a to face a recess 25m formed on an end face 25j of the main plate portion 25a of the holding portion 23, a second guide portion 35e bent outward from a fitting-side opening end of the second shell plate portion 33b, and a pair of third guide portions 35f bent outward to face the wall portions 25c of the holding portion 23, respectively.
As shown in
Each of the receiving portions 41 is made of a metal material and has a band-like flat plate portion 41a and a locking portion 41b formed at a fitting-side end of the flat plate portion 41a and slightly bent. The locking portion 41b is engaged with a locking hole 35s formed on each of the bent portions 35p. The flat plate portion 41a extends from the fitting-side end to a rear end which is press-fitted to the housing 21 to be fixed. Each of the receiving portions 41 may be made of a resin material.
Each of the block portions 25 has a pair of pin portions 25b1 and 25b2 formed on its bottom surface and extending outward therefrom to be inserted to a substrate (not shown). The shell fitting portion 33 of the shell 31 is fitted to a mating fitting portion of a mating connector (not shown). When the mating connector is fitted into the shell fitting portion 33, the receiving portions 41 serve as key plates for receiving a load by prying force.
In the electric connector 1, the prying force exerted when the electric connector 1 is fitted to the mating connector is received by the receiving portions 41. Therefore, it is possible to prevent the shell from being deformed by the prying force.
In addition, the shell fitting portion 33 is defined by the shell 31 and the receiving portions 41. This results in increasing mechanical strength of the shell fitting portion 33. Therefore, stable contact is established between the shell 31 and a mating shell of the mating connector.
Referring to FIGS. 9 to 14, description will be made of an electric connector according to a second embodiment of this invention. Similar parts similar to those of the first embodiment are designated by like reference numerals and description thereof will be omitted.
In FIGS. 9 to 14, the electric connector depicted by a reference numeral 101 comprises a plurality of conductive contacts 11, an insulating housing 21 holding the contacts 11, a conductive shell 31, and a pair of receiving portions 141 integrally formed with the housing 21. The housing 21 has a holding portion 23 holding the shell 31, a pair of block portions 25 extending from opposite sides of the holding portion 23 in a longitudinal direction of the electric connector 1, respectively, and a pair of fixing portions 27 extending from the block portions 25 in the longitudinal direction, respectively.
The holding portion 23 has a main plate portion 25a extending long in the longitudinal direction of the electric connector 1 and a pair of wall portions 25c connected to longitudinal opposite ends of the main plate portion 25a, respectively, and faced to each other. The shell 31 has a generally flat and tubular or hollow shell fitting portion 33 which is disposed in a space surrounded by the main plate portion 25a and the wall portions 25c and which is held by the housing 21. The shell fitting portion 33 has a first shell plate portion 33a faced to an inner surface of the main plate portion 25a, a second shell plate portion 33b faced to and spaced from the first shell plate portion 33a generally in parallel thereto, and a pair of shell side plate portions 33c connected to longitudinal opposite ends of the first and the second shell plate portions 33c.
The shell 31 has a first guide portion 35c bent from a fitting-side or front opening end of the first shell plate portion 33a to face a recess 25m formed on an end face 25j of the main plate portion 25a of the holding portion 23, a second guide portion 35e bent outward from a fitting-side opening end of the second shell plate portion 33b, and a pair of third guide portions 35f bent outward to face the wall portions 25c of the holding portion 23, respectively.
As shown in
In the electric connector 101, the prying force exerted when the electric connector 101 is fitted to the mating connector is received by the receiving portions 141. Therefore, it is possible to prevent the shell from being deformed by the prying force.
In addition, the shell fitting portion 33 is defined by the shell 31 and the receiving portions 141. This results in increasing mechanical strength of the shell fitting portion 33. Therefore, stable contact is established between the shell 31 and a mating shell of the mating connector.
Referring to FIGS. 17 to 22, description will be made of an electric connector according to a third embodiment of this invention. Similar parts similar to those of the first embodiment are designated by like reference numerals and description thereof will be omitted.
In FIGS. 17 to 22, the electric connector is depicted by a reference numeral 201. A shell 231 has a generally flat and tubular or hollow shell fitting portion 33 which is disposed in a space surrounded by a main plate portion 25a and a pair of wall portions 25c of a holding portion 23 and which is held by a housing 21. The shell fitting portion 33 has a first shell plate portion 33a faced to an inner surface of the main plate portion 25a, a second shell plate portion 33b faced to and spaced from the first shell plate portion 33a generally in parallel thereto, and a pair of shell side plate portions 33c connected to longitudinal opposite ends of the first and the second shell plate portions 33c.
The shell 231 has a first guide portion 35c bent from a fitting-side or front opening end of the first shell plate portion 33a to face a recess 25m formed on an end face 25j of the main plate portion 25a of the holding portion 23, a second guide portion 35e bent outward from a fitting-side opening end of the second shell plate portion 33b, and a pair of third guide portions 35f bent outward to face the wall portions 25c of the holding portion 23, respectively.
A pair of receiving portions 141 are made of a metal material same as that of the shell 31 and is integrally formed with the shell 23. As shown in
The shell fitting portion 33 of the shell 31 is fitted to a mating fitting portion of a mating connector (not shown). When the mating connector is fitted into the shell fitting portion 33, the receiving portions 241 serve as key plates for receiving a load by prying force.
In the electric connector 201, the prying force exerted when the electric connector 201 is fitted to the mating connector is received by the receiving portions 141. Therefore, it is possible to prevent the shell from being deformed by the prying force.
In addition, the shell fitting portion 33 is defined by the shell 231 and the receiving portions 141. This results in increasing mechanical strength of the shell fitting portion 33. Therefore, stable contact is established between the shell 231 and a mating shell of the mating connector.
Each of the above-mentioned electric connectors may be used as a connector for various apparatuses such as a mobile telephone terminal and a small-sized information terminal.
Although this invention has been described in conjunction with a few preferred embodiments thereof, this invention may be modified in various other manners. In the illustrated examples, the electric connector is provided with a plurality of contacts. However, it will readily be understood that the electric connector may be provided with only one contact.
Number | Date | Country | Kind |
---|---|---|---|
2005-025696 | Feb 2005 | JP | national |