AU5429301A - Connector with a switching function - Google Patents

Description

AUSTRALIA

Patents Act 1990 COMPLETE SPECIFICATION STANDARD PATENT Applicant(s): JAPAN AVIATION ELECTRONICS INDUSTRY, LIMITED Invention Title: CONNECTOR WITH A SWITCHING FUNCTION The following statement is a full description of this invention, including the best method of performing it known to me/us: CONNECTOR WITH A SWITCHING FUNCTION Background of the Invention: This invention relates to a connector with a switching function.

Referring to Figs. 1 and 2, an existing connector with a switching function will be described. The connector is depicted by a reference numeral 105 and comprises a conductive switching contact 111 and an insulator 141 holding the conductive switching contact 111. In the manner which will presently be described, the switching contact 111 comprises a first contact 121 and a second contact 131.

The first contact 121 comprises a first spring portion 122 having a first switching contact point 129 formed at its one end, and a first holding portion 128 connected to the other end of the first spring portion 122. The second contact 131 comprises a second spring portion 132 having a second switching contact point 139 formed at its one end, and a second holding portion 138 connected to the other end of the second spring portion 132. The insulator 141 has a receiving portion 143 receiving and holding the switching contact 111, an insertion hole 141 a formed in a front wall portion 141 c of the insulator 141, and a contact insert hole 141 b formed on a rear side.

The first switching contact point 129 is kept in contact with the second switching contact point 139 when a mating contact 153 of a mating connector 151 is not coupled or mated to the switching contact 111. Upon coupling, the mating contact 151 is inserted through the insertion hole 141 a so that the first switching contact point 129 is brought into contact with the mating contact 153.

In this event, the mating contact 153 is inserted between the first and the second switching contact points 129 and 139 to push the first spring portion 122 downwardly. As a consequence, a space or a contact point gap G2 is produced between the first and the second contacts 121 and 131, as illustrated in Fig. 2. When the mating contact 153 is brought into contact with the first contact 121, electrical circuit connection is switched.

In the connector illustrated in Figs. 1 and 2, however, the contact point gap G2 is dependent upon the thickness of the mating contact 153. Therefore, in case where the connector 105 is reduced in size, the contact point gap G2 is inevitably reduced. This results in decrease in reliability. Furthermore, the switching contact 111 has a cantilevered shape. Therefore, in case where the spring portions 122 and 132 are shortened in length, insertion force is increased.

This results in severe or serious wear of the first and the second contacts 121 and 131.

For example, similar connectors of the type are described in Japanese patent No. 2757125 and Japanese Unexamined Patent Publication No. H11- 185890. These connectors have similar disadvantages as those mentioned above.

oo.ooi Summary of the Invention: It is therefore an object of this invention to provide a connector with a oooo switching function, which is capable of assuring a wide contact point gap to thereby achieve a highly reliable switching mechanism.

S-It is another object of this invention to provide the connector of the type, oooo° which is capable of preventing improper or insufficient electrical connection due to attachment of dust or the like.

It is still another object of this invention to provide a connector with a switching function, which can be reduced in size and in contact force.

Other objects of the present invention will become clear as the description proceeds.

According to the present invention, there is provided a connector with a switching function, comprising first and second conductive contacts adapted to be brought into contact with and released from each other, and an insulator holding the first and the second conductive contacts, characterized in that the first conductive contact comprises a seesaw portion supported by the insulator to be movable in a seesaw movement in a predetermined direction, an operating portion formed at one end of the seesaw portion to be operated by a mating contact in the predetermined direction, and a contact point formed at the other end of the seesaw portion and faced to the second conductive contact in the predetermined direction.

Brief Description of the Drawing: Fig. 1 is a sectional view of an existing connector with a switching function; Fig. 2 is a sectional view of the existing connector illustrated in Fig. 1 when a mating connector is coupled thereto; Fig. 3 is a sectional view of a connector with a switching function according to one embodiment of this invention together with a mating connector; Fig. 4 is a perspective view of first and second conductive contacts in the connector illustrated in Fig. 3; and oooo Fig. 5 is a sectional view of the connector illustrated in Fig. 3 when the mating connector is coupled thereto.

Description of the Preferred Embodiment: Now, description will be made of a connector according to an embodiment of this invention.

Referring to Figs. 3 and 4, the connector is depicted by a reference numeral 5 and comprises a switching contact 11 having a switching function, and an insulator 41. The switching contact 11 comprises a first conductive contact 21 and a second conductive contact 31.

The first contact 21 has a main or primary spring portion 22, a subsidiary or secondary spring portion 23, a bent portion 24 connecting one ends of the main and the subsidiary spring portions 22 and 23 to each other, a first holding portion 29 connected to the other end of the subsidiary spring portion 23, and a first terminal portion 30 extending from the first holding portion 29 to the outside of the insulator 41. The first contact 21 may be produced by punching and bending a single conductive plate. In this event, a combination of the main spring portion 22, the subsidiary spring portion 23, and the bent portion 24 forms a generally U-shaped profile in a side view.

The bent portion 24 is provided with an opening portion 25. The main spring portion 22 has an operating portion or a contacting portion 26 protruding from its one end into the opening portion 25, a fulcrum portion 27 formed at an intermediate position of the main spring portion 22, and a first switching contact point 28 formed at a rear part extending from the fulcrum portion 27 to the other oooo end. It is noted here that the distance from the fulcrum portion 27 to the first switching contact point 28 is greater than the distance from the fulcrum portion 27 to the contacting portion 26.

The insulator 41 has a receiving portion 43 receiving and holding the switching contact 11, an insertion hole 41a formed in a front wall portion 41c of the opening portion 25, and a contact insert hole 41 b formed on a rear side.

SThe main spring portion 22 is faced to one wall portion 43a of the receiving S* portion 43. The subsidiary spring portion 23 is faced to the other wall portion 43b of the receiving portion 43 which is opposite to the one wall portion 43a.

The first switching contact point 28 is faced to the first holding portion 29. The first holding portion 29 is held by the other wall portion 43b.

The opening portion 25 serves to allow reception of a mating contact 53 of a mating connector 51 inserted from the outside of the bent portion 24 to an area between the main and the subsidiary spring portions 22 and 23 when the mating connector 51 is coupled to the connector 5. The opening portion further extends towards the subsidiary spring portion 23.

The contacting portion 26 is brought into contact with the mating contact 53 when the mating connector 51 is coupled to the connector 5. As a consequence, the main and the subsidiary spring portions 22 and 23 are collectively and simultaneously forced by the mating contact 53 to be moved towards the one wall portion 43a.

The fulcrum portion 27 is supported by the one wall portion 43a. A front part of the main spring portion 22 extending from the fulcrum portion 27 to the contacting portion 26 is inclined to be gradually apart from the one wall portion 43a towards the contacting portion 26. The rear part of the main spring portion 22 from the fulcrum portion 27 to the other end extends along the one wall portion 43a. The bent portion 24 urges the main spring portion 22 in a first direction (in Fig. 3, counterclockwise with respect to the fulcrum portion 27) to oooo bring the first switching contact point 28 into contact with a second switching contact point 38 which will later be described. The most part of the main ooooo spring portion 22 can be considered as a seesaw portion capable of performing with respect to the fulcrum portion 27 a seesaw movement in a predetermined direction, namely, the first direction and a second direction reverse to the first direction.

The second contact 31 comprises a second holding portion 32 of a flat oo°shape, a holding member 33, the second switching contact point 38, and a second terminal portion 39. The second holding portion 32 is inserted through the contact insert hole 41 b of the insulator 41 towards the front wall portion 41 c to be partially press fit into the insulator 41 and thereby held by the insulator 41.

The holding member 33 is bent from a flat plane of the second holding portion 32 to be perpendicular thereto and is held by the insulator 41. The second switching contact point 38 is formed at a position faced to the first switching contact point 28 in the predetermined direction. The second terminal portion 39 extends from the second switching contact point 38 to the outside of the insulator 41.

The second switching contact point 38 is located adjacent the one wall portion 43a. When the connector 5 is not coupled to the mating connector 51, the first and the second switching contact points 28 and 38 are kept in contact with each other.

The switching contact 11 of the above-mentioned structure is turned on and off when the connector 5 is coupled to and released from the mating connector 51.

Next, description will be made of a coupling operation of the connector 5 and the mating connector 51 and a behavior of the switching contact 11 upon S~ coupling.

When the mating connector 51 is not coupled to the connector 5 as oooo illustrated in Fig. 3, the first switching contact point 28 and the second switching contact point 38 are kept in contact with each other. At an initial stage of the ooooo coupling, the mating contact 53 passes through the insertion hole 41a to be inserted into the opening portion 25. At this time, the mating contact 53 is brought into contact with the contacting portion 26 of the first contact 21. As a o consequence, the mating contact 53 presses and displaces the contacting portion 26 in an upward direction (depicted by an arrow A in Fig. oooSpecifically, the mating contact 51 presses the contacting portion 26 in the second direction (in Fig. 3, clockwise with respect to the fulcrum portion 27) to make the main spring portion 22 perform the seesaw movement in the second direction. Simultaneously, the main and the subsidiary spring portions 22 and 23 are displaced upward also. As a result, the first switching contact point 28 is displaced in a downward direction (depicted by an arrow B in Fig. 5) under a

I

7 lever action around the fulcrum portion 27 to be separated from the second switching contact point 38.

Eventually, as illustrated in Fig. 5, the front part from the fulcrum portion 27 to the contacting portion 26 is located to extend along the one wall portion 43a while the rear part from the fulcrum portion 27 to the other end is inclined to be gradually apart from the one wall portion 43a towards the other end. In this state, a space or a contact point gap G1 is formed between the first and the second switching contact points 28 and 38. On the other hand, the mating contact 53 is brought into contact with the contacting portion 26 of the first contact 21. Therefore, electrical circuit connection is switched from an initial state into a switched state. Since the opening portion 25 extends from the bent portion 24 to the subsidiary spring portion 23, the opening portion 25 also serves to escape the mating contact 53 to be inserted upon coupling.

When the mating contact 53 is released from the switching contact 11, the main spring portion 22 performs the seesaw movement in the first direction oooo to bring the first switching contact point 28 into contact with the second switching contact point 38 as illustrated in Fig. 3. Thus, the electrical circuit S* connection is recovered into the initial state.

oooo In the above-mentioned connector, the first and the second switching contact points 28 and 38 are located at positions sufficiently apart from a contacting position of the contacting portion 26 of the first contact 21 and the omating contact 51. Therefore, it is possible to reduce the possibility of °improper or insufficient contact between the first and the second switching contact points 28 and 38 due to the attachment of dust or the like. Since the opening portion 25 also serves to escape the mating contact 21 to be inserted upon coupling, it is unnecessary to reserve a large mutual distance between the main and the subsidiary spring portions 22 and 23. Therefore, the height of the first contact 21 can be reduced. Accordingly, the height of the connector as a whole can be reduced. In addition, the contact point gap G1 can be freely adjusted by selecting the position of the fulcrum portion 27. Therefore, the contact point gap G1 can be determined irrespective of the size of the mating contact 51. Accordingly, a highly reliable connector with a switching function can be realized.

In the foregoing, description has been directed to the case where the first and the second switching contact points 28 and 38 are kept in contact with each other when the mating connector 51 is not coupled to the connector 5. It is possible to adopt an alternative switching arrangement such that the first and the second switching contact points 28 and 38 are out of contact from each other when mating connector is not coupled to the connector 51.

By selecting the position of the fulcrum portion 27 at any given position in the longitudinal direction of the main spring portion 22, the contact point gap G1 can be adjusted as desired. The second contact 31 can be formed by punching and bending a thin conductive plate in the manner similar to the first contact 21. Furthermore, the insulator 41 may be covered with a thin metal shell which can be used as a ground.

For the purposes of this specification it will be clearly understood that the word :'comprising" means "including but not limited to", and that the word "comprises" has a corresponding meaning.

It is to be understood that, if any prior art publication is referred to herein, such reference does not constitute an admission that the publication forms a part of the commnon general knowledge in the art, in Australia or any other country.

Claims (8)

1. A connector with a switching function, comprising first and second conductive contacts adapted to be brought into contact with and released from each other, and an insulator holding said first and said second conductive contacts, characterized in that said first conductive contact comprises a seesaw portion supported by said insulator to be movable in a seesaw movement in a predetermined direction, an operating portion formed at one end of said seesaw portion to be operated by a mating contact in said predetermined direction, and a contact point formed at the other end of said seesaw portion and faced to said second conductive contact in said predetermined direction.

2. The connector according to claim 1, wherein said seesaw portion is urged to make said contacting point be brought into contact with said second S. conductive contact in a first direction of said predetermined direction.

3. The connector according to claim 2, wherein said mating contact is for pressing said operating portion in a second direction reverse to said first direction.

4. The connector according to claim 3, wherein said mating contact has a-conductivity.

5. The connector according to claim 4, wherein said insulator has a receiving portion receiving said first and said second conductive contacts, said first conductive contact comprising a main spring portion serving as said seesaw portion and faced to one wall portion of said receiving portion, a subsidiary sprig portion faced to the other wall portion of said receiving portion opposite to said one wall portion, and a bent portion connecting one ends of said main and said subsidiary spring portions, said bent portion having an opening portion for receiving said mating contact to be inserted from the outside of said bent portion to an area between said main and said subsidiary spring S I. portions.

6. The connector according to claim 5, wherein said main spring portion has a contacting portion serving as said operating portion and protruding from one end of said main spring portion to said opening portion, a fulcrum portion formed at an intermediate position of said main spring portion and supported by said one wall portion, and a first switching contact point serving as said contact point and extending from said fulcrum portion towards the other end, said second conductive contact having a second switching contact point formed at a position faced to said first switching contact point.

7. The connector according to claim 6, wherein said first conductive contact has a holding portion connected to the other end of said subsidiary spring portion, said holding portion being held by said other wall portion, said first switching contact point being faced to said holding portion, said second switching contact point being located adjacent to said one wall portion, said first and said second switching contact points being kept in contact with each other when said mating contact does not operate said operating portion.

8. The connector according to claim 6, wherein said opening portion further extends in said subsidiary spring portion towards said holding portion. Dated this 10th day of July 2001 JAPAN AVIATION ELECTRONICS INDUSTRY, LIMITED By their Patent Attorneys o GRIFFITH HACK Fellows Institute of Patent and Trade mark Attorneys of Australia