TWI276264B - Connector - Google Patents

Abstract

A contact (11) incorporated into a housing (10) is operated by an operating member (13) having a cam portion (24). The contact has a holding portion (22) held by the housing, a contact point portion (18) to be connected to a flat cable (17), a shaft portion (16) movably coupling the contact point portion to the holding portion, an operating portion (19) extending from the shaft portion towards a side opposite to the contact point portion and operated by the cam portion to move the contact point portion around the shaft portion into press contact with the flat cable, a cam receiving portion (23) for receiving the cam portion, and a terminal portion (21) to be connected to a printed circuit board. The holding portion and the cam receiving portion are disposed to face the operating portion. Preferably, the terminal portion has a clamping portion (26) clamping a bottom wall (25) of the housing and is disposed to face the contact point portion.

Description

1276264 IX. Description of the Invention: [Technical Field] The present invention relates to a connector for operatively connecting and disconnecting an object by operating a member. [Prior Art] In recent years, the high functionality of portable devices has been promoted and connectors have been required to have superior high-speed transmission characteristics. Therefore, a connector is required to be connected to a flat cable having a microstrip structure having a superior speed-transmitting property. For example, Japanese Patent Laid-Open Publication No. 2002-119-36A discloses a type. The connector 'includes a housing, a first contact assembled to the housing, and an operating member for operating the first contact. The first contact has a fixed piece portion, a movable piece portion, and a connecting portion that connects these. The fixing piece is fixed to the outer casing. The movable piece portion has a contact portion at one end and the other end is engaged with the operating member. When the operation member is operated in a state where the printed wiring board is placed opposite to the contact portion, the movable piece rotates with the connection portion as a fulcrum, and the contact portion is pressed against one surface of the printed wiring board. In this way, the printed wiring board is connected to the connector. Further, the contact portion of the second contact is crimped to the opposite surface of the printed wiring board. Since the first contact is configured to be crimped to the printed wiring board from only one side, a direction of repulsive force is always applied at the second contact when connecting. Because of this resistance, the fixing structure of the fixing piece and the outer casing must be made strong. However, since the second contact is disposed on the opposite side of the printed wiring board, the solid-state structure is limited, and the first contact is fixed with the problem of 1276264. Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. The contact has a movable portion and a fixed portion, each of which is in contact with both sides of the flat electric wire. The fixed portion has a portion thereof fixed and inserted through a hole formed in the outer casing. The movable portion is engaged and disengaged from the portion of the operating lever. When the operation of the operating lever is engaged with the movable portion, the end portion of the movable portion is detached from the end portion of the fixed portion. A flat electric wire is disposed between the movable portion and the fixed portion, and in this state, the operating member is detached from the movable portion, and the ends of the movable portion and the fixed portion are respectively crimped to the both sides of the flat electric wire by the elastic restoring force of the joint. . According to this configuration, even if the end portion of the fixed portion is sufficiently elastic, it cannot be connected to the flat electric wire. The reason for this is that the fixed portion of the joint must be firmly fixed to the outer casing. DISCLOSURE OF THE INVENTION [Invention] It is therefore an object of the present invention to provide a connector which firmly fixes a contact' and is crimped to a connection object with sufficient elasticity. Another object of the present invention is to provide the above connector for crimping the contacts on both sides of the object to be connected. According to an embodiment of the present invention, a connector comprising: a housing, a second contact assembled to the housing, a second contact assembled to the housing and parallel to the first contact, and An operation member including a cam portion for operating the first contact, wherein the first contact 'has: a holding portion held by the outer casing; and a contact for connecting the first object to the first 1276264 a portion in which the contact portion is movably coupled to the shaft portion of the holding portion: the shaft portion extends to the opposite side of the contact portion, and the shaft portion is used as a fulcrum by the operation of the cam portion to make the connection An operation unit that is pressed against the first connection object in the point portion: a cam receiving portion that receives the cam portion and a terminal portion that connects the second connection object: the holding portion and the cam receiving portion are arranged It is opposite to the aforementioned operation unit. The subsection may have a clamping portion that sandwiches a portion of the outer casing and is disposed to face the contact portion. The contact point 2 may have a terminal portion that receives the cam portion of the cam portion and a vicinity of the cam receiving portion of the second contact. The cam receiving portion of the second contact may have a stopper portion for preventing the operation member from coming off. The contact portion of the first contact is pressed against one of the first connection objects, and the second contact may have a contact portion that is pressed against the opposite surface of the first connection object. According to another embodiment of the present invention, a connector is provided, and the package includes: a second and second contacts disposed in the first direction, an outer casing for holding the first and second contacts, and An operation member for operating the cam portion of the first contact, wherein the first contact includes: a fixing portion fixed to the outer casing and extending in a second direction orthogonal to the first direction; The movable portion is opposite to the fixing portion and the shaft portion in a third direction orthogonal to the first and second directions, and the movable portion and the fixed portion are coupled to each other in the middle of the second direction. Further, the movable portion is movable in a plane that is enlarged in the second and third directions; and the movable portion (8) 1276264 has a connection for connecting to the first connection object on one side of the shaft portion. a point portion having an operation portion for engaging with the cam portion on the other side, wherein the fixing portion has a terminal portion connected to the second connection object on one side of the shaft portion and is another The side has a cam receiving portion that receives the aforementioned cam portion. [Embodiment] [Best Mode for Carrying Out the Invention] A connector according to an embodiment of the present invention will be briefly described with reference to Figs. 1 and 2 . The connector shown in the drawing includes a housing 10 formed of an elongated plate-shaped insulator in the first direction (left-right direction) A1, and a first contact 11 and a plurality of the plurality of insulators 10 held in the housing 10 The second contact 1 2 and the operating member 13 which is an insulating actuator provided at the rear of the casing 10 is provided. The first and second contacts 1 1 and 12 are alternately arranged in the first direction A1. Of course, each of the first and second contacts 1 1 and 1 2 is produced by applying a punching process to a conductive plate. Referring to Figures 3 and 4, the detail of the connector will be described in detail. As shown in Fig. 3, the first contact point 1 1 includes a fixing portion 14 that is fixed to the outer casing 10 and extends in a second direction (front-rear direction) A2 orthogonal to the first direction A1; the movable portion 15, In the third direction (up-and-down direction) A3 orthogonal to the first and second directions A1 and A2, the fixed portion 14 is opposed to each other with an interval therebetween. The movable portion 15 extends substantially in parallel with the fixed portion 14 in the second direction A2. The movable portion 15 and the fixed portion 14 are coupled to each other in the intermediate portion in the second direction A2 by the short shaft portion 延伸6 extending in the third direction. The shaft portion i 6 is configured to be movable in a plane that is enlarged in the second direction A2 and in the third direction 1276264 to A3 by the elasticity thereof. The connectors shown in Figs. 3 and 4 are such that the movable portion 15 and the fixed portion 14 are parallel, but may be non-parallel. The movable portion 15 is located on the lower side of the front side of the shaft portion 116, and has a contact portion 1 8 for pressing against the upper surface of the flat cable 17 as the first connection object, and is in another One side, that is, the rear side, has an operation portion 19 for engaging with the operation member 13. The fixing portion 14 has a terminal portion 2 i connected to a printed circuit board (not shown) as a second connection object on the front side of the shaft portion 16 , and has a press-fitted housing 1 在 on the rear side. The holding portion 2 2 and the cam receiving portion 23 of the operating member 13 are received upward. The holding portion 2 2 and the cam receiving portion 2 3 are disposed to face the operation portion 19 in the third direction A 3 . Further, the flat cable 17 has a microstrip structure and each has a plurality of contact portions exposed on the front and back surfaces. Further, the flat cable 17 can also be applied to a structure that does not have a microstrip structure. The operating member 13 has a rotatable cam portion 24 with respect to an axis extending in the first direction a1. Actually, the cam portion 24 is engaged with the movable portion i 5 and the cam receiving portion 23 of the fixed portion H. That is, the cam portion 24 is disposed between the operation portion 丨9 and the cam receiving portion 23. The sub-part 2 1 is disposed so as to be opposed to the contact portion 1 8 and exposed to the lower surface of the case 1 , and is connected to the surface of the printed circuit board by soldering or the like. The terminal d 2 1 is formed with a clamping portion of the bottom wall 25 which is a part of the clamping housing 1 , and is further formed on the front side of the shaft portion 6 of the first contact 1 1 to form a flat cable. 1 7 positioning unit 27. The positioning portion 27 protrudes upward from the fixing portion 14 toward the movable portion 15, and abuts against the end portion of the flat cable 17 inserted between the terminal portion 21 1276264 and the contact portion 18, and positions the same. . According to this mode, the flat cable 17 can be prevented from abutting on the shaft portion 16. Further, the positioning portion 40 may be provided in the casing 1 to prevent contact with the shaft portion 16 of the flat cable 17. On the other hand, as shown in Fig. 4, the second contact 12 has a simpler structure than the first contact 11. The second contact 12 extends in the second direction A2 next to the first contact 1 1 and has a holding portion 31 that is press-fitted into the casing q 在 at the intermediate portion thereof. A point portion 3 2 is formed on the front portion of the second contact point 1 2 . The contact portion 3 2 of the second contact 12 is a portion for crimping the lower surface of the flat cable 17 to the lower surface. A terminal portion 33 is formed in the rear portion of the second contact 12 to be connected to a printed circuit board (not shown) which is a second connection object. The terminal portion 3 3 is exposed below the rear portion of the casing 1 . Further, between the holding portion 3 1 and the terminal portion 3 of the second contact 12, a cam receiving portion 34 which faces upward in the vicinity of the terminal portion 33 is formed. Similarly to the cam receiving portion 23 of the first contact}}, the cam receiving portion 34 of the second contact 12 receives the cam portion 24 of the operating member 13. Further, between the terminal portion 33 of the second contact 12 and the cam receiving portion 34, a stopper portion 35 that protrudes upward is formed. The stopper portion 35 functions to prevent the operation member 13 from coming off. Next, the operation of connecting the flat cable to the above connector will be described. First, the flat cable 17 is inserted into the insertion opening 36 of the casing 1〇. As a result, the end portion of the flat cable 17 is disposed between the contact portion 18 of the first contact 11 and the terminal portion 21. In this state, the contact portion 18 of the first contact 1 1 is aligned to the upper surface of the flat cable 17 and the contact portion 32 -10- 1276264 of the second contact 12 is oriented flat. Below the cable 丨7. When the flat cable 17 is inserted, its end portion is engaged with the positioning portion 27, so that the shaft portion 16 of the flat cable 17 can be prevented from coming into contact with it. Next, when the operation member 13 is pressed rearward as indicated by the blank arrow 37, the first contact point is operated by the cam portion 24 of the operation portion 13 to obtain 1% table 5 and table 6 The state of nowhere. That is, the operation portion 19 is lifted up as the cam portion 24 rotates. As a result, the contact portion 丨8 of the first contact 压 presses the flat cable 17 and is pressed against the terminal portion 2A. That is, the address point portion 18 of the first contact 压 is pressed against the upper surface of the flat cable I?. At the same time, the back surface of the flat cable 17 is crimped to the contact portion 32 of the second contact 丨2. The second contact 1 2 is formed in an arm shape and the contact portion 32 is slightly separated from the bottom wall 25 of the outer casing 1 so that the elastic restoring force of the second contact 12 can be utilized. Therefore, the flat cable i 7 is electrically connected to the first and second contacts 丨丨 and 12 in a good state. When the cam portion 24 is rotated, the detachment of the operating member 13 can also be prevented by the stopper 35. The first and second contacts 1 1 and 12 are alternately arranged in the first direction a 1 . Therefore, the contact portions 丨 8 and 3 2 of the pair are in contact with the first ® direction A 1 with respect to the flat cable 17 . The part of the position offset. That is, the position of the contact portions 18, 3 2 can be independently set, and it is not necessary to make the pitch of the contact portion of the flat cable 17 coincide with the distance between the contacts. Therefore, the contact width of the flat cable 17 can be enlarged to improve the contact reliability. Further, since the first and second contacts 1 and 12 are independent of each other and have elasticity, they can be used to absorb tolerances in the size or combination of the respective components. Therefore, it is difficult to cause poor contact. When the flat cable 17 is connected, the contact portion 1 8 -11 - 1276264 of the first contact 1 1 is subjected to the load ' and is separated from the contact portion 32 of the second contact 12, but the holding portion 22 is pressed in The designated portion of the outer casing 1 is, and its designated portion is pressed by the load of the adjacent second contact 12, so that the missed pressing is not generated. When the operation member 13 is operated, the first contact cymbal is prevented from coming loose by the nip portion 26. Further, since the terminal portion 21 and the sandwiching portion 26 in the second direction A2 are disposed on the opposite side of the cam portion 24, the connector can be prevented from being loosened from the second object to be connected. Further, the terminal portion 3 3 of the second contact 12 is provided in the vicinity of the cam portion 24, so that it is possible to effectively prevent the connector from being loosened. The connector shown in the figure has a plurality of second contact points respectively.丨 and the 2nd contact 1 2, but you can also have at least one of these. [Industrial Applicability] This connector can be used, for example, for connection to a flat cable having a microstrip structure using a portable device or the like. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a connector according to an embodiment of the present invention as seen from the front. Fig. 2 is a perspective view from the rear of the connector of Fig. 1. Fig. 3 is a cross-sectional perspective view showing the connector of Fig. 1 unconnected with the flat cable. Fig. 4 is a cross-sectional perspective view showing the connector of Fig. 1 and the flat cable unconnected at different positions. Fig. 5 is a view similar to Fig. 3, showing a state in which the flat cable is connected to the connector of Fig. 1. Fig. 6 is the same as Fig. 4, and shows the connection of the connecting flat cable to Fig. 1-12-1276264 [main 10...11··' 12·. 13.· 14·· 15·· 16·· 17 · · 18' 19·· 21, 11, 23,

24. 25 · 26· 11, 35 ·. 36·· 37 ·· A1 . A2· A3 State diagram of the device. Description of the component symbols: Housing first contact 2nd contact operating member fixing part movable part shaft part flat cable 3 2··· Contact part • Operation part 33... Terminal part 31... Holding part 34···Cam receiving part • Cam section • Bottom wall • Clamping section 40... Positioning section • Stopper section • Inserting port • Arrow • • 1st direction • • 2nd direction • • 3rd direction-13-

Claims (1)

1276264 X. Patent Application Range: 1 . A connector comprising: a housing assembled to a first contact of the housing, a second contact assembled to the housing in parallel with the first contact, and a package a having The operating member for the cam portion of the table 1 contact is characterized in that: the first contact has a holding portion held by the outer casing; and a contact portion for connecting to the first connecting object; The contact portion is movably coupled to the shaft portion of the holding portion; the shaft portion extends to the opposite side of the contact portion with respect to the front φ, and the shaft portion is used as a fulcrum by the operation of the cam portion. An operation portion that is pressed against the first connection object by the contact portion; a cam receiving portion that receives the cam portion; and a % sub-portion for connecting the second connection object, and the holding portion and the cam The receiving portion is disposed to oppose the aforementioned operating portion. The connector of claim 1, wherein the terminal portion has a clamping portion that sandwiches a portion of the outer casing and is disposed to face the contact portion. 3. The connector according to claim 1, wherein the second contact includes a cam receiving portion that receives the cam portion and a terminal portion in the vicinity of the cam receiving portion of the second contact. 4. The connector of claim 3, wherein the cam receiving portion of the second contact has a stopper portion for preventing the operation member from coming off. [5] The connector of claim 1, wherein the contact portion of the first contact is crimped to one of the first connection objects, and the second contact is crimped to the foregoing The contact portion of the opposite surface of the first connection object - 14 - 1276264. 6. A connector comprising: a first and a second contact disposed in a first direction; a housing for holding the first and second contacts; and a first contact for operating the first contact The operating member of the cam portion is characterized in that: the first contact includes a fixing portion that is fixed to the outer casing and extends in a second direction orthogonal to the first direction; and the movable portion is orthogonal to The third direction of the first and second directions is opposite to the fixing portion and the shaft portion, and the movable portion and the fixed portion are coupled to each other in the middle of the second direction, and the movable portion is The movable portion is formed to be movable in a plane extending in the second W and the third direction; and the movable portion has a contact portion ′ connected to the first connection object on one side of the shaft portion and has the other side The operation portion for engaging the cam portion, the fixing portion ′ having a terminal portion connected to the second connection object on one side of the shaft portion and having a cam portion receiving the cam portion on the other side unit. (s: •15-