JP6691462B2 - connector - Google Patents

Description

  The present invention relates to a connector to which a circuit board is connected.

  As a connector connected to an electronic component such as a controller, there is a card edge connector in which a circuit board of the electronic component is sandwiched by terminals (see Patent Document 1). In this card edge connector, the distance between the contacts of the opposing terminals is often set smaller than the thickness of the circuit board inserted in the connector. Thus, when connecting the circuit board to the connector, the circuit board is inserted while pushing the terminals apart, so that the contact load between the circuit board and the terminals can be secured.

JP, 2016-24880, A

  However, inserting the circuit board while pushing the terminals apart causes the circuit board and the terminals to slide excessively, and reduces the reliability of the connector. That is, when the circuit board is inserted, the terminals also come into strong contact with the insulating base material of the circuit board, so that shavings are generated from the insulating base material of the circuit board, and the circuit board and the terminals are in good condition. It was a factor that hindered such contact. Therefore, it is required to improve the reliability of the connector by making good contact between the circuit board and the terminals.

  An object of the present invention is to improve the reliability of the connector.

  The connector of the present invention is a connector to which a circuit board of a board unit is connected, and which holds a housing into which the board unit is inserted and a first terminal which is housed in the housing and contacts one surface of the circuit board. A first terminal holding member, a second terminal holding member that faces the first terminal holding member, is housed in the housing, and holds a second terminal that contacts the other surface of the circuit board, and is housed in the housing. And a fitting member including a first inner inclined surface facing the outer inclined surface of the first terminal holding member and a second inner inclined surface facing the outer inclined surface of the second terminal holding member. When the board unit is inserted into the housing, the fitting member is pushed by the board unit and is pushed from the first inner inclined surface to the outer inclined surface of the first terminal holding member. Is transmitted, the thrust is transmitted from the second inner inclined surface to the outer inclined surface of the second terminal holding member, and the first terminal holding member and the second terminal holding member are biased toward each other. .

  According to the present invention, the fitting member is pushed by the board unit, the thrust is transmitted from the first inner inclined surface to the outer inclined surface of the first terminal holding member, and the second inner holding surface of the second terminal holding member is pushed. The thrust is transmitted to the outer inclined surface, and the first terminal holding member and the second terminal holding member are urged toward each other. As a result, the first terminal and the second terminal can be brought closer to each other as the board unit is inserted, and the circuit board and the first terminal and the second terminal can be brought into good contact with each other to improve the reliability of the connector. it can.

(A) And (b) is a perspective view which shows the connector which is one Embodiment of this invention, and the control unit connected to this. It is sectional drawing which shows the internal structure of a connector along the AA line of FIG.1 (a). It is sectional drawing which shows the connection process of a connector and a control unit. It is sectional drawing which shows the connection process of a connector and a control unit. It is sectional drawing which shows the connection process of a connector and a control unit. It is sectional drawing which shows the connection process of a connector and a control unit. It is sectional drawing which shows the isolation | separation process of a connector and a control unit. It is sectional drawing which shows the isolation | separation process of a connector and a control unit. It is sectional drawing which shows the isolation | separation process of a connector and a control unit.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1A and 1B are perspective views showing a connector 10 according to an embodiment of the present invention and a control unit (board unit) 11 connected thereto. FIG. 1A shows a separated state of the connector 10 and the control unit 11, and FIG. 1B shows a connected state of the connector 10 and the control unit 11.

  As shown in FIGS. 1A and 1B, the connector 10 has an outer housing (housing) 12 for housing the control unit 11. A plurality of wire harnesses 13 are connected to the connector 10, and these wire harnesses 13 are connected to other control units (not shown), sensors and the like. The illustrated control unit 11 is a control unit manufactured by sealing the circuit board 14 on which electronic components are mounted with a resin, and is also called a transfer mold control unit. As shown in FIG. 1A, the circuit board 14 of the control unit 11 has a structure in which a part of the circuit board 14 is exposed to the outside from the mold resin 15. Further, the circuit board 14 exposed from the mold resin 15 is provided with a conductor portion 16 for electrically connecting terminals described later. The conductor portions 16 with which the terminals contact are formed on both surfaces of the circuit board 14.

  The illustrated connector 10 is a so-called card edge connector that is connected to the circuit board 14 protruding from the control unit 11. By inserting the control unit 11 into the connector 10 as shown by an arrow α in FIG. 1A, the circuit board 14 on the control unit 11 side and the wire harness 13 on the connector 10 side are electrically connected. be able to. Further, as shown in FIG. 1A, the control unit 11 is provided with an engaging claw 17, and the connector 10 is provided with a holding mechanism 19 having an engaging hole 18. As shown in FIG. 1B, by inserting the control unit 11 into the connector 10, the engagement claw 17 can be engaged with the engagement hole 18, and the connector 10 and the control unit 11 can be connected to each other. The connection state of can be maintained.

  Further, the holding mechanism 19 of the connector 10 includes a first top plate portion 19a partitioned by cuts, a second top plate portion 19b partitioned by cuts, a first top plate portion 19a and a second top plate portion 19b. And a fulcrum plate portion 19c for connecting. By pushing the first top plate portion 19a downward, the second top plate portion 19b can be tilted upward with the fulcrum plate portion 19c as a fulcrum. Thereby, the engagement state between the engagement hole 18 and the engagement claw 17 can be released, and the connection state between the connector 10 and the control unit 11 can be released. It should be noted that the engaging claw 17 and the holding mechanism 19 are omitted in each of the sectional views of FIGS. 2 to 9 described later.

[Connector structure]
FIG. 2 is a cross-sectional view showing the internal structure of the connector 10 taken along the line AA of FIG. Further, the arrow α shown in FIG. 2 indicates the insertion direction of the control unit 11, as in FIG. Hereinafter, the structure will be described using the front-back direction of the connector 10, but the front-back direction of the connector 10 and the insertion direction of the control unit 11 are in the same direction. The front side of the connector 10 means the insertion port 20 side of the connector 10, and the rear side of the connector 10 means the wire harness 13 side of the connector 10.

  As shown in FIG. 2, the outer housing 12 of the connector 10 includes a housing main body 21 having an insertion opening 20 into which the control unit 11 is inserted, and a terminal holding portion 23 having a through opening 22 through which the wire harness 13 is guided. And are equipped with. A front seal holder (fitting member) 24 is housed in the housing body 21 so as to be movable back and forth, and a terminal assembly 27 composed of a pair of inner housings 25 and 26 is held in the terminal holding portion 23. There is. A stopper wall 28 is formed on the housing body 21, and movement of the front seal holder 24 is restricted by the stopper wall 28.

  The terminal assembly 27 includes a first inner housing (first terminal holding member) 25 that holds a plurality of first terminals 31, and a second inner housing (second terminal holding member) 26 that holds a plurality of second terminals 32. And are equipped with. The first inner housing 25 and the second inner housing 26 are arranged to face each other so that the contact portions 33 of the terminals 31 and 32 face each other. The base end portions 34 of the inner housings 25 and 26 are held by the terminal holding portion 23, while the tip end portions 35 of the inner housings 25 and 26 are configured as open ends. The wire harness 13 connected to the terminals 31 and 32 is guided to the outside through a through hole of a rear seal 36 incorporated in the terminal holding portion 23. A rear seal holder 37 that covers the rear seal 36 is attached to the terminal holding portion 23. By mounting the rear seal holder 37, the rear seal 36 and the terminal assembly 27 are prevented from falling off.

  As described above, the housing main body 21 of the outer housing 12 houses the front seal holder 24. A seal groove 40 is formed on the front inner peripheral portion 24i of the front seal holder 24, and a seal groove 41 is formed on the rear outer peripheral portion 24o of the front seal holder 24. An annular control unit seal (inner seal member) 42 is provided in the front seal groove 40, and the control unit seal 42 seals the gap between the front seal holder 24 and the control unit 11. An annular housing seal (outer seal member) 43 is provided in the rear seal groove 41, and the housing seal 43 seals the gap between the outer housing 12 and the control unit 11. The control unit seal 42 and the housing seal 43 are separately arranged before and after the front seal holder 24, that is, separately on one end side and the other end side of the front seal holder 24. In the manufacturing process of the front seal holder 24, the control unit seal 42 and the housing seal 43 are integrated into the front seal holder 24.

  The front seal holder 24 has an engaging portion 45 with which the end portion 44 of the control unit 11 engages, and a wedge portion 48 having first and second inner inclined surfaces 46 and 47. The engagement portion 45 of the front seal holder 24 includes a contact surface 50 that faces the end portion 44 of the control unit 11, and an engagement recess 52 that engages with the engagement protrusion 51 of the control unit 11. In addition, the wedge portion 48 of the front seal holder 24 has a first inner inclined surface 46 that faces the outer inclined surface 53 of the first inner housing 25 and a second inner inclined surface that faces the outer inclined surface 54 of the second inner housing 26. And a surface 47. The outer slanted surface 53 of the first inner housing 25, the outer slanted surface 54 of the second inner housing 26, and the first and second inner slanted surfaces 46, 47 of the front seal holder 24 with respect to the insertion direction α of the control unit 11. It is an inclined surface.

[Connection process]
Subsequently, a connection process between the connector 10 and the control unit 11 will be described. Here, FIGS. 3 to 6 are cross-sectional views showing a connection process between the connector 10 and the control unit 11. FIG. 3, FIG. 4, FIG. 5, and FIG. 6 show the states from the start of the insertion of the control unit 11 into the connector 10 to the completion of the connection between the connector 10 and the control unit 11. Further, the enlarged portion X shown in FIGS. 4 to 6 shows the positional relationship between the circuit board 14 and the contact portions 33 of the terminals 31 and 32 shown in the direction of the arrow X in FIG.

  As shown in FIG. 3, when the control unit 11 starts to be inserted into the connector 10, the front seal holder 24 is arranged in the retracted position inside the outer housing 12. Further, as shown in the enlarged portion of FIG. 3, the contact gap G1 between the first terminal 31 and the second terminal 32 is set to be larger than the thickness dimension T1 of the circuit board 14. In the illustrated example, the gap between the first terminal 31 and the second terminal 32 is widened in advance, but the invention is not limited to this. That is, since the end portions 35 of the inner housings 25 and 26 are open ends, when the circuit board 14 contacts the contact portions 33 of the first terminal 31 and the second terminal 32, the first terminal 31 and the second terminal The contact interval with the terminal 32 may be widened.

  As shown in FIG. 4, when the control unit 11 is further inserted in the direction of the arrow α and the end portion 44 of the control unit 11 comes into contact with the control unit seal 42 or the engaging portion 45 of the front seal holder 24, the control unit 11 moves to the front. The thrust begins to be transmitted to the seal holder 24. As a result, as shown by the arrow a1, the front seal holder 24 is pushed in and starts moving. Further, as shown in the enlarged portion Y of FIG. 4, when the front seal holder 24 moves in the arrow a1 direction, the inner inclined surfaces 46 and 47 of the front seal holder 24 become the outer inclined surfaces 53 and 54 of the inner housings 25 and 26. Since they come into contact with each other, the terminals 31 and 32 held by the inner housings 25 and 26 start to move toward each other as indicated by an arrow a2.

  When the movement amount of the front seal holder 24 is S1 as shown in the enlarged portion Z of FIG. 4, the contact distance between the first terminal 31 and the second terminal 32 is as shown in the enlarged portion Y. Although it is reduced to G2, it is held at a value larger than the thickness dimension T1 of the circuit board 14. Further, as shown in the enlarged portion Z of FIG. 4, when the movement amount of the front seal holder 24 is S1, as shown in the enlarged portion X, the tip end 14a of the circuit board 14 has contact points of the terminals 31 and 32. The part 33 has not been reached.

  As shown in FIG. 5, when the control unit 11 is further inserted in the direction of the arrow α, the end portion 44 of the control unit 11 hits the contact surface 50, and the control unit 11 and the front seal holder 24 move integrally. To do. When the movement amount of the front seal holder 24 reaches S2, as shown in the enlarged portion Z of FIG. 5, the conductor portion 16 of the circuit board 14 contacts the contact portions of the terminals 31, 32 as shown in the enlarged portion X. Move to a position that overlaps 33. When the movement amount of the front seal holder 24 reaches S2 as shown in the enlarged portion Z of FIG. 5, the pressing of the first terminal 31 against the one surface 55 of the circuit board 14 is started as shown in the enlarged portion Y. Then, the pressing of the second terminal 32 against the other surface 56 of the circuit board 14 is started. That is, the contact portion 33 of each of the terminals 31 and 32 is pressed against the conductor portion 16 beyond the insulator base material 57 without being pressed against the insulator base material 57 which is the base material of the circuit board 14. .

  As shown in FIG. 6, when the control unit 11 is further inserted in the direction of the arrow α and the movement amount of the front seal holder 24 reaches S3 as shown in the enlarged portion Z, as shown by the arrow a2 in the enlarged portion Y. The inner housings 25 and 26 are further urged inward by the front seal holder 24, and the contact portions 33 of the terminals 31 and 32 are further strongly pressed against the conductor portion 16 of the circuit board 14. Further, as shown in the enlarged portion Z of FIG. 6, when the movement amount of the front seal holder 24 reaches S3, the conductor portion 16 and the contact portion 33 are slid on the enlarged portion X as indicated by an arrow Xa. The circuit board 14 moves to. That is, the conductor portion 16 of the circuit board 14 and the contact portion 33 of each of the terminals 31 and 32 can be slid while being pressed against each other.

  As described above, when the control unit 11 is inserted into the outer housing 12 of the connector 10, the control unit 11 pushes the front seal holder 24, and the first inner inclined surface 46 extends to the outside of the first inner housing 25. The thrust is transmitted to the inclined surface 53, and the thrust is transmitted from the second inner inclined surface 47 to the outer inclined surface 54 of the second inner housing 26. In this way, by changing the direction from the front seal holder 24 to the inner housings 25, 26 and transmitting the thrust, the inner housings 25, 26 can be brought closer to each other as the front seal holder 24 is pushed. That is, at the stage when the control unit 11 is started to be inserted, the contact distance between the first terminal 31 and the second terminal 32 can be widened, while at the stage when the insertion of the control unit 11 is completed, The contact distance between the terminal 31 and the second terminal 32 can be narrowed.

  As a result, the contact portion 33 can be strongly contacted with the conductor portion 16 of the circuit board 14 without excessively contacting the contact portion 33 with the insulator base material 57 of the circuit board 14. It is possible to connect the conductor portion 16 of the circuit board 14 and the contact portions 33 of the terminals 31 and 32 without generating a lot of shavings from the base material 57. That is, the conductor portion 16 of the circuit board 14 and the contact portions 33 of the terminals 31 and 32 can be brought into good contact with each other without being affected by shavings made of epoxy resin or the like, and the reliability of the connector 10 is improved. Can be made.

  Moreover, as shown in the enlarged portion X of FIG. 6, since the conductor portion 16 of the circuit board 14 and the contact portions 33 of the terminals 31 and 32 slide while being pressed against each other, they are formed on the surface of the conductor portion 16. It is possible to remove the oxide film and the like that are generated by the contact portion 33. Thus, by removing the oxide film of the conductor portion 16 and the like, the conductor portion 16 of the circuit board 14 and the contact portions 33 of the terminals 31 and 32 can be brought into good contact with each other, and the reliability of the connector 10 is improved. It can be further increased.

  A control unit seal 42 and a housing seal 43 are provided on the front seal holder 24 that transmits thrust to the inner housings 25 and 26. That is, the front seal holder 24 has both the function of transmitting thrust from the control unit 11 to the inner housings 25, 26 and the function of holding the control unit seal 42 and the housing seal 43. As a result, the number of parts can be reduced, so that the cost of the connector 10 can be reduced.

  Further, in the above description, as shown in the enlarged portion X of FIG. 5, after the conductor portion 16 of the circuit board 14 and the contact portions 33 of the terminals 31 and 32 are overlapped with each other, the conductor portion 16 of the circuit board 14 is Although the contact portions 33 of the terminals 31 and 32 are started to come into contact with each other, the present invention is not limited to this. That is, if the contact load does not generate a lot of shavings from the insulator base material 57, the contact portion 33 of each terminal 31, 32 slides from the insulator base material 57 of the circuit board 14 to the conductor portion 16. You may let me. The contact load and contact timing between the circuit board 14 and the terminals 31 and 32 can be adjusted by the angle or position of each inclined surface.

  In the example shown in FIG. 3, the contact gap G1 is set to be larger than the thickness dimension T1, but the invention is not limited to this. In the connection process between the connector 10 and the control unit 11, if the contact load does not generate a lot of shavings from the insulator base material 57, the contact gap G1 and the thickness dimension T1 may be set to the same value. By setting the contact distance G1 to be smaller than the thickness dimension T1, the contact portions 33 of the terminals 31 and 32 may be slid from the insulating base material 57 of the circuit board 14 to the conductor portion 16.

[Separation process]
Subsequently, a process of separating the connector 10 and the control unit 11 will be described. Here, FIGS. 7 to 9 are cross-sectional views showing a process of separating the connector 10 and the control unit 11. 7, FIG. 8 and FIG. 9 show the states from the start of pulling out the control unit 11 from the connector 10 to the completion of the separation between the connector 10 and the control unit 11.

  As shown in FIG. 7, when the connector 10 and the control unit 11 are connected, the engagement protrusion 51 of the control unit 11 and the engagement recess 52 of the front seal holder 24 mesh with each other. Then, as shown by the arrow β in FIG. 7, when the control unit 11 is pulled out from the connector 10, thrust is exerted from the control unit 11 to the front seal holder 24 via the engaging convex portion 51 and the engaging concave portion 52 that mesh with each other. Transmitted.

  As a result, as shown by the arrow b1 in FIG. 7, the front seal holder 24 is pulled out and starts moving. Further, as shown in the enlarged portion of FIG. 7, when the front seal holder 24 moves in the direction of arrow b1, the inner inclined surfaces 46 and 47 of the front seal holder 24 and the outer inclined surfaces 53 and 54 of the inner housings 25 and 26 are separated. Since the contact is released, the inner housings 25 and 26 start to separate from each other by the repulsive force of the contact portion 33 pressed against the circuit board 14 as shown by the arrow b2.

  Further, when the control unit 11 is pulled out in the arrow β direction, the front seal holder 24 moves in the arrow b1 direction together with the control unit 11. Here, since the housing seal 43 is arranged so as to be overlapped radially outward of the inner inclined surfaces 46 and 47, the compressive load of the housing seal 43 can be released when the front seal holder 24 starts to move. As a result, the sliding resistance of the housing seal 43 can be reduced, and the front seal holder 24 can be moved with a small thrust.

  Then, as shown in FIG. 8, when the control unit 11 is further pulled out in the direction of the arrow β and the front seal holder 24 abuts against the stopper wall 28 of the housing body 21, as shown in FIG. The engaging projection 51 of the control unit 11 is disengaged from the fitting recess 52, and the control unit 11 is pulled out from the outer housing 12 of the connector 10. This completes the separation of the connector 10 and the control unit 11.

  As described above, when the control unit 11 is removed from the outer housing 12 of the connector 10, the front seal holder 24 is pulled out by the control unit 11, and the inner inclined surfaces 46 and 47 of the front seal holder 24 and the inner housings 25 and 26 are removed. Since the contact with the outer inclined surfaces 53, 54 is released, the inner housings 25, 26 can be separated from each other by the repulsive force of the contact portions 33 of the terminals 31, 32.

  That is, since the contact load of each terminal 31, 32 with respect to the circuit board 14 can be reduced when the control unit 11 is started to be pulled out, the contact portion 33 does not strongly contact the insulator base material 57 of the circuit board 14. The control unit 11 can be removed from the connector 10. Accordingly, the control unit 11 can be removed from the connector 10 without generating shavings such as epoxy resin, and the reliability of the connector 10 can be improved.

  Moreover, since the housing seal 43 held by the front seal holder 24 is arranged radially outward of the inner inclined surfaces 46, 47 of the front seal holder 24, the housing seal 43 is moved when the front seal holder 24 starts to move. The compressive load on the seal 43 can be removed. As a result, the sliding resistance of the housing seal 43 can be reduced, and the front seal holder 24 can be moved with a small thrust. That is, even with the waterproof or dustproof connector 10, the control unit 11 can be easily removed from the connector 10.

  It is needless to say that the present invention is not limited to the above-mentioned embodiment and can be variously modified without departing from the scope of the invention. In the above description, the control unit 11 that does not have a housing that constitutes the outer shell and is simply sealed with the mold resin 15 is used as the substrate unit to which the connector 10 is connected, but the present invention is not limited to this. Instead, a control unit including a housing forming the outer shell may be used. Further, the board unit is not limited to the control unit 11 such as a controller, and may be any board unit as long as the board unit includes the mold resin 15 and the circuit board 14 exposed from the housing. Further, the illustrated connector 10 is a waterproof connector including the rear seal 36, the control unit seal 42, and the housing seal 43, but is not limited to this. For example, the present invention can be effectively applied to a connector without the rear seal 36, the control unit seal 42, the housing seal 43, and the like.

10 connector 11 control unit (board unit)
12 Outer housing (housing)
14 circuit board 24 front seal holder (fitting member)
24i inner peripheral part 24o outer peripheral part 25 1st inner housing (1st terminal holding member)
26 Second Inner Housing (Second Terminal Holding Member)
31 First Terminal 32 Second Terminal 42 Control Unit Seal (Inner Seal Member)
43 Housing seal (outer seal member)
46 1st inner side inclined surface 47 2nd inner side inclined surface 53 outer side inclined surface 54 outer side inclined surface 55 one side surface 56 another side surface α insertion direction

Claims (6)

A connector to which a circuit board of a board unit is connected,
A housing into which the board unit is inserted,
A first terminal holding member that holds a first terminal that is housed in the housing and that contacts one surface of the circuit board;
A second terminal holding member that faces the first terminal holding member and is housed in the housing, and holds a second terminal that contacts the other surface of the circuit board;
Fitting that is housed in the housing and includes a first inner inclined surface that faces the outer inclined surface of the first terminal holding member and a second inner inclined surface that faces the outer inclined surface of the second terminal holding member. Members,
Have
When the board unit is inserted into the housing, the fitting member is pushed by the board unit, the thrust is transmitted from the first inner inclined surface to the outer inclined surface of the first terminal holding member, and (2) A connector in which thrust is transmitted from the inner inclined surface to the outer inclined surface of the second terminal holding member, and the first terminal holding member and the second terminal holding member are urged toward each other. The connector according to claim 1,
The outer inclined surface of the first terminal holding member, the outer inclined surface of the second terminal holding member, the first inner inclined surface of the fitting member, and the second inner inclined surface of the fitting member are the insertion of the board unit. Connector that tilts with respect to the direction. The connector according to claim 1 or 2,
An inner seal member is held on an inner peripheral portion of the fitting member, and a gap between the fitting member and the board unit is sealed by the inner seal member. The connector according to any one of claims 1 to 3,
An outer seal member is held on an outer peripheral portion of the fitting member, and a gap between the housing and the fitting member is sealed by the outer seal member. The connector according to claim 3,
An outer seal member is held on the outer peripheral portion of the fitting member,
The connector in which the inner seal member and the outer seal member are separately arranged on one end side and the other end side of the fitting member. The connector according to claim 4 or 5,
The connector, wherein the outer seal member is arranged radially outward of the first inner inclined surface and the second inner inclined surface.

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