This application claims priority to prior Japanese patent application JP 2005-167372, the disclosure of which is incorporated herein by reference.
This invention relates to a connector apparatus including a pair of connectors connectable to each other and, in particular, to a coupling mechanism for coupling connectors by the use of a lever.
For example, Japanese Unexamined Patent Application Publication (JP-A) No. H11-102748 discloses a connector apparatus comprising a female connector and a male connector which are fitted and connected to each other. The connector apparatus has a coupling mechanism for coupling housings of the female and the male connectors to each other upon connecting the female and the male connectors. The coupling mechanism comprises a frame, a lever, and a pushing/engaging portion formed on the housing of the male connector. The frame is movable in a fitting direction with respect to the housing of the male connector. The lever has one end rotatably supported by the frame. The lever has the other end protruding obliquely forward from a connecting end of the housing of the male connector. The pushing/engaging portion is engaged with an intermediate portion of the lever. The housing of the female connector has a through hole to receive the lever inserted therethrough.
The above-mentioned coupling mechanism does not have a positioning mechanism for the lever. Before fitting, the lever protrudes outward from the connecting end of the housing of the male connector. After fitting, the lever protrudes outward via the through hole of the housing of the female connector. Therefore, when the female and the male connectors are assembled, when the female and the male connectors are fitted to each other, and after the female and the male connectors are fitted, the lever may possibly be broken.
It is therefore an object of this invention to provide a connector apparatus capable of controlling a position of a lever used in a coupling mechanism to prevent the lever from protruding outward.
It is another object of this invention to provide a connector apparatus which is high in reliability of connection and which requires only a small force for connection.
Other objects of the present invention will become clear as the description proceeds.
According to an aspect of the present invention, there is provided a connector apparatus comprising a first and a second connector which are adapted to be connected to each other with relative movement in a fitting direction and to be disconnected from each other with relative movement in a separating direction opposite to the fitting direction, wherein the first connector comprises a base member, a housing held by the base member to be movable in the fitting direction and in the separating direction, and a lever member coupled to the base member and the housing, the lever member comprising an axis portion rotatably supported by the base member, a first cam portion spaced from the axis portion and faced to the housing, and a second cam portion formed at a rotating end, the housing having a first cam-operated portion which is cooperated with the first cam portion to rotate the lever member with respect to the axis portion following the movement of the housing, the second connector having a second cam-operated portion which is adapted to be engaged with the second cam portion in the separating direction, the second cam-operated portion being engaged with and separated from the second cam portion following the rotation of the lever member.
Referring to
At first, the first connector 11 will be described. The first connector 11 comprises an insulating housing 21 of a rectangular parallelepiped shape or a generally long plate-like shape, an insulating base member 31 holding the housing 21 so that the housing 21 is slidable in the fitting direction A and the separating direction B, and a pair of lever members 41 (only one being illustrated in
As shown in
The contacts 24 are connected to a plurality of cables 61 in the receiving portions 23a of the housing 21. The cables 61 are led out through a plurality of cable insertion holes 23x formed on a rear end surface 23y of the housing 21. Each of the contacts 24 has a socket portion 24a to be connected to a mating contact (not shown) of the second connector 51 when the mating contact is inserted through the insertion hole 23d, a holding portion 24b held by the housing 21, and a terminal portion 24c connected to a core wire of the cable 61.
Referring to
The housing 21 has a bottom surface 23g perpendicular to the fitting surface 23c and provided with a first cam-operated portion 25b. The first cam-operated portion 25b is also formed in the shape of a protrusion and serves to rotatably support another lever member (not shown) same in shape as the lever member 41. On the housing 21, the first cam-operated portions 25a and 25b are positioned offset from each other in a longitudinal direction.
The housing 21 has a pair of block portions 27 formed at opposite ends in the longitudinal direction and at one end in the fitting direction A. Each of the block portions 27 has a first positioning portion 27a on an end face facing the separating direction B and a second positioning portion 28 extending from the first positioning portion 27a in the separating direction B. The second positioning portion 28 has a free end provided with a claw portion 28a slightly protruding outward.
Each of the block portions 27 has a through hole 27g extending between its end faces in the fitting direction A and the separating direction B. As shown in
The base member 31 is produced by molding a resin material and has a generally U shape as shown in
Each frame portion 33 has a frame plate portion 33a and a pair of wall portions 33c standing from longitudinal opposite sides of the frame plate portion 33a and faced to each other. The frame plate portion 33a is provided with a first positioning spring portion 35a extending in the fitting direction A from a position near a longitudinal end and a second positioning spring portion 36a extending in the separating direction B from a longitudinal intermediate portion. The first positioning spring portion 35a has a first engaging portion 35b formed at its intermediate portion. The first positioning spring portion 35a serves to position the housing 21. The second positioning spring portion 36a has a second engaging portion 36b formed at its intermediate portion. The frame portion 33 has a fixed spring portion 37 formed near its end in the fitting direction A to position and fix a module which will later be described in conjunction with
The base portion 35 has a large window portion 35a formed at its intermediate portion and extending in a longitudinal direction. The cables 61 are inserted through the window portion 35d. The base portion 35 is provided with a pair of lock bar portions 38 formed adjacent to the frame plate portions 33a and a pair of bearing plate portions 39 formed between the lock bar portions 38. The lock bar portions 38 are received in the through holes 27g of the housing 21, respectively.
The bearing plate portions 39 are provided with bearing portions 39a, respectively. By the use of the bearing portions 39a, the two lever members 41 are rotatably attached to the base portion 35. The housing 21 is positioned or locked for the base member 31 by a locking structure (not shown).
Each lever member 41 is formed by a resin material or a metal plate. As illustrated in
The first lever plate portion 43 and the second lever plate portion 45 are different in level from each other with a step formed therebetween. The first lever plate portion 43 has a first cam portion 43a formed at its center as a long hole extending in its longitudinal direction. The first lever plate portion 43 has the other end provided with a second cam portion 43b protruding on one surface of the first lever plate portion 43. The second lever plate portion 45 has an axis portion 45a in the shape of a circular hole rotatably supported on the base member 31.
The first cam portion 43a of one of the lever members 41 is a portion engaged with the first cam-operated portion 25a of the first connector 11. The first cam portion 43a of the other lever member 41 is a portion engaged with the first cam-operated portion 25b of the first connector 11.
Next, the second connector 51 or the mating connector will be described. The second connector 51 is mounted to a unit 71 illustrated in
As shown in
The housing 53 has a pair of lock spring portions 58 formed in the fitting portion 55a at longitudinal opposite sides of the housing 53, a pair of fixing portions 59 mounted to the circuit board 81 in the unit 71, and a receiving portion 55b formed in the fitting portion 55a to receive the contacts 56.
The fitting portion 55a has a fitting wall portion 55c provided with a plurality of insertion holes 55m holding the contacts 56 inserted therethrough. Between the fixing portions 59, a locator 60 is arranged.
The fitting portion 55a is fitted to the fitting portion 23b of the first connector 11. The guide portions 57c are inserted inside the frame portions 33 of the base member 31 upon fitting.
The second cam-operated portions 57 are formed on the top and the bottom plate portions 55f and 55g at positions offset from each other in the longitudinal direction. The second cam-operated portions 57 are generally U-shaped grooves formed from one sides of the top and the bottom plate portions 55f and 55g as fitting sides and are engaged with and interferes with the second cam portions 43b of the lever members 41 to serve as interfering grooves. The second cam-operated portions 57 have side wall surfaces 55r and 55s as thickened portions of the top and the bottom plate portions 55f and 55g.
The lock spring portions 58 extend from a rear wall portion 55x of the housing 53 towards the fitting portion 55a. Each of the lock spring portions 58 has a protruding portion 58a formed at its end. The protruding portions 58a are fitted to the recesses 27m of the housing 21 of the first connector 11 upon fitting. Each of the fixing portions 59 has a screw hole 59a to be fixed by a screw in order to mount the second connector 51 to the circuit board 81 in the unit 71.
Each of the contacts 56 has a contacting portion 56a positioned at the fitting portion 55a, a holding portion 56b held by the rear wall portion 55x of the housing 53, and a terminal portion 56c extending outward from the holding portion 56b.
The locator 60 serves to align the terminal portions 56c of the contacts 56 and to insert the terminal portions 56c into through holes of the circuit board 81. The terminal portions 56c are connected to the circuit board 81 by soldering.
In order to connect the first and the second connectors 11 and 51 to each other, the first cam portions 43a of the lever members 41 and the first cam-operated portions 25a and 25b of the first connector 11 cooperate with each other while the second cam portions 43b of the lever members 41 and the second cam-operated portions 57 of the housing 53 cooperate with each other. As a result, the lever members 41 are rotated so that the first and the second connectors 11 and 51 are connected to each other, as will presently be described in detail.
Now, description will be made of a fitting process of the first and the second connectors 11 and 51, i.e., a connecting process of the connector apparatus illustrated in
In a state before fitting (before connection) illustrated in FIGS. 27 to 30, the housing 21 of the first connector 11 is inserted between the frame portions 33 of the base member 31 in the fitting direction A to be integrally fixed to the base member 31. The first positioning portions 27a of the housing 21 are engaged with the first engaging portions 35b of the first positioning spring portions 35a of the base member 31. The claw portions 28a of the second positioning portions 28 of the housing 21 are engaged with the second engaging portions 36b of the second positioning spring portions 36a of the base member 31. In the state illustrated in FIGS. 27 to 30, it is noted that the lock bar portions 38 of the base member 31 are not inserted into the through holes 27g of the housing 21 and that the lever members 41 do not protrude outward from the fitting surface 23c of the first connector 11.
In a first state during fitting (during connection) illustrated in FIGS. 31 to 34, the guide portions 57c of the housing 53 of the second connector 51 are slightly inserted between the frame portions 33 of the base member 31 of the first connector 11. At the start of fitting, the protruding portions 58a of the lock spring portions 58 of the housing 53 are pushed by the wall surfaces 27j of the through holes 27g of the housing 21 to be bent and displaced during movement in the fitting direction A. As a result, an arc-shaped side 41f of each lever member 41 near the second cam portion 43b is moved to the vicinity of an inclined wall surface 55t formed at an inlet of the second cam-operated portion 57 of the housing 53.
As shown in FIGS. 35 to 39, in a second state during fitting (during connection) in which a fitting operation progresses from the first state, the guide portions 57c of the housing 53 of the second connector 51 push outward and displace the second positioning spring portions 36a of the base member 31 of the first connector 11. At this time, the housing 21 is allowed to be moved in the fitting direction A and, simultaneously, the lever members 41 are rotatable around the bearing portions 39a of the base member 31. In this state, the arc-shaped side 41f of each lever member 41 near the second cam portion 43b moves to the vicinity of the side wall surface 55r at an inner part of the second cam-operated portion 57 of the housing 53. As a consequence, the second cam portion 43b is inserted between the side wall surfaces 55r and 55s at the inner part of the second cam-operated portion 57.
As shown in FIGS. 40 to 43, in a third state during fitting (during connection) in which the fitting operation further progresses from the second state, the second connector 51 is closer to the first connector 11. As a consequence, the second cam portion 43b of each lever member 41 starts to interfere with the side wall surfaces 55r and 55s between the side wall surfaces 55r and 55s of the second cam-operated portion 57 of the housing 53.
As shown in FIGS. 44 to 47, in a fourth state during fitting (during connection) in which the fitting operation still further progresses, movement of the housing 21 and rotation of each lever member 11 are progressing. At this time, the contacts 24 of the first connector 11 and the contacts 56 of the second connector 51 start to be brought into contact with each other.
As illustrated in FIGS. 48 to 51, in a fifth state during fitting (during connection) in which the fitting operation still further progresses, movement of the housing 21 and rotation of each lever member 41 further progress and the contacts 24 and the contacts 56 are completely brought into contact with each other. At this time, the lock spring portions 58 of the housing 53 of the second connector 51 are inserted into the through holes 27g of the housing 21 of the first connector 11. The protruding portions 58a of the lock spring portions 58 are engaged with the recesses 27m of the housing 21. The protruding portions 58a of the lock spring portions 58 of the housing 53 are engaged with the recesses 27m of the housing 21 simultaneously with completion of the fitting operation. The second cam portion 43b of each lever member 41 interferes with the side wall surface 55s of the second cam-operated portion 57 of the housing 53 so as to reduce an insertion force.
As illustrated in FIGS. 52 to 55, after completion of the fitting operation of the first and the second connectors 11 and 51, floating between the first and the second connectors 11 and 51 is started. After start of floating, no interference is present between the second cam portion 43b of each lever member 41 and the side wall surfaces 55r and 55s of the second cam-operated portion 57 of the housing 53. However, the lock bar portions 38 of the base member 31 are positioned outside the lock spring portions 58 of the housing 53 so that the lock spring portions 58 are prevented from being displaced. Therefore, the first and the second connectors 11 and 51 are prevented from being separated from each other.
FIGS. 56 to 59 show a state of maximum displacement upon floating. By such floating, it is possible to absorb assembling errors of various components in the fitting direction A and the separating direction B.
After completion of fitting of the first and the second connectors 11 and 51, the fitted state is locked by the lock spring portions 58. During floating, the lock bar portions 38 of the base member 31 make it possible to prevent the fitted state from being unlocked.
Referring to FIGS. 60 to 62, description will be made of a connector apparatus according to a second embodiment of this invention. Similar parts are designated by like reference numerals and description thereof will be omitted.
In addition to the first connector 11 with the base member 31 attached thereto, the unit 71, and the second connector 51, the connector apparatus comprises the module 91 which houses the above-mentioned components. The fixed spring portions 37 of the base member 31 are engaged with locking holes 91 a formed on the module 91 so that the first connector 11 and the module 91 are coupled. The second connector 51 with the unit 71 attached thereto in a state before fitting as illustrated in
Although this invention has been described in conjunction with a few preferred embodiments thereof, this invention may be modified in various other manners within the scope of the appended claims. Although two lever members are used in the above-mentioned connector apparatus, the number of the lever members may be one or 3 or more. The second connector may be stationary while the first connector is movable. It is a matter of course that the first and second connectors may relatively be movable.
Number | Date | Country | Kind |
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2005-167372 | Jun 2005 | JP | national |