JP2007018733A - Lever type connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lever type connector usable as a connector without a lever as well and allowing housings to be locked to each other in a fitted state even in a state without a lever. <P>SOLUTION: In both the case where both the housings 10 and 50 are fitted to each other with a lever 30 attached to the first housing 10 and the case where both the housings 10 and 50 are fitted to each other with the lever 30 extracted from the first housing 10, both the housings 10 and 50 are locked to each other in a fitted state by locking a lock arm 11 to a lock part 55. In a state where both the housings 10 and 50 are fitted to each other by using the lever 30, the lock arm 11 is dissociated from the lock part 55 by an unlocking means (a releasing projection 35 and a part 18 to be contacted) when the lever 30 is displaced from the fitting position toward a waiting position. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a lever type connector.

Conventionally, there is a lever type connector described in Patent Document 1. This is because the lever is attached to the first housing so as to be displaced between the standby position and the fitting position, and the cam follower is provided on the second housing, and both the housings are held in the state where the lever is held at the standby position. The cam follower is inserted into the cam groove of the lever by fitting it shallowly, and the housing is fitted by the cam action by the engagement of the cam groove and the cam follower by displacing the lever from that state to the fitting position. The terminal fittings of both housings are connected to each other. When both housings are mated, the lever at the mating position is locked by the locking means provided on the lever and the first housing so that the lever at the mating position does not return to the standby position. Locked to state.
JP-A-8-78091

When a connector with a connection structure between the existing lever-type connector and the terminal fitting is common and does not have a fitting means by lever, a housing with a lever and a housing without a lever are dedicated respectively. If it is going to manufacture separately as a housing, two types of metallic molds will be needed for housing molding, and cost will become high.
As a means for avoiding an increase in cost, it is conceivable to divert the lever as a type without a lever by removing the lever in an existing lever-type connector. However, in the conventional lever type connector, the lever locking means and the locking means of the first housing are engaged as means for locking both housings in the fitted state, so that the lever is removed from the first housing. Both housings cannot be locked in the fitted state.
The lever connector of the present invention has been completed based on the above-described circumstances, and can be used as a connector without a lever, and the housings can be locked in a fitted state even without a lever. Objective.

  As a means for achieving the above object, the invention of claim 1 is characterized in that the first housing and the first housing are detachable, and in a state of being attached to the first housing, a standby position and a fitting position. And a second housing having a cam follower, and the two housings are shallowly fitted while the cam follower is advanced into the cam groove of the lever at the standby position. In the lever-type connector in which the two housings are fitted by the cam action by the engagement of the cam groove and the cam follower by displacing the lever from the state to the fitting position. One of the housing and the second housing is provided with a lock arm, and the other of the first housing and the second housing. The housing is formed with a lock portion, and the two housings in the fitted state are locked in a disengagement restricted state by the locking of the lock arm and the lock portion, and the lever and the lock arm Is characterized in that there is provided a lock release means for displacing the lock arm in the lock release direction in accordance with the operation of the lever in the fitting position to disengage from the lock portion.

According to a second aspect of the present invention, in the first aspect of the present invention, the lock releasing means displaces the lock arm in the unlocking direction as the lever rotates the lever from the fitting position to the standby position. It is characterized by the configuration that allows it to be used.
According to a third aspect of the present invention, in the first or second aspect of the invention, the first housing and the lever are engaged with each other in a state where the lever is displaced to the fitting position, thereby the lever. It is characterized in that lever locking means for restricting the displacement of the lens toward the standby position side is provided.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, at least one of the unlocking means on the lever side and the unlocking means on the lock arm side includes a counterpart side. It is characterized in that an inclined surface that can be brought into contact with the lock release means is formed.

  According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the lock arm extends in a cantilever shape, and the lock release is provided at an extended end portion of the lock arm. It is characterized in that the means are provided.

  According to a sixth aspect of the present invention, in the apparatus according to any one of the first to fifth aspects, the lever covers the unlocking operation portion of the lock arm when the housings are locked. It has the characteristics in the place.

  According to a seventh aspect of the present invention, in the first aspect of the present invention, in the lever, the two housings are separated from the lever in a state where the return operation to the standby position is restricted when the lever is in the fitting position. A lever lock arm is provided to lock the lock arm together with the lever lock arm when the lever lock arm is released from a state where the lever is in the fitting position. It is characterized in that it is configured to be displaced to the right.

  According to an eighth aspect of the present invention, in the seventh aspect, the lock portion is locked to both the lock arm and the lever lock arm when the lever is in the fitting position, and is commonly used for these. It is characterized by

  The invention according to claim 9 is the one according to claim 7 or 8, wherein the lever is rotatable between a standby position and a fitting position in a direction orthogonal to the unlocking direction, When the lever is in the mating position, the lever lock arm and the lock arm are arranged side by side in a direction perpendicular to the unlocking direction, and the unlocking operation piece formed on the lever lock arm is The lock arm and the lock release direction are arranged so as to overlap each other, and the release operation of the lever lock arm is performed by pushing the lock release operation piece toward the lock arm.

According to a tenth aspect of the present invention, in the ninth aspect, the first housing has a recess for receiving a lever, and the lever rotates on a support shaft formed on an inner surface of the recess for receiving the lever. Features where possible.
According to an eleventh aspect of the present invention, the first housing is provided with a protective wall that covers the unlocking operation piece from the outside when the lever is in the fitting position. It is characterized by

<Invention of Claim 1>
When the two housings are fitted with the lever attached to the first housing, the two housings are locked in the fitted state by the locking of the lock arm and the lock portion. Even when the two housings are fitted with the lever removed from the first housing, the two housings are locked in the fitted state by the locking of the lock arm and the lock portion. The lever connector of the present invention can be used as a connector without a lever and can lock the housings in a fitted state even without a lever.
In addition, when the two housings are fitted using a lever, the lock arm can be unlocked simply by operating the lever. Therefore, it is necessary to perform an operation to unlock the lock arm separately from the operation of the lever. There is no workability.
<Invention of Claim 2>
In a state where both housings are fitted using a lever, if the lever is displaced from the fitting position to the standby position side, the lock arm is disengaged from the lock portion by the unlocking means. The operation of unlocking the lock arm can be performed with one action, and workability is good.

<Invention of Claim 3>
In the state where the lever is displaced to the fitting position, the lever lock means regulates the displacement of the lever toward the standby position, so that both housings can be reliably locked in the fitted state.

<Invention of Claim 4>
Since the unlocking means is formed with an inclined surface, the lock arm can be smoothly displaced in the unlocking direction when the lever is displaced toward the standby position.

<Invention of Claim 5>
Since the unlocking means on the lock arm side is arranged at the extending end of the lock arm, the unlocking means on the lever side is compared with the one where the unlocking means is arranged on the base end side of the lock arm. The pressing force to be applied to the lock release means on the lock arm side can be small.

<Invention of Claim 6>
When both housings are locked, the lever is configured to cover the unlocking operation part of the lock arm, so that the lock arm is moved in the unlocking direction due to foreign matter interfering with the unlocking operation part. There is no fear.

<Invention of Claim 7>
When the lever reaches the mating position, in addition to the lock arm, the lever lock arm locks both housings in a release-restricted state, so that the locking force between the two housings can be increased compared to locking with the lock arm alone. it can.
Further, since the lock arm can be unlocked together with the lever lock arm by performing the unlock operation of the lever lock arm, it is not necessary to perform the lock arm unlock operation independently.

<Invention of Claim 8>
When the lever reaches the fitting position, both the lock arm and the lever lock arm are elastically locked to the lock portion, and both the housings are locked in the disengagement restricted state. Since the lock portion is commonly used for the lock arm and the lever lock arm, the structure of the lock portion of the second housing can be compactly assembled.

<Invention of Claim 9>
When the lever is rotated in the direction perpendicular to the unlocking direction and reaches the mating position, the lever lock arm and the lock arm are arranged side by side in the direction orthogonal to the unlocking direction, and both housings are locked in the release restricted state. To do. In addition, when the lever reaches the mating position, the unlocking operation piece protruding from the lever lock arm is arranged so as to overlap the lock arm in the unlocking direction. The lever lock arm and the lock arm are unlocked by pushing to the right. Therefore, it is possible to set a lock structure with a lever lock arm and a lock arm in the first housing with a relatively simple configuration.

<Invention of Claim 10>
Since the lever is rotatably supported by the support shaft formed on the inner surface of the lever housing recess provided in the first housing, the periphery of the lever's rotation shaft is protected from foreign matter. Smoothness of movement is guaranteed.
<Invention of Claim 11>
When the lever reaches the mating position, the unlocking operation piece is covered from the outside by a protective wall provided on the first housing, so that the lever unlocking arm does not move in the unlocking direction due to interference with the foreign matter. It is possible to avoid a situation where it is easily displaced.

<Embodiment 1>
A first embodiment of the present invention will be described below with reference to FIGS. The lever-type connector of this embodiment includes a first housing 10, a second housing 50, and a lever 30 that can be attached to and detached from the first housing 10.
The first housing 10 is made of synthetic resin and has a rectangular block shape as a whole, and a female terminal fitting (not shown) is accommodated therein. The first housing 10 is integrally formed with a lock arm 11 along the upper surface (outer surface) thereof. The lock arm 11 rises from the front end portion of the upper surface of the first housing 10 and extends rearwardly (in a direction parallel to the fitting / removing direction of the housings 10 and 50) in a cantilever manner. The lock arm 11 is supported on the outer surface of the first housing 10 by a pair of left and right legs 12 provided at the front end thereof, and a pair of cantilever arms 13 are extended rearward from the both leg parts 12. The rear end portions (extending ends) 13 of the 13 are connected by a horizontal plate-like lock release operation portion 14. The region between the leg portion 12 and the unlocking operation portion 14 in the both cantilever arms 13 is connected by a horizontal plate-like connecting portion 15, and a lock protrusion 16 is formed on the upper surface of the connecting portion 15. . A space surrounded by the both cantilever arms 13, the connecting portion 15, and the unlocking operation portion 14 is a locking hole 17 (a lever locking means that is a constituent feature of the present invention) penetrating in the vertical direction.

  A pair of abutted portions 18 (unlocking means which is a constituent feature of the present invention) are formed on the left and right outer surfaces of the unlocking operation portion 14 so as to protrude outward in the left-right direction. The front surface of the abutted portion 18 is an inclined receiving surface 18S (an inclined surface which is a constituent feature of the present invention) that is inclined downward toward the front. Further, the upper surface, the lower surface, and the rear surface of the abutted portion 18 are continuous with the upper surface, the lower surface, and the rear surface of the unlocking operation unit 14, respectively. Further, the inclined receiving surface 18 </ b> S of the contacted portion 18 is located behind the front surface of the unlocking operation portion 14. Further, the unlocking operation unit 14 is arranged at a position higher than the cantilever arm 13. The unlock operation unit 14 is sandwiched between a pair of left and right protective walls 19 formed on the upper surface of the first housing 10.

  When the lock arm 11 is in a free state in which no elastic deformation occurs, the upper surface of the cantilever arm 13 and the unlocking operation portion 14 and the contacted portion 18 is substantially horizontal (substantially parallel to the fitting direction of the housings 10 and 50). However, it can be elastically displaced in such a manner that the upper surfaces of the cantilever arm 13 and the unlocking operation portion 14 and the contacted portion 18 are inclined with the leg portion 12 as a fulcrum. ing.

  Moreover, the rear-end part of the 1st housing 10 is the vertically long widened part 20 of the form widened stepwise compared with the area | region ahead of it. A pair of support shafts 21 are formed on the left and right outer surfaces of the widened portion 20 so as to protrude in the direction perpendicular to the fitting direction of the housings 10 and 50. The support shaft 21 has a cylindrical shape, and a pair of upper and lower retaining protrusions 22 are formed on the extending end of each support shaft 21. In addition, a pair of relief recesses 23 having a recess shape are formed at positions below the support shaft 21 on the left and right outer surfaces of the widened portion 20. The stepped front edge of the widened portion 20 is a stopper 24.

The lever 30 is made of synthetic resin, and has a rotation operation part 31 that is long in the left-right direction, and a pair of arm parts 36 that extend in parallel and symmetrically from both left and right ends of the rotation operation part 31. Are integrally formed.
In the following description of the structure of the lever 30, the upper and lower and front and rear directions are based on the state in which the lever 30 is assembled to the first housing 10 in the fitting position (see FIGS. 2 and 6). .

  The rotation operation unit 31 has a horizontal plate shape as a whole. A pair of groove portions 32 that are notched rearward from the front edge of the rotation operation portion 31 are formed symmetrically, and a region that is cantilevered forwardly between the groove portions 32. Is an elastic deflecting piece 33 having a corner portion that extends obliquely upward and upward from the front end of the upper surface, and a locking piece 34 that projects downward at the front end of the lower surface of the elastic deflecting piece 33 (configuration of the present invention). Lever lock means) which is a requirement is formed.

  Further, the rotation operation portion 31 has a pair of release protrusions 35 (lock release means which is a constituent element of the present invention) extending downward in a plate shape along the outer side edge of the groove portion 32. It is formed symmetrically. The release protrusion 35 has a trapezoidal shape (generally a triangle) that is gradually narrower toward the bottom (smaller in the front-rear direction) when viewed from the side (in a direction parallel to the rotation center axis of the lever 30). I am doing. The rear edge of the release projection 35 is a release engagement surface 35S (in the present invention, which is inclined with respect to the front-rear direction (substantially the same direction as the displacement direction of the rotation operation unit 31 immediately before the lever 30 reaches the fitting position). It is an inclined surface that is a constituent requirement).

  Each arm portion 36 is formed with a bearing hole 37 penetrating in the left-right direction, and a pair of cutout portions 38 are formed at the hole edge of the bearing hole 37. In addition, each arm portion 36 has a cam groove 39 extending obliquely and at a substantially constant width with respect to both the radial direction and the circumferential direction centering on the bearing hole 37 as a whole in a form penetrating left and right. Is formed. The entrance 39E of the cam groove 39 is opened at the lower end position on the outer peripheral edge of the arm portion 36. On the other hand, an arc portion 39 </ b> C concentric with the bearing hole 37 is formed at the back end portion of the cam groove 39. Further, each arm portion 36 is formed with a locking piece 40 extending in a cantilever manner along the outer peripheral edge thereof. The lock piece 40 can be elastically displaced in the left-right direction. In a free state where the lock piece 40 is not elastically displaced, the extended end of the lock piece 40 protrudes inward from the inner surface of the arm portion 36.

  The second housing 50 is made of a synthetic resin and has a substantially rectangular tube-shaped hood portion 51 protruding forward. Inside the hood portion 51, the tip end portion of the male terminal fitting 52 is accommodated. A pair of cylindrical cam followers 53 projecting from the left and right outer surfaces of the hood 51 are formed in a projecting manner. Further, a flange portion 54 is formed on the projecting end portion of the cam follower 53 so as to project concentrically around the entire circumference. Further, a lock portion 55 is formed on the upper surface wall of the hood portion 51 so as to protrude downward (inside the hood portion 51) from the front end edge on the inner surface (lower surface) thereof.

Next, the operation of this embodiment will be described.
When the lever 30 is assembled to the first housing 10, the lever 30 is set to a standby position posture in which the rotation operation unit 31 is displaced obliquely downward and rearward with respect to the fitting position posture with the bearing hole 37 as a center. The portion 38 is positioned up and down to correspond to the retaining protrusion 22. In this state, the lever 30 is elastically deformed so that the arm portion 36 is expanded while bending the both end portions of the rotation operation portion 31 or the base end portion of the arm portion 36, and the lever 30 is moved relative to the first housing 10. The arm portion 36 is placed along the left and right outer surfaces of the first housing 10 while moving relative to each other in the vertical direction or the front-rear direction (both arm portions 36 sandwich the first housing 10 from the left and right). The bearing hole 37 is fitted to the support shaft 21 while the lever 30 is elastically restored so as to be closed. At this time, the retaining protrusion 22 passes through the notch 38. Thus, the lever 30 is assembled at the standby position with respect to the first housing 10. In this state, a fitting space 41 opened forward is formed between the inner surface of the arm portion 36 and the outer surface of the first housing 10.

  Further, when the lever 30 is removed from the first housing 10, the bearing hole 37 is supported by the support shaft 21 while the lever 30 is elastically deformed so that both arm portions 36 are expanded in a state where the lever 30 is in the standby position. The lever 30 may be removed from the first housing 10 and moved relative to the first housing 10 back and forth or up and down. Thus, the lever 30 can be attached to and detached from the first housing 10. Further, the lever 30 assembled to the first housing 10 can be rotated in an angle range of about 45 ° between the standby position and the fitting position.

  In a state in which the lever 30 is assembled at the standby position with respect to the first housing 10, the rotation operation unit 31 is positioned obliquely upward and rearward with respect to the support shaft 21 (bearing hole 37), and the inlet 39 </ b> E of the cam groove 39 is It opens forward at substantially the same height as the support shaft 21. Similarly, in the state of being in the standby position, the lock piece 40 is locked from the front with respect to the stopper 24, whereby the rotation of the lever 30 to the fitting position side is restricted. Further, in the state where the lever 30 is in the fitting position, the rotation operation unit 31 is positioned almost directly above the support shaft 21, and the release projection 35 abuts against the abutted portion 18 from the front, When the locking piece 34 enters the locking hole 17 and is locked to the hole edge on the rear side, the rotation of the lever 30 to the standby position side is restricted. In the state where it is in the fitting position, the lock piece 40 escapes and enters the recess 23 to be in a free state (a state in which it does not elastically bend). Further, when the lever 30 is located between the standby position and the fitting position, the retaining projection 22 is detached from the notch portion 38 and locked to the hole edge portion of the bearing hole 37, thereby supporting the arm portion 36. Detachment from the shaft 21 is restricted.

  When the two housings 10 and 50 are fitted with the lever 30 assembled to the first housing 10, the lever 30 is held at the standby position by the locking of the lock piece 40 and the stopper 24. Thus, the hood portion 51 of the second housing 50 is shallowly fitted to the first housing 10 while entering the fitting space 41. Then, as shown in FIG. 1, the cam follower 53 enters the entrance 39 </ b> E of the cam groove 39, the front end side portion of the lock arm 11 is accommodated in the hood portion 51, and the lock portion 55 is located with respect to the lock protrusion 16. It comes into contact or approached from the front. Further, the front end edge of the hood portion 51 abuts against the lock piece 40 that has advanced into the fitting space 41 and elastically displaces the lock piece 40 outward, so that the lock piece 40 is dissociated from the stopper 24. Thereby, the rotation regulation state by the locking of the lock piece 40 and the stopper 24 is released, and the lever 30 is allowed to rotate from the standby position to the fitting position side.

  From this state, when the lever 30 is rotated to the fitting position side (counterclockwise direction in FIG. 1), the two housings 10 and 50 are attracted to each other by the cam action by the engagement of the cam groove 39 and the cam follower 53. As the fitting progresses, the lock arm 11 elastically moves downward (in the direction approaching the upper surface of the first housing 10) due to the interference between the lock portion 55 and the lock protrusion 16 as the fitting of the two housings 10 and 50 progresses. Bend. In the process of engagement between the cam groove 39 and the cam follower 53, the flange portion 54 is engaged with the opening edge of the cam groove 39 from the outer surface side of the arm portion 36. The cam groove 39 is prevented from coming off from the cam follower 53.

  In the process of the fitting of the housings 10 and 50 with the rotation of the lever 30, the rotation operation unit 31 is displaced with respect to the lock arm 11 while displacing its plate surface (posture) so as to approach the horizontal. Approach from behind. Further, the rotation operation unit 31 (including the release protrusion 35 and the locking piece 34) passes above the lock release operation unit 14 that is elastically displaced downward. Further, the lock piece 40 slides backward on the outer surface of the widened portion 20 while being elastically bent outward.

  When the lever 30 is rotated to the release position immediately before the fitting position, both the housings 10 and 50 are brought into the normal fitting state. At this time, since the release protrusion 35 presses the contacted portion 18 downward, the lock arm 11 takes a lock release posture in which the lock protrusion 16 is disengaged from the lock portion 55. When the lever 30 is further rotated from this release position, the lever 30 reaches the fitting position. While the lever 30 moves from the release position to the fitting position, the release locking surface 35S of the release projection 35 and the inclined receiving surface 18S of the contacted portion 18 are in sliding contact, and the lock arm 11 is unlocked by this inclination. Gradually return from the posture to the horizontal locked posture (free state). Similarly, since the cam follower 53 relatively moves within the arc portion 39C of the cam groove 39 while the lever 30 reaches from the release position to the fitting position, no cam action is exhibited between the cam groove 39 and the cam follower 53. Therefore, the housings 10 and 50 are not relatively displaced in the fitting / separating direction.

  When the lever 30 reaches the fitting position, as shown in FIG. 2, when the lever 30 reaches the fitting position, the lock arm 11 returns to the locked position, and the lock protrusion 16 and the lock portion 55 are moved. The two housings 10 and 50 are locked in a fitted state in which relative displacement in the separating direction is restricted. Similarly, in a state where the lever 30 has reached the fitting position, the locking piece 34 of the lever 30 is locked in the locking hole 17 of the lock arm 11, so that the lever 30 moves to the standby position side (release position side). Return is restricted and locked in the mating position. The lock piece 40 is elastically restored inward and escapes into the recess 23. Moreover, the rotation operation part 31 is located so as to cover the entire unlocking operation part 14 from above.

Next, a procedure for removing the two housings 10 and 50 in the fitted state will be described.
First, the elastic bending piece 33 is elastically deformed so as to lift upward, and the locking piece 34 is disengaged from the hole edge of the locking hole 17, thereby releasing the lever lock and moving the lever 30 to the standby position side. Allow. Then, the lever 30 is rotated to the standby position side (release position side) while the lever lock is released (the elastic bending piece 33 is lifted). In the process in which the lever 30 is displaced from the fitting position to the release position, as shown in FIG. 3, the release locking surface 35S of the release projection 35 slides on the inclined receiving surface 18S while being in contact with the contacted portion 18. As a result, the lock arm 11 is elastically deformed so as to displace the unlocking operation portion 14 downward, and the lock protrusion 16 is disengaged from the lock portion 55. When the lever 30 reaches the release position, as shown in FIG. 4, the housing locked state by the locking of the lock protrusion 16 and the lock portion 55 is released, and the housings 10 and 50 can be separated from each other. .

  While the lever 30 is rotated from the fitting position to the release position, the cam follower 53 relatively moves in the arc portion 39C having an arc shape concentric with the support shaft 21 (the rotation center of the lever 30). No cam action is exerted between 39 and the cam follower 53, and therefore both the housings 10 and 50 are kept in the fitted state. Further, while the lever 30 is rotated from the fitting position to the standby position side, the lock piece 40 moves out of the recess 23 while being elastically deformed by the inclination of the inner surface thereof.

  When the lever 30 is further rotated after the lever 30 reaches the release position, the two housings 10 and 50 are gradually separated by the cam action by the engagement of the cam groove 39 and the cam follower 53. During this time, until the upper surface of the lock protrusion 16 partially corresponds to the lower surface of the lock portion 55, the release protrusion 35 contacts the upper surface of the contacted portion 18 and keeps the lock arm 11 in the unlocked posture. After the lock protrusion 16 and the lock portion 55 come into contact with each other, the release protrusion 35 is detached from the contacted portion 18 as the lever 30 rotates, but the lock protrusion 16 locks its upper surface. The lock part 55 can be passed while being brought into sliding contact with the lower surface of the part 55. Therefore, it is not necessary to perform the unlocking operation on the unlocking operation unit 14.

  When the lever 30 reaches the standby position, the cam follower 53 reaches the entrance 39E of the cam groove 39, and can be detached from the cam groove 39. Further, when the lock piece 40 is engaged with the stopper 24, the lever 30 is locked in a state where the rotation to the fitting position side is restricted (a state where the lever 30 is held at the standby position). Thereafter, the housings 10 and 50 may be separated from each other.

In the lever-type connector according to the present embodiment, the lever 30 is detachable from the first housing 10, and even when the lever 30 is detached from the first housing 10, both the housings 10 and 50 are fitted. Can be made. In this case, the hood part 51 may be inserted into the fitting space 41 and the housings 10 and 50 may be brought close to each other as they are.
In the process in which the housings 10 and 50 are fitted, the lock arm 11 is elastically bent to the unlocking posture due to the interference between the lock protrusion 16 and the lock portion 55. When the housings 10 and 50 reach the fitted state, the elastically bent lock arm 11 is elastically restored and the lock protrusion 16 and the lock portion 55 are engaged, whereby the housings 10 and 50 are detached. While being locked in the restricted state, the front end of the hood portion 51 abuts against the stepped front edge (stopper 24) of the widened portion 20, thereby causing relative displacement (approaching operation) in the fitting direction of the housings 10 and 50. The front stop state is restricted, and both housings 10 and 50 are locked in the fitted state.
When detaching the housings 10 and 50 in the fitted state, the lock release operation part 14 exposed to the outside of the hood part 51 is pushed down to perform the lock release operation, and the lock protrusion 16 is locked. It is dissociated from the part 55 and the locked state by the lock arm 11 is released. And what is necessary is just to pull apart both the housings 10 and 50 in this unlocked state.

  As described above, in the present embodiment, when the two housings 10 and 50 are fitted with the lever 30 attached to the first housing 10, the two housings 10 and 50 are locked by the lock arm 11 and the lock portion 55. Are locked in the fitted state, and both the housings 10 and 50 are fitted with the lever 30 removed from the first housing 10, the two housings 10 and 50 are locked by the locking arm 11 and the lock portion 55. Locked to the mated state. The lever-type connector of the present embodiment can be used as a connector without a lever and can lock housings in a fitted state even without a lever.

  Further, in a state where both housings 10 and 50 are fitted using the lever 30, if the lever 30 is rotated (displaced) from the fitting position to the standby position side, the unlocking means (the release protrusion 35) is operated. Since the lock arm 11 is disengaged from the lock portion 55 by the contacted portion 18), it is not necessary to perform an operation for unlocking the lock arm 11 separately from the operation of the lever 30, and the workability is excellent.

  In addition, the first housing 10 and the lever 30 are latched with each other in a state where the lever 30 is displaced to the fitting position, thereby locking the lever 30 to the standby position side (the locking hole 17). Since the locking piece 34) is provided, both the housings 10 and 50 can be reliably locked in the fitted state.

  Also, the release protrusion 35 that is the unlocking means on the lever 30 side and the abutted portion 18 that is the unlocking means on the lock arm 11 side are inclined surfaces (cancelling for releasing) Since the locking surface 35S and the inclined receiving surface 18S) are formed, the displacement operation of the lock arm 11 in the unlocking direction is smoothly performed when the lever 30 is displaced to the standby position side.

  In addition, paying attention to the configuration in which the lock arm 11 extends in a cantilevered manner, a contacted portion 18 that is a lock releasing means is provided at an extended end portion of the lock arm 11. Thus, since the unlocking means on the lock arm 11 side is arranged at the extending end portion of the lock arm 11, compared with the one in which the unlocking means is arranged on the proximal end side of the lock arm 11, The pressing force to be applied from the unlocking means on the lever 30 side to the unlocking means on the lock arm 11 side can be small.

  Further, in a state where both the housings 10 and 50 are locked, the turning operation part 31 of the lever 30 covers the unlocking operation part 14 of the lock arm 11, so that foreign matter is transferred to the unlocking operation part 14. There is no possibility that the lock arm 11 is moved in the unlocking direction due to the interference.

<Embodiment 2>
A second embodiment of the present invention will be described with reference to FIGS. As in the first embodiment, the lever-type connector of the present embodiment includes a first housing 10 and a second housing 50 that can be fitted to each other, and a lever 30 is detachably attached to the first housing 10. . Although the second embodiment has a part overlapping with that of the first embodiment with respect to the reference numerals, even if the reference numerals are the same, the configuration and operation of both are not necessarily the same, and the reference numerals are assigned regardless of the first embodiment. ing.

  The first housing 10 is made of a synthetic resin and has a rectangular block shape as a whole, as shown in FIGS. 19 to 22, and accommodates two types of large and small female terminal fittings 90 connected to the electric wires W therein. A possible cavity 11 is formed through. The cavities 11 are divided into upper and lower two stages and arranged in a plurality of rows in the width direction, and the lances 12 that hold the female terminal fittings 90 in a state of being prevented from coming off are formed on the inner walls so as to be able to bend and deform. A retainer insertion hole 14 is formed in the first housing 10 so as to open from the lower surface to both side surfaces. A side type retainer 95 is inserted into the retainer insertion hole 14 from below, and the retainer 95 and the lance 12 described above prevent the female terminal fitting 90 from coming off twice.

  The first housing 10 is provided with a lever receiving recess 13 that is flat in the width direction and opens to the rear surface above the upper cavity 11. A lever 30 is slid into the lever receiving recess 13 from behind, and the lever 30 is rotatably supported by a columnar support shaft 15 projecting from the inner surface thereof. The support shaft 15 is disposed at a position near the right end of the first housing 10 when viewed from the front.

  Further, a lock arm 16 extending in the front-rear direction is provided on the upper surface of the first housing 10 at a position near the left end that is opposite to the support shaft 15. The lock arm 16 is configured to extend rearwardly in a cantilevered manner and bendable by cutting out a thin cover wall 10A that constitutes the upper wall of the lever receiving recess 13, and on both sides thereof, It has a notch space that opens on the rear surface. Of the cutout space, the one located on the left side with the lock arm 16 in between is a slit space 16A that forms a slit in the front-rear direction, as shown in FIG. On the other hand, the notch space located on the right side with the lock arm 16 in between is defined by a notch edge 16E having an arc shape along the turning locus of the lever 30, and the lever locks while the lever 30 is turning. An escape space 16 </ b> B is provided to avoid collision of the arm 31 (described later) with the cover wall 10 </ b> A by entering here. Further, on the upper surface of the first housing 10, a rib 17 for reinforcing rigidity extending in the front-rear direction extends from the front end to the front edge of the escape space 16B.

  A housing lock protrusion 18 is formed on the upper surface of the lock arm 16 halfway in the extending direction and on the left side of the center in the width direction. Further, on the upper surface of the lock arm 16, an engagement protrusion 19 that can be engaged with the lever 30 in the return direction is formed at the rear end in the extending direction and on the right side of the center in the width direction. The engagement protrusion 19 has a trapezoidal shape that becomes gradually narrower upward when viewed from the side, and the rear edge thereof is a fitting guide surface 19A having an upward gradient toward the front, and the front edge thereof is the rear. It is set as the separation guide surface 19B which becomes an ascending gradient toward. Further, a protective wall 21 having an arch shape in the width direction is erected on the rear end portion of the upper surface of the first housing 10 with roots connected to both side edges thereof. The protective wall 21 serves to protect the unlocking operation piece 32 from external foreign matter by covering the upper part of the unlocking operation piece 32 provided on the lever lock arm 31 when the lever 30 is mounted.

  A cam follower guide groove 22 that opens at the front edge and extends in the front-rear direction is cut out in the cover wall 10A of the first housing 10. The cam follower guide groove 22 guides the fitting operation of the two housings 10, 50 when the base ends of the cam followers 51 formed in the mating second housing 50 enter here when the two housings 10, 50 are fitted. It is possible. The cam follower guide groove 22 and the support shaft 15 are arranged side by side on the same straight line along the front-rear direction. In addition, a window portion 23 that is connected to both the cam follower guide groove 22 and the inner space of the lever receiving recess 13 is opened on the front surface of the first housing 10, and the tip of the cam follower 51 can enter the lever receiving recess 13 through the window 23. It is said that.

  A stopper 24 for holding the lever 30 before the rotation starts is provided on the inner side of the lever housing recess 13 of the first housing 10. A guide rib receiving groove 25 that extends in the front-rear direction while opening the front of the stopper 24 is cut out in the cover wall 10A of the first housing 10, and the guide rib 52 of the second housing 50 that is the counterpart enters the guide rib receiving groove 25. It is possible.

  The lever 30 is made of a synthetic resin and has a single plate shape. As shown in FIG. 16, the lever 30 includes a lever main body 30A that fits in the lever housing recess 13 on the first housing 10 side. A circular bearing hole 33 that can be fitted to the support shaft 15 on the first housing 10 side is provided in the right side region of the lever main body 30 </ b> A in the figure, and the lever main body is located near the bearing hole 33. A cam groove 34 that opens in the outer peripheral edge of 30A and extends in a predetermined direction in a loose arc shape is cut out. On the lower surface of the lever main body 30A, an engagement guide groove 35 that opens toward the bearing hole 33 while opening at the side edge of the cam groove 34 is recessed. When the support shaft 15 is brought into sliding contact with the groove surface of the engagement guide groove 35 when the lever 30 is mounted in the lever receiving recess 13, the amount of displacement of the lever main body 30A is reduced, and the mounting operation of the lever 30 is performed smoothly. Can do.

  FIG. 16 shows the lever 30 between the standby position (rotation start position) and the fitting position (rotation completion position) with the support shaft 15 passing through the bearing hole 33 as the center. It can be rotated counterclockwise. A lock piece 36 is formed on the outer peripheral edge of the lever main body 30A adjacent to the cam groove 34 so as to extend rearward in a cantilever manner through a slit 36A cut in substantially parallel to the outer peripheral edge. Has been. A locking claw 37 is formed at the tip of the lock piece 36, and the locking claw 37 engages with the stopper 24 on the first housing 10 side, so that the lever 30 is held at the standby position. On the other hand, when the housings 10 and 50 are fitted, the locking piece 36 is bent and deformed toward the slit 36A due to the interference between the locking claw 37 and the guide rib 52 of the second housing 50, thereby allowing the lever 30 to rotate. The

  A thin portion 38 that is thinner than the right region is formed in the left region of the lever 30 that is illustrated. As shown in FIG. 24, the thin-walled portion 38 is thinned so as to fall one step from the periphery by removing the upper surface thereof, and a lever lock arm 31 extending in the front-rear direction at a position near its right end. It has. As shown in FIG. 23, the lever lock arm 31 is slightly lifted upward while being connected to a tapered surface 38A inclined in the thick direction at the boundary of the thin portion 38, and then is moved backward. It is made into the form extended in the shape of a hand, and it can be bent and deformed in the thickness direction with its front end as a fulcrum. In the middle of extension of the lever lock arm 31, a lever lock projection 39 is formed over the entire width.

  A stage portion 41 is formed at the rear end portion of the lever lock arm 31 so that the upper surface of the lever lock arm 31 is raised to the same height as the upper surface of the lever lock protrusion 39. An unlocking operation piece 32 is formed so as to protrude. When the lever 30 finishes the pivoting operation and reaches the fitting position, the lever lock arm 31 and the lock arm 16 are arranged side by side with almost no gap in the width direction, and both are provided in the second housing 50. The two housings 10 and 50 are locked in the disengagement restricted state by elastically engaging with the lock portion 53. Further, when the lever 30 is in the fitting position, the unlocking operation piece 32 is arranged so as to cover the upper side of the lock arm 16, and the lever release arm 32 is pushed from this state to lock the lever lock arm 31. It is possible to release the lock by bending and deforming the arm 16 in the direction of disengagement from the lock portion 53. In other words, the unlocking operation piece 32 and the receiving surface of the lock arm 16 facing the unlocking operation piece 32 constitute the unlocking means of the present invention.

  The lever main body 30 </ b> A is provided with a protection rib 42 extending in the front-rear direction along with the stage portion 41 along the right side surface of the stage portion 41. The protective rib 42 and the stage portion 41 are aligned at substantially the same position in the front-rear position and the height position, and the stage portion 41 is protected by the protective rib 42. On the left end edge of the lever main body 30 </ b> A opposite to the protective rib 42 across the stage portion 41, there is formed a knob portion 43 that is held when the lever 30 is rotated. The knob 43 has an upper end higher than the upper end of the stage 41 and has a vertical wall shape along the width direction, and is set at a position farthest from the cam groove 34 in consideration of the lever action. . And the knob | pick part 43 is arrange | positioned so that the lock arm 16 may be pinched | interposed between the lever lock arm 31 when the lever 30 reaches a fitting position, and it plays the role which regulates the loose movement of the lock arm 16 in the width direction. Yes. In addition, the protective wall 21 of the first housing 10 is formed with an escape recess 21A that opens to the rear edge so as to be unlocked by communicating with the stage portion 41, and the lever 30 is in the fitting position. When reaching the knob part 43, the knob part accommodating recess 21B that allows the knob part 43 to enter is formed so as to continue to the recess 21A.

  The second housing 50 is made of a synthetic resin and includes a substantially square tubular hood portion 54 protruding forward as shown in FIGS. 25 to 27. The first housing 10 can be fitted inside the hood portion 54. Inside the hood portion 54, the tip portions of two types of male terminal fittings 80 that are flat in the width direction are accommodated. A cam follower 51 is suspended from the upper surface of the inner side surface of the hood portion 54 at a position closer to the left end as viewed from the front. The cam follower 51 has a cylindrical shape with its axis line oriented in the vertical direction, and has a flange portion 55 projecting concentrically at its protruding end. The smoothness of the cam operation is ensured by sliding the flange portion 55 in the retaining recess 34A provided along the side edge of the cam groove 34 on the lower surface of the lever 30.

  On the left side of the upper surface of the inner side surface of the hood portion 54 with respect to the cam follower 51, a guide rib 52 having a vertical wall shape is suspended. Further, a lock part 53 having a tip claw shape is provided at a position near the right end at the front upper end of the inner side surface of the hood part 54, and a die-cut groove 56 is opened behind the lock part 53. . The rear surface of the lock portion 53 has a reverse taper shape that retreats toward the tip, and can thereby be firmly locked to both the lock arm 16 and the lever lock arm 31. Further, the lock portion 53 is formed wide so that it can be engaged with both the lock arm 16 and the lever lock arm 31 in the width direction, and interferes with the rib 17 of the first housing 10 in the middle of the width direction. The rib relief part 57 for avoiding this is recessed.

  Next, the operation of this embodiment will be described. First, in order to assemble the lever 30 to the first housing 10, the lever 30 in a substantially horizontal posture is slid into the lever receiving recess 13 from the rear, and the lever receiving recess 35 is inserted into the groove surface of the engagement guide groove 35 of the lever 30. After sliding the support shaft 15 projecting from the inner surface of 13, the support shaft 15 is fitted into the bearing hole 33 of the lever 30. During the insertion of the lever 30, the lever 30 is pushed up by the support shaft 15 and slightly lifts upward. However, the cover wall 10 </ b> A of the first housing 10 is bent and deformed to absorb the lift amount of the lever 30. 15 over the lever 30 is possible. During the insertion of the lever 30, the lock piece 36 interferes with the stopper 24 and is bent and deformed toward the slit 36 </ b> A. When the lever 30 reaches the standby position, the lock piece 36 is elastically restored and locked to the rear surface of the stopper 24. Thus, the rotation of the lever 30 to the fitting position is restricted.

  In the state in which the lever 30 is assembled at the standby position, the entrance of the cam groove 34 and the entrance of the cam follower guide groove 22 are matched, and both entrances are opened upward. Further, in a state where the lever 30 is assembled at the standby position, the knob 43 and the unlocking operation piece 32 are disposed so as to be exposed rearward from the rear surface of the first housing 10. From this state, the hood portion 54 of the second housing 50 is shallowly fitted to the first housing 10. Then, as shown in FIGS. 13 and 16, the cam follower 51 enters the both entrances of the cam follower guide groove 22 and the cam groove 34 through the window portion 23, and the front end portion of the lock arm 16 is accommodated in the hood portion 54. The lock portion 53 is positioned close to the housing lock protrusion 18. Further, when the guide rib 52 of the second housing 50 enters the guide rib receiving groove 25 of the first housing 10 and comes into contact with the locking claw 37 of the lock piece 36, and the fitting of both the housings 10 and 50 further proceeds, the guide rib 52 Pushes the lock piece 36 toward the slit 36 </ b> A to release the locking state between the lock piece 36 and the stopper 24. Thereby, the rotation restriction state of the lock piece 36 and the stopper 24 is released, and the rotation of the lever 30 to the fitting position is allowed.

  When the knob portion 43 is picked from this state and the lever 30 is rotated to the fitting position side, the two housings 10 and 50 are attracted to each other by the cam action by the engagement of the cam groove 34 and the cam follower 51, and the fitting is performed. As the fitting of the two housings 10 and 50 progresses, the lock arm 16 is elastically bent downward due to the interference between the lock portion 53 and the housing lock protrusion 18. At this time, since the thin portion 38 of the lever 30 is positioned below the lock arm 16, a bending space of the lock arm 16 is secured between the lock arm 16 and the thin portion 38, and the bending operation of the lock arm 16 is allowed. Is done. In the turning process of the lever 30, the lever lock arm 31 is displaced along the arcuate cutout edge 16E and gradually enters the escape space 16B.

  When the lever 30 is rotated to the position immediately before the fitting position, the lever lock arm 31 is elastically bent downward due to the interference between the lock portion 53 and the lever lock projection 39 of the lever lock arm 31 after the lock arm 16. . Further, after the unlocking operation piece 32 comes into sliding contact with the fitting guide surface 19 </ b> A of the engagement protrusion 19 of the lock arm 16, it gets over the engagement protrusion 19. When the lever 30 reaches the fitting position, as shown in FIGS. 14 and 17, the lock arm 16 and the lever lock arm 31 are elastically restored almost simultaneously and arranged side by side in the width direction. The protrusion 18 and the lever lock protrusion 39 are arranged with their front and rear positions aligned. Accordingly, the housing lock protrusion 18 can be locked to one side in the width direction of the lock portion 53 (left side as viewed from the front), and the lever is provided to the other side in the width direction of the lock portion 53 (right side as viewed from the front). The lock protrusion 39 can be locked, and thus the housings 10 and 50 are firmly locked in a state in which relative displacement in the separating direction is restricted.

  When the lever 30 reaches the fitting position, substantially the entire lever 30 is accommodated in the lever receiving recess 13 without protruding from the first housing 10, and the lock portion 53 and the protective wall 21 face each other in the front-rear direction. The outer surfaces of both are continuous with each other. Further, when the lever 30 reaches the fitting position, as shown in FIG. 15, the unlocking operation piece 32 comes into contact with the upper surface of the lock arm 16 while being in close contact with the release guide surface 19 </ b> B of the engagement protrusion 19. At the same time, the upper part of the unlocking operation piece 32 is covered with the protective wall 21, and the lever lock arm 31 excluding the unlocking operation piece 32 is made visible through the recess 21A. Even if the lever 30 is to be returned to the standby position in this state, the lever lock projection 39 and the lock portion 53 are engaged with each other, and the lock release operation piece 32 and the engagement protrusion 19 are engaged with each other. The return operation of the lever 30 is restricted.

  Next, a procedure for removing both housings 10 and 50 in the fitted state will be described. First, the lever lock arm 31 is elastically deformed by inserting a finger or a jig from the escape recess 21A and pushing down the stage 41 with the finger or the like. Then, the lever lock projection 39 is disengaged from the lock portion 53, and is pushed by the unlocking operation piece 32, so that the lock arm 16 is pushed down, and accordingly, the housing lock projection 18 is disengaged from the lock portion 53. When the stage portion 41 is pushed, the operation rib 41A formed in the width direction at the rear end of the stage portion 41 is hooked, so that workability is improved.

  As described above, the locked state of both the housings 10 and 50 is released and the return operation of the lever 30 to the standby position is allowed. Therefore, the lever 30 is rotated to the standby position side while maintaining the lever unlocked state. In the initial turning state where the lever 30 moves toward the standby position, the unlocking operation piece 32 passes through the engaging protrusion 19 while sliding on the disengagement guide surface 19B of the engaging protrusion 19, and with this passage, the lock arm 16 is moved. Is restored to its original horizontal posture. In addition, after the lever lock projection 39 and the housing lock projection 18 have passed through the lock portion 53, it is not necessary to perform the pressing operation of the stage portion 41, and the lever lock arm 31 may be restored to the original horizontal posture.

  When the lever 30 reaches the standby position, the housings 10 and 50 are separated from each other, and the lock piece 36 elastically locks the stopper 24 so that the lever 30 is restricted from rotating to the fitting position. Retained. After that, both housings 10 and 50 may be separated from each other.

  Next, a procedure for fitting both the housings 10 and 50 without a lever will be described. First, in order to remove the lever 30 from the first housing 10, the engagement state between the lock piece 36 and the stopper 24 is released, the lever 30 is rotated to the fitting position side, and then the covering wall 10 </ b> A is expanded and deformed. Then, the support shaft 15 is detached from the bearing hole 33 of the lever 30, and in this state, the lever 30 is pulled rearward and pulled out from the lever housing recess 13. As a result, the lever 30 is removed from the first housing 10. Subsequently, the second housing 50 is approached from the front of the first housing 10, and the hood portion 54 of the second housing 50 is fitted on the first housing 10. Then, as shown in FIG. 18, the lock arm 16 is elastically displaced into the lever housing recess 13 in which the lever 30 is not housed due to interference between the lock portion 53 and the housing lock protrusion 18. When the housings 10 and 50 are further fitted, as shown in FIG. 19, the lock portion 53 passes through the housing lock projection 18 and the lock arm 16 is elastically restored, and accordingly, the lock portion 53 is moved into the housing lock projection. Both housings 10 and 50 face the rear surface of 18 and are locked in the disengagement restricted state.

  As described above, according to the present embodiment, when the housings 10 and 50 are fitted with the lever 30 attached to the first housing 10, the lock portion 53 is engaged with both the lock arm 16 and the lever lock arm 31. Thus, both the housings 10 and 50 are locked in the fitted state, and the lock portion 53 is locked to the lock arm 16 even when the two housings 10 and 50 are fitted with the lever 30 removed from the first housing 10. Thus, both housings 10 and 50 are locked in the fitted state. Therefore, the lever-type connector of this embodiment can be used as a connector without a lever, and the housings 10 and 50 can be locked in a fitted state even without a lever.

  Further, in a state where both the housings 10 and 50 are fitted using the lever 30, the lock release arm 32 is pushed in the unlocking direction (downward in the present embodiment) to operate the lock arm. Since 16 is pushed by the unlocking operation piece 32 and dissociated from the lock portion 53, it is not necessary to perform an operation of unlocking the lock arm 16 separately from the operation of the lever 30, and the workability is excellent.

  Further, in a state where both the housings 10 and 50 are fitted, both the lock arm 16 and the lever lock arm 31 are locked to the lock portion 53, so that the locking force between the housings 10 and 50 can be increased. Thus, both the housings 10 and 50 can be reliably locked in the disengagement restricted state. Moreover, since the lock arm 16 and the lever lock arm 31 are arranged in parallel without any gap and the counterpart lock part 53 is used in common, the setting area of the counterpart lock part 53 is greatly enlarged or divided. The structure of the lock portion 53 of the second housing 50 can be simplified.

  Further, the turning direction of the lever 30 is set to a direction orthogonal to the bending direction of the lock arm 16 and the lever lock arm 31, and when the lever 30 reaches the fitting position, the unlocking operation piece 32 of the lever lock arm 31 is By setting so as to overlap the lock arm 16 in the bending direction, the locked state of both the lever lock arm 31 and the lock arm 16 can be released based on the release operation of the lock release operation piece 32. The structure of one housing 10 is not particularly complicated.

  In addition, since the lever 30 is rotatably supported by the support shaft 15 formed on the inner surface of the lever housing recess 13, dust and the like can be prevented from adhering to the bearing hole 33 of the lever 30, and the lever 30 can be rotated. Smooth operation is guaranteed. Furthermore, when the lever 30 reaches the fitting position, the unlocking operation piece 32 is covered from the outside by the protective wall 21 provided in the first housing 10, so that the unlocking operation piece 32 interferes with a foreign object, thereby locking the lever. A situation in which the arm 31 is inadvertently elastically displaced in the unlocking direction can be avoided.

<Other embodiments>
The present invention is not limited to the embodiment described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) Although the lever is rotated in the first and second embodiments, the present invention can also be applied to a lever-type connector in which the lever slides linearly.
(2) In Embodiments 1 and 2, the lock arm is provided in the first housing, which is the mounting base of the lever, and the lock portion is provided in the second housing. However, according to the present invention, the lock arm is provided in the second housing. The locking portion may be provided in the first housing which is the mounting base of the lever.
(3) In Embodiment 1, the case where the lever has a gate shape in which a pair of left and right arms is extended from both ends of the operation unit has been described. However, in the present invention, the lever has a single plate shape. It can also be applied to.
(4) In the first embodiment, the inclined surface is formed on both the lever side unlocking means and the lock arm side unlocking means. However, according to the present invention, the inclined surface is formed on the lever side unlocking means and the lock arm. Only one of the lock release means on the side may be used.
(5) In the first embodiment, when the lock arm is displaced in the unlocking direction, the lever is brought into direct contact with the lock arm and pushed. However, according to the present invention, the lever is indirectly connected via another member. You may push the lock arm.
(6) In the first and second embodiments, the lock arm is extended in a cantilever manner. However, according to the present invention, the lock arm may have a both-end support configuration.
(7) In the first and second embodiments, the lock arm side unlocking means is provided at the extended end of the lock arm. According to the present invention, however, the lock arm side unlocking means is used as the base end of the lock arm. You may arrange | position in the position of the side.
(8) In the first embodiment, the unlocking means on the lock arm side is provided in the unlocking operation part of the lock arm. However, according to the present invention, the unlocking means on the lock arm side is arranged at a position other than the unlocking operation part. May be.
(9) In the first embodiment, the lever and the first housing are provided with the lever locking means for locking the lever in the fitting position. However, according to the present invention, such a lever locking means may not be provided. .
(10) In Embodiment 1, the lever covers the unlocking operation portion of the lock arm when both housings are locked. However, according to the present invention, the lever is locked arm when both housings are locked. The lock release operation unit may be exposed to the outside without covering the lock release operation unit.
(11) In the first embodiment, the lock arm is displaced in the unlocking direction by rotating the entire lever in the fitting position toward the standby position. However, according to the present invention, the lever can be elastically bent. A release piece may be provided, and the lock arm may be displaced in the unlocking direction by elastically bending the release piece while keeping the lever in the fitting position. This point is demonstrated in the second embodiment.
(12) In the second embodiment, the unlocking operation piece directly contacts the lock arm and elastically displaces the lock arm in the unlocking direction. However, according to the present invention, the unlocking operation piece is interposed via another member. Thus, the lock arm may be indirectly elastically displaced in the unlocking direction.
(13) In the second embodiment, when the lever reaches the fitting position, the unlocking operation piece is in contact with the lock arm, but according to the present invention, when the lever reaches the fitting position, It is only necessary that the unlocking operation piece overlaps with the lock arm in the bending direction, and it is not always necessary for both to touch each other.
(14) In the second embodiment, when the lever reaches the fitting position, the lock arm and the lever lock arm are arranged so as to be arranged in parallel with almost no gap. When reaching the position, the lock arm and the lever lock arm may be arranged with a gap therebetween.
(15) In the second embodiment, the housing lock protrusion is formed with a locking allowance of substantially half of the entire width of the lock arm. However, according to the present invention, the housing lock protrusion is locked over the entire width of the lock arm. It may be formed with a cost.
(16) In the second embodiment, the engagement protrusion is provided on the lock arm. However, according to the present invention, the engagement protrusion may not be provided on the lock arm.

The partially cutaway side view showing the state in which the lever is in the standby position in the first embodiment Partially cutaway side view showing the state where both levers are engaged by turning the lever to the mating position Partially cutaway side view showing the process of unlocking both housings by rotating the lever Partially cutaway side view showing the state where both housings are unlocked by the lever turning Front view of first housing Side view of first housing Bottom view of first housing Front view of the first housing showing the lever removed The top view of the 1st housing showing the state where the lever was removed Front view of lever Lever plan view Horizontal sectional view of the second housing Cross-sectional view showing a state in which the lever is in the standby position in the second embodiment Cross-sectional view showing a state where both housings are fitted by turning the lever to the fitting position AA sectional view of FIG. Partially cutaway plan view showing the lever in the standby position Partially cutaway plan view showing the state where both housings are fitted by turning the lever to the fitting position Side sectional view showing the state where both housings are mated when there is no lever Side sectional view showing the state where both housings are fitted when there is no lever Front view of the first housing when the lever is removed Rear view of the first housing when the lever is removed Rear view of the first housing with the lever attached Lever side view Front view of lever Front view of second housing Side sectional view of second housing showing lock part Side sectional view of the second housing showing the cam follower

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... 1st housing 11 (16) ... Lock arm 14 ... Lock release operation part 17 ... Locking hole (lever lock means)
18: Abutted part (lock release means)
18S ... inclined receiving surface (inclined surface)
30 ... Lever 34 ... Locking piece (lever lock means)
35 ... Release protrusion (lock release means)
35S: Inclination surface for release (inclined surface)
39 (34): Cam groove 50: Second housing 53 (51): Cam follower 55 (53): Lock portion

Claims (11)

A first housing;
A lever that is detachable with respect to the first housing, and that can be displaced between a standby position and a fitting position when attached to the first housing;
A second housing having a cam follower,
By engaging the cam groove and the cam follower by displacing the lever from the state in which both the housings are shallowly fitted to the cam groove of the lever at the standby position while the housing is shallowly fitted to the fitting position. In the lever type connector in which both the housings are fitted by cam action,
One of the first housing and the second housing is provided with a lock arm,
A lock portion is formed on the other housing of the first housing and the second housing,
The two housings in the fitted state are locked in a detachment restricted state by locking the lock arm and the lock part,
The lever and the lock arm are provided with unlocking means for displacing the lock arm in the unlocking direction in accordance with the operation of the lever in the fitting position to disengage from the lock portion. Lever type connector. 2. The structure according to claim 1, wherein the lock release means is configured to displace the lock arm in a lock release direction as the lever is rotated from the fitting position to the standby position side. Lever type connector. The first housing and the lever are provided with lever locking means for restricting the displacement of the lever to the standby position side by engaging with each other when the lever is displaced to the fitting position. The lever-type connector according to claim 1 or 2, characterized by the above. At least one of the unlocking means on the lever side and the unlocking means on the lock arm side is formed with an inclined surface that can contact the unlocking means on the other side. The lever type connector according to any one of claims 1 to 3. The lock arm extends in a cantilevered manner,
The lever type connector according to any one of claims 1 to 4, wherein the lock release means is provided at an extended end portion of the lock arm. The lever-type connector according to any one of claims 1 to 5, wherein, in a state where both the housings are locked, the lever covers the lock release operation portion of the lock arm. . The lever is provided with a lever lock arm that locks the two housings in the disengagement restricted state in a state where the return operation to the standby position is restricted when the lever is in the fitting position,
The unlocking means is configured to displace the lock arm in the unlocking direction together with the lever lock arm when the lever lock arm is released from a state where the lever is in the fitting position. The lever-type connector according to claim 1. 8. The lever-type connector according to claim 7, wherein the lock portion is engaged with both the lock arm and the lever lock arm when the lever is in a fitting position, and is used in common with the lock arm and the lever lock arm. . The lever is rotatable between a standby position and a fitting position in a direction perpendicular to the unlocking direction,
When the lever is in the mating position, the lever lock arm and the lock arm are arranged side by side in a direction perpendicular to the unlocking direction, and an unlocking operation piece formed to protrude from the lever locking arm is provided. Arranged to overlap in the unlocking direction with the lock arm,
The lever-type connector according to claim 7 or 8, wherein a release operation of the lever lock arm is performed by pressing the lock release operation piece toward the lock arm. The lever housing recess is provided in the first housing, and the lever is rotatably supported by a support shaft formed on an inner surface of the lever housing recess. Lever type connector. The lever type according to claim 9 or 10, wherein the first housing is provided with a protective wall that covers the unlocking operation piece from the outside when the lever is in the fitting position. connector.

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