JP7012509B2 - Connector device - Google Patents

Description

The present invention relates to a connector device for electrically connecting a plurality of cables arranged in a predetermined arrangement direction.

As such a connector device, a plurality of contacts connected to a plurality of cables and a housing for holding these contacts in a state of being arranged side by side in the cable arrangement direction are provided, and the housings are fitted to each other to form a plurality of contacts. There is known a connector device configured to electrically connect a plurality of cables to each other by bringing them into contact with each other. Such connector devices are used in a wide variety of electric devices, and their usage environments are also various. For example, in a connector device used in an environment where water or foreign matter may adhere, such as a food showcase or a connector device for an automobile, water or foreign matter is prevented from entering the inside of the housing provided with the contact. For this purpose, a housing is known to be provided with a sealing member such as silicon rubber (see, for example, Patent Documents 1 and 2). Further, there is also known one provided with a lock mechanism for holding the fitted state between the housings so that the fitted state electrically connected does not come off due to vibration or the weight of the cable or the like.

Japanese Unexamined Patent Publication No. 2014-170708 Japanese Unexamined Patent Publication No. 2013-22532

The size of the connector device as described above increases in the cable arrangement direction according to the number of cables. Further, when the lock mechanism is provided, there is a problem that the size of the connector device becomes large because the thickness (height) of the lock mechanism is added.

The present invention has been made in view of such a problem, and an object of the present invention is to reduce the size of a connector device provided with a locking mechanism.

In order to achieve the above object, the connector device according to the present invention includes a plurality of first contacts (for example, contacts 20 in the embodiment) attached to a plurality of first cables arranged in a row in a predetermined arrangement direction. A first connector (for example, the plug connector 10 in the embodiment) having a first housing (for example, the plug housing 30 in the embodiment) that holds the plurality of first contacts in a line in the arrangement direction. A state in which a plurality of second contacts (for example, the contact 20 in the embodiment) attached to each of the plurality of second cables arranged in a row in the arrangement direction and the plurality of second contacts are arranged in a row in the arrangement direction. It is provided with a second connector (for example, the receptacle connector 50 in the embodiment) having a second housing (for example, the receptacle housing 70 in the embodiment) held by the first housing and the second housing are fitted to each other. By bringing the first contact and the second contact into contact with each other, the first cable and the second cable are electrically connected to each other. Then, when the fitting direction between the first housing and the second housing and the direction orthogonal to the arrangement direction are the vertical direction and the arrangement direction is the left-right direction, the first contact and the second contact are A connecting portion having a first side surface portion and a second side surface portion facing each other in the left-right direction and an upper surface portion and a lower surface portion facing each other in the vertical direction, and a bifurcated first contact provided integrally with the connecting portion. It is a contact having the same configuration having a portion and a second contact portion , and the bifurcated first contact portion and the second contact portion are held in the first housing and the second housing in a posture divided in the left-right direction , and the said. When the first housing and the second housing are fitted together, the first contact portion and the second contact portion of the first contact become the first contact portion and the second contact portion of the second contact. One is sandwiched from the left-right direction, and the first contact portion and the second contact portion of the second contact sandwich one of the first contact portion and the second contact portion of the first contact from the left-right direction. The first contact portion and the second contact portion of the first contact are engaged with the first contact portion and the second contact portion of the second contact, and a plurality of locations come into contact with each other in the arrangement direction. The first contact and the second contact are restricted in the insertion direction at positions eccentric to either the left or right from the center of the left and right, respectively, on the upper surface portion and the lower surface portion of the connection portion. The first housing and the second housing have contact holding holes for inserting and holding the first contact and the second contact, respectively, on the upper surface and the lower surface of the contact holding holes. Is provided with an insertion direction restricting recess in which the insertion direction restricting convex portion is formed so that the first contact and the second contact are restricted from being inserted upside down. The first housing and the second housing have a locking mechanism that holds the fitted state of the first and second housings at the ends in the arrangement direction (for example, the lock arm 35 (lock convex portion 36) in the embodiment. ) And the lock recess 75) are provided.

In the connector device having the above configuration, it is preferable that the locking mechanism is provided only at one end of the first and second housings in the arrangement direction.

In the connector device having the above configuration, the first housing is inserted into the second housing so that the first and second housings are fitted, and the first housing is the other side in the arrangement direction. The second housing may be configured to have a guide concave portion on which the guide convex portion is slidable when the first housing is fitted. preferable.

In the connector device having the above configuration, the first housing and the second housing are configured to have a plurality of sealing members for preventing foreign matter from entering the inside of the first contact and the second contact. Is preferable.

According to the connector device according to the present invention, the first and second contacts are contacts having the same configuration having bifurcated contact portions, and the first and second contacts are in a posture in which the bifurcated contact portions are separated in the cable arrangement direction. It is held in two housings, and when the first and second housings are fitted, the contact portions thereof are engaged with each other so that a plurality of points come into contact with each other in the cable arrangement direction. Therefore, the size (height) of the housing in the direction orthogonal to the cable arrangement direction can be reduced as compared with the configuration in which the bifurcated contacts are held in the housing in a posture divided in the direction orthogonal to the cable arrangement direction. Further, a locking mechanism is provided at the end of the first and second housings in the cable arrangement direction. Therefore, the size (height) of the housing in the direction orthogonal to the cable arrangement direction can be made smaller than that of the conventional connector device provided with the lock mechanism at the end of the housing in the direction orthogonal to the cable arrangement direction. In this way, the connector device can be miniaturized. Further, the first contact and the second contact are composed of contacts having the same configuration. Therefore, by making the contacts into common parts, the contacts can be manufactured on the same production line, and the manufacturing cost can be suppressed.

In the connector device having the above configuration, it is preferable that the locking mechanism is provided only at one end of the first and second housings in the cable arrangement direction. With this configuration, the size (width) of the housing in the cable arrangement direction can be reduced by the thickness (width) of the lock mechanism on one side compared to the conventional connector device provided with lock mechanisms on both sides of the housing. Therefore, the connector device can be further miniaturized.

In the connector device having the above configuration, the first housing is configured to be inserted into and fitted into the second housing, and the first housing has a guide protrusion provided at a position on the other side in the cable arrangement direction. However, it is preferable that the second housing is configured to have a guide recess in which the guide protrusion is slidable when the first housing is fitted. In the case where the lock mechanism is provided only on one end of the housing, if an attempt is made to disengage the housings from each other while operating the lock mechanism, the housing is moved in the direction in which the lock mechanism is provided. The force to rotate is likely to act on the housing, and the force in the direction of rotation makes it difficult to remove the fitting between the housings. Therefore, with the above configuration, the guide convex portion slides in the guide concave portion when the fitting between the housings is removed, so that the housing is guided so as to move linearly in the removal direction. Therefore, even if the above-mentioned force in the rotational direction acts, the fitting between the housings can be easily removed.

In the connector device having the above configuration, it is preferable that the first and second housings are configured to have a plurality of sealing members for preventing foreign matter from entering the inside. With this configuration, the connector device can be used even in an environment where water or foreign matter may adhere to the connector device.

It is a perspective view which looked at the connector device which concerns on one Embodiment of this invention from diagonally above. It is a side view of the said connector device. FIG. 3 is a cross-sectional perspective view taken along the arrow III-III in FIG. It is sectional drawing at the arrow IV-IV in FIG. It is a perspective view which looked at the contact constituting the said connector device from above. It is a perspective view which looked at the said contact from the bottom. It is a top view of the said contact. It is a figure which shows the connection part of the said | FIG. 3A is a cross-sectional perspective view which shows the state before the contact is connected, and (b) is the cross-sectional perspective view which shows the state which a contact was connected. It is a figure which shows the connection part of the said | | a is a cross-sectional view which shows the state before the contact is connected, (b) is the cross-sectional view which shows the state which a contact was connected. It is a cross-sectional view which shows the state which the plug connector which constitutes the said connector device and the receptacle connector are fitted. It is a vertical cross-sectional view which shows the state which the plug connector which constitutes the said connector device and the receptacle connector are fitted.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. The connector device 1 according to the embodiment of the present invention is shown in FIGS. 1 to 4. In this embodiment, for convenience of explanation, the directions of the front-back, left-right, and up-down arrows shown in FIG. 1 and the like are referred to as the front-back direction, the left-right direction, and the up-down direction, respectively.

The connector device 1 includes a plug connector 10 attached to the ends of three first cables C1 arranged in the left-right direction, and a receptacle connector 50 attached to the ends of the three second cables C2 arranged in the left-right direction. The plug connector 10 is fitted in the receptacle connector 50 so that the three first and second cables C1 and C2 are electrically connected to each other. The plug connector 10 corresponds to the "first connector" described in the claims, and the receptacle connector 50 corresponds to the "second connector" described in the claims.

The plug connector 10 is a plug that houses and holds three contacts 20 attached to the ends of the three first cables C1 and three contacts 20 in a state of being arranged in the left-right direction (cable arrangement direction). It has a housing 30 and is configured. Each of the three first cables C1 has a core wire C1a (signal wire) formed by bringing together a plurality of thin metal wires and an insulator C1b (insulation coating) that covers the periphery of the core wire C1a formed of an insulating material. It is a cable configured with and. At the end of the first cable C1 on the side to which the contact 20 is attached, the insulator C1b is removed so that the core wire C1a is exposed (see FIGS. 3 and 4).

The contact 20 is formed into a predetermined shape shown in FIGS. 5 to 9 by pressing (punching, bending, etc.) a thin flat plate of a conductive material such as metal. The contact 20 is a crimp terminal that is crimp-connected to the end of the first cable C1. The contact 20 is connected to the connection portion 24 having the left and right side plate portions 21L and 21R, the upper plate portion 22 and the lower plate portion 23, and the base end portion of the connection portion 24 in order from the tip side, and the first cable C1. The core wire crimping portion 28 for holding the core wire C1a and the insulator crimping portion 29 connected to the base end portion of the core wire crimping portion 28 and holding the insulator C1b of the first cable C1 are provided. Convex portions 22a and 23a are formed on the upper surface of the upper plate portion 22 and the lower surface of the lower plate portion 23 at positions slightly eccentric from the left and right center to the left, respectively. A locking hole 21a is formed in the right side plate portion 21R.

The tip of the connecting portion 24 has left and right side plate portions 21L and 21R extending toward the tip side from the upper plate portion 22 and the lower plate portion 23, and is formed in a bifurcated shape in a plan view. The connection portion 24 has a folded-back portion 25 that is folded inward from the tip portion of the right plate portion 21R and extends toward the proximal end side, and a cantilever shape that is folded inward from the lower portion of the left plate portion 21L on the proximal end side and extends toward the distal end side. It has an elastic piece portion 26 of the above. The folded-back portion 25 is bent into a dogleg shape in a plan view, and a flat contact portion 25a is provided at the bent portion. The elastic piece portion 26 is bent into a “he” shape in a plan view, and a convex contact portion 26a is provided at the bent portion. The contact portion 26a is arranged to face the contact portion 25a of the folded portion 25 on the left and right sides on the free end side (tip side) of the elastic piece portion 26, and the folded portion 25 is arranged in accordance with the elastic deformation of the elastic piece portion 26. It can be displaced in the direction of approaching or separating from the contact portion 25a.

The distance between the contact portion 25a of the folded portion 25 and the contact portion 26a of the elastic piece portion 26 is formed to be smaller than the thickness from the outer surface of the right side plate portion 21R to the surface (contact surface) of the contact portion 25a. Then, based on the elastic force (restoring force) of the elastic piece portion 26, as shown in FIGS. 8 and 9, a contact 20 having the same configuration (hereinafter, "contact 20'" and a numbering "'" are added. The right side plate portion 21R'and the folded portion 25' are elastically sandwiched from both the left and right sides so that they can be contacted. In this way, the contact 20 can be fitted and contacted with the contact 20'of the same configuration in a state of being displaced from each other in the left-right direction, by the contact portion 25a of the folded-back portion 25 and the contact portion 26a of the elastic piece portion 26. Contact is made at three points X, Y, and Z shown in FIG. 9 (b).

The insulator crimping portion 29 is formed in a "U" shape having a pair of left and right insulator crimping pieces 29a, and can be crimped to the insulator C1b of the first cable C1 by crimping the left and right insulator crimping pieces 29a. It is configured. The core wire crimping portion 28 is formed in a "U" shape having a pair of left and right core wire crimping pieces 28a, and is configured to be crimpable to the core wire C1a of the first cable C1 by crimping the left and right core wire crimping pieces 28a. .. In order to connect the first cable C1 to the contact 20, the first cable C1 is arranged between the left and right insulator crimping pieces 29a and the core wire crimping piece 28a, and the left and right insulators are attached to the insulator C1b of the first cable C1. The crimping piece 29a is crimped (crimped), and the left and right core wire crimping pieces 28a are crimped (crimped) to the core wire C1a exposed on the end side of the first cable C1. As a result, the contact 20 is fixed to the end of the first cable C1, and the contact 20 and the first cable C1 are electrically connected.

As shown in FIGS. 1 to 4, the plug housing 30 is integrally molded using an electrically insulating material such as synthetic resin, and has a horizontally long substantially rectangular box-shaped plug housing body 31 extending in the left-right direction. It is configured to have a lock arm 35 provided on the left side portion of the plug housing main body 31. The lock arm 35 is formed in a cantilever shape extending from the rear end of the left side portion of the plug housing main body 31 toward the tip end side, and a lock convex portion 36 projecting to the left is provided at the tip end portion of the lock arm 35. The lock convex portion 36 can be displaced in a direction toward or away from the left side portion of the plug housing main body 31 according to the elastic deformation of the lock arm 35.

On the upper surface and the lower surface of the plug housing main body 31, rectangular convex guide protrusions 32 extending in the front-rear direction are provided at positions on the right side away from the lock arm 35, respectively. Rear end wall portions 33 extending in the left-right direction are provided at the rear end portions of the upper surface and the lower surface of the plug housing main body 31, respectively. A concave groove is formed on the front end side of the plug housing main body 31 so as to go around the outer peripheral surface, and a ring-shaped first seal member 41 is attached to the groove. The first seal member 41 is formed by using a rubber material such as silicon rubber, and has two fold portions 41a arranged in the front-rear direction.

Inside the plug housing main body 31, three elongated contact holding holes 37 penetrating in the front-rear direction are formed side by side in the left-right direction, and the contact 20 can be accommodated and held in each of the contact holding holes 37. It is configured in. A horizontally long rectangular second seal member 42 extending in the left-right direction is attached to the rear end portion in the plug housing main body 31. The second seal member 42 is formed by using a rubber material such as silicon rubber, and has three cable insertion holes 42a penetrating in the front-rear direction. Each of the three cable insertion holes 42a communicates with the contact holding hole 37. The second seal member 42 is attached in close contact with the inner surface of the plug housing main body 31, and can prevent water or foreign matter from entering the plug housing 30 from between the inner surface of the plug housing main body 31.

In the plug connector 10, the contact 20 attached to the end of the first cable C1 is inserted into the contact holding hole 37 from the rear end opening of the cable insertion hole 42a of the second seal member 42 into the plug housing 30. Can be assembled. At this time, as shown in FIG. 4, the convex portions 22a and 23a of the contact 20 are inserted into the concave portions formed on the upper surface and the lower surface of the contact holding hole 37, respectively, so that the contact 20 is turned upside down. The insertion direction is determined so that it will not be inserted. Further, as shown in FIG. 3, the contact 20 comes into contact with the locking wall portion 38 provided at the front end portion of the contact holding hole 37. These abutments restrict the forward movement of the contact 20 within the contact holding hole 37. Further, the locking claw portion 37b formed on the inner surface of the contact holding hole 37 is inserted into the locking hole 21a of the contact 20, whereby the contact 20 is prevented from coming off in the contact holding hole 37 (rearwardly). It is designed to be held in a state where movement is restricted).

The contact 20 assembled in the plug housing 30 in this way has a bifurcated posture in which the tip portion (folded portion 25 and elastic piece portion 26) of the connecting portion 24 is divided in the left-right direction (cable and contact arrangement direction). Be retained. At this time, the inner surface of the cable insertion hole 42a of the second seal member 42 is in close contact with the outer peripheral surface of the insulator C1b of the first cable C1, and water or water or water is introduced into the plug housing 30 from between the outer peripheral surface of the insulator C1b. It is possible to prevent foreign matter from entering. Since the contact 20 is inserted into the cable insertion hole 42a and assembled as described above, the contact 20 is configured to have a size that allows it to be inserted into the cable insertion hole 42a, and each corner portion is configured so as not to damage the inner surface of the cable insertion hole 42a. Has been chamfered.

As shown in FIGS. 1 to 4, the receptacle connector 50 has three contacts 20'(which have the same configuration as the above-mentioned contact 20 but are distinguished from each other) attached to the ends of the three second cables C2. (Explained with "'"), and a receptacle housing 70 that houses and holds the three contacts 20'in a state of being lined up in the left-right direction (cable arrangement direction). .. Similar to the first cable C1 described above, the three second cables C2 consist of a core wire C2a (signal wire) formed by gathering a plurality of thin metal wires and a core wire C2a formed of an insulating material. It is a cable configured to have an insulator C2b (insulation coating) that covers the surroundings. At the end of the second cable C2 on the side to which the contact 20'is attached, the insulator C2b is removed so that the core wire C2a is exposed. As for the contact 20', the contact 20'is fixed to the end of the second cable C2 and the contact 20'and the second cable C1 are fixed in the same manner as the contact 20 and the first cable C1 described above.
2 is electrically connected.

The receptacle housing 70 is integrally molded using an electrically insulating material such as synthetic resin, and is connected to a horizontally long substantially rectangular box-shaped receptacle housing main body 71 extending in the left-right direction and a rear end portion of the receptacle housing main body 71. It is configured to have a substantially rectangular box-shaped receptacle fitting portion 72 provided in the above, and a lock recess 75 provided on the left side portion of the receptacle fitting portion 72. A receiving space 73 open to the rear is provided inside the receptacle fitting portion 72, and the front end side of the plug housing 30 is inserted from the rear into the receiving space 73 so that the receptacle fitting portion 72 can be fitted. The lock recess 75 is formed in a rectangular hole shape communicating with the receiving space 73, and the lock convex portion 36 of the lock arm 35 of the plug housing 30 fitted in the receiving space 73 is inserted into the lock recess 75 and locked. It is possible.

A rectangular concave guide recess 74 extending in the front-rear direction is provided on the inner upper surface and the lower surface of the receptacle fitting portion 72 at positions on the right side away from the lock recess 75, respectively (see FIG. 3). The guide concave portion 74 is formed in a tapered shape with the rear end side widened, and the guide convex portion 32 of the plug housing 30 fitted in the receiving space 73 can be inserted into the guide concave portion 74.

Inside the receptacle housing main body 71, three elongated contact holding holes 77 penetrating in the front-rear direction are formed side by side in the left-right direction, and the contact 20'is housed and held in each of the contact holding holes 77. It is configured to be possible. The rear ends of the three contact holding holes 77 communicate with the receiving space 73, respectively. A horizontally long rectangular third seal member 43 extending in the left-right direction is attached to the rear end portion in the receptacle housing main body 71. Like the second seal member 42 described above, the third seal member 43 is formed of a rubber material such as silicon rubber, and has three cable insertion holes 43a penetrating in the front-rear direction. Each of the three cable insertion holes 43a communicates with the contact holding hole 77. The third seal member 43 is attached in close contact with the inner surface of the receptacle housing main body 71, and can prevent water or foreign matter from entering the receptacle housing 70 from between the inner surface of the receptacle housing main body 71.

In the receptacle connector 50, the contact 20'attached to the end of the second cable C2 is inserted into the contact holding hole 77 from the front end opening of the cable insertion hole 43a of the third seal member 43 into the receptacle housing 70. Can be assembled. At this time, as shown in FIG. 4, the convex portions 22a ′ and 23a ′ of the contact 20 ′ are inserted into the concave portions formed on the upper surface and the lower surface of the contact holding hole 77, respectively, so that the contact 20 ′ is moved up and down. The insertion direction is determined so that it will not be inserted in the opposite state. Further, as shown in FIG. 3, the contact 20 comes into contact with the locking wall portion 78 provided at the rear end portion of the contact holding hole 77. These abutments restrict the rearward movement of the contact 20 within the contact holding hole 77. Further, the locking claw portion 77b formed on the inner surface of the contact holding hole 77 is inserted into the locking hole 21a'of the contact 20', whereby the contact 20'is prevented from coming off in the contact holding hole 77 (a state in which the contact 20'is prevented from coming off. It is designed to be held in a state where forward movement is restricted).

In each of the three contacts 20'assembled in the receptacle housing 70 in this way, the tip end portion (folded portion 25'and elastic piece portion 26') of the connecting portion 24'is in the left-right direction (cable and contact arrangement direction). It is held in a bifurcated posture that is open to the public. Further, the three contacts 20'are held in a state where the tip of the connecting portion 24'projects into the receiving space 73 in the receptacle housing 70. At this time, the inner surface of the cable insertion hole 43a of the third seal member 43 is in close contact with the outer peripheral surface of the insulator C2b of the second cable C2, and water or water or water is introduced into the receptacle housing 70 from between the outer peripheral surface of the insulator C2b. It is possible to prevent foreign matter from entering. Since the contact 20'is inserted into the cable insertion hole 43a and assembled as described above, the contact 20'is configured to have a size that allows it to be inserted into the cable insertion hole 43a, and each corner is configured so as not to damage the inner surface of the cable insertion hole 43a. The part is chamfered.

In the connector device 1 configured as described above, in order to connect the plug connector 10 and the receptacle connector 50, as shown in FIG. 1, the front end side of the plug housing 30 is inserted into the receiving space 73 of the receptacle housing 70 from the rear. I will do it. At this time, the guide convex portion 32 of the plug housing 30 is inserted into the guide concave portion 74 of the receptacle housing 70 and slides so that the plug housing 30 is inserted linearly (straight) with respect to the receptacle housing 70. Be guided. At this time, the lock convex portion 36 of the lock arm 35 of the plug housing 30 is pressed against the inner surface of the receptacle housing 70, and the lock arm 35 is elastically deformed to the right side (direction approaching the plug housing main body 31).

When the plug housing 30 is inserted into the receptacle housing 70 (reception space 73) to the state shown in FIGS. 10 and 11 and fitted, the lock arm 35 is fitted by the elastic force (restoring force) of the lock arm 35 of the plug housing 30. The lock protrusion 36 is inserted into the lock recess 75 of the receptacle housing 70. At this time, the rear surface of the lock convex portion 36 is in contact with the rear inner surface of the lock recess 75, which restricts the plug housing 30 from moving in the removal direction (rear) with respect to the receptacle housing 70, and the plug is plugged. The fitted state of the housing 30 and the receptacle housing 70 is maintained.

When the plug housing 30 and the receptacle housing 70 are fitted in this way, the three contacts 20'held in the receptacle housing 70 with the tip of the connecting portion 24'protruding into the receiving space 73, respectively. It is inserted into the contact holding hole 37 through the front end opening of the contact holding hole 37 in the plug housing 30. Then, as described above, the contact 20 and the contact 20'are caused by the elastic force (restoring force) of the elastic piece portion 26 of the contact 20 held in the contact holding hole 37 and the elastic piece portion 26'of the contact 20'. They are fitted to each other in a state of being sandwiched from both the left and right sides and come into contact with each other at three points. The three first cables C1 and the three second cables C2 are electrically connected to each other via the contacts 20 and 20'that are contacted at three points in this way.

When the plug housing 30 and the receptacle housing 70 are fitted as described above, the first seal member 41 attached to the plug housing 30 is in close contact with the inner surface of the receptacle housing 70 (receptacle fitting portion 72). .. This makes it possible to prevent water or foreign matter from entering the inside to which the contacts 20, 20'are connected from the fitting portion of the plug housing 30 and the receptacle housing 70.

To remove the plug connector 10 and the receptacle connector 50 connected in this way, the lock convex portion 36 of the lock arm 35 of the plug housing 30 is pressed to the right side (in the direction closer to the plug housing main body 31) to press the lock arm. The 35 is elastically deformed. In the state where the lock arm 35 is elastically deformed in this way to release the locked state (contact state) between the lock convex portion 36 and the lock concave portion 75 of the receptacle housing 70, for example, the rear end wall portion 33 of the plug housing 30 is held. Then, by pulling out the plug housing 30 with respect to the receptacle housing 70, the plug connector 10 and the receptacle connector 50 are removed.

At this time, when the plug housing 30 is pulled backward with respect to the receptacle housing 70 while pressing the lock arm 35 (lock convex portion 36) provided only on the left side portion of the plug housing 30, the plug housing 30 is pulled to the left. The force for rotating in the direction tends to act on the plug housing 30, and the force in the direction of rotation makes it difficult to pull out the plug housing 30. Therefore, the guide convex portion 32 of the plug housing 30 inserted in the guide concave portion 74 of the receptacle housing 70 slides in the guide concave portion 74 when the plug housing 30 is pulled out, so that the plug housing 30 becomes the receptacle housing 70. On the other hand, it is guided to be pulled out in a straight line. Therefore, the plug connector 10 can be easily removed from the receptacle connector 50 even when the above-mentioned force in the rotational direction acts.

According to the connector device 1 according to the present embodiment, the plug connector 10 and the receptacle connector 50 include a contact 20 having the same configuration (same shape) having a bifurcated connection portion 24, and the bifurcated connection portion 24 has a cable arrangement. It is held by the plug housing 30 and the receptacle housing 70 in a directionally separated posture. Then, when the plug housing 30 and the receptacle housing 70 are fitted to each other, the connection portions 24 are engaged with each other and are configured to come into contact with each other at three points in the cable arrangement direction. Therefore, the size (height) in the direction orthogonal to the cable arrangement direction of the plug housing 30 and the receptacle housing 70 is larger than the configuration in which the bifurcated contact is held in the housing in a posture divided in the direction orthogonal to the cable arrangement direction. It can be made smaller. Further, a lock arm 35 (lock convex portion 36) and a lock concave portion 75, which are lock mechanisms, are provided only on the left side portion of the plug housing 30 and the receptacle housing 70. Therefore, the size (height) of the plug housing 30 and the receptacle housing 70 in the direction orthogonal to the cable arrangement direction is larger than that of the conventional connector device in which the lock mechanism is provided at the end of the housing in the direction orthogonal to the cable arrangement direction. It can be made smaller. In this way, the connector device 1 can be miniaturized.

Further, according to the connector device 1, the plug connector 10 and the receptacle connector 50 are configured to include contacts 20 having the same configuration (same shape). Therefore, by making the contacts into common parts, the contacts can be manufactured on the same production line, and the manufacturing cost can be suppressed. Further, according to the connector device 1, the plug connector 10 and the receptacle connector 50 include a first seal member 41, a second seal member 42, and a third seal member 43. Therefore, the connector device can be used even in an environment where water or foreign matter may adhere to the connector device.

Although the preferred embodiments of the present invention have been described so far, the scope of the present invention is not limited to those shown in the above-described embodiments. For example, in the above-described embodiment, the lock arm 35 (lock convex portion 36) and the lock concave portion 75, which are lock mechanisms, are provided only on the left side portion of the plug housing 30 and the receptacle housing 70. It may be configured to be provided only on the right side portion of the plug housing 30 and the receptacle housing 70. Further, the locking mechanism may be provided on both the left side portion and the right side portion of the plug housing 30 and the receptacle housing 70. Further, the lock mechanism including the lock arm 35 and the lock recess 75 is an example, and may be a lock mechanism having another configuration.

Further, in the above-described embodiment, the guide convex portion 32 and the guide concave portion 74 are provided on both the upper and lower surfaces of the plug housing 30 and the receptacle housing 70, but the guide convex portion 32 and the guide concave portion 74 are the plug housing 30 and the receptacle housing. The configuration may be provided on only one of the upper surface and the lower surface of the 70. Further, the guide convex portion 32 and the guide concave portion 74 may be provided on the right side portion of the plug housing 30 and the receptacle housing 70. Further, the guide protrusion 32 and the guide recess 74 may be provided at positions other than the right side away from the lock arm 35 and the lock recess 75, such as a position substantially at the center of the upper and lower surfaces of the plug housing 30 and the receptacle housing 70.

Further, in the above-described embodiment, the configuration in which the plug connector 10 and the receptacle connector 50 each include three contacts 20 has been described, but this is an example, and the number of contacts may be any number.

1 Connector device 10 Plug connector (1st connector)
20 contacts (1st contact, 2nd contact)
30 plug housing (first housing)
32 Guide convex part 35 Lock arm (lock mechanism)
36 Lock convex part (lock mechanism)
41 1st seal member 42 2nd seal member 43 3rd seal member 50 Receptacle connector (2nd connector)
70 Receptacle housing (second housing)
74 Guide recess 75 Lock recess (lock mechanism)
C1 1st cable C2 2nd cable

Claims (4)

A plurality of first contacts attached to a plurality of first cables arranged in a row in a predetermined arrangement direction, and a first housing for holding the plurality of first contacts in a row in the arrangement direction. The first connector to have
It has a plurality of second contacts attached to each of the plurality of second cables arranged in a row in the arrangement direction, and a second housing for holding the plurality of second contacts in a state of being arranged in a row in the arrangement direction. Equipped with a second connector
In a connector device that electrically connects the first cable and the second cable by fitting the first housing and the second housing and bringing the first contact and the second contact into contact with each other. ,
When the fitting direction between the first housing and the second housing and the direction orthogonal to the arrangement direction are the vertical direction, and the arrangement direction is the left-right direction,
The first contact and the second contact are a connection portion having a first side surface portion and a second side surface portion facing each other in the left-right direction and an upper surface portion and a lower surface portion facing each other in the vertical direction, and the connection portion. It is a contact having the same configuration having a bifurcated first contact portion and a second contact portion provided integrally, and the first contact portion is in a posture in which the bifurcated first contact portion and the second contact portion are separated in the left-right direction . Retained in the housing and the second housing
When the first housing and the second housing are fitted together, the first contact portion and the second contact portion of the first contact form the first contact portion and the second contact portion of the second contact. One of the portions is sandwiched from the left-right direction, and the first contact portion and the second contact portion of the second contact sandwich one of the first contact portion and the second contact portion of the first contact from the left-right direction. As described above, the first contact portion and the second contact portion of the first contact are engaged with the first contact portion and the second contact portion of the second contact, and a plurality of points are in contact with each other in the arrangement direction. Configured to
The first contact and the second contact have convex portions for restricting the insertion direction at positions eccentric from the center of the left and right to either the left or the right, respectively, on the upper surface portion and the lower surface portion of the connection portion. Have and
The first housing and the second housing have contact holding holes into which the first contact and the second contact are inserted and held, respectively, and the first contact and the first contact are formed on the upper surface and the lower surface of the contact holding holes. A concave portion for restricting the insertion direction is provided so that a convex portion for restricting the insertion direction is formed so as to restrict the insertion of the second contacts in an upside-down state.
The first housing and the second housing are connector devices characterized in that a locking mechanism for holding a fitted state of the first and second housings is provided at an end portion in the arrangement direction. The connector device according to claim 1, wherein the locking mechanism is provided only at one end of the first and second housings in the arrangement direction. The first housing is configured to be inserted into the second housing to fit the first and second housings.
The first housing has a guide protrusion provided at a position on the other side in the arrangement direction.
The connector device according to claim 2, wherein the second housing is configured to have a guide recess in which the guide protrusion is slidable when the first housing is fitted. A claim characterized in that the first housing and the second housing are configured to have a plurality of sealing members for preventing foreign matter from entering the inside of the first contact and the second contact. Item 6. The connector device according to any one of Items 1 to 3.

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