JP3960943B2 - Joint connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a joint connector suitable for connecting a wire harness or the like routed in an automobile or the like.
[0002]
[Prior art]
As this type of connector, there are a plurality of connector housings provided with a plurality of terminal accommodating chambers for accommodating connection terminals connected to an electric wire constituting a wire harness or the like by crimping, and front and rear sides on both sides of the connector housing Each of which is provided with a latching recess and a latching projection, each of which is provided on one side, and is laminated with a plurality of connector housings, and the other is laminated with the latching recess or latching projection provided on one connector housing. Connector housing locking means for engaging a locking projection or a locking recess provided in the connector housing of the connector housing, and the connection connector housed in the terminal housing chamber of the one connector housing on the other connector housing to be stacked A protrusion is provided so as to be engaged with the terminal, and a locking protrusion is provided for preventing the connection terminal from coming off and detecting half-insertion.
[0003]
The connector housing locking means provided on the front side of the both sides of the connector housing has a concave groove whose locking recess opens upward in the upper portion of the connector housing and has an enlarged diameter step portion in the lower inner bottom portion. The locking projection protrudes downward from the lower portion of the connector housing, and is formed of a linear locking piece having a claw that engages with the enlarged stepped portion of the locking recess at the tip.
[0004]
Further, the connector housing locking means provided on the rear side of the both sides of the connector housing is opposite to the connector housing locking means provided on the front side, and the locking recess opens downward in the lower part of the connector housing, It is formed with a concave groove with an enlarged diameter step on the upper inner bottom part, the locking projection protrudes upward at the top of the connector housing, and has a claw that engages with the enlarged diameter step of the locking recess at the tip. It is formed by the shape locking piece (refer patent document 1).
[0005]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 2002-246127 (paragraphs 0036 to 0040 in FIG. 1, FIG. 3, FIG. 4 and FIG. 4)
[0006]
[Problems to be solved by the invention]
Such a joint connector is usually assembled by laminating these connector housings in a plurality of stages in a state where the connection terminals are accommodated in the terminal housing chamber of the connector housing, and combining them with the connector housing locking means. In this case, due to the structure of the connector housing locking means, the connector housings are stacked by moving in a direction perpendicular to the connecting terminal insertion direction and overlapping. As a result, when the connection terminal is housed in the terminal housing chamber of the connector housing in a half-inserted state, the locking projection protruding from the stacked connector housing abuts against the wall of the connection terminal and the like. Since it does not engage with the joint, the half-insertion state of the connection terminal is detected using this.
[0007]
However, the connector housing is generally formed by plastic molding and has the advantages of being lightweight and easy to manufacture and inexpensive. However, the connector housing has the disadvantage that it is not strong enough and easily deforms when external force is applied. Even if the locking projection is accommodated in the terminal receiving chamber in the inserted state and the locking projection does not engage with the connection terminal, the locking projection escapes due to a partial deformation of the terminal receiving chamber, and it is as if the locking projection is the connection terminal. It is easy to be in the same state as engaged with. If it does so, correct half-insertion detection of the connection terminal cannot be performed, and there is a possibility that the stacked connector housings may be united with the connection terminal being accommodated in the terminal accommodating chamber in a half-inserted state. There was a problem of lowering performance and reliability.
[0008]
In order to solve such a problem, the wall thickness of the terminal housing chamber of the connector housing is increased to increase the mechanical strength, and when the connector housings are stacked, the connector housings are prevented from being deformed, and the connection terminals are half-finished. It is also conceivable that the insertion state is reliably detected so that the connector terminal does not merge with the connector housing in the half insertion state. However, since the outer dimensions of the connector housing are increased, the number of stacked layers of the connector housing is increased and the number of stages is increased. As a result, the size of the joint connector is increased, which causes inconvenience in assembling to a device or the like.
[0009]
The present invention solves the above problems, and when stacking connector housings, the connection terminals are quickly corrected to the desired normal insertion state even if the connection terminals may be accommodated in the terminal accommodation chamber in a half-inserted state. The purpose of the present invention is to provide a joint connector that can be housed in a compact manner, improves connection performance and reliability, and is compact and can be efficiently assembled without any effort. To do.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 of the present invention includes a plurality of connector housings provided with a plurality of terminal accommodating chambers for accommodating connection terminals, and front and rear sides on both sides of the connector housing. Each of which is provided with a latching recess and a latching projection, each of which is provided on one side, and is laminated with a plurality of connector housings, and the other is laminated with the latching recess or latching projection provided on one connector housing. A connector housing locking means for engaging a locking projection or a locking recess provided in the connector housing, and a connection terminal accommodated in the terminal housing chamber of the one connector housing on the other connector housing. In the joint connector provided with a locking projection that protrudes so as to be connected and prevents the connection terminal from coming off and detects half-insertion, the connector housing The connector housing locking means provided on the front side of the both sides of the housing has a recessed groove whose locking recess opens laterally, and the locking protrusion is loosely inserted into the recessed groove of the locking recess. It has a horizontal locking piece that extends in the front-rear direction to be engaged and a vertical locking piece that can be brought into contact with the locking recess, and is formed in a substantially L shape by the horizontal locking piece and the vertical locking piece. It is characterized by.
[0011]
According to such a configuration, when the connector housings are stacked, even if the connection terminals may be accommodated in the half-inserted state in the terminal accommodating chamber, the connection terminals are promptly corrected to the desired normal insertion state. The connector can be accommodated in a predetermined position, and the connection performance and reliability of the connector can be improved, and it is small in size and can be efficiently assembled without trouble.
[0012]
According to a second aspect of the present invention, in the joint connector according to the first aspect, the connector housings stacked between the connector housing locking means provided on the front and rear sides on both sides of the connector housing are arranged. A guide concave groove for restraining relative movement and a guide rib fitted to the guide concave groove are provided, and each rear portion of the guide concave groove and the guide rib is formed in an inclined surface that is widened toward the end.
[0013]
According to such a configuration, the relative movement of the laminated and combined connector housings is reliably restrained by the guide ribs, and rattling is suppressed by contact by the guide concave grooves and the inclined surfaces of the guide ribs. When the housings are stacked from the inclined position, the guide ribs do not hit the inner peripheral edge of the guide groove, but fit smoothly, so that the stacking workability can be improved.
[0014]
According to a third aspect of the present invention, in the joint connector according to the first or second aspect, a terminal guide inclined portion projecting downward is provided on the lower wall near the terminal insertion opening in the terminal housing chamber of the connector housing. In addition, a relief groove that engages with the terminal guide inclined portion is provided in the upper part of both side walls in the vicinity of the corresponding terminal insertion opening.
[0015]
According to such a configuration, even when a connection terminal connected to an electric wire which is easily buckled and bent due to its small size and small diameter is inserted into the terminal housing chamber of the connector housing, the electric wire is buckled and bent. Without being deformed, it can be smoothly inserted while being guided by the terminal guide inclined portion of the terminal insertion port.
[0016]
According to a fourth aspect of the present invention, in the joint connector according to the first, second, or third aspect, the rear side of the terminal accommodating chamber of the connector housing is opened upward, and the upper opening of the terminal insertion port is opened. A stopper member is provided at the upper part of both side walls of the terminal accommodating chamber at the terminal insertion port so as to cover, and a notch for receiving the stopper member is provided at the lower part of both side walls of the terminal accommodating chamber corresponding thereto. It is what.
[0017]
According to such a configuration, after the connection terminal is inserted and accommodated in the terminal accommodating chamber, even if a tensile force acts upward on the electric wire, the electric wire is It is possible to prevent the rear side of the lance of the connector housing and the connection terminals from being damaged without being twisted upward. In addition, since the insertion direction of the connection terminal from the terminal insertion port is regulated by the stopper member, it is quickly detected that the connection terminal is inserted into the terminal accommodating chamber in the upside down direction. It is possible to reliably prevent the storage chamber from being stored in the upside down direction.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a perspective view of a connector housing 12 constituting a joint connector 10 (see FIG. 10) showing an embodiment of the present invention. FIG. 2A is a perspective view of the connector housing 12 of FIG. (B) is the perspective view which looked at the connector housing 12 of Fig.2 (a) from the back surface, FIG. 3 is the XX arrow directional view of FIG.
[0019]
The joint connector 10 of the present embodiment is a laminated joint connector including a plurality of connector housings 12 and connector housing locking means 14 and 16 for laminating and joining the connector housings 12 in a plurality of stages in the vertical direction.
[0020]
As shown in detail in FIGS. 1 to 3, the connector housing 12 includes a plurality of (10 in the illustrated example) female connection terminals 20 (FIG. 4) connected to the electric wires 18 constituting a wire harness or the like by crimping or the like. A plurality of (10 chambers in the illustrated example) terminal accommodating chambers 22 that are accommodated in a single layer in the lateral direction are formed into a thick rectangular plate-like block body by plastic molding, In addition, flanges 24 (including the case where both side parts themselves become flanges 24) for smoothly inserting and guiding the joint connector 10 to the mating connector 11 (see FIG. 10) are projected. A lock groove 26 is provided to lock the joint connector 10 with the mating connector 11 to prevent detachment.
[0021]
A locking tab 25 protruding in the vertical direction is formed on the rear side of the flange portion 24, and when the joint connector 10 is fitted to a mating connector 11 (see FIGS. 10 and 11) described later, the connector 11 The connector case 64 engages with a groove width enlarged portion 66a formed on the inlet side of the guide groove 66 so that the rear portion of the connector housing 12 of the joint connector 10 does not rattle. As shown in FIG. 10, the joint connector 10 has a connector housing 12 having the same structure and size, for example, stacked and united in 10 stages in the vertical direction, and is sized to the size of the connector housing 12 on the uppermost connector housing 12. A combined rectangular plate-like cover 28 is mounted and assembled. Note that flanges 24 protrude from both sides of the cover 28, and a lock groove 26 is provided in the flange 24.
[0022]
The connector housing 12 is opened upward on the rear side of the terminal accommodating chamber 22, and is formed in one wall on the front side of the terminal accommodating chamber 22, that is, the upper wall 22 a in the longitudinal direction of the terminal accommodating chamber 22, for example. With a pair of slits 30 (see FIG. 1), a built-up portion 34 (see FIGS. 3 to 5 and the like) that is thick on the back side in a doubly supported structure whose proximal end is supported by the upper wall 22a; It consists of an elastic locking piece made of plastic in which a locking claw 36 that is engaged with a tab-shaped locking receiving portion 20a (see FIG. 4) that protrudes from the upper end of the connecting terminal 20 is formed. A lance 32 is provided.
[0023]
On the other wall on the opposite side of the terminal accommodating chamber 22 corresponding to the position of the lance 32, that is, the lower wall 22b, as shown in FIGS. When the connection terminal 20 is inserted into the housing chamber 22 (see FIG. 4), the locking claw 36 comes into contact with the locking receiving portion 20a of the connection terminal 20 and is slightly lifted upward. And a lance receiving portion 38 formed of a slit-like thin hole that allows the lance 32 to be displaced outward is provided. When the latch receiving portion 20a of the connection terminal 20 is engaged with the latch claw 36 of the lance 32, the built-up portion 34 of the lance 32 is lowered, the connection terminal 20 is engaged with the lance 32, and the terminal accommodating chamber. It is fixed so as not to come out of 22. Although the lance receiving portion 38 is a thin hole in the illustrated example, if the strength of the lance 32 can be sufficiently maintained and the build-up portion 34 can be reduced, it may be a concave groove (bottomed hole) instead of a hole. . Further, the configuration and the position of the lance 32 are not limited to those described above.
[0024]
On the outer side (lower side) of the lower wall 22b located behind the lance 32 of the terminal housing chamber 22 in the connector housing 12, as shown in FIGS. The locking projections 40 are provided so as to abut on and engage with the engaging portions 20b of the connection terminals 20 accommodated in the other (lower) connector housing 12 stacked on the connector housing 12, The connection terminal 20 can be prevented from coming off from the terminal accommodating chamber 22 (having a double locking function in combination with the prevention by the lance 32) and half-insertion can be detected.
[0025]
The lower wall 22b in the vicinity of the terminal insertion opening 23 formed in the rear portion of the terminal housing chamber 22 of the connector housing 12 is provided with a terminal guide inclined portion 42 protruding downward as shown in FIGS. A clearance groove 44 that engages with the terminal guide inclined portion 42 is provided in the upper part of both side walls 22c in the vicinity of the corresponding terminal insertion port 23. When the connector housings 12 are stacked, the clearance groove 44 of one connector housing 12 The terminal guide inclined portion 42 of the other (upper) connector housing 12 to be stacked is engaged.
[0026]
When the terminal guide inclined portion 42 and the relief groove 44 are provided, the connection terminal 20 connected to the electric wire 18 which is easily buckled and bent due to a small size and a small diameter is connected to the connector housing 12. Even when inserted into the terminal accommodating chamber 22, the electric wire 18 can be smoothly inserted while being guided by the terminal guide inclined portion 42 of the terminal insertion port 23 without being buckled or bent.
[0027]
Furthermore, a stopper member 46 made of a horizontally long piece is provided across the upper portions of both side walls 22c of the terminal accommodating chamber 22 in each terminal insertion port 23 so as to cover the upper opening in the terminal insertion port 23 of the connector housing 12. A notch 48 for receiving the stopper member 46 is provided at the lower part of the side wall 22c of the terminal accommodating chamber 22 corresponding to this, and when the connector housing 12 is laminated, the other laminated on the notch 48 of one connector housing 12 The stopper member 46 of the (lower) connector housing 12 is engaged.
[0028]
As described above, when the stopper member 46 is provided so as to cover the opening of the terminal insertion port 23, as shown in FIG. 4, after the connection terminal 20 is inserted and accommodated in the terminal accommodation chamber 22, Even if an upward pulling force acts on 18, the electric wire 18 is not twisted upward, and damage to the rear side of the lance 32 of the connector housing 12 and the connection terminal 20 can be prevented. Further, since the insertion direction of the connection terminal 20 from the terminal insertion port 23 is regulated by the stopper member 46, the connection terminal 20 is inserted into the terminal accommodating chamber 22 in the upside down direction as shown in FIG. Even if this occurs, the insertion direction is shifted obliquely upward in the figure by the stopper member 46, and the tip of the connection terminal 20 comes into contact with the rear portion of the lance 32, making insertion impossible. Accordingly, it is possible to quickly detect that the connection terminal 20 is inserted into the terminal accommodating chamber 22 in the upside down direction, and reliably prevent the connecting terminal 20 from being accommodated in the terminal receiving chamber 22 in the upside down direction. Can do. Reference numeral 50 denotes a small-diameter terminal insertion hole for inserting a mating connector connection terminal 70 (see FIG. 10) formed in the front wall 22 d of the terminal accommodating chamber 22.
[0029]
As shown in FIGS. 1 to 3, the connector housing locking means 14 includes a locking recess 52 provided on the front side, for example, the upper portion of the flange portion 24 on both sides of the connector housing 12, and a corresponding flange portion 24, for example. The locking projections provided on the other (upper) connector housing 12 are laminated with the locking recesses 52 provided on one (lower) connector housing 12. 54 is configured to engage. More specifically, the locking recess 52 has a U-shaped groove 52a that opens in the lateral direction, and the locking protrusion 54 is loosely inserted into and engaged with the groove 52a of the locking recess 52. It has a horizontal locking piece 54a extending in the front-rear direction and a vertical locking piece 54b that can come into contact with the locking recess 52, and is formed in a substantially L shape by the horizontal locking piece 54a and the vertical locking piece 54b. The front end side of the lateral locking piece 54 a of the locking projection 54 is arranged facing forward so that it faces the groove 52 a of the locking recess 52.
[0030]
As shown in FIGS. 1 to 3, the connector housing locking means 16 includes a locking recess 56 provided on, for example, the upper portion of the flange portion 24 on the rear side of the both sides of the connector housing 12, and a corresponding flange portion 24, for example. The locking projection 58 is provided on the other (upper) connector housing 12 and is laminated with the locking recess 56 provided on one (lower) connector housing 12. The portion 58 is configured to engage. More specifically, the locking recess 56 has a U-shaped groove 56a that opens in the lateral direction, the locking projection 58 includes a linear locking piece 58a that protrudes downward from the flange 24, and It is comprised from the inward nail | claw 58b engaged with the ditch | groove 56a of the latching recessed part 56 formed in the front-end | tip.
[0031]
Engagement between the locking recess 52 of the connector housing locking means 14 and the locking surface of the locking projection 54 engaged therewith and between the locking recess 56 of the connector housing locking means 16 and the locking projection 58 engaged therewith. Between the stop surfaces, loose gaps are respectively provided and engaged loosely, and a plurality of connector housings 12 are loosely combined so as to be relatively movable to form a bellows structure.
[0032]
Further, as shown in FIGS. 1, 2A and 2B, for example, on the upper portion of the flange 24 between the connector housing locking means 14 and 16 provided on the front and rear sides on both sides of the connector housing 12, as shown in FIGS. A rectangular guide groove 60 that restrains relative movement between the stacked connector housings 12 is provided. Corresponding to this, for example, a rectangular plate-shaped guide rib 62 that fits into the guide groove 60 is provided in the lower part of the flange 24 so as to protrude downward, and each of the guide groove 60 and the guide rib 62 is provided. The rear portions are formed on inclined surfaces 60a and 62a that are widened toward the end, and the guide ribs 62 of the other (upper) connector housing 12 to be stacked are inserted into and engaged with the guide grooves 60 of one connector housing 12. It has become.
[0033]
When the guide groove 60 and the guide rib 62 are provided, the relative movement of the connector housing 12 stacked and united is reliably restrained by the guide rib 62, and rattling is caused by the guide groove 60 and the guide rib 62. When the connector housing 12 is stacked from the inclined position, the guide rib 62 does not hit the inner peripheral edge of the guide groove 60 and smoothly fits. The workability of stacking the connector housing 12 can be improved.
[0034]
When the connector housing 12 is stacked in a plurality of stages, for example, 10 stages, and the joint connector 10 is assembled by combining the connector housing lock means 14 and 16, the terminal housing chamber 22 of the connector housing 12 disposed in the lowest stage in advance. The terminal 20 for connection connected to the electric wire 18 from the terminal insertion port 23 is inserted and accommodated. In the present embodiment, the connection terminal 20 is not inserted deeply into a predetermined position of the terminal accommodating chamber 22 but is accommodated in a half-inserted state, and therefore, shows a state where it is not engaged with the lance 32. Then, the connector housings 12 stacked in the second (upper) stage from the bottom are shifted in the inclined state and slightly rearward so that the front side becomes lower obliquely downward with respect to the lowermost (lower) connector housing 12. (See FIGS. 6A and 6B).
[0035]
Next, in this state, the upper connector housing 12 is lowered while maintaining the inclined state so as to approach the lower connector housing 12, and connector housing locking means 14 provided on the front side of the lower connector housing 12. The lateral locking piece 54a of the locking projection 54 of the connector housing locking means 14 provided on the front side of the upper connector housing 12 to be stacked is loosely inserted into the groove 52a of the locking recess 52 in the connector housing lock. The locking recess 52 and the locking projection 54 of the means 14 are loosely engaged (see FIGS. 7A and 7B).
[0036]
Next, the upper connector housing 12 is moved forward and rotated (clockwise in FIG. 8) with the connector housing locking means 14 as a fulcrum so as to be parallel to the lower connector housing 12. In this process, the locking projection 40 protruding from the upper connector housing 12 is brought into contact with and engaged with the engaging portion 20b of the connection terminal 20 accommodated in the terminal accommodating chamber 22 in a half-inserted state. The connection terminal 20 is pushed into the interior of the terminal accommodating chamber 22 by the stop projection 40 as the upper connector housing 12 moves. On the other hand, a part (tip portion) of the guide rib 62 provided in the upper connector housing 12 is inserted into the guide groove 60 provided in the lower connector housing 12 to lock the connector housing locking means 16 on the rear side. The recessed part 56 and the latching convex part 58 will be in a semi-engagement state (refer Fig.8 (a) (b)).
[0037]
Next, from the above state, the upper connector housing 12 is further brought into contact with the groove 52a of the locking recess 52 of the connector housing locking means 14 on the front side so that the vertical locking piece 54b of the locking projection 54 is brought into contact therewith. It is moved forward until it comes into contact, and is stacked on the lower connector housing 12, and the locking recess 52 and the locking protrusion 54 of the connector housing locking means 14 on the front side and the locking of the connector housing locking means 16 on the rear side are locked. The concave portions 56 and the locking convex portions 58 are engaged with each other, and the adjacent upper and lower connector housings 12 are combined. As the connector housing 12 is laminated, the connection terminal 20 is inserted and stored up to a predetermined designed position of the terminal accommodating chamber 22, and the engagement receiving portion 20 a of the connection terminal 20 is engaged with the engagement claw 36 of the lance 32. And is fixed so as not to come out of the terminal accommodating chamber 22. At the same time, the terminal guide inclined portion 42 engages with the escape groove 44, the stopper member 46 enters the notch 48, and the guide rib 62 enters the guide concave groove 60 (see FIGS. 9A and 9B).
[0038]
When the stacking operation of the second (upper) connector housing 12 from the bottom with respect to the lowermost connector housing 12 is completed as described above, the upper connector housing 12 is separated into its terminal accommodating chamber 22 in the same manner as described above. After the connection terminal 20 is inserted, the third connector housing 12 is laminated on the upper connector housing 12 in the same manner, and is engaged by the connector housing locking means 14 and 16 and combined. Thereafter, the same operation is repeated, and the connector housings 12 are stacked in 10 stages and joined together, thereby assembling the joint connector 10 as shown in FIG.
[0039]
In the above embodiment, each time the connector housing 12 is laminated, the connection terminal 20 is accommodated in the terminal accommodating chamber 22 of the connector housing 12 on the upper layer side. Before the connector 12 is stacked on the lower connector housing 12, the connection terminals 20 are accommodated in the terminal accommodating chambers 22 of the upper connector housing 12 in advance, and the upper and lower connector housings in which the connection terminals 20 are accommodated. The joint connector 10 may be assembled by stacking 12 members together. In this way, the laminating work of the connector housing 12 is facilitated and the work efficiency is improved, and in particular, the connection terminal 20 connected to the wire 18 having a small diameter and being easily bent is inserted into the terminal accommodating chamber 22 of the connector housing 12. In this case, it can be inserted while being guided by the terminal guide inclined portion 42 provided in the terminal insertion port 23, and the number of steps required to insert the connection terminal 20 is reduced, which is preferable.
[0040]
Further, in the above embodiment, the locking recess 52 of the connector housing locking means 14 provided on the front side of the both sides of the connector housing 12 is provided in the upper part of the housing 12, and the corresponding lower part of the housing 12 is provided in the lower part of the housing 12. On the contrary, the locking convex portion 54 is provided at the lower portion of the housing 12, and the locking convex portion 54 is provided at the upper portion of the housing 12 corresponding thereto. It may be. In this case, the lateral locking piece 54 a of the locking projection 54 is arranged facing rearward so as to face the concave groove 52 a of the locking recess 52. When the connector housings 12 are stacked, the groove 52a of the locking recess 52 of the connector housing locking means 14 in the upper connector housing 12 arranged in an inclined state so that the front side is inclined obliquely downward is provided in the lower connector housing. 12 is relatively loosely inserted into the lateral locking piece 54a of the locking projection 54 of the connector housing locking means 14 so that the upper connector housing 12 is moved forward and the connector housing 12 is parallel to the lower connector housing 12. Stacking is similarly performed by rotating the housing locking means 14 as a fulcrum.
[0041]
As described above, the locking recess 52 of the connector housing locking means 14 provided on the front side of the both side portions of the connector housing 12 has the recessed groove 52a that opens laterally, and the locking projection 54 is the locking recess 52. A laterally engaging piece 54a extending in the front-rear direction to be loosely inserted into and engaged with the concave groove 52a, and a longitudinally engaging piece 54b that can be brought into contact with the engaging recessed portion 52. When the connector housing 12 is stacked in a plurality of stages and is joined by the connector housing locking means 12 and 14 to assemble the joint connector 10 by being formed in a substantially L shape by the vertical locking piece 54b, one connector housing The other connector housing 12 that is laminated with respect to the connector 12 is disposed in an inclined state such that the front side is lowered obliquely downward and slightly shifted rearward. Thus, the connector housing 12 comes close to one connector housing 12 and the other side of the groove 52a of the locking recess 52 of the connector housing locking means 14 provided on the front side of the connector housing 12 or the lateral locking piece 54a of the locking projection 54 The lateral locking piece 54a of the locking projection 54 or the concave groove 52a of the locking recess 52 of the connector housing locking means 14 provided on the front side of the connector housing 12 is relatively loosely inserted, and the other connector housing 12 is mounted. While being moved forward, the connector housing locking means 14 on the front side is rotated so as to be parallel to the one connector housing 12 and overlapped on the one connector housing 12.
[0042]
In the process, the locking projection 40 protruding from the other connector housing 12 is engaged with the engaging portion 20b of the connection terminal 20 accommodated in the terminal accommodating chamber 22 of the one connector housing 12 in a half-inserted state. The locking projection 40 allows the connection terminal 20 to be pushed toward the back of the terminal accommodating chamber 22 as the other connector housing 12 moves. As a result, even when the connector housing 12 is stacked, even if the connection terminal 20 is accommodated in the terminal accommodation chamber 22 in a half-inserted state, the connection terminal 20 is quickly corrected to a desired normal insertion state. Thus, the connector can be accommodated in a predetermined position, the connector connection performance and reliability can be improved, and the device can be compactly and efficiently assembled without any trouble.
[0043]
When connecting the joint connector 10 to the mating connector 11, as shown in FIG. 10, the joint connector 10 and the mating connector 11 are opposed to each other, and the center line is aligned. Next, the flanges 24 projecting from both sides of the connector housing 12 and the cover 28 constituting the joint connector 10 are formed into a plurality of substantially U-shapes formed on both inner side walls of the connector case 64 of the mating connector 11. The joint connector 10 is inserted and fitted into the connector case 64 of the mating connector 11 while being supported by the guide groove 66 and slidingly guided along the guide groove 66. Then, for example, the elastic locking claws 68 formed in the third and eighth steps from the bottom of the guide groove 66 of the mating connector 11 are provided with corresponding two pieces provided on the flange portion 24 of the joint connector 10. The joint connector 10 is engaged with the lock groove 26 and fixed so as not to be detached from the mating connector 11 (see FIG. 11A).
[0044]
When the joint connector 10 and the mating connector 11 are fitted, a plurality of pin type (male) connection terminals 70 which are attached to the mating connector 11 and protrude into the connector case 64 are joints. The connector 10 is inserted into the connection terminal 20 accommodated in the terminal accommodating chamber of the connector housing 12 and is electrically connected to the terminal 20. In this way, the joint connector 10 is connected to the mating connector 11.
[0045]
When the joint connector 10 and the mating connector 11 are fitted, the locking tab 25 formed on the rear side of the flange 24 in the connector housing 12 of the mating joint connector 10 is shown in FIGS. As shown in the figure, it engages with the groove width enlarged portion 66a formed on the inlet side of the guide groove 66 in the connector case 64 of the mating connector 11 so that the rear portion of the connector housing 12 of the joint connector 10 does not rattle. It is. As described above, when the locking tab 25 is engaged with the groove width enlarged portion 66a, even if the connector housing 12 of the joint connector 10 has a bellows structure in which the connector housings 12 are relatively loosely combined with each other, It is preferable that the connector housing 12 of the joint connector 10 can be prevented from rattling in a state where the connector 11 is fitted, and the reliability of connector connection can be further improved.
[0046]
【The invention's effect】
As described above, according to the joint connector according to claim 1 of the present invention, the locking recess is provided on each of the front and rear sides of the both side portions of the plurality of connector housings, and the connector housings are stacked and combined in a plurality of stages. And a latching concave portion provided in one connector housing, or a latching convex portion provided in one connector housing and a latching convex portion provided in the other connector housing or a latching concave portion. In the joint connector provided with the locking means, the locking recess of the connector housing locking means provided on the front side of the both sides of the connector housing has a groove that opens laterally, and the locking protrusion is the locking recess. A horizontal locking piece that extends in the front-rear direction to be loosely inserted into the concave groove and engages with the concave groove, and a vertical locking piece that can come into contact with the locking recess. Since it is formed in a substantially L shape, the other connector housing that is laminated with respect to one connector housing can be laminated on the other connector housing from an inclined posture. When the connector housings are stacked, even if the connection terminals may be accommodated in the terminal accommodation chamber in a half-inserted state, the connection terminals can be quickly corrected to a desired normal insertion state and accommodated in a predetermined position. As a result, the connector connection performance and reliability can be improved, and it is small and can be efficiently assembled without any trouble.
[0047]
According to the joint connector described in claim 2 of the present invention, the guide recess for restricting the relative movement of the stacked connector housings between the connector housing locking means provided on the front-rear side on both sides of the connector housing. A groove and a guide rib that fits into the groove are provided, and each rear part of the guide groove and the guide rib is formed in a divergent inclined surface, so that the relative movement of the stacked and combined connector housings is ensured by the guide rib. In addition, when the connector housing is stacked from the tilted position, the guide rib protrudes into the inner peripheral edge of the guide groove. Since it does not hit and it fits smoothly, the workability | operativity of lamination | stacking can be improved.
[0048]
According to the joint connector described in claim 3 of the present invention, a terminal guide inclined portion projecting downward is provided on the lower wall in the vicinity of the terminal insertion port in the terminal housing chamber of the connector housing, and the corresponding terminal insertion port Since the clearance groove that engages the terminal guide inclined part is provided in the upper part of the side walls in the vicinity, the connecting terminal connected to the wire that is easily buckled and bent due to its small size and small diameter. Even when inserting into the terminal housing chamber of the connector housing, the wire can be smoothly inserted while being guided by the terminal guide inclined portion of the terminal insertion port without being buckled or bent.
[0049]
According to the joint connector described in claim 4 of the present invention, the terminal housing chamber in the terminal insertion port is configured such that the rear side of the terminal housing chamber of the connector housing is opened upward and covers the upper opening in the terminal insertion port. A stopper member is provided at the upper part of both side walls of the terminal, and a notch for receiving the stopper member is provided at the lower part of the side wall of the corresponding terminal receiving chamber. Then, even if an upward pulling force acts on the electric wire, the electric wire is not twisted upward by the stopper member that covers the upper part of the terminal insertion port. Terminal damage can be prevented. In addition, since the insertion direction of the connection terminal from the terminal insertion port is regulated by the stopper member, it is quickly detected that the connection terminal is inserted into the terminal accommodating chamber in the upside down direction. It is possible to reliably prevent the storage chamber from being stored in the upside down direction.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a connector housing constituting a joint connector of the present invention.
2A is a perspective view of the connector housing of FIG. 1 as viewed from the back, and FIG. 2B is a perspective view of the connector housing of FIG.
FIG. 3 is a view taken along the line XX in FIG. 1;
4 is a cross-sectional view showing a state in which an upward tensile force is applied to an electric wire in which a connection terminal is correctly accommodated in a terminal accommodating chamber of the connector housing of FIGS. 1 to 3; FIG.
FIG. 5 is a cross-sectional view showing a state in which a connection terminal is inserted upside down into the terminal accommodating chamber of the connector housing of FIGS. 1 to 3;
FIG. 6A is a side view showing a state in which the connector housings are stacked and united, and the other connector housing is inclined with respect to one connector housing so that the front side is slanted downward. (B) is sectional drawing of (a).
7A is a view showing a state in which the other connector housing is brought close to one connector housing side from the state shown in FIG. 6 and is stacked on the locking recess in the connector housing locking means provided on the front side of the one connector housing. The side view which shows the state which inserted the side latching piece of the latching convex part in the connector housing locking means provided in the front side of the other connector housing to be loosely inserted, (b) is sectional drawing of (a).
FIG. 8A is a view of FIG. 7 in which the other connector housing is moved forward and rotated so as to be parallel to one connector housing, and the other connector housing is protruded. The side view which shows the state which engages the engaging part of the terminal for a connection accommodated in the terminal accommodation chamber of the connector housing of the one side in the half insertion state, and pushes the terminal for a connection forward, (b) is (a) FIG.
9A is a view from the state of FIG. 7 until the other connector housing is in contact with the vertical locking piece of the locking projection in the groove of the locking recess of the connector housing locking means on the front side. A state in which the two adjacent connector housings are combined by moving forward, stacking on one connector housing, engaging the locking recesses and the locking projections of the connector housing locking means on the front and rear side. The side view to show, (b) is sectional drawing of (a).
FIG. 10 shows a state in which the mating connector and the center line are aligned and aligned in order to fit and connect the joint connector assembled by repeating the stacking and uniting operations of the connector housing shown in FIG. 9 to the mating connector. It is a partial cross section side view shown.
11A is a partial cross-sectional side view showing a state in which the joint connector is fitted and connected to the mating connector from the state of FIG. 9, and FIG. 11B is a view of the locking tab of the connector housing in the joint connector. Explanatory drawing which expands and shows the state engaged with the groove width enlarged diameter part of the guide groove of the connector case in the other party connector, (c) is a YY arrow directional view of (b).
[Explanation of symbols]
10 Joint connector
11 Mating connector
12 Connector housing
14 Connector housing locking means
16 Connector housing locking means
18 Electric wire
20 Connection terminal
20a Locking receiving part
20b engagement part
22 Terminal compartment
22a Upper wall
22b Lower wall
22c side wall
22d front wall
23 Terminal insertion slot
24 Buttocks
25 Locking tab
26 Lock groove
28 Cover
30 slits
32 Lance
34 Filling section
36 Locking claw
38 Lance receiving department
40 Locking projection
42 Terminal guide slope
44 Escape Groove
46 Stopper member
48 Notches
50 Terminal insertion hole
52 Locking recess
52a Groove
54 Locking projection
54a Lateral locking piece
54b Vertical locking piece
56 Locking recess
56a Groove
58 Locking projection
58a Linear locking piece
58b nails
60 Guide groove
60a inclined surface
62 Guide rib
62a inclined surface
64 Connector case
66 Guide groove
66a Groove width enlarged portion
68 Elastic locking claws
70 Connection terminal

Claims (4)

A plurality of connector housings provided with a plurality of terminal housing chambers for accommodating connection terminals, and locking recesses provided on the front and rear sides of both side portions of the connector housing to stack and combine the connector housings in a plurality of stages And a latching recess provided in one connector housing, or a latching projection provided on the other connector housing laminated with the latching projection. Locking means and a member that protrudes from the other connector housing so as to engage with a connection terminal housed in a terminal housing chamber of the one connector housing, and prevents the connection terminal from coming off and detects half-insertion. In the joint connector provided with the stop projection, the connector housing locking means provided on the front side of the both sides of the connector housing, The locking recess has a groove that opens in the lateral direction, and the locking projection is locked with the lateral locking piece that extends in the front-rear direction and is loosely inserted into and engaged with the groove in the locking recess. A joint connector having a vertical locking piece capable of abutting against a concave portion and formed in a substantially L shape by a horizontal locking piece and a vertical locking piece. Between the connector housing locking means provided on the front and rear sides on both sides of the connector housing, there are provided guide concave grooves for restraining relative movement of the stacked connector housings and guide ribs fitted to the guide concave grooves. 2. The joint connector according to claim 1, wherein each of the rear portions of the groove and the guide rib is formed on an inclined surface that is widened toward the end. A terminal guide inclined portion projecting downward is provided on a lower wall near the terminal insertion port in the terminal housing chamber of the connector housing, and a corresponding portion of the terminal guide inclined portion is connected to the upper portion of both side walls near the terminal insertion port. The joint connector according to claim 1, wherein a clearance groove is provided. The rear side of the terminal housing chamber of the connector housing is opened upward, and a stopper member is provided at the upper part of both side walls of the terminal housing chamber at the terminal insertion port so as to cover the upper opening at the terminal insertion port. 4. The joint connector according to claim 1, wherein a notch for receiving a stopper member is provided at a lower part of both side walls of the terminal accommodating chamber.

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