The invention relates to a connector and a connector structure.
Japanese Unexamined Patent Publication No. 2016-91761 discloses a waterproof connector with a housing including cavities into which terminal fittings are insertable. A retainer mounting hole is open in the upper surface of the housing and communicates with each cavity. A rubber ring is to be fit on a rear side of the outer surface of the housing across the retainer mounting hole.
A retainer is inserted and held in the retainer mounting hole of the housing and retains the terminal fitting in each cavity. A pressing portion of the retainer projects through the opening of the retainer mounting hole on the upper surface of the housing. The rubber ring fit on the housing is rearward of the pressing portion and functions to seal between the housing and a receptacle while suppressing rattling by resiliently contacting an inner surface on an opening side of the receptacle in a fitting state.
The above waterproof connector may be required to have a configuration applicable to a non-waterproof connector without changing a basic configuration thereof. In this case, if some components such as a retainer can be used commonly between the waterproof connector and the non-waterproof connector, a new mold for molding the retainer and the like need not be prepared, which is favorable.
In changing the specifications of the waterproof connector to non-waterproof specifications, the rubber ring is not necessary. However, if the rubber ring is detached from the outer surface of the housing, a step corresponding to a thickness of the detached rubber ring is formed between an opening end part of the receptacle and the outer surface of the housing. Thus, the receptacle and the housing may rattle against each other.
The invention was completed on the basis of the above situation and aims to provide a connector capable of suppressing rattling even if specifications are changed to non-waterproof specifications.
The invention is directed to a connector with a housing to be fit into a receptacle of a mating housing from the front and includes a cavity into which a terminal fitting is insertable. A retainer mounting hole is open in an outer surface of the housing and communicates with the cavity. A retainer is to be inserted into the retainer mounting hole and is configured to retain and lock the terminal fitting in the cavity. A restricting portion projects on a rear side of the outer surface of the housing, out of both front and rear sides across an opening of the retainer mounting hole, and is configured to contact an inner surface on an opening side of the receptacle in a fitting state.
Further, the invention also is directed to a connector structure with a non-waterproof connector and a waterproof connector. Both the non-waterproof connector and the waterproof connector have a housing to be fit into a receptacle of a mating housing from the front and include a cavity into which a terminal fitting is insertable. A retainer mounting hole is open in an outer surface of the housing and communicates with the cavity. A retainer is inserted into the retainer mounting hole and is configured to retain and lock the terminal fitting in the cavity. The non-waterproof connector further includes a restricting portion projecting on a rear side of the outer surface of the housing and can contact an inner surface on an opening side of the receptacle in a fitting state. The waterproof connector further includes a seal ring to be fit on the rear side of the outer surface of the housing and resiliently contact an inner surface on an opening side of the receptacle in a fitting state. The respective retainers of the non-waterproof connector and the waterproof connector have the same shape.
In the waterproof connector, the seal ring is fit on the outer surface of the housing to provide sealing between the housing and the receptacle. In the case of changing the waterproof connector to have non-waterproof specifications, the seal ring fit on the rear side of the outer surface of the housing (hereinafter, referred to as a “rear side of the retainer mounting hole”) is unnecessary. In changing to the non-waterproof specifications, a clearance may be formed between the inner surface on the opening side of the receptacle in the fitting state and the rear side of the retainer mounting hole. Thus, the receptacle and the housing may rattle against each other. However, in the present invention, the restricting portion projects on the rear side of the retainer mounting hole and is arranged to contact the inner surface on the opening side of the receptacle in the fitting state. Thus, rattling of the receptacle and the housing can be suppressed.
According to the above configuration, the non-waterproof connector can be configured without being accompanied by shape changes of parts other than the rear side of the retainer mounting hole, and the retainer can have the same shape and be commonly used between the non-waterproof connector and the waterproof connector. As a result, in changing the waterproof connector to have the specifications of the non-waterproof connector, it is not necessary to prepare a new mold for molding the retainer for non-waterproof connector and cost can be reduced.
A front mask may be mounted on the housing to cover an area on the front side of the outer surface of the housing. Even if the waterproof connector is changed to have the non-waterproof specifications, the structure of the area on the front side of the housing need not be changed. Thus, the front mask can have the same shape and can be used commonly between the waterproof connector and the non-waterproof connector so that cost can be reduced. Further, the lever can have the same shape and can be used commonly between the waterproof connector and the non-waterproof connector.
Plural restricting portions are provided at intervals in a circumferential direction on the outer surface of the housing to suppress rattling of the connector in all directions.
A retracting surface chamfered is provided on a front surface of the restricting portion. According to this configuration, the butting of an opening end part of the receptacle against the front surface of the restricting portion in the process of connecting the housings is prevented. As a result, a connecting operation of the housings can proceed smoothly. Further, for example, if the opening end part of the receptacle slides along the retracting surface of the restricting portion, the inclination of the receptacle can be corrected.
One embodiment is described with reference to the drawings. This embodiment includes a non-waterproof connector 10 and a waterproof connector 10A, and either one of the connectors 10, 10A can be selected and used according to user needs for non-waterproof specifications or waterproof specifications. A mating connector 100 serving as a connection partner has substantially the same shape for both the non-waterproof connector 10 and the waterproof connector 10A. Note that, in the following description, surfaces of the connector (non-waterproof connector 10, waterproof connector 10A) and the mating connector 100 facing each other at the start of connection are referred to as front ends.
[Mating Connector 100]
As shown in
Two cylindrical cam followers 124 project on both upper and lower sides of the outer surface of each receptacle 122. Each cam follower 124 is arranged eccentrically from a lateral center of the corresponding receptacle 122. Further, two releasing portions 125 in the form of flat ribs project substantially in front of the respective cam followers 124 on the upper and lower sides of the outer surface of each receptacle 122. As shown in
As shown in
The mating terminal fitting 190 is made of conductive metal and is L-shaped in a side view. More particularly, the mating terminal fitting 190 includes a terminal connecting portion 191 extending along a front-rear direction and a board connecting portion 192 extending along a vertical direction. The terminal connecting portion 191 is arranged to project into the receptacle 122 through the hole 127 of the base 121. The board connecting portion 192 hangs down from a position behind the base 121 and a lower end part thereof is electrically connected to a conductive part of the printed circuit board 300.
An upper cover 128 projects forward on an upper end part of the base 121. The upper cover 128 is a flat plate substantially parallel to the upper surface of the receptacle 122 and includes three lock holes 129 at positions corresponding to the respective receptacles 122. Three lower covers 131 project forward at positions corresponding to the respective receptacles 122 on a lower end part of the base 121. Each lower cover 131 includes a horizontal part substantially parallel to the lower surface of the receptacle 122 and a vertical part connected to the lower surface of the receptacle 122 and is L-shaped in a front view.
[Non-Waterproof Connector 10]
As shown in
The housing 20 is made of synthetic resin and includes, as shown in
Further, as shown in
As shown in
A partial lock receiving portion 27 and a full lock receiving portion 28 are arranged vertically in the recess 26 of the housing body 21. The partial lock receiving portion 27 and the full lock receiving portion 28 are both in the form of ribs extending in the front-rear direction, and are lockable to a later-described locking portion 66 of the retainer 60.
A lock receiving groove 29 is provided in each of left and right side surfaces of the housing body 21. Each lock receiving groove extends in the vertical direction and has an upper end open in the lower edges of the recesses 26. The lock receiving grooves 29 are lockable to unillustrated locking projections of the front mask 70.
A recess 31 is open at a position between the cavities 22 in two lower stages in lower end parts of each of the left and right side surfaces of the housing body 21. As shown in
A base mount portion 32 is provided circumferentially on a rear end part of the outer surface of the housing body 21 and projects out in a stepped manner with respect to a front side. A support shaft 33 project on a rear end part of each of the upper and lower surfaces of the base mount portion 32. Each support shaft 33 is arranged eccentrically from a lateral center of the housing 20. The lever 80 is supported rotatably on each support shaft 33.
The housing 20 is provided with a tubular fitting 34 projecting a short distance forward after protruding outward from the base mount portion 32. As shown in
As shown in
As shown in
As shown in
Each restricting portion 38 has a substantially rectangular cross-section and has, as shown in
The terminal fitting 90 is made of conductive metal, includes a box portion 91 having a box-like shape and a barrel portion 92 in the form of an open barrel connected behind the box portion 91 as shown in
The retainer 60 is made of synthetic resin and includes, as shown in
The retainer body 61 is inserted into the retainer mounting hole 24. Through holes 64 penetrate the retainer body 61 in the front-rear direction at positions corresponding to the respective cavities 22 (excluding the cavities 22 in a lowermost stage). A retaining portion 65 project at an upper wall part of the inner surface of each through hole 64. Retaining portions 65 also are provided side by side on a lower end part of the retainer body 61 in correspondence with the respective cavities 22 in the lowermost stage.
A pair of locking portions 66 are provided on the inner surfaces of the respective locking piece portions 63 facing each other. A lower end part of the locking portion 66 is formed into a claw lockable to each of the partial lock receiving portion 27 and the full lock receiving portion 28. The retainer 60 is held at each of a partial locking position where the lower end parts of the locking portions 66 are locked to the partial lock receiving portions 27 and a full locking position where the lower end parts of the locking portions 66 are locked to the full lock receiving portions 28.
At the partial locking position, the operating portion 62 projects a large distance up from the opening 25 of the retainer mounting hole 24, each retaining portion 65 is retracted from each cavity 22, and the insertion of the terminal fitting 90 into each cavity 22 is allowed. As shown in
The operating portion 62 can be pressed down when the retainer 60 is at the partial locking position. Thus, the locking pieces 63 are deflected and deformed to release locking between the locking portions 66 and the partial lock receiving portions 27, and the retainer 60 moves down toward the full locking position. When the retainer 60 reaches the full locking position, the locking pieces 63 resiliently return to fit into the recesses 26, and the locking portions 66 and the full lock receiving portions 38 are locked. When the retainer 60 is at the full locking position, the flat upper surface of the operating portion 62 is at the same position as the upper surfaces of the restricting portions 38 arranged on the upper surface of the housing body 21 or at a position slightly higher than the upper surfaces of the respective restricting portions 38, as shown in
The front mask 70 is made of synthetic resin and includes, as shown in
The front wall 71 covers the front surface of the housing body 21. Insertion holes 73 penetrate the front wall 71 in the front-rear direction at positions corresponding to the cavities 22. The terminal connecting portion 191 of each mating terminal fitting 190 is inserted into each insertion hole 73 of the front wall 71 from behind when the housings 20, 120 are connected. As shown in
As shown in
Further, two unillustrated locking projections extend vertically on the inner surfaces of the left and right side panels 75 of the peripheral wall 72. The respective locking projections are locked resiliently to the respective lock receiving grooves 29 of the housing body 21 to hold the front mask 70 on the housing body 21.
The peripheral wall 72 is arranged to cover front parts of four sides of the outer surface of the housing body 21. The left and right side panels 75 of the peripheral wall 72 cover the respective locking pieces 63 of the retainer 60 to restrict opening deformation of the respective locking piece portions 63 and, hence, to enhance locking reliability of the locking portions 66. Cuts 77 into which the operating portion 62 of the retainer 60 is to be inserted with the front mask 70 mounted on the housing 20 provided between an upper wall 76 and the left and right side panels 75 of the peripheral wall 72.
The lever 80 also is made of synthetic resin and has a U-shape formed by upper and lower cam plates 81 and a coupling 82 that links the respective cam plates 81, as shown in
A deflectable lock 86 is cantilevered rearward on the upper cam plate 81. A claw-like lock projection 87 is provided on the upper surface of the lock 86. A thin entering edge 88 is provided on the outer periphery of the lower cam plate 81.
The lever 80 is arranged to straddle the housing 20 from behind, and the support shafts 33 fit in the respective bearing holes 83. Thus, the lever 80 is rotatable about the support shafts 33 with respect to the housing 20 the partial locking position and the full locking position. At this time, the cam plates 81 cover both upper and lower walls of the fitting portion 34.
At the partial locking position, the partial locking pieces 85 contact an edge of the fitting portion 34 to restrict rotation of the lever 80 to the full locking position. The releasing portions 125 release locking between the partial locking pieces 85 and the fitting portion 34 when the connection of the housings 20, 120 is started so that the lever 80 can rotate to the full locking position. Further, the cam followers 124 enter the respective cam grooves 84 through the escaping recesses 36 when the connection of the housings 20, 120 is started.
The lever 80 is rotated toward the full locking position while gripping the coupling 82. Thus, the cam followers 124 slide on groove surfaces of the respective cam grooves 84 and a cam mechanism acts between the lever 80 and the mating housing 120 so that a connecting operation of the housings 20, 120 proceeds. When the lever 80 reaches the full locking position, the lock projection 87 of the lock portion 86 is fit resiliently into the lock hole 129 to restrict the rotation of the lever 80 (see
In the case of the non-waterproof connector 10, the part of the outer surface of the housing body 21 forward of the retainer mounting hole 24 is covered by the peripheral wall 72 and the front panel 71 of the front mask 70, and the part rearward of and near the retainer mounting hole 24 is covered by rear parts of the operating portion 62 and the peripheral wall 72.
Further, the rear side of the retainer mounting hole 24 on the outer surface of the housing body 21 is provided with the restricting portions 38 in a part near the base mount portion 32. The respective restricting portions 38 on an upper side are arranged side by side with the upper panel 76 of the peripheral wall 72 and the operating portion 62 in the front-rear direction, and the restricting portions 38 on lower, left and right sides are arranged side by side with a lower wall 78 and the both left and right side walls 75 of the peripheral wall 72 in the front-rear direction. Further, the outer end surfaces 39 of the respective restricting portions 38 on the upper side are coplanar with the outer surface of the upper panel 76 of the peripheral wall 72 and the outer surface of the operating portion 62, and the outer end surfaces 39 of the respective restricting portions 38 on the lower, left and right sides are coplanar with the outer surface of the lower panel 78 of the peripheral wall 72 and the outer surfaces of the left and right side walls 75.
When the housing 20 is fit into the receptacle 122, the inner surface of the receptacle 122 is arranged to contact along the outer surfaces of the peripheral wall 72 and the operating portion 62 and along the outer end surfaces 39 of the respective restricting portions 38, as shown in
The restricting portions 38 are in contact with or near the inner surface of the opening end of the receptacle 122 between the rear end of the operating portion 62 and the base mount portion 32 and between the rear end of the peripheral wall 72 and the base mount portion 32. Thus, loose movements of the opening end part of the receptacle 122 with respect to the housing 20 can be suppressed effectively. In addition, since the respective restricting portions 38 are provided at intervals in the circumferential direction on the four surfaces of the housing 20, the rattling of the connectors 10, 100 can be suppressed effectively in all directions.
Further, the retracting surfaces 42 prevent the opening end of the receptacle 122 from butting against front corner parts of the restricting portions 38 in the process of connecting the housings 20, 120. Thus, the connection of the housings 20, 120 can proceed smoothly. Here, even if connecting postures of the housings 20, 120 are inclined with respect to the front-rear direction, the opening end part of the receptacle 122 slides on the retracting surfaces 42 and the inclined postures of the housings 20, 120 are corrected.
[Waterproof Connector 10A]
As shown in
The housing 20A has a sealing surface 44 extending along the front-rear direction behind the retainer mounting hole 24 on the outer surface of a housing body 21. The sealing surface 44 of the housing body 21 is a flat continuous surface without any step and is held in close contact with the seal ring 210. The seal ring 210 is made of rubber, has a substantially rectangular ring shape in a front view and fits on the outer surface of the housing body 21. A pressing piece 45 projects a short distance forward on an outer end part of the front surface (stepped surface) of a base mount portion 32. As shown in
A rubber plug accommodating portion 46 is open in a rear surface in a rear part of the housing body 21. The back surface of the rubber plug accommodating portion 46 is slightly behind the sealing surface 44 in the front-rear direction and serves as an opening surface on the rear end of each cavity 22.
The rubber plug 220 is a mat extending along the vertical and lateral directions and has a predetermined thickness in the front-rear direction. The rubber plug 220 is inserted into the rubber plug accommodating portion 46 from behind. Sealing holes 221 penetrate the rubber plug 220 in the front-rear direction at positions corresponding to the respective cavities 22. Outer peripheral lips 222 are provided circumferentially on the outer peripheral surface of the rubber plug 220.
The rear holder 230 is made of synthetic resin, extends along the vertical and lateral directions and has a predetermined thickness in the front-rear direction. Insertion holes 231 penetrate the rear holder 230 in the front-rear direction at positions corresponding to the respective cavities 22 and the sealing holes 221. Rear holder locks 232 are provided on upper and lower surfaces and left and right side surfaces of the rear holder 230. Rear holder lock receiving portions 47 penetrate through rear end parts of left and right side surfaces of the housing body 21 at positions corresponding to the rear holder locks 232.
The rubber plug 220 and the rear holder 230 are inserted successively into the rubber plug accommodating portion 46 of the housing body 21 (see
Although not shown, the terminal fitting 90 (see
The seal ring 210 is fit on the sealing surface 44 of the housing body 21 from the front. The seal ring 210 is arranged while being positioned in the front-rear direction between the base mount portion 32 and the operating portion 62. When the housings 20A, 120 are connected, the inner surface of the receptacle 122 is held resiliently in close contact with the seal ring 210 and the seal ring 210 is sandwiched between the receptacle 122 and the housing body 21 to provide sealing between the housings 20A, 120. In this way, the waterproofing of the waterproof connector 10A is ensured.
As described above, the retainer 60, the front mask 70 and the lever 80 are used as common components of the waterproof connector 10A and the non-waterproof connector 10. Further, the mounting area of the retainer 60 including the retainer mounting hole 24, the mounting area of the front mask 70 and the mounting area of the lever 80 including the support shafts 33 have the same shapes in the housing 20A of the waterproof connector 10A and the housing 20 of the non-waterproof connector 10. As a result, manufacturing cost, management cost and the like can be saved and a cost reduction can be realized.
Other embodiments are briefly described below.
The front mask can be omitted from either one of the non-waterproof connector and the waterproof connector.
The lever can be omitted from either one of the non-waterproof connector and the waterproof connector.
In the waterproof connector, individual rubber plugs to be individually fit on the wires of the respective terminal fittings may be used instead of the one-piece rubber plug. In the case of using the individual rubber plugs, the rear holder is unnecessary and the rubber plug accommodating portion can be omitted from the housing.
The restricting portions need not be provided on each of four sides.
The restricting portion may strongly come into contact with the inner surface of the receptacle and be partially squeezed when the housings are connected.
Number | Date | Country | Kind |
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2017-209363 | Oct 2017 | JP | national |
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Number | Date | Country |
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2016-91761 | May 2016 | JP |
Number | Date | Country | |
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20190131736 A1 | May 2019 | US |