The present disclosure relates to a connector.
A connector described in Patent Document 1 is provided with a female housing including an accommodation chamber and a female terminal to be accommodated into the accommodation chamber. A resiliently deformable locking lance is provided to project into the accommodation chamber of the female housing. The female terminal is locked by a locking lance while being accommodated in the accommodation chamber.
Gaps corresponding to a width of a mold are formed between both end surfaces in a width direction of the locking lance and both end surfaces in the width direction of the cavity by pulling out the mold for molding the locking lance during the molding of the female housing. Thus, a width of the locking lance has to be smaller than that of the cavity. As the female housing is reduced in size, there is a problem that it becomes difficult to obtain a holding force for retaining the female terminal.
Accordingly, it is aimed to provide a connector capable of improving a force for holding a terminal fitting by a locking lance.
The present disclosure is directed to a connector with a housing, a terminal locking portion defining a cavity together with the housing, and a terminal fitting to be arranged in the cavity, the terminal locking portion including a locking lance for locking the terminal fitting, the locking lance being provided on one side surface of the cavity resiliently deformably in a direction intersecting a width direction of the side surface, and the housing and the terminal locking portion being made of mutually different resin materials.
According to the present disclosure, it is possible to provide a connector capable of improving a force for holding a terminal fitting by a locking lance.
[Description of Embodiments of Present Disclosure]
First, embodiments of the present disclosure are listed and described.
(1) The connector of the present disclosure is provided with a housing, a terminal locking portion defining a cavity together with the housing, and a terminal fitting to be arranged in the cavity, the terminal locking portion including a locking lance for locking the terminal fitting, the locking lance being provided on one side surface of the cavity resiliently deformably in a direction intersecting a width direction of the side surface, and the housing and the terminal locking portion being made of mutually different resin materials.
According to the above configuration, since the housing and the terminal locking portion are made of the mutually different resin materials, the terminal locking portion needs not be simultaneously molded by the resin material for molding the housing. Thus, gaps due to the removal of a mold need not be formed on both sides in the width direction of the locking lance and a large width can be ensured for the locking lance. As a result, a force for holding the terminal fitting by the locking lance can be improved.
(2) Preferably, the housing is a primary molded portion made of a primary resin material and the terminal locking portion is a secondary molded portion made of a secondary resin material.
According to the above configuration, the housing and the terminal locking portion can be formed by two-color molding. Thus, a process and a facility for assembling the housing and the terminal locking portion can be omitted. Further, a degree of freedom in the respective shapes of the housing and the terminal locking portion can be enhanced.
(3) Preferably, the width of the locking lance is set to be equal to that of the cavity.
According to the above configuration, a maximally large width of the locking lance can be ensured and the force for holding the terminal fitting by the locking lance can be further enhanced.
(4) Preferably, the terminal locking portion includes a fixing portion to be locked to the housing in a direction intersecting the width direction.
According to the above configuration, the terminal locking portion is stably fixed to the housing by the fixing portion.
(5) Preferably, a pair of the fixing portions project on both sides in the width direction of the locking lance.
According to the above configuration, the terminal locking portion is more stably fixed to the housing by the pair of fixing portions.
[Details of Embodiment of Present Disclosure]
A specific example of an embodiment of the present disclosure is described below with reference to the drawings. Note that the present invention is not limited to this illustration, but is represented by claims and intended to include all changes in the scope of claims and in the meaning and scope of equivalents.
A connector 10 according to this embodiment is provided with a housing 20, terminal locking portions 50, a retainer 80 and terminal fittings 90 as shown in
The housing 20 and the terminal locking portions 50 are obtained in an integrated state by two-color molding. The housing 20 and the terminal locking portions 50 are made of mutually different resin materials. The housing 20 is, for example, made of PBT (polybutylene terephthalate) serving as a primary resin material. The terminal locking portions 50 are, for example, made of PP (polypropylene) serving as a secondary resin material. The retainer 80 is separate from the housing 20 and the terminal locking portions 50 and movably assembled with the housing 20. Note that, in this specification, an integrated assembly of the housing 20 and the terminal locking portions 50 is referred to as a connector body 10A.
The housing 20 has a rectangular shape when viewed from a height direction (synonymous with a vertical direction, and a Z direction of
The housing 20 includes a recessed portion 21 in a widthwise central part of an upper surface. The housing 20 includes a lock arm 22 arranged to be accommodated in the recessed portion 21. The lock arm 22 is shaped to extend rearward from the front end of the bottom surface of the recessed portion 21. The lock arm 22 is resiliently deformable in the height direction with the front end of the bottom surface of the recessed portion 21 as a fulcrum. The lock arm 22 locks an unillustrated mating housing and holds the housing 20 and the mating housing in a connected state.
The housing 20 includes a wall portion 23 extending in the width direction on the rear end of the upper surface. The wall portion 23 has a part for covering a rear end part of the lock arm 22 from above in a widthwise central part of the housing 20.
The housing 20 forms a plurality of cavities 70, together with the terminal locking portions 50, in the connector body 10A. The terminal fittings 90 are inserted into the cavities 70 from behind the housing 20. As shown in
Each cavity 70 has a rectangular cross-section. As shown in
Out of the four side surfaces of the cavity 70, a lower side surface along the width direction except a front end part is constituted as a part of the housing 20, and the front end part is constituted as a part (cavity-side surface 70b to be described later) of the terminal locking portion 50.
A front end part of the housing 20 includes recesses 25 at positions corresponding to the lower side surfaces (cavity-side surfaces 70d) of the respective cavities 70. As shown in
As shown in
The retainer 80 is shaped to extend long in the width direction although not shown in detail. The retainer 80 is arranged movably to a temporary locking position and a complete locking position with respect to the housing 20. The retainer 80 includes retaining portions 81 at positions corresponding to the respective cavities 70 as shown in
As shown in
The locking lance 51 is resiliently deformable in the height direction within a projection range of the projecting portion 52 with the rear end part as a fulcrum. As shown in
As shown in
The locking lance 51 includes the locking recess 54 recessed in a front end part of the cavity-side surface 70d. The locking recess 54 is a rectangular recess and open upward and forward. As shown in
The pair of fixing portions 53a, 53b are in the form of rectangular columns having a rectangular cross-section. As shown in
As shown in
Next, a manufacturing method and functions of the connector 10 are described.
First, the housing 20 serving as a primary molded portion 20A is molded using the primary resin material. The housing 20 is formed with the recesses 25 and the fixed receiving portions 27. Subsequently, the secondary resin material is injected into parts corresponding to the recesses 25 and the fixed receiving portions 27, whereby the terminal locking portions 50 serving as secondary molded portions 50A are molded. The locking lances 51 and the fixing portions 53a, 53b are respectively formed of the secondary resin material filled into the parts corresponding to the recesses 25 and the fixed receiving portions 27. In this way, the connector body 10A is obtained in which the housing 20 serving as the primary molded portion 20A and the terminal locking portions 50 serving as the secondary molded portions 50A are integrated.
Boundary surfaces between the housing 20 and the terminal locking portions 50 can contact each other, but do not firmly adhere to each other due to low affinity between the primary resin material and the secondary resin material. If time passes, following the opening of a mold, after the two-color molding described above, such a volume change that the widths of the locking lances 51 become smaller than those of the cavities 70 can occur due to a difference in shrinkage rate between the primary resin material and the secondary resin material. As a result, the locking lances 51 can be resiliently deformed in the height direction, maximally utilizing the widths of the cavities 70, in the cavities 70 of the connector body 10A.
As shown in
With the retainer 80 left at the temporary locking position with respect to the housing 20 of the connector body 10A, the terminal fittings 90 are inserted into the cavities 70 from behind the housing 20. In the process of inserting the terminal fitting 90, the locking projection 93 contacts along the guide surface 57 and the locking lance 51 is resiliently deformed downward. In the process of resiliently deforming the locking lance 51, both side surfaces (both end surfaces in the width direction) of the locking lance 51 can be displaced in contact with or in proximity to the left and right side surfaces 70a of the cavity 70.
If the terminal fitting 90 is properly inserted into the cavity 70, the locking lance 51 resiliently returns and the locking projection 93 is fit into the locking recess 54. As shown in
As descried above, since the primary resin material for molding the housing 20 and the secondary resin material for molding the terminal locking portions 50 are different from each other according to this embodiment, the locking lances 51 of the terminal locking portions 50 can be molded without being restricted by the cavities 70 of the housing 20. Accordingly, a large width of the locking lance 51 can be ensured. As a result, even if the connector 10 is reduced in size, a force for holding the terminal fitting 90 by the locking lance 51 can be enhanced. Particularly, since the width of the locking lance 51 is set to be equal to that of the cavity 70, a maximally large width of the locking lance 51 can be ensured and the force for holding the terminal fitting 90 by the locking lance 51 can be more enhanced.
Further, since the housing 20 and the terminal locking portions 50 can be formed by two-color molding, a process and a facility for assembling the housing 20 and the terminal locking portions 50 can be omitted.
Further, by locking the fixing portions 53a, 53b to the fixed receiving portions 27 of the housing 20, the terminal locking portion 50 is stably fixed in the vertical direction and lateral direction with respect to the housing 20. Furthermore, since the pair of fixing portions 53a, 53b project on the both widthwise sides of the locking lance 51, the terminal locking portion 50 is more stably fixed to the housing 20.
[Other Embodiments of Present Disclosure]
The embodiment disclosed this time should be considered illustrative in all aspects, rather than restrictive.
Although the housing and the terminal locking portions are integrally molded by two-color molding in the above embodiment, the housing and the terminal locking portions may be separately molded and the terminal locking portions may be incorporated into the housing later according to another embodiment.
Although the terminal locking portions are individually provided in the respective cavities of the housing in the above embodiment, terminal locking portions may be continuously formed over a plurality of the cavities of the housing according to another embodiment.
Although the locking surface of the locking lance is formed to be inclined in an overhanging manner in the above embodiment, the locking surface of the locking lance may be formed along the height direction according to another embodiment.
Number | Date | Country | Kind |
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2021-035977 | Mar 2021 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2022/005778 | 2/15/2022 | WO |