Field of the Invention
The invention relates to a connector and a terminal fitting.
Related Art
Japanese Unexamined Patent Publication No. 2006-79922 discloses a connector that includes a housing having a cavity and a terminal fitting (shield terminal) to be inserted into the cavity. The terminal fitting includes a body and stabilizers protrude left and right from the body. Guide grooves are formed in the housing and communicate with both left and right sides of the cavity. The stabilizers enter the corresponding guide grooves when the terminal fitting is in a proper posture to guide an inserting operation of the terminal fitting into the cavity. On the other hand, the stabilizers contact facing wall surfaces of the cavity to restrict further insertion if the terminal fitting is in an improper posture. In this way, erroneous insertion of the terminal fitting into the cavity is prevented.
The stabilizers are not deformed resiliently deformed and clearances are formed between the stabilizers and inner surfaces of the guide grooves due to manufacturing tolerances and the like. Similarly, a clearance also is formed between the body and the inner surface of the cavity. Thus, for example, the terminal fitting may rattle in the cavity if a wire (shielded cable) connected to the terminal fitting and pulled out from the housing vibrates. A terminal fitting that rattles in the cavity interferes with a front wall of a mating terminal fitting without facing right opposite to the mating terminal fitting when the connector is connected to a mating connector, Therefore, a connecting operation cannot be performed any further.
Japanese Unexamined Patent Publication No. 2006-79922 also discloses backlash eliminating ridges on the inner surface of the cavity and each backlash eliminating ridge contacts the body part of the terminal fitting to suppress rattling of the terminal fitting in the cavity. However, each backlash eliminating ridge is made of synthetic resin and may be squeezed by the terminal fitting. Thus, it is difficult to realize reliable backlash elimination.
Japanese Unexamined Patent Publication No. 2006-79922 also discloses a retainer to be inserted into the housing and held at a full locking position. Two locking ridges are provided on the retainer sandwich the stabilizers from both sides and can prevent the rattling of the terminal fitting in the cavity can be also suppressed by this. However, the locking ridges are made of synthetic resin and may be squeezed similar to the respective backlash eliminating ridges. Further, since the retainer separate from the housing is necessary, there is also a problem that application is limited.
The invention was completed on the basis of the above situation and aims to prevent the rattling of a terminal fitting.
A connector of the invention includes a housing with an accommodating portion, and a terminal fitting to be inserted into the accommodating portion. The terminal fitting includes a resilient portion configured to restrict a loose movement of the terminal fitting in the accommodating portion by contacting an inner surface of the accommodating portion while being resiliently deformed.
A terminal fitting of the invention is to be inserted into an accommodating portion of a housing. The terminal includes a resilient portion configured to contact an inner surface of the accommodating portion while being resiliently deformed, and is accommodated in the accommodating portion with a loose movement restricted. Accordingly, a clearance between the terminal fitting and the inner surface of the accommodating portion is filled by the resilient portion and the terminal fitting cannot rattle in the accommodating portion. Particularly, since the resilient portion is provided on the terminal fitting, the resilient portion is not squeezed due to contact with the housing made of synthetic resin.
Further, the terminal fitting and the housing partially overlap, but an overlapping margin can be adjusted easily by a resilient deformation amount of the resilient portion.
A groove may extend in an inserting direction of the terminal fitting in the inner surface of the accommodating portion of the housing and an interfering portion may be provided on a surface of the groove. The resilient portion projects on a body of the terminal fitting and is inserted into the groove. A projection is on an outer surface and is configured to interfere with and to contact the interfering portion when insertion is completed. According to this configuration, sliding resistance between the housing and the resilient portion can be made smaller or zero in the process of inserting the terminal fitting. Thus, insertion efficiency is improved, and the projection reliably deforms the resilient portion.
The resilient portion projects on a body of the terminal fitting and a projection may be on an outer surface of the resilient portion. The projection is configured to contact the inner surface of the accommodating portion. According to this configuration, the projection reliably deforms the resilient portion.
Projections may be provided on front and rear sides of the outer surface of the resilient portion while being spaced apart in an inserting direction of the terminal fitting. According to this configuration, the clearance between the terminal fitting and the inner surface of the accommodating portion is filled up on the front and rear sides in the inserting direction of the terminal fitting. Thus, the rattling of the terminal fitting in the accommodating portion will not rattle while being inclined in a direction intersecting the inserting direction can be prevented with good reliability.
The projection may be embossed to bulge on the outer surface of the resilient portion. According to this configuration, the projection can be formed easily on the resilient portion.
An embodiment is described with reference to
As shown in
As shown in
Further, as shown in
The lower member 19 includes a bottom wall 23 in the form of a rectangular plate and left and right side walls 24 rising from both left and right sides of the bottom wall 23. The side walls 24 cover left and right sides of the upper member 18 from outside.
As shown in
As shown in
Each plate 27 has inner and outer surfaces that are mostly flat in the front-rear direction and the vertical direction. However, front and rear projection 28 and 29 at positions near the front and rear ends of the plates 27. As shown in
As shown in
The housing 60 is made of synthetic resin and includes, as shown in
An accommodating portion 62 penetrates the housing 60 in the front-rear direction, and a locking lance 63 is cantilevered forward on an upper wall of the inner surface of the accommodating portion 62. The locking lance 63 is deflectable and deformable in the vertical direction. The housing 60 includes a front stop 64 projecting into the accommodating portion 62 at a position slightly in front of the locking lance 63 on a lower wall of the inner surface of the accommodating portion 62. The terminal fitting 10 is inserted into the accommodating portion 62 of the housing 60 from behind. The rearward escape of the terminal fitting 10 is restricted by the locking projection 21 being resiliently locked by the locking lance 63 and any further forward movement of the terminal fitting 10 is restricted by the retaining projection 22 contacting the front stop 64. In this way, the terminal fitting 10 is held with front-rear movements with respect to the accommodating portion 62 restricted. The shielded cable 90 connected to the terminal fitting 10 extends rearward from the housing 60 when the entire terminal fitting 10 is accommodated properly into the accommodating portion 62 (see
Left and right grooves 65 are formed in upper parts of the inner surfaces of both side walls of the accommodating portion 62, as shown in
As shown in
As shown in
The housing 60 includes left and right groove back portions 71 (only one is shown in
As shown in
The first and second interfering portions 72, 73 are arranged side by side in the vertical direction and shifted in the front-rear direction. The first interfering portion 72 is disposed in a lower part (lower half) of a front end part of the groove portion 65. The second interfering portion 73 includes a part located on a vertically central side of the front part of the groove portion 65 and extending further rearward than the first interfering portion 72. The front ends of the first and second interfering portions 72, 73 are intersecting and connected to the back surface 69.
As shown in
As shown in
Next, functions and effects of this embodiment are described.
In assembling, the terminal fitting 10 is inserted into the accommodating portion 62 of the housing 60 from behind. The terminal fitting 10 is crimped and connected to the end of the shielded cable 90 in advance. As shown in
In a final stage of inserting the terminal fitting 10, the front and rear projections 28, 29 substantially simultaneously start sliding respectively on the first and second guiding surfaces 77 and 78 so that the resilient portions 25 gradually deform resiliently with the bases 26 as supports. When the terminal fitting 10 is inserted properly, the locking lance 63 locks the locking projection 21, and the front and rear projections 28, 29 substantially simultaneously ride on the first and second interfering surfaces 75, 76 respectively. At this time, as shown in
The resilient portions 25 apply reaction forces to the body 16 from left and right sides when the terminal fitting 10 is inserted properly in the accommodating portion 62. Thus, the terminal fitting 10 is held with loose movements restricted, and the terminal fitting 10 will not rattle in the accommodating portion 62 even if the shielded cable 90 vibrates. As a result, the terminal fitting 10 faces the mating terminal fitting when the housings are connected, and a connecting operation of the terminal fittings can be performed smoothly.
As described above, a clearance between the body 16 of the terminal fitting 10 and the inner surface of the accommodating portion 62 is filled by the resilient portions 25. As a result, the terminal fitting 10 will not rattle in the accommodating portion 62. The resilient portions 25 are made of metal. Thus, unlike the backlash eliminating ribs 67, the resilient portion 67 are not squeezed and suppress rattling of the terminal fitting 10 with high reliability. The terminal fitting 10 and the housing 60 overlap in the lateral direction, but overlap margins can be adjusted easily by deformation amounts of the resilient portions 25.
Further, in the process of inserting the terminal fitting 10 into the accommodating portion 62, the front and rear projections 28, 29 enter the grooves 65 to escape. Thus, sliding resistance between the housing 60 and the resilient portions 25 is small or nonexistent, and insertion efficiency is improved. In addition, resilient deformation of the first and second projections 28, 29 is highly reliable.
The front and rear projections 28, 29 are on the outer surfaces of the plates 27 of the resilient portions 25 while being spaced apart in the front-rear direction. Thus, the clearance between the body 16 of the terminal fitting 10 and the inner surface of the accommodating portion 62 is filled up on front and rear ends. As a result, rattling of the terminal fitting 10 in the accommodating portion 62 while being inclined in the lateral direction is prevented with good reliability. Further, the front and rear projections 28, 29 are embossed to bulge on the outer surfaces of the plates 27 of the resilient portions 25 and can be manufactured easily.
Other embodiments are described briefly below.
The resilient portion may be shaped to have base end portions on both longitudinal ends and supported on both ends.
The resilient portion may be formed by bending and raising a part between slits formed in the body of the terminal fitting.
The connector is not limited to a shield connector and the terminal fitting may be a general terminal fitting to be fixed to an end part of a coated wire not including a shield layer such as a braided wire. In this case, the dielectric can be omitted and the terminal fitting can be manufactured from a single metal plate. Further, the housing may include plural accommodating portions and plural terminal fittings.
The resilient portion may include a projection in addition to the front and rear projections on the outer surface. Conversely, the resilient portion may include only one projection on the outer surface.
The resilient portion may be configured such that a flat outer surface contacts the inner surface of the accommodating portion without the first and second projections.
Three resilient portions may be provided on the body of the terminal fitting. Conversely, only one resilient portion may be provided on the body of the terminal fitting.
Number | Date | Country | Kind |
---|---|---|---|
2018-064121 | Mar 2018 | JP | national |