阅读说明：本技术 连接器 (Connector with a locking member ) 是由 池谷一英 安间光 粕谷匠 于 2020-04-08 设计创作，主要内容包括：连接器包括要装配到配合壳体的壳体。所述壳体包括暴露于连接器的外部的外周表面,所述外周表面包括高摩擦表面,所述高摩擦表面的表面粗糙度大于所述外周表面的除了所述高摩擦表面之外的部分的表面粗糙度。(The connector includes a housing to be fitted to a mating housing. The housing includes an outer peripheral surface exposed to an exterior of the connector, the outer peripheral surface including a high-friction surface having a surface roughness greater than a surface roughness of a portion of the outer peripheral surface other than the high-friction surface.)

1. A connector includes a housing to be fitted to a mating housing,

wherein the housing includes an outer peripheral surface exposed to an outside of the connector, the outer peripheral surface including a high-friction surface having a surface roughness greater than a surface roughness of a portion of the outer peripheral surface other than the high-friction surface.

2. The connector of claim 1, wherein the first and second connectors are connected to each other,

wherein the high friction surface is disposed on both sides of the housing.

3. The connector according to claim 1 or 2,

wherein the housing includes a lock arm provided at a first position on an outer periphery of the housing, the lock arm being configured to engage with a projection of the mating housing to lock the projection, and

wherein the high friction surface is disposed at a second location on the outer periphery of the housing, the first and second locations being opposite one another on the outer periphery of the housing.

4. The connector of claim 3, comprising:

the high friction surface is disposed on the locking arm.

Technical Field

The present invention relates to a connector.

Background

Disclosure of Invention

Drawings

FIG. 1 is a perspective view of a male housing and a female housing of a connector according to one embodiment;

FIG. 2 is an exploded perspective view of the female housing;

FIG. 3 is a longitudinal cross-sectional view of the female housing;

FIG. 4 is a side view of the female housing;

fig. 5 is a perspective view of a female housing according to a modification;

fig. 6A and 6B are views showing modifications, in which fig. 6A is a plan view of the female housing, and fig. 6B is a bottom view of the female housing;

fig. 7 is a perspective view of a female housing according to another variation.

Detailed Description

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Fig. 1 is a perspective view of a male housing and a female housing of a connector according to the present embodiment. As shown in fig. 1, the connector 10 according to the present embodiment includes a female housing (housing) 20 to be fitted into a male housing (mating housing) 70.

The male housing 70 includes a connecting portion 70 a. The female housing 20 includes a hood 20 a. The male housing 70 and the female housing 20 are coupled to each other by inserting the connection portion 70a of the male housing 70 into the hood 20a of the female housing 20.

The male housing 70 is formed of synthetic resin and includes a tubular connecting portion 70 a. A plurality of male terminals (not shown) are provided in the male housing 70, and these male terminals are arranged in the connecting portion 70 a.

The male housing 70 includes a pair of guide protrusions 71 and a protrusion 72 on an upper surface of the connection portion 70 a. The guide protrusions 71 are formed in a direction in which the female housing 20 is fitted to the male housing 70, i.e., a direction in which the female housing 20 approaches the male housing 70 (hereinafter, simply referred to as a fitting direction). The guide protrusions 71 are spaced apart from each other. The protrusion 72 is formed in the middle of the upper surface of the connecting portion 70a in the width direction between the pair of guide protrusions 71. The protrusion 72 protrudes from the upper surface of the connection portion 70 a. A guide surface 73 gradually inclined upward toward the rear end side of the male housing 70 is formed in the vicinity of the distal end of the connecting portion 70 a.

Fig. 2 is an exploded perspective view of the female housing. Fig. 3 is a longitudinal cross-sectional view of the female housing. As shown in fig. 2 and 3, the female housing 20 includes a housing body 21 having a hood 20a formed in a tubular shape, and a fitting portion 22 protrudes in the housing body 21. The female housing 20 is formed of synthetic resin, and a plurality of terminal accommodating chambers 23 are formed in the fitting portion 22. A female terminal 25 connected to an end of the electric wire 24 will be accommodated in each terminal accommodating chamber 23, and the electric wire 24 will be pulled out from the rear end of the housing main body 21. The seal member 26 attached to the electric wire 24 is to be fitted into the terminal accommodating chamber 23 from the rear end side of the housing main body 21. Therefore, the terminal accommodating chamber 23 of the housing body 21, which is to accommodate the female terminal 25, is sealed so that water does not enter the terminal accommodating chamber 23.

The female terminal 25 is formed of a conductive metal material such as copper or a copper alloy, and is connected to the electric wire 24 by crimping. The female terminal 25 includes an electrical connection portion 27 formed in a tubular shape.

An annular seal member 28 for sealing a portion (joint) where the male housing 70 is joined to the female housing 20 between the male housing 70 and the female housing 20 from a tip side (tip side of the annular seal member 28 on a front side in the fitting direction) is attached to the fitting portion 22 of the female housing 20. Further, a front holder 29 molded of synthetic resin is attached to the fitting portion 22. By attaching the front retainer 29 to the fitting portion 22, the female terminal 25 accommodated within the terminal accommodating chamber 23 is prevented from moving toward the fitting direction, i.e., the female terminal 25 is prevented from moving toward the direction in which the female terminal 25 is further inserted into the terminal accommodating chamber 23. Also, the front holder 29 holds the seal member 28 held on the fitting portion 22.

The housing main body 21 of the female housing 20 includes a bottom plate 51 and side plates 52 connected to both side edges of the bottom plate 51, and a locking mechanism portion 30 provided on an upper side of the side plates 52. Therefore, the case main body 21 is formed of the bottom plate 51, the side plate 52, and the lock mechanism portion 30 into a box shape that is open at the front side in the fitting direction.

The lock mechanism portion 30 includes a lock arm 31. The lock arm 31 includes a pair of support arms 32 and a swing arm 33. The support arm 32 is connected to the housing main body 21. The support arm 32 is formed in a cantilever manner, and has a beam shape extending toward the front side in the fitting direction. The support arms 32 are arranged parallel to and spaced apart from each other. The swing arm 33 is disposed between the pair of support arms 32. The swing arm 33 extends to the rear side in the fitting direction, and an end portion thereof on the front side in the fitting direction is connected to each support arm 32. The swing arm 33 includes an operating portion 34 at a rear end portion of the swing arm 33, which is opposite to a side where the swing arm 33 is connected to the support arm 32, i.e., the swing arm 33 includes the operating portion 34 at the rear end portion in the fitting direction. The operating portion 34 has an extending portion 35, and the extending portion 35 extends to the lateral side. A lock groove 34a for preventing sliding extending in a direction perpendicular to the fitting direction is formed in the operating portion 34 of the swing arm 33. A lock claw 36 projecting toward the housing main body 21, i.e., projecting inward, is formed at the front end of the lock arm 31. The support arm 32 and the swing arm 33 are connected at the front end of the lock arm 31. In the lock arm 31, the swing arm 33 is swung by elastic deformation of the support arm 32.

The lock mechanism portion 30 includes a pair of protection walls 41. The protection walls 41 are provided adjacent to both sides of the lock arm 31 in the lateral direction, i.e., in the width direction of the lock arm 31. The protection wall 41 laterally surrounds the lock arm 31, thereby protecting the side surface of the lock arm 31. In other words, both sides of the lock arm 31 are surrounded and protected by the protection wall 41. The beam 42 is disposed on the front side of the protective wall 41 in the fitting direction. Both lateral ends of the beam 42 are connected to the protective wall 41. The beam 42 is spaced from the housing body 21.

Fig. 4 is a side view of the female housing. As shown in fig. 4, the female housing 20 includes high friction surfaces HF on both side plates 52 of the housing body 21. Each high friction surface HF is formed at a substantially central position in the height direction of the case main body 21 on a side surface as an outer surface of the side plate 52 in the fitting direction.

The surface roughness of the high friction surface HF is greater than the surface roughness of the portion of the outer peripheral surface of the female housing 20 other than the high friction surface HF. For example, the surface roughness (arithmetic average roughness, Ra) of the portion other than the high friction surface HF on the outer peripheral surface of the female housing 20 is smaller than Ra50, and the roughness (arithmetic average roughness) of the high friction surface HF is equal to or larger than Ra 100. Further, the high friction surface HF has a higher static friction coefficient than the portion of the outer peripheral surface of the female housing 20 other than the high friction surface HF. In the high friction surface HF, the static friction coefficient increases in all directions within the plane direction.

The high friction surface HF may be formed, for example, by sand blasting, laser irradiation, grinding, or the like of a predetermined portion where the high friction surface HF is to be formed on the female housing 20. A paint for roughening the surface may be applied to a predetermined portion where the high friction surface HF is to be formed, or an adhesive tape having a high friction surface may be attached. Further, the high friction surface HF may be formed on the female housing 20 by molding the female housing 20 with a mold, a part of which is subjected to sand blasting or the like to form the high friction surface HF on the female housing 20.

Next, how to fit the female housing 20 of the connector 10 to the male housing 70 will be described.

The fitting portion 22 is fitted to the male housing 70 by moving the hood portion 20a of the female housing 20 toward the connecting portion 70a of the male housing 70. Then, the locking mechanism portion 30 is guided by the guide projection 71 of the male housing 70, and the locking claws 36 of the locking arm 31 of the female housing 20 are brought into contact with the guide surfaces 73 of the projection 72 of the male housing 70.

When the female housing 20 is pushed toward the male housing 70, the locking claw 36 of the locking arm 31 comes into contact with the guide surface 73 of the protrusion 72, reaches on the guide surface 73, and starts sliding on the guide surface 73, and the support arm 32 of the locking arm 31 is elastically deformed. Therefore, the swing arm 33 of the lock arm 31 swings as the front end side of the swing arm 33 having the locking claw 36 moves in a direction away from the housing main body 21.

By further pushing the female housing 20 relative to the male housing 70, the locking pawl 36 is advanced and reaches a position further in the assembly direction than the protrusion 72. When the locking pawl 36 is in this position, an inner surface of the locking pawl 36 (which extends in the up-down direction) faces a surface of the projection 72, which is opposite to the guide surface 73 and extends in the up-down direction. It happens that the support arm 32, which has been elastically deformed, is restored, thereby swinging back the swing arm 33, and the locking claw 36 slides over the projection 72 toward the front side in the fitting direction and locks with the projection 72. Thus, the female housing 20 is fitted to the male housing 70 locked thereto.

In this fitted state, the connecting portion 70a of the male housing 70 closely contacts the sealing member 28 attached to the fitting portion 22 of the female housing 20, and the portion where the male housing 70 is joined to the female housing 20 is reliably sealed. Further, in this fitted state, the male terminal is inserted into the electrical connection portion 27 of the female terminal 25, and the female terminal 25 and the male terminal are electrically connected.

In the above-described fitting operation, the operator grips the both side plates 52 of the housing main body 21 of the female housing 20 with the fingers and pushes the female housing 20 into the male housing 70. At this time, since the high friction surface HF having high surface roughness is provided on the side plate 52, the operator can push the female housing 20 into the male housing 70 without sliding his fingers on the side plate 52.

Next, how to separate the female housing 20 from the male housing 70 will be described.

To separate the female housing 20 from the male housing 70, the operating portion 34 at the rear end of the swing arm 33 in the lock arm 31 of the female housing 20 is pushed toward the housing main body 21.

Then, the swing arm 33 swings, and the front end side of the lock arm 31 moves in a direction away from the housing main body 21. Accordingly, the locking claws 36 are separated from the housing main body 21, the locking claws 36 are released from the locking with the protrusions 72, and the female housing 20 is released from the locked state with the male housing 70.

In this state, the female housing 20 is moved in a direction in which the female housing 20 is away from the male housing 70. Accordingly, the female housing 20 is separated from the male housing 70, and the electrical connection between the female terminal 25 and the male terminal is cut off.

In the above-described separating operation, the operator releases the locking of the female housing 20 with respect to the male housing 70 by the locking arm 31, and then holds the two side plates 52 of the housing main body 21 of the female housing 20 with fingers and pulls the female housing away from the male housing 70. At this time, since the high friction surface HF having high surface roughness is provided on the side plate 52, the operator can pull the female housing 20 away from the male housing 70 without sliding his fingers on the side plate 52.

As described above, with the connector 10 according to the present embodiment, when fitting the female housing 20 to the male housing 70 and separating the female housing 20 from the male housing 70, it is possible to prevent the fingers from sliding with respect to the female housing 20 by bringing the fingers holding the female housing 20 into contact with the high-friction surface HF. It is possible to fit the female housing 20 to the male housing 70 and separate the female housing 20 from the male housing 70 while preventing an increase in size or a decrease in strength due to thinning of the connector 10, as compared to an irregularly shaped connector in which a plurality of protrusions or depressions are formed to prevent sliding.

In particular, the high friction surfaces HF are provided on both side surfaces which are outer surfaces of both side plates 52 of the housing main body 21 of the female housing 20. Therefore, by grasping the female housing 20 from both sides with fingers, an operator can fit the female housing 20 to the male housing 70 and separate the female housing 20 from the male housing 70 without the fingers sliding thereon.

Next, a modification will be described. Fig. 5 is a perspective view of a female housing according to a modification. Fig. 6A and 6B are views showing modifications, in which fig. 6A is a plan view of the female housing, and fig. 6B is a bottom view of the female housing. As shown in fig. 5, in the connector 10 according to the modification, the high friction surface HF is provided on the bottom plate 51 of the housing main body 21 and in the lock mechanism portion 30.

As shown in fig. 6A, a high friction surface HF of the lock mechanism portion 30 is provided on an upper surface of the operating portion 34 of the swing arm 33 of the lock arm 31 in the width direction of the female housing 20. As shown in fig. 6B, the high friction surface HF of the bottom plate 51 is provided in the vicinity of the rear end of the bottom plate 51 in the fitting direction along the width direction.

In this modification, when the swing arm 33 of the lock arm 31 swings to release the lock, the operator can hold on the lower portion of the housing main body 21 and the operation portion 34 without the fingers sliding thereon. Further, even after releasing the lock, the operator can pull the female housing 20 away from the male housing 70 without his fingers sliding on the lower portion of the housing main body 21 and the operating portion 34.

As shown in fig. 7, in another modification, the high friction surface HF may be provided only on the bottom plate 51, and the operating portion 34 of the lock arm 31 may have the locking groove 34 a. Also in this case, the operator can grip on the lower portion of the housing main body 21 and the operating portion 34, and can pull the female housing 20 away from the male housing 70 without their fingers sliding on the lower portion of the housing main body 21 and the operating portion 34.

The high friction surface HF may be provided on both the side plates 52 or on both the bottom plate 51 and the operating portion 34 of the lock arm 31. In this way, an operator can push the female housing 20 into the male housing 70 during the fitting operation without his fingers slipping over the side panels 52. Further, when the lock between the female housing 20 and the male housing 70 is released and the female housing 20 is pulled away from the male housing 70 in the separating operation, these operations can be performed without the operator's fingers sliding on the lower portion of the housing main body 21 and the operating portion 34.

Although the present invention has been described with reference to certain exemplary embodiments thereof, the scope of the present invention is not limited to the above-described exemplary embodiments, and those skilled in the art will appreciate that various changes and modifications may be made without departing from the scope of the present invention defined by the appended claims.

According to an aspect of the above-described embodiments, the connector (10) includes a housing (female housing 20) to be fitted to a mating housing (male housing 70). The housing (female housing 20) includes an outer peripheral surface exposed to the outside of the connector (10), the outer peripheral surface including a high friction surface (HF) having a surface roughness greater than that of a portion of the outer peripheral surface other than the high friction surface (HF).

According to the connector having the above configuration, by holding the housing at the high friction surface with the fingers at the time of fitting and separating the housing to and from the mating housing, the fingers can be prevented from sliding with respect to the housing. It is possible to fit and separate the housing to and from the mating housing while preventing an increase in size or a decrease in strength due to thinning of the housing, as compared with an irregularly shaped connector in which a plurality of protrusions or depressions are formed to prevent sliding.

High friction surfaces (HF) may be provided on each side of the housing (female housing 20).

With this configuration, the operator can fit and detach the housing to and from the mating housing by holding the housing at both sides with fingers without their fingers slipping.

The housing (female housing 20) may include a locking arm (31) provided at a first position on an outer periphery of the housing (female housing 20), the locking arm (31) being configured to engage with a protrusion (72) of a mating housing (male housing 70) to lock the protrusion (72). The high friction surface (HF) may be disposed at a second location on the outer circumference of the housing (female housing 20), the first and second locations being opposite to each other on the outer circumference of the housing (female housing 20).

With this configuration, by holding the housing on the lock arm and the high-friction surface with fingers, the operator can fit and separate the housing to and from the mating housing without their fingers sliding on the lock arm and the high-friction surface provided on the sides opposite to each other while operating the lock arm.

A high friction surface (HF) may be provided on the locking arm (31).

With this configuration, the operator can fit and detach the housing to and from the mating housing without their fingers sliding on the high-friction surface of the lock arm and the high-friction surface on the side of the housing opposite to the lock arm while operating the lock arm.