阅读说明：本技术 连接器锁定结构 (Connector locking structure ) 是由 木田耕辅 久保田浩正 于 2021-05-19 设计创作，主要内容包括：一种连接器锁定结构,包括：锁定臂,其在嵌合方向上从前端向后端延伸,并形成在连接器壳体的侧壁上；一对板状支撑壁,其设置在所述侧壁的后部并从所述侧壁突出,并且将所述锁定臂的后部夹在中间；连接部,其在宽度方向上连接所述一对板状支撑壁的上端并越过所述锁定臂的所述后部；以及锁定操作空间,其具有形成在所述连接部的后端处的切口。所述一对板状支撑壁中的一个的后端在嵌合方向上比所述锁定臂的所述后端更靠近所述锁定臂的所述前端。(A connector locking structure comprising: a lock arm extending from a front end to a rear end in a fitting direction and formed on a side wall of the connector housing; a pair of plate-like support walls provided at rear portions of the side walls and protruding therefrom, and sandwiching rear portions of the lock arms; a connecting portion connecting upper ends of the pair of plate-like support walls in a width direction and passing over the rear portion of the lock arm; and a locking operation space having a notch formed at a rear end of the connection part. A rear end of one of the pair of plate-like support walls is closer to the front end of the lock arm than the rear end of the lock arm in the fitting direction.)

1. A connector locking structure comprising:

a lock arm extending from a front end to a rear end in a fitting direction and formed on a side wall of the connector housing, the lock arm being configured to maintain a fitted state by elastically engaging a counterpart connector housing;

a pair of plate-like support walls provided at a rear portion of the side wall and protruding therefrom, the pair of plate-like support walls sandwiching a rear portion of the lock arm;

a connecting portion connecting upper ends of the pair of plate-like support walls in a width direction and passing over the rear portion of the lock arm; and

a locking operation space having a notch formed at a rear end of the connection portion,

wherein a rear end of one of the pair of plate-like support walls is closer to the front end of the lock arm than the rear end of the lock arm in the fitting direction.

2. The connector locking structure according to claim 1,

wherein the lock arm includes a lock operation portion provided on an upper surface of the rear portion of the lock arm and protruding therefrom; and

wherein an upper surface of the lock operation portion is completely exposed from the lock operation space in a plan view.

3. The connector locking structure according to claim 1 or 2,

wherein the lock operation space is configured to allow a finger to press the rear portion of the lock arm.

Technical Field

The present disclosure relates to a connector locking structure.

Background

An example of a connector locking structure allows a connector housing and a mating connector housing to be held in a fitted state (see, for example, patent document 1).

As shown in fig. 8, the connector locking structure disclosed in patent document 1 includes a lock arm 515 provided on an upper surface of a female housing 510 and having a locking protrusion 515A, a protection wall 516 provided on both sides of the lock arm 515, and an anti-reverse wall (connecting portion) 518 that prevents the lock arm 515 from rolling up to go over an operating portion 515F of the lock arm 515.

The anti-inversion wall 518 is connected to the upper surface of the female housing 510 by a support wall 518A. The anti-reverse rotation wall 518 is formed with a finger through hole (lock operation space) 518B opened at the rear end so that a finger can press the operation portion 515F.

Patent document 1: JP-A-2006-216322

Disclosure of Invention

However, in the connector locking structure described above, when the width dimension of the female housing 510 is reduced due to miniaturization of the connector, the gap between the support walls 518A on both sides of the support anti-inversion wall 518 becomes narrow. Then, when the gap between the support walls 518A on both sides is narrowed, the width of the finger penetrating hole 518B opened at the rear end of the inversion preventing wall 518 is also narrowed. Therefore, in the miniaturized connector, the finger may touch the support walls 518A on both sides during the unlocking operation, which may make it difficult to press the finger on the operation portion 515F. Therefore, the structure of the related art may cause a reduction in the unlocking characteristic.

The present disclosure has been made in view of the above circumstances, and an object of the present disclosure is to provide a lock structure of a compact connector capable of ensuring operability at the time of an unlocking operation while protecting a lock arm.

The present disclosure provides a connector locking structure, including: a lock arm extending from a front end to a rear end in a fitting direction and formed on a side wall of the connector housing, the lock arm being configured to maintain a fitted state by elastically engaging a counterpart connector housing; a pair of plate-like support walls provided at a rear portion of the side wall and protruding therefrom, the pair of plate-like support walls sandwiching a rear portion of the lock arm; a connecting portion connecting upper ends of the pair of plate-like support walls in a width direction and passing over the rear portion of the lock arm; and a lock operation space having a cutout formed at a rear end of the connecting portion, wherein a rear end of one of the pair of plate-shaped support walls is closer to the front end of the lock arm than the rear end of the lock arm in the fitting direction.

According to the connector locking structure of the present disclosure, it is possible to provide a compact locking structure of a connector capable of ensuring operability at the time of unlocking operation while protecting a locking arm.

The foregoing briefly describes the present disclosure. The details of the present disclosure will be further clarified by reading the following description of embodiments (hereinafter referred to as "embodiments") with reference to the attached drawings.

Drawings

Fig. 1 is a perspective view showing a fitting state of a connector housing and a counterpart connector housing forming a connector locking structure according to an embodiment of the present disclosure;

fig. 2A and 2B are a top view and a side view of the connector housing and a counterpart connector housing shown in fig. 1;

fig. 3A is a perspective view of the connector housing shown in fig. 1 viewed from the front side, and fig. 3B is a perspective view before the terminal is inserted into the connector housing shown in fig. 1;

FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 3B;

FIG. 5 is a top view of the connector housing of FIG. 3A;

fig. 6 is a cross-sectional view of the connector housing and mating connector housing shown in fig. 1;

fig. 7A and 7B are explanatory views for explaining an unlocking operation of the connector housing shown in fig. 6; and

fig. 8 is a plan view of a prior art connector.

Detailed Description

Hereinafter, embodiments according to the present disclosure will be described with reference to the accompanying drawings.

Fig. 1 is a perspective view showing a fitting state of a connector housing 10 and a counterpart connector housing 40 forming a connector locking structure according to an embodiment of the present disclosure. Fig. 2A and 2B are a top view and a side view of the connector housing 10 and the counterpart connector housing 40 shown in fig. 1.

As shown in fig. 1 and 2, the connector locking structure according to the embodiment includes a connector housing 10 and a counterpart connector housing 40. Here, the connector housing 10 is a female connector housing in which the female terminals 31 are accommodated in the terminal accommodating chambers 12. The mating connector housing 40 is a male connector housing in which male terminals (not shown) are arranged in the connector fitting portion 41. In the following description, the side (left side in fig. 2) fitted into the counterpart connector housing 40 is the front side of the connector housing 10.

The connector locking structure according to the embodiment includes a locking arm 21 formed on an upper wall (side wall) 10a of the connector housing 10, a pair of plate-like support walls 17 and 19 provided at a rear portion of the upper wall 10a and protruding from the upper wall 10a so as to sandwich the rear portion of the locking arm 21, a connecting portion 15 connecting upper ends of the pair of plate-like support walls 17 and 19 in a width direction (up-down direction in fig. 2A) and crossing over the rear portion of the locking arm 21, a locking operation space 16 having a cutout formed at a rear end of the connecting portion 15 so that an operator such as a finger can press down the rear portion of the locking arm 21, and a rear end 19a of the plate-like support wall 19 provided closer to a front side than the rear end 21a of the locking arm 21 as a main configuration in a fitting direction.

As shown in fig. 1 and 2, the counterpart connector housing 40 of the present embodiment is formed as a synthetic resin molded body and has a rectangular tubular connector fitting portion 41. The fitting portion 11 of the connector housing 10, which will be described later, is inserted and fitted into the connector fitting portion 41 in a substantially close contact state. On the rear wall of the connector fitting portion 41, the tab terminal portion of the male terminal projects toward the opening end.

A locking portion 43 formed with a cutout is provided on the top wall of the connector fitting portion 41. The locking claw (locking protrusion) 25 of the locking arm 21, which will be described later, is locked to the locking portion 43.

Fig. 3A is a perspective view of the connector housing 10 shown in fig. 1 viewed from the front side, and fig. 3B is a perspective view before the female terminal 31 is inserted into the connector housing 10 shown in fig. 1. Fig. 4 is a sectional view taken along line IV-IV in fig. 3B. Fig. 5 is a top view of the connector housing 10 in fig. 3A.

As shown in fig. 3A to 5, the connector housing 10 of the present embodiment is formed as a molded article made of synthetic resin, and has a substantially rectangular tubular shape as a whole. The front half of the connector housing 10 is a fitting part 11, and the fitting part 11 can be inserted into a connector fitting part 41 of the mating connector housing 40. Inside the connector housing 10 including the fitting portion 11 is a terminal accommodating chamber 12 of the female terminal 31, the terminal accommodating chamber 12 receiving the male terminal of the mating connector housing 40 via the front end opening 12 a.

As shown in fig. 4, a cantilever-like lance 13 for holding the female terminal 31 is provided in the terminal accommodating chamber 12, and the female terminal 31 inserted from the rear end opening 12b of the connector housing 10 is held by the lance 13.

As shown in fig. 3B, for example, the female terminal 31 has a pair of elastic crimps 32 serving as electrical contacts at the end in the insertion direction. The elastic curled portion 32 is formed on both sides of the base plate portion by being inwardly bent into a substantially mountain-shaped cross section. In the female terminal 31, a conductor caulking portion 33 including a conductor for caulking a conductor of an electric wire 37 and an electric wire caulking portion 35 for fixing a covering caulking portion 34 of the electric wire 37 are continuously provided behind the elastic crimp portion 32.

As shown in fig. 3A and 3B, the lock arm 21 is formed on the upper wall 10a of the connector housing 10, and the lock arm 21 elastically engages with the mating connector housing 40 to maintain the fitted state.

The lock arm 21 includes a cantilever-like arm portion 22, and the cantilever-like arm portion 22 extends rearward from the base end portion 20 rising from the upper wall 10a of the connector housing 10 at a distance from the upper wall 10a of the connector housing 10. Between the upper wall 10a of the connector housing 10 and the lower surface of the arm portion 22, a bending space (gap) 30 is formed that allows the arm portion 22 to be bent and deformed when fitted to the mating connector housing 40.

Therefore, the rear end portion (free end portion) of the lock arm 21 absorbs the operating force and is bent and deformed in the pressing direction (downward in fig. 3A and 3B), and when the operating force is removed, the original cantilever shape is restored again by the repulsive force of itself. The lock arm 21 has a lock claw 25 locked to the lock portion 43 of the mating connector housing 40 on the upper surface of the intermediate portion of the arm portion 22. A lock operation portion 23 projecting upward is provided on an upper surface of a rear end portion of the arm portion 22.

That is, by locking the locking claw 25 to the locking portion 43 of the counterpart connector housing 40, the locking arm 21 maintains the fitting state of the connector housing 10 and the counterpart connector housing 40. On the lock arm 21, when the lock operation portion 23 is pushed down by an operator such as a finger, an operation force is intensively applied to the lock operation portion 23, thereby bending and deforming the rear end portion downward.

The pair of plate-like support walls 17 and 19 according to the present embodiment are provided to project upward on the rear side of the upper wall 10a and sandwich the rear end portions of the lock arms 21 including the lock operating portions 23 in the width direction. The pair of plate-like support walls 17 and 19 are arranged in parallel with a gap W1 having a slight clearance with respect to both side surfaces of the lock arm 21.

As shown in fig. 5, a plate-like support wall 19 is provided such that a rear end 19a is closer to the front side than a rear end 21a of the lock arm 21 in the fitting direction. That is, the one plate-shaped support wall 19 has a shorter length L2 in the fitting direction than the length L1 in the fitting direction of the other plate-shaped support wall 17 disposed such that the rear end 17a is closer to the rear side than the rear end 21a of the lock arm 21 in the fitting direction.

In the connecting portion 15 of the present embodiment, the upper ends of the pair of plate-like support walls 17 and 19 are connected in the width direction and pass over the rear portion of the lock arm 21. At the rear end of the connecting portion 15, a lock operation space 16 is formed so that a finger 50 can be pressed on the lock operation portion 23 of the lock arm 21.

The lock operation space 16 according to the present embodiment is opened to expose the entire upper surface of the lock operation portion 23 in a plan view. The locking operation space 16 is formed by cutting the connecting portion 15, and upper ends of a pair of plate-shaped support walls 17 and 19 having different lengths in the connecting portion 15 are connected in the width direction. Therefore, the lock operation space 16 has an opening space W2 wider than the gap W1 of the pair of plate-shaped support walls 17 and 19 on the one plate-shaped support wall 19 side, in which the length L2 of the one plate-shaped support wall 19 in the fitting direction is shorter than the length L1 of the other plate-shaped support wall 17.

Next, the operation of the above-described configuration will be described.

Fig. 6 is a sectional view of the connector housing 10 and the counterpart connector housing 40 shown in fig. 1. Fig. 7A and 7B are explanatory views for explaining an unlocking operation of the connector housing 10 shown in fig. 6.

According to the connector locking structure of the present embodiment, as shown in fig. 1, 2A, 2B and 6, when an undesirable external force from top to bottom is applied to the locking arm 21, for example, when an object touches the locking arm 21, the external force is absorbed by the pair of plate-like support walls 17 and 19 provided to sandwich the rear portion of the locking arm 21. Therefore, the lock arm is prevented from being bent by an external force. Therefore, the pair of plate-like support walls 17 and 19 prevents the following from occurring: an external force is applied to the lock arm 21 of the connector housing 10, and the lock arm itself is bent to be caught by the mating connector housing 40, and even, the fitting state is broken.

When an undesirable external force from bottom to top is applied to the lock arm 21, for example, when the rear portion of the lock arm 21 is caught in an object, the external force is absorbed by the connecting portion 15 connecting the upper ends of the pair of plate-like support walls 17 and 19 in the width direction. Therefore, the connecting portion 15 prevents the lock arm 21 from being undesirably rolled up by an external force. Therefore, the connection portion 15 prevents the lock arm 21 of the connector housing 10 from being plastically deformed by an external force.

The rear end 19a of the one plate-like support wall 19 is disposed closer to the front end in the fitting direction than the rear ends 21a of the lock arms 21, and the length L2 in the fitting direction is shorter than the length L1 in the fitting direction of the other plate-like support wall 17 disposed such that the rear end 17a is closer to the rear side in the fitting direction than the rear ends 21a of the lock arms 21. Therefore, as shown in fig. 7A and 7B, the lock operation space 16 having the cutout formed at the rear end of the connecting portion 15 has an opening space W2 expanded on the one plate-like support wall 19 side. Therefore, it is difficult to touch one plate-like support wall 19 with the finger 50 during the unlocking operation. In particular, even when the width dimension of the upper wall 10a of the connector housing 10 becomes small and the gap W1 between the pair of plate-shaped support walls 17 and 19 becomes narrow, it is not difficult to press the finger 50 on the upper surface of the lock operation portion 23 at the rear portion of the lock arm 21. Therefore, the unlocking capability is not reduced.

The rear end 17a of the other plate-like support wall 17 is disposed further to the rear side than the rear end 21a of the lock arm 21 in the fitting direction. Therefore, an undesired external force from top to bottom is not applied to the lock arm 21.

Therefore, even when the connector housing 10 is miniaturized, operability at the time of the unlocking operation can be ensured.

According to the connector locking structure of the present embodiment, the upper surface of the lock operation portion 23 is completely exposed from the lock operation space 16 in a plan view. Therefore, during the unlocking operation, the finger 50 can easily press the lock operation portion 23.

Therefore, according to the connector locking structure of the above-described embodiment, it is possible to provide a compact locking structure of a connector, which is capable of ensuring operability at the time of unlocking operation while protecting the locking arm 21.

The present disclosure is not limited to the above-described embodiments, and may be appropriately modified, improved, and the like. The material, shape, size, number, arrangement position, and the like of each component in the above-described embodiments are arbitrary and are not limited as long as the present disclosure can be achieved.

Here, the features that briefly summarize the above-described embodiments of the connector locking structure according to the present disclosure are items [1] to [3] listed below.

[1] A connector locking structure comprising: a lock arm (21) extending from a front end to a rear end in a fitting direction and formed on a side wall (upper wall 10a) of the connector housing (10), the lock arm (21) being configured to maintain a fitted state by elastically engaging a counterpart connector housing (40); a pair of plate-like support walls (17, 19) provided at the rear of the side wall (upper wall 10a) and protruding from the side wall (upper wall 10a), the pair of plate-like support walls (17, 19) sandwiching the rear of the lock arm (21); a connecting portion (15) that connects upper ends of the pair of plate-like support walls (17, 19) in the width direction and passes over the rear portion of the lock arm (21); and a lock operation space (16) having a cutout formed at a rear end of the connecting portion (15), wherein a rear end (19a) of one (19) of the pair of plate-shaped support walls (17, 19) is closer to the front end of the lock arm (21) than the rear end (21a) of the lock arm (21) in a fitting direction.

[2] The connector locking structure according to [1],

wherein the lock arm (21) includes a lock operation portion (23) provided on an upper surface of the rear portion of the lock arm (21) and protruding therefrom; and

wherein an upper surface of the lock operation portion (23) is completely exposed from the lock operation space (16) in a plan view.

[3] The connector locking structure according to [1] or [2],

wherein the lock operation space (16) is configured to allow a finger (50) to press the rear portion of the lock arm (21).

According to the connector locking structure of item [1], when an undesirable external force from top to bottom is applied to the locking arm, for example, when an object touches the locking arm, the external force is absorbed by a pair of plate-like support walls provided to sandwich the rear portion of the locking arm. Therefore, the lock arm is prevented from being bent by an external force. Therefore, the pair of plate-like support walls prevents the following from occurring: an external force is applied to the lock arm of the connector housing, and the lock arm itself is bent to be caught or released from the mating connector housing, and even, the fitting state is broken.

When an undesirable external force from bottom to top is applied to the lock arm, for example, when the rear portion of the lock arm is caught in an object, the external force is absorbed by the connecting portion connecting the upper ends of the pair of plate-like support walls in the width direction. Therefore, the connecting portion prevents the lock arm from being undesirably rolled up by an external force. Therefore, the connecting portion prevents the lock arm of the connector housing from being plastically deformed by an external force.

The rear end of a plate-like support wall is closer to the front end of the lock arm than the rear end of the lock arm in the fitting direction. A length of one plate-shaped support wall in the fitting direction may be shorter than a length of the other plate-shaped support wall configured such that a rear end of the other plate-shaped support wall is farther from a front end of the lock arm than a rear end of the lock arm in the fitting direction. Therefore, the lock operation space having the cutout formed at the rear end of the connecting portion has an open space expanded on one plate-like support wall side. Therefore, it is difficult for the operator to touch a plate-like support wall during the unlocking operation. In particular, even when the width dimension of the side wall of the connector housing becomes small and the gap between the pair of plate-like support walls becomes narrow, it is not difficult to press the operator against the upper portion of the lock arm. Therefore, the unlocking capability is not reduced. The rear end of the other plate-like support wall is disposed further to the rear side than the rear end of the lock arm in the fitting direction. Therefore, an undesired external force from top to bottom is not applied to the lock arm. Therefore, even when the connector housing is miniaturized, operability at the time of the unlocking operation can be ensured.

According to the connector locking structure of item [2], the upper surface of the lock operation portion is completely exposed from the lock operation space in a plan view. Therefore, the operator can easily press the lock operation portion during the unlocking operation.

According to the connector locking structure of item [3], the lock operation space is configured to allow a finger to press a rear portion of the lock arm. Therefore, the lock operation portion can be easily pressed by a finger during the unlocking operation.