KR20140116798A - Lever type connector - Google Patents

Abstract

A lever-type connector according to the present invention avoids deteriorating the operability of a lever. A lever-type connector includes: a second latch part (36: fitting location latch part) formed on a lever (20); a second receiving part (45: fitting location receiving part) formed in a second housing (40) to lock the lever (20) at a fitting location by latching the second latch part (36) when both housings (10, 40) are fitted with each other; a first latch part (31: containment location latch part) formed on the lever (20); and a first receiving part (13: containment location latch part) formed in a first housing (10) to lock the lever (20) at a containment location by latching the first latch part (31) when both housings (10, 40) are not fitted with each other and the lever (20) is located at the containment location which is set to an opposite location to an initial location between the fitting locations.

Description

LEVER TYPE CONNECTOR [0002]

The present invention relates to a lever-type connector.

Patent Literature 1 discloses a lever type structure in which a lever is rotatably attached to a first housing and a cam follower of a second housing is engaged with a cam groove of a lever to rotate the lever from an initial position to a fitting position, A connector is disclosed. In this lever type connector, when the lever is at the initial position, the operating portion of the lever projects from the outer surface of the first housing. When the lever is in the fitting position, almost all of the lever is moved along the outer surface of the first housing It becomes a stored state. Therefore, when the first housing is transported and stored in an untested state, the levers are held at the fitting position in order to avoid interference with other members and to save space. As means for holding the lever in the fitting position, a structure of engaging the lock arm of the lever and the lock arm of the first housing is used.

Patent Document 1: Japanese Patent Application Laid-Open No. 2005-317384

In the lever-type connector, it is considered that when the lever is rotated to the fitting position to engage the both housings, the lock arm of the lever is locked to the lock portion of the second housing. In this case, since the lever and the second housing are locked by the two lock means combined with the lock by the engagement of the cam groove and the cam follower and the lock by the engagement of the lock arm and the lock portion, the reliability of the lock function can be expected to be improved have.

In this case, the lever can not be held in the retracted position because the lock of the second housing is away from the lock arm of the lever when both housings are unaffected and the lever is in the fitting position (i.e., the retracted position). Therefore, the retracted position is set at a position slightly deviated from the fitting position, and the retracted position latching portion, which is engaged with the lock arm when the lever is present at the retracted position, is formed in the first housing. However, when such a retaining portion latching portion is formed, the lock arm interferes with the latching portion at the time when the lever reaches the retreating position just before the lever reaches the fitting position in the process of the lever engaging operation. The resistance generated at the time of this interference may cause a deterioration in the operation feeling of the operator, and therefore countermeasures are required.

SUMMARY OF THE INVENTION The present invention has been accomplished on the basis of the above-described circumstances, and its object is to avoid a deterioration in operation feeling of the lever.

According to the present invention,

A first housing,

A lever rotatably attached to the first housing, and

A second housing engageable with the first housing,

Wherein the cam follower is configured to engage the first housing with the second housing by turning the lever to the engaged position by bringing the cam floor of the second housing into the cam groove of the lever with the lever in the initial position In one lever-type connector,

An engaging portion for engaging position formed on the lever,

A receiving portion for the engagement position, which is formed in the second housing and which locks the engagement portion for engagement position when the first housing and the second housing are engaged to lock the lever in the engagement position;

A retention position latch formed on the lever, and

Wherein when the first housing and the second housing are unaffected and the lever is at a storage position set opposite to the initial position with the engagement position in between, And a retracted position receiving portion for locking the lever in the retracted position by engaging the retracted portion,

And is characterized in that it comprises:

In the process of rotating the lever in the engaging direction to engage the housings, the retracted position retaining portion and the retracted position receiving portion are not in contact with each other. Therefore, the operation of the lever due to interference between the retracted position retaining portion and the retracted position receiving portion There is no decrease. Further, in the process of rotating the lever from the initial position to the retracted position in a state in which both housings are not in an unsealed state, since the engaging position latch portion does not interfere with the receiving portion for the engaging position, the engaging position latch portion and the engaging position receiving portion The operation feeling of the lever does not deteriorate due to interference.

1 is a side view showing a state in which a lever is in a retracted position in the lever-type connector of the first embodiment;
2 is a rear view showing a state in which the lever is in the retracted position.
3 is a sectional view taken along line XX in Fig.
4 is a side view showing a state in which the lever is in the initial position.
5 is a side view showing a state in which the lever is in the fitting position.
6 is a side sectional view showing a state in which both the housings are fitted.
7 is a plan sectional view showing a state in which the first housing and the second housing are engaged with each other with the lever removed.
8 is a plan view of the first housing with the lever removed.

In the lever-type connector of the present invention,

And the engagement position of the lever may be set so as to be in a positional relationship approaching the storage position.

According to this configuration, since the lever is housed when both housings are fitted, miniaturization can be achieved.

In the lever-type connector of the present invention,

The lever is guided in the process of engaging the first housing with the second housing and the lever is brought into contact with the lever when the lever reaches the retracted position, Guide ribs may be provided.

According to this configuration, since the guide ribs for guiding the both housings at the time of engagement are also used as stoppers when the levers reach the retracted position, compared to the case where dedicated stoppers are formed separately from the guide ribs, 1 It is possible to simplify the shape of the housing.

≪ Example 1 >

Hereinafter, a first embodiment of the present invention will be described with reference to Figs. 1 to 8. Fig. The lever-type connector according to the first embodiment includes a first housing 10, a lever 20 rotatably attached to the first housing 10, a second housing 40 capable of fitting with the first housing 10, As shown in Fig. 6, the fitting direction of the first housing 10 faces downward and the fitting surface of the second housing 40 faces upward, as shown in Fig. 6, . Regarding the right and left directions, a direction orthogonal to the plane shown in Fig. 1 is defined as a left and right direction. Regarding the forward and backward directions, for convenience, the left side in Figs. 1 and 6 is defined as the front side.

As shown in Figs. 1 to 5 and 8, the first housing 10 has a block-like shape as a whole, and a plurality of female terminal fittings (not shown) are housed therein. A pair of coaxial support shafts 11 protrude from the left and right outer side surfaces of the first housing 10. On both front and rear surfaces of the first housing 10, a pair of left and right guide ribs 12 are protruded. The guide ribs 12 are linearly extended in the vertical direction, that is, in parallel with the direction in which the both housings 10, 40 are fitted.

On the rear surface of the first housing 10, as shown in Figs. 3 and 4, a first receiving portion 13 (a retaining position engaging portion described in Claims) protrudes. The first receiving portion 13 is disposed at a position above the guide rib 12 as an upper end of the rear surface of the first housing 10 in the vertical direction. In other words, in the fitting direction of the first housing 10 with respect to the second housing 40, the first receiving portion 13 has the guide ribs 12 (the upper end in Fig. 3) (Upper side in Fig. 3) than in the fitting direction. As shown in Fig. 8, the first receiving portion 13 is disposed at a central position of both guide ribs 12 in the left-right direction.

As shown in Figs. 1 to 5, the lever 20 is composed of a pair of left and right symmetrical arm portions 21 that are in the form of a plate parallel to the left and right sides of the first housing 10 as a whole, And an operating portion 22 in the form of connecting the both arm portions 21 are integrally formed. The right and left arm portions 21 are formed with a pair of bearing holes 23 penetrating in the left and right direction. The lever 20 is attached to the first housing 10 in such a manner that the arm portion 21 is moved along the left and right sides of the first housing 10 by fitting the bearing hole 23 to the support shaft 11. [ . Further, the arm portion 21 is formed with a cam groove 24 that is recessed in the lateral direction in the left-right direction. The inlet 25 of the cam groove 24 is open to the outer circumferential edge of the arm portion 21.

The lever 20 attached to the first housing 10 is able to rotate between the initial position (see FIG. 4) and the retracted position (see FIGS. 1 to 3) about the support shaft 11 have. 5 and 6) is set at a position close to the retracted position of the rotation range between the initial position of the lever 20 and the retracted position. When the housings 10, 40 are fitted, the lever 20 is rotated from the initial position to the fitting position. In the following description, the direction in which the lever 20 is rotated (the clockwise direction in Figs. 1 and 3 to 6) in order to fit the housings 10 and 40 is defined as " . In the process in which the lever 20 is rotated from the initial position in the pivoting direction for engagement to the retracted position, the lever 20 reaches the retracted position immediately after passing the fitting position.

A pair of extending portions 26 projecting outward in the radial direction away from the bearing hole 23 are formed on the outer peripheral edge of the left and right arm portions 21. The operating portion 22 connects the extending ends of the left and right extended portions 26 with each other. 1 to 3, 5, and 6, when the lever 20 is in the retracted position and the engaged position, the operating portion 22 is located behind the support shaft 11, (The side opposite to the supporting shaft 11) with respect to the rear surface (the outer surface on which the first receiving portion 13 is formed) of the first receiving portion 10. 4, the operating portion 22 is located above the first housing 10 and is displaced rearward from the supporting shaft 11 in the state where the lever 20 is in the initial position . 4, when the lever 20 is in the initial position, the inlet 25 of the cam groove 24 is opened downward, and the cam follower 43 of the second housing 40 Wait to accept.

The operating portion 22 is constituted by a connecting plate 27, an extending plate 28 and an elastic latching plate 29 (see Fig. 3). The connecting plate 27 is elongated in the left and right direction so as to connect the extending end edges of the extending portion 26 with each other. The elongated plate 28 has a shape in which the central portion in the right and left direction of the connecting plate 27 is extended in a semi-circular shape in the rotating direction for fitting. The elastic latching plate 29 connects positions closer to the support shaft 11 (pivot center of the lever 20) than the connecting plate 27 and the extension plate 28 in the extending end portions of the extending ends. The connecting plate 27, the extension plate 28 and the elastic latching plate 29 are in a direction in which they are in contact with an imaginary circle (not shown) which is concentric with the pivotal center of the lever 20. The extension plate 28 is formed with a release notch 30 in the form of an incision in the area corresponding to the extending end of the lock arm 33 (see Figs. 2 and 3), which will be described later.

The elastic latching plate 29 has a pair of outer edge portions extending in the left and right direction. In the outer edge portion on the front side in the rotation direction for fitting among the two outer edge portions, (A retaining portion for retaining position described in Claims). The first latching portion 31 is disposed at the center of both extending portions 26 in the left-right direction. When the lever 20 is in the retracted position, the first engaging portion 31 is engaged with the first receiving portion 13 from below, and the engaging action causes the lever 20 to move in the opposite direction (The direction returning to the initial position) is regulated.

Immediately before the lever 20 reaches the retracted position, the first retaining portion 31 interferes with the first retaining portion 13 so that the elastic retaining plate 29 is retracted rearward (from the support shaft 11) And the first retaining portion 31 rides over the first receiving portion 13 by the curved deformation of the elastic retaining plate 29. As a result, When the first latching portion 31 passes through the first receiving portion 13 and the lever 20 reaches the retracted position, the elastic latching plate 29 is resiliently returned and the first latching portion 31 And is caught by the first receiving portion 13. When releasing the engagement between the first engaging portion 31 and the first receiving portion 13, the elastic engaging plate 29 may be elastically deformed backward.

The lever (20) has a pair of left and right side plates (32). The side plate (32) extends parallel to the extending direction of the extension plate (28). The end edge of the side plate 32 in front of the pivoting direction for fitting is continued at substantially right angles to the left and right edges of the extending plate 28 and the connecting plate 27. A part of the end edge of the extension plate 28 rearward in the rotation direction for engagement is continuous at substantially right angles to the elastic engagement plate 29. [ In the state in which the lever 20 is in the retracted position, as shown in Figs. 1 and 3, an end portion of the side plate 32 on the front side in the rotating direction for fitting is in contact with the guide rib 12, The lever 20 is regulated to be further displaced from the retracted position in the fitting rotation direction.

The lever (20) has a lock arm (33). 2 and 3, the lock arm 33 is extended from a surface of the resilient latching member facing the connection plate 27 in a direction substantially the same as the extension direction of the extension plate 28 A pair of right and left arm body portions 34 extending in a cantilever shape and a connecting edge portion 35 connecting the extending ends of the arm body portion 34 with each other. The lock arm 33 is elastically deformable in the radial direction so as to approach and separate from the support shaft 11. The surface of the connection edge portion 35 opposite to the rotation direction for fitting is the second engagement portion 36 (engagement portion for engagement described in the claims). A step finger type hook portion 37 is formed on a surface of the connection edge portion 35 on the side of the rotation direction side for fitting. The lock arm 33 can be resiliently displaced in the unlocking direction (the direction of approaching the releasing notch portion 30 and the connecting plate 27) when the finger is hooked on the finger hook portion 37. [

The proximal end of the lock arm 33 is continuous with the resilient latching plate 29. Therefore, when the lock arm 33 is elastically displaced in the unlocking direction in a state where the first retaining portion 31 is engaged with the first receiving portion 13, The first receiving portion 31 is separated from the first receiving portion 13 because the first receiving portion 31 is integrally formed with the base end portion and is elastically displaced in the unlocking direction.

6, the second housing 40 has a terminal holding portion 41 and a hood portion 42 protruding upward from the outer circumferential edge of the terminal holding portion 41. As shown in Fig. A male terminal metal fitting (not shown) of a known type is attached to the terminal holding portion 41. [ A pair of cam followers 43 protrude from the inner surfaces of the left and right sidewalls of the four wall portions constituting the hood portion 42. In the front wall portion and the rear wall portion of the four wall portions constituting the hood portion 42, a pair of right and left guide grooves 44 each having a recessed inner surface are formed. The guide groove 44 is formed in such a shape that the guide rib 12 of the first housing 10 can be inserted and is elongated in parallel with the direction in which the both housings 10 and 40 are fitted, Is opened at the upper end of the hood portion 42. [0050]

In the rear wall portion of the second housing 40, a second receiving portion 45 (the receiving portion for the fitting position described in claims) protruding from the outer surface is formed. When the lever 20 reaches the fitting position and the both housings 10 and 40 are engaged with each other, the second latching portion 36 is engaged with the second receiving portion 45 from below, 20 are displaced upward relative to the second housing 40 (in the direction of returning to the initial position side opposite to the rotation direction for engaging).

The second engaging portion 36 interferes with the second receiving portion 45 immediately before the lever 20 reaches the fitting position in the process of rotating the lever 20 in the rotating direction for fitting, 33 are elastically displaced outward in the radial direction, the second engaging portion 36 rides over the second receiving portion 45. When the second latching portion 36 passes the second receiving portion 45 and the lever 20 reaches the fitting position, the lock arm 33 resiliently returns to the second latching portion 36, And is caught by the receiving portion 45. When releasing the engagement between the second engaging portion 36 and the second receiving portion 45, the finger hook portion 37 is operated to move the lock arm 33 rearward (toward the releasing notch portion 30 side To be elastically deformed.

When the lever 20 reaches the fitting position and the both housings 10 and 40 are engaged with each other, the cam follower 43 comes into contact with the inner end of the cam groove 24 and the lower surface of the first housing 10 (Engagement surface) of the second housing 40 comes into contact with the upper surface (engagement surface) of the terminal holding portion 41 of the second housing 40. By these two contact actions, the lever 20 is rotated in the direction Direction) is regulated.

Next, the operation of the first embodiment will be described. When the lever 20 is pivoted to the retracted position with both housings 10 and 40 grasping the operating portion 22 in a state in which the housings 10 and 40 are untreated, the engagement of the first latching portion 31 and the first receiving portion 13, 32 and the guide ribs 12, the lever 20 is locked in a rotation-restricted state at the retracted position. Almost all of the arm portion 21 and the extending portion 26 are positioned so as to overlap with the left and right outer side surfaces of the first housing 10 in the state where the lever 20 is locked in the retracted position, And is positioned to face the rear surface of the first housing 10. That is, a part of the lever 20 does not protrude from the first housing 10, but almost all of the lever 20 is stored along the outer surface of the first housing 10. As a result, the first housing 10 and the lever 20 are compactly arranged, and thus are suitable for transportation and storage.

The second receiving portion 45 of the second housing 40 is positioned at the second engaging portion 36 of the lever 20 and the second receiving portion 45 of the second housing 40, It does not exist at the corresponding location. Therefore, in the process of rotating the lever 20 from the initial position to the retracted position, the second retention portion 36 does not interfere with the second retention portion 45 when passing through the engagement position. That is, the operator does not feel resistance due to the interference between the second latching portion 36 and the second receiving portion 45, so that the operation feeling at the time of turning the lever 20 is good.

Next, when the two housings 10 and 40 are fitted, first, the lock arm 33 is operated in the lock releasing direction to elastically displace the elastic engaging plate 29 in the lock releasing direction, and the first engaging portion 31 And the first receiving portion 13 are released. Then, holding the operating portion 22, the lever 20 is rotated in the direction opposite to the rotating direction for engaging and is rotated to the initial position. The levers 20 pass through the fitting position immediately after the lever 20 starts to rotate. In this process, the two housings 10 and 40 are unmeasured and the second receiving portion 45 is engaged with the second hook The operator does not feel the resistance due to the interference between the second latching portion 36 and the second receiving portion 45. Therefore,

After the lever 20 is rotated to the initial position, the hood portion 42 of the second housing 40 is fitted to the first housing 10 from the lower side and the cam floor 43 is inserted into the cam groove 24, To enter the inlet (25). Thereafter, the operator holds the operating section 22 and rotates the lever 20 from the initial position toward the fitting position. Both housings 10 and 40 are pulled by the action of the force generated by the engagement of the cam groove 24 and the cam follower 43 in accordance with the rotation of the lever 20 so that the fitting progresses.

When the lever 20 reaches the fitting position, the cam follower 43 comes into contact with the inner end of the cam groove 24, so that the rotation of the lever 20 toward the pivoting direction do. At the same time, the second retaining portion 36 and the second retaining portion 45 are engaged with each other, and the lever 20 is locked in the engaged position by the engaging action. Since the lever 20 and the second housing 40 restrain the relative displacement by the engagement of the cam groove 24 and the cam follower 43, the lever 20 is locked in the fitting position, , 40 are locked in the release restricting state.

The operating portion 22 of the lever 20 and the hood portion 42 of the second housing 40 are separated from each other by the engagement of the second engaging portion 36 and the second receiving portion 45, Relative displacement with respect to the direction is regulated. The direction in which the lever 20 is regulated is a direction in which the lever 20 starts rotating from the fitting position toward the initial position and the second housing 40 is supported by the first housing 10, It is the falling direction. Therefore, the upward and downward separation of the operation portion 22 and the hood portion 42 is regulated, so that the separation of the upper and lower housings 10 and 40 from each other is reliably regulated. As described above, in the state where the lever 20 is in the fitting position, the lock function by the engagement of the cam groove 24 and the cam follower 43 and the locking function by the engagement of the second engagement portion 36 and the second reception portion 45 The both housings 10, 40 are securely locked in the engaged state by the lock function by the lock mechanism.

The engagement position of the lever 20 is set within the range of the rotation range from the initial position to the storage position. In other words, the retracted position for storing the lever 20 in the state in which the housings 10, 40 are not in an untimed state is set outside the area (outside the rotating area) from the initial position of the lever 20 to the fitting position have. Therefore, in the process of rotating the lever 20 to the fitting position, resistance due to the interference between the first engaging portion 31 and the first receiving portion 13 is not generated, so that the operation feeling of the lever 20 is lowered There is no work. When the lever 20 reaches the fitting position and the first and second housings 10 and 40 are engaged with each other, the first receiving portion 13 is covered by the hood portion 42 of the second housing 40 Loses.

Further, since the engaging position is set so as to be close to the retracted position, the lever 20 is stored even when the two housings 10, 40 are fitted. Therefore, it is possible to achieve miniaturization at the time of fitting. Since the guide ribs 12 for guiding the both housings 10 and 40 at the time of fitting are also used as stoppers when the lever 20 reaches the retracted position, The shape of the first housing 10 is simplified as compared with the case where the stopper of the first housing 10 is formed.

<Other Embodiments>

The present invention is not limited to the first embodiment described with reference to the above description and drawings, for example, the following embodiments are also included in the technical scope of the present invention.

(1) In the first embodiment, the engaging portion for engaging position (second engaging portion) and the engaging portion for engaging position (first engaging portion) are separately formed, but the engaging portion for engaging position and the engaging portion for engaging position Or may be used in combination.

(2) In the first embodiment, the rotation stroke from the fitting position to the storage position is set to be sufficiently small as compared with the rotation stroke from the initial position to the fitting position by setting the storage position in the vicinity of the fitting position. However, And the rotation stroke from the initial position to the engagement position and the rotation stroke from the engagement position to the storage position may be set so as not to be greatly different from each other.

(3) In the above-described first embodiment, the receiving portion receiving portion (first receiving portion) of the first housing is covered and covered by the second housing when the two housings are fitted. However, The portion may be covered by the second housing when the two housings are fitted, and may not be covered.

(4) In the above-described first embodiment, the guide ribs for guiding both housings at the time of fitting are used as the stoppers when the levers reach the retracted position. However, the stoppers may be provided separately from the guide ribs.

10: first housing
12: Guide rib
13: first receiving portion (receiving portion receiving portion)
20: Lever
24: Cam home
31: first engaging portion (engaging portion for retracted position)
36: second engaging portion (engaging portion for engaging position)
40: second housing
43: Cam followers
45: second receiving portion (receiving portion for fitting position)

Claims (3)

A first housing,
A lever rotatably attached to the first housing, and
A second housing engageable with the first housing,
The cam follower of the second housing is inserted into the cam groove of the lever in a state where the lever is in the initial position and the lever is engaged with the second housing by rotating the lever to the fitting position In one lever-type connector,
An engaging portion for engaging position formed on the lever,
A receiving position receiving portion formed on the second housing and locking the lever to the fitting position when the first housing and the second housing are engaged with each other,
A retention position latch formed on the lever, and
Wherein when the first housing and the second housing are unaffected and the lever is at a retracted position set on the side opposite to the initial position with the engaging position therebetween, And a retracted position receiving portion for locking the lever in the retracted position by engaging the retracted portion,
Wherein said lever-type connector comprises: The lever-type connector according to claim 1, characterized in that the engagement position of the lever is set so as to be in a positional relationship close to the storage position. The connector according to any one of claims 1 to 3, further comprising: a first housing formed in the first housing and configured to guide the two housings in a process of fitting the first housing and the second housing, and when the lever reaches the housing position And a guide rib for restricting the rotation of the lever by contacting the lever.

Images