JP3670510B2 - Lever type connector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lever-type connector that engages a pair of male and female connectors by lever operation and releases the fitting.
[0002]
[Prior art]
As this type of conventional lever-type connector, for example, there are those shown in FIGS.
[0003]
The lever-type connector 101 includes a male housing 105 in which a large number of terminal accommodating chambers 103 for accommodating female terminals (not shown) are formed, and a female housing 109 having a hood portion 107 into which the male housing 105 is fitted. And a lever 111 which is slidably provided in the hood portion 107 and has one end protruding out of the hood portion 107.
[0004]
A large number of male terminals 113 are accommodated in the female housing 109, and each male terminal 113 stands in the hood portion 107. A slit 115 is formed in the hood portion 107 of the female housing 109 so that one end of the lever 111 protrudes out of the hood portion 107 in a swingable manner. The slit 115 has an opening on the open end surface 117 of the hood portion 107. The lever 111 has a top end protruding from the opening of the slit 115 at the position of the swinging top dead center.
[0005]
At the bottom of one end of the lever 111, guide bosses 119 for guiding the swinging of the lever 111 are respectively provided on both wall surfaces of a portion of the slit 115 positioned between the opposing surfaces 115 a and 115 a. . On both opposing surfaces 115a and 115a of the slit 115, a guide boss 119 of the lever 111 is inserted into the hood portion 107 in the fitting direction Y1 of the male housing 105 and the escape direction Y2 of the male housing 105 from the hood portion 107. Guide holding grooves 121 are formed so as to be movable to each other.
[0006]
On the bottom wall of the hood 107, a fulcrum boss 123 protruding from both wall surfaces of the bottom of the other end of the lever 111 and serving as a swing fulcrum is orthogonal to the insertion direction Y1 and the exit direction Y2 of the male housing 105. A fulcrum holding groove 125 is formed so as to be movably held in the position.
[0007]
The male housing 105 has a lever recess 127 into which the lever 111 is inserted at the bottom. The lever recess 127 is located in the middle of the terminal accommodating chamber 103 array, and penetrates the bottom of the male housing 105 along the array. The lever recess 127 is provided with guide ribs 129 and 129 on the opposing surfaces of the lever recess 127 facing each other. Cam grooves 131 and 131 that engage with the guide ribs 129 and 129 to push the male housing 105 in the insertion direction Y1 or the withdrawal direction Y2 are formed on the top of the lever 111.
[0008]
In this lever type connector 101, the bottom portion of the male housing 105 is inserted into the hood portion 107 of the female housing 109 with the lever 111 positioned at the swing top dead center position, and the cam grooves 131, 131 of the lever 111 are inserted. The guide ribs 129 and 129 of the male housing 105 are introduced into the lever 111 and one end of the lever 111 is pushed down to engage the upper surfaces of the cam grooves 131 and 131 of the lever 111 with the guide ribs 129 and 129 of the male housing 105. The male housing 105 is pushed in the insertion direction Y1.
[0009]
Therefore, a pair of male and female connectors can be fitted with a small force by the lever principle.
[0010]
Further, by lifting one end of the lever 111 in a state where the pair of male and female connectors are fitted, the lower surfaces of the cam grooves 131 and 131 of the lever 111 and the guide ribs 129 and 129 of the male housing 105 are engaged with each other. The mold housing 105 can be pushed in the escape direction Y2, and the pair of male and female connectors can be released with a small force by the lever principle.
[0011]
[Problems to be solved by the invention]
However, in the lever-type connector 101 as described above, when the male housing 105 is inserted into the hood portion 107 or when the male housing 105 is removed from the hood portion 107, the male housing 105 contacts the inner wall surface of the hood portion 107. In contact therewith, the male housing 105 may be twisted by the inner wall surface of the hood portion 107.
[0012]
When the male housing 105 is twisted, the male housing 105 has a shape straddling the lever 111 via the lever recess 127 penetrating along the terminal accommodating chamber 103, and is shown in FIG. As described above, both the walls of the male housing 105 may fall inward toward the lever recess 127, and as shown in FIG. 14 (b), the guide ribs 129 and 129 may be slid.
[0013]
When the male housing 105 falls inward or the guide ribs 129 and 129 are slanted, the mating of the pair of male and female connectors is distorted, an abnormal force is required to release the mating, A pair of male and female connectors may not be fitted.
Further, as shown in FIG. 14C, there is a problem that the strength against the load P in the direction of opening from the lever recess 127 to the outside is also weakened.
[0014]
For this reason, it can be considered that ribs are provided on the outer surfaces of both walls of the male housing 105 to prevent twisting. However, when the male housing 105 is provided with ribs, the width of the hood portion 107 of the female housing 109 has to be increased, and there is a problem that the lever-type connector is increased in size.
[0015]
Therefore, the present invention does not increase the width dimension and can prevent the male housing from being twisted. As a result, the lever type can improve the stability of mating and unmating of a pair of male and female connectors. The challenge is to provide a connector.
[0016]
[Means for Solving the Problems]
In order to solve the above problems, the invention of claim 1 is directed to a male housing in which one terminal is disposed, and a female in which the other terminal is disposed having a hood portion into which the male housing is fitted. A mold housing and a lever that is slidably erected in the hood portion and has one end projecting outside the hood portion, the hood portion on one end side of the lever having an opening on the open end surface of the hood portion, A slit for projecting one end swingably is formed, and guide bosses for guiding the swing of the lever are respectively provided on both wall surfaces of the lever portion located between the opposing surfaces of the slit. A guide holding groove for holding the guide boss so as to be movable in the insertion direction of the female housing into the hood portion and the escape direction from the inside of the hood portion is provided on the opposite surface, and the bottom portion of the lever is provided on the bottom wall of the hood portion. Provided in A fulcrum holding groove is formed to hold the swinging fulcrum portion movably in an orthogonal direction perpendicular to the insertion direction and the escape direction, and a lever recess into which the lever is inserted is formed in the male housing, A lever-type connector in which a guide rib is disposed in the lever recess, and a cam groove is formed on the top of the lever to engage the guide rib and push the male housing in the insertion direction or the withdrawal direction. The male housing is provided with a kink preventing reinforcing member that prevents the kink and also serves as a reinforcement, and the kink preventing reinforcing member is provided at one end of a recess for the lever formed in the male housing. It is a wall that connects both opposing surfaces, and an insertion portion into which the wall is inserted is formed between the inner wall surface of the hood portion and the tip of the lever .
[0017]
According to the present invention, the male housing is provided with a kink preventing reinforcing member to reinforce the male housing. Therefore, when the male housing is inserted into the hood part or when it is removed from the hood part, the male housing is reinforced by the anti-squeeze reinforcing member even if the male housing is twisted by the inner wall surface of the hood part. Therefore, the male housing is prevented from being twisted. As a result, it is possible to improve the stability of fitting and releasing of the pair of male and female connectors.
[0019]
Moreover, in this invention, the end of both the opposing surfaces of the recessed part for levers formed in the male housing is connected with the wall. Accordingly, since the male housing is reinforced by the wall, the male housing is prevented from being twisted.
[0020]
The invention according to claim 2 is the lever-type connector according to claim 1, wherein the kink preventing reinforcement member is a guide rib that connects opposite facing surfaces of the concave portion for the lever formed in the male housing. The cam groove of the lever with which the guide rib is engaged is formed so as to penetrate both wall surfaces of the lever.
[0021]
In the present invention, both opposing surfaces of the concave portion for the lever formed in the male housing are connected by the guide rib. Therefore, since the male housing is reinforced by the guide rib, the same action as that of the first aspect of the invention can be obtained.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
An example of an embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is an exploded perspective view showing a first embodiment of the present invention. FIG. 2 is a plan view of the male housing of what is shown in FIG. FIG. 3 is a right side view of what is shown in FIG. 4 is a cross-sectional view taken along the line II of FIG. FIG. 5 is a plan view of the female housing shown in FIG. FIG. 6 is a right side view of what is shown in FIG. 7 is a cross-sectional view taken along the line II-II of what is shown in FIG. FIG. 8 is a cross-sectional view taken along line III-III of what is shown in FIG. However, in FIGS. 1 and 8, the lever is located at the swing top dead center position, and in FIGS. 5 to 7, the lever is located at the swing bottom dead center position.
[0023]
As shown in FIG. 1, the lever-type connector 1 includes a male housing 2, a female housing 3 having a hood portion 31 into which the male housing 2 is fitted, and a hood portion 31 that can swing freely. And a lever 4 having one end projecting out of the hood 31.
[0024]
In the male housing 2, terminal accommodating chambers 21 for accommodating male terminals (one terminal) (not shown) are arranged in two rows on the left and right sides, and the same number of each row is formed at a predetermined pitch. Each terminal accommodating chamber 21 penetrates the male housing 2 from the top surface 22 to the bottom surface 23 of the male housing 2, and a female terminal attached to the tip of the lead wire from the opening on the top surface 22 side is mounted. A male terminal 5 (the other terminal) standing up in the hood portion 31 of the female housing 3 is inserted from the opening on the bottom surface 23 side.
[0025]
As shown in FIGS. 1 to 5, a lever recess 24 into which the lever 4 is inserted is formed on the bottom surface 23 of the male housing 2. The lever recess 24 is located in the middle of the terminal accommodating chamber 21 array, and is formed along the array.
[0026]
The lever recess 24 is provided at one end thereof with a wall 25 that connects the opposing surfaces of the lever recess 24 facing each other. The wall 25 prevents the male housing 2 from being twisted when the male housing 2 is inserted into the hood portion 31 of the female housing 3 and when the male housing 2 is escaped from the hood portion 31 and also serves as a reinforcement for preventing galling. It constitutes a member.
[0027]
In the lever recess 24, guide ribs 26 are provided at predetermined positions. The guide ribs 26 are provided on opposite surfaces of the lever recess 24 that face each other.
[0028]
The lever 4 is provided with an operation portion 41 for swinging the lever 4 at a top portion on one end side which protrudes from the slit 32 provided in the hood portion 31 of the female housing 3 so as to be swingable out of the hood portion 31.
[0029]
Between the inner wall surface of the hood part 31 and the other end (tip) of the lever 4, when the male housing 2 is inserted into the hood part 31 of the female housing 3, a kink prevention reinforcing member for the male housing 2 is provided. An insertion portion 38 for inserting the wall 25 is formed.
[0030]
At the bottom of one end of the lever, guide bosses 42 for guiding the swinging of the lever 4 are provided on both wall surfaces of a portion of the slit 32 located between the opposed surfaces 32a and 32a facing each other.
[0031]
At the top of the lever 4, it engages with the guide ribs 26, 26 of the male housing 2, and the fitting direction Y1 of the male housing 2 into the hood 31 or the escape direction Y2 of the male housing 2 from the hood 31 is provided. Cam grooves 45, 45 that are pushed forward are formed.
[0032]
One wall surface of the operation portion 41 of the lever 4 is detachably engaged with a lock piece 33 provided at a lower portion of the outer wall surface of the female housing 3 at the lower end thereof so that the lever 4 is swung at the bottom dead center position. An elastic piece 46 to be fixed is disposed.
[0033]
A large number of male terminals 5 are accommodated in the female housing 3. One end of each male terminal 5 protrudes from the bottom of the female housing 3 to the left and right sides of the female housing 3 at a predetermined pitch. The other end portions of the male terminals 5 are arranged in two rows on the left and right sides within the hood portion 31 of the female housing 3, and the same number as each row stands up at a predetermined pitch, and the male housing 2 is inserted into the hood portion 31. By being inserted, it is inserted and connected to the female terminal disposed in the terminal accommodating chamber 21 of the male housing 2.
[0034]
The lever 4 is swingably disposed at an intermediate position along the arrangement of the male terminals 5 in the hood portion 31. A slit 32 of the female housing 3 that allows the operation portion 41 of the lever 4 to swing from the hood portion 31 extends from the open end surface 31a of the hood portion 31 in the fitting direction Y1, and has an opening at the open end surface 31a. ing. The top of the lever 4 protrudes from the opening of the slit 32 at the top dead center position.
[0035]
On both opposing surfaces 32a, 32a of the slit 32, guide holding grooves 34 for holding the swing guide portion 42 of the lever 4 so as to be swingable in the fitting direction Y1 and the escape direction Y2 are formed.
[0036]
The bottom wall 31b of the hood part 31 is formed with a swinging recess 36 that extends from the lower end of the slit 32 in the orthogonal direction X perpendicular to the insertion direction Y1 and the escape direction Y2 and into which the bottom of the lever 4 is swingably inserted. Has been. On both sides of the projecting portion of the swing recess 36, fulcrum holding grooves 37 are formed which communicate with the swing recess 36 and hold the swing fulcrum portion 44 of the lever 4 so as to be movable in the orthogonal direction X.
[0037]
On the bottom surface of the female housing 3, positioning protrusions 39 for mounting on the electric circuit board of the female housing 3 are provided at two locations.
[0038]
In the lever connector 1 described above, the bottom portion of the male housing 2 is inserted into the hood portion 31 of the female housing 3 with the lever 4 positioned at the swinging top dead center position, and the cam groove 45 of the lever 4 is inserted. 45, the guide ribs 26, 26 of the male housing 2 are introduced and the operating portion 41 of the lever 4 is pushed down, whereby the upper surfaces of the cam grooves 45, 45 of the lever 4 and the guide ribs 26, 26 of the male housing 2 are engaged. Accordingly, the male housing 2 is pushed in the insertion direction Y1. Therefore, a pair of male and female connectors can be fitted with a small force by the lever principle.
[0039]
Further, by lifting the operating portion 41 of the lever 4 with the pair of male and female connectors fitted, the lower surfaces of the cam grooves 45, 45 of the lever 4 and the guide ribs 26, 26 of the male housing 2 are engaged. The male housing 2 can be pushed in the escape direction Y2, and the pair of male and female connectors can be released with a small force by the lever principle.
[0040]
Moreover, in the lever-type connector 1, the male housing 2 is reinforced with a wall 25 that connects one end of both opposing surfaces of the lever recess 24.
[0041]
Accordingly, when the male housing 2 is inserted into the hood portion 31 or when the male housing 2 is pulled out of the hood portion 31, even if the male housing 2 is twisted by the inner wall surface of the hood portion 31, the male housing 2 is Since the wall 25 is reinforced, the male housing 2 is prevented from being twisted. As a result, the safety of mating and unmating the pair of male and female connectors can be improved.
[0042]
9 to 11 show another example of the embodiment. FIG. 9 is an exploded perspective view showing a second embodiment of the present invention. 10 is a right side view of the male housing of what is shown in FIG. 11 is a plan view of the female housing of what is shown in FIG. However, in FIG. 9, the lever is located at the swing top dead center position, and in FIG. 11, the lever is located at the swing bottom dead center position.
[0043]
9 to 11, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.
[0044]
As shown in FIGS. 9 and 10, a lever recess 50 into which the lever 4 is inserted is formed on the bottom surface of the male housing 2. The lever recess 50 is located in the middle of the arrangement of the terminal accommodating chambers 21 and is formed through the bottom of the male housing 2 along the arrangement.
[0045]
A guide rib 51 is disposed in the lever recess 50 at a predetermined position. The guide rib 51 is provided with both opposing surfaces of the lever recess 50 facing each other. The guide rib 51 is provided with a kink preventing reinforcing member that prevents the male housing 2 from being twisted when the male housing 2 is inserted into the hood portion 31 of the female housing 3 or when the male housing 2 is withdrawn from the hood portion 31 and also serves as a reinforcement. It is composed.
[0046]
At the top of the lever 4, the male housing 2 is engaged with the guide rib 51 of the male housing 2 to fit the male housing 2 into the hood portion 31, or the male housing 2 from the hood portion 31. A cam groove 60 is formed to push in the escape direction Y2. The cam groove 60 is formed through both wall surfaces of the lever 4.
[0047]
In this lever-type connector 1, the male housing 2 is reinforced by guide ribs 51 that are continuous on both opposing surfaces of the lever recess 50.
[0048]
Accordingly, when the male housing 2 is inserted into the hood portion 31 or when the male housing 2 is pulled out of the hood portion 31, even if the male housing 2 is twisted by the inner wall surface of the hood portion 31, the male housing 2 is Since it is reinforced by the guide rib 51, the male housing 2 is prevented from being twisted. As a result, it is possible to improve the stability of fitting and releasing of the pair of male and female connectors.
[0049]
【The invention's effect】
As is apparent from the above description, according to the first aspect of the present invention, since the opposing opposing surfaces of the lever concave portion formed in the male housing are provided with the continuous anti-squeeze reinforcing member, the male The mold housing is reinforced. Therefore, when the male housing is inserted into the hood part or when it is removed from the hood part, the male housing is reinforced by the anti-squeeze reinforcing member even if the male housing is twisted by the inner wall surface of the hood part. Therefore, the male housing is prevented from being twisted. As a result, the stability of mating and unmating of the pair of male and female connectors can be improved.
[0050]
According to the first aspect of the present invention, since the male housing is reinforced by the wall, the male housing is prevented from being twisted.
[0052]
According to the second aspect of the present invention, since the male housing is reinforced by the guide rib, the male housing is prevented from being twisted.
[0053]
Therefore, an effect equivalent to the effect of the invention of claim 1 can be obtained.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a first embodiment.
2 is a plan view of the male housing of what is shown in FIG. 1. FIG.
3 is a right side view of what is shown in FIG. 2. FIG.
4 is a cross-sectional view taken along the line II of FIG.
FIG. 5 is a plan view of the female housing shown in FIG. 1;
6 is a right side view of what is shown in FIG. 5. FIG.
7 is a cross-sectional view taken along the line II-II of what is shown in FIG.
8 is a cross-sectional view taken along line III-III of what is shown in FIG.
FIG. 9 is an exploded perspective view showing a second embodiment.
10 is a right side view of the male housing of what is shown in FIG. 9. FIG.
11 is a plan view of the female housing of what is shown in FIG. 9. FIG.
FIG. 12 is an exploded perspective view showing an example of a conventional example.
13 is a plan view of the female housing of what is shown in FIG. 12. FIG.
FIG. 14A is an explanatory diagram of problems in the conventional example. (B) It is explanatory drawing of the problem of a prior art example. (C) It is explanatory drawing of the problem of a prior art example.
[Explanation of symbols]
1 Lever type connector 2 Male housing 3 Female housing 4 Lever 5 Male terminal (the other terminal)
24, 50 Lever recess 25 Male housing wall (strengthening prevention member)
26 Guide rib 31 Hood part 31a Open end face 31b Bottom wall 32 Slit 32a Slit facing surface 34 Guide holding groove 37 Supporting point holding groove 38 Insertion part 42 Guide boss 44 Oscillating fulcrum part 45, 60 Cam groove 51 Guide rib (Prevention of twisting) Reinforcement member)
X orthogonal direction Y1 insertion direction Y2 escape direction

Claims (2)

A male housing in which one terminal is disposed, a female housing having a hood portion into which the male housing is fitted, and in which the other terminal is disposed, and a swingable standing in the hood portion. A lever having one end projecting out of the hood portion, and a slit formed in the hood portion on one end side of the lever having an opening on the open end surface of the hood portion and projecting one end of the lever in a swingable manner. Guide wall bosses for guiding the lever swing are provided on both wall surfaces of the lever portion located between the opposed surfaces of each other, and the guide bosses are inserted into the hood portion of the female housing on the opposed surfaces. The guide holding groove is provided so as to be movable in the insertion direction and the escape direction from the inside of the hood part, and the swing fulcrum part provided on the bottom part of the lever is provided on the bottom wall of the hood part. When A holding groove for a fulcrum is formed to hold it movably in the intersecting orthogonal direction, a recess for a lever into which the lever is inserted is formed in the male housing, a guide rib is disposed in the recess for the lever, and the top of the lever A lever-type connector in which a cam groove is formed that engages with the guide rib to push the male housing in the insertion direction or the withdrawal direction, and prevents the twisting and also serves as a reinforcement to the male housing. A kink preventing reinforcement member is provided , and the kink preventing reinforcement member is provided at one end of a concave portion for the lever formed in the male housing, and is a wall that connects both opposing surfaces of the concave portion for the lever. The lever-type connector is characterized in that an insertion portion into which is inserted is formed between the inner wall surface of the hood portion and the tip of the lever. 2. The lever-type connector according to claim 1, wherein the kink preventing reinforcement member is a guide rib that couples the opposing surfaces of the concave portion for the lever formed in the male housing to face each other, and the guide rib is engaged. The lever-type connector is characterized in that the cam groove of the lever is formed through both wall surfaces of the lever.

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