JP2004103557A - Lever type insertion-coupling connector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lever type insertion-coupling connector compact as a whole capable of insertion-coupling in a low profile and excellent in protection of a lever. <P>SOLUTION: With the connector equipped with a first connector 10, a second connector 20 capable of getting insertion-coupled with it, and a connector holder 30 capable of tentatively housing the second connector, the first connector has a freely turning lever 40 provided with a first rotation regulation means 18, a second rotation regulation means 19, a cam groove 45, and an arm part 46 at an opposite side to the cam groove, and the second connector is provided with an engagement pin 25 capable of being engaged with the cam groove of the lever. The connector holder is provided with a first releasing means 38 releasing a regulation by the first rotation regulation means in engagement with a first turning regulation means, and a second releasing means 36b releasing the tentative housing in the connector holder of the second connector. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a lever-type mating connector that can surely fit a pair of male and female connectors with a low mating force.
[0002]
[Prior art]
If the connector is a multi-pole connector, a large force is required when trying to mate the connectors, so many lever-type mating connectors try to reduce the mating and unmating forces using the leverage principle. Proposed.
[0003]
As an example of a conventional connector disclosed in the prior art in which such connectors are fitted via a lever, a connector in which a male connector and a female connector are fitted and disengaged by rotating the lever. A lever having a cam groove is provided on one connector, and a cam pin is provided on the other connector to engage with the cam groove, so that the mounting position of the cam pin, that is, the point of force of the lever substantially coincides with the fitting axis of the connector. Some have a structure (for example, refer to Patent Document 1).
[0004]
Also, as another conventional connector using a lever, there is a connector in which a pair of connectors divided into a sub connector and a frame connector are fitted by a lever, and more specifically, the lever is rotated to bring the frame connectors closer together. In this case, the sub-connectors are brought into contact with each other first, and then the frame connectors are brought into contact with the sub-connectors a little later (for example, see Patent Document 2).
[0005]
As another conventional connector using a lever, as shown in FIG. 40, male and female connectors 211 and 212 and a lever 213 that can be attached so as to straddle one connector 211 are provided. After attaching the 213, there is also a connector having a structure in which a cam receiving protrusion 212a formed on the other connector 212 is inserted into a cam groove 213a formed at the tip of the lever 213 (for example, see Patent Document 3). ). In the conventional connector 210, the male and female connectors 211 and 212 are fitted and disengaged by rotating the lever 213. The cam receiving projection 212a is designed to maintain a clearance between the cam groove 213a and the edge of the cam groove 213a when the cam receiving projection 212a is inserted into the cam groove 213a. The stress is not concentrated on the sliding portion of the receiving projection 212a.
[0006]
Further, as shown in FIGS. 41 (a) and 41 (b), one connector 221 to which a rotatable lever 222 is attached so as to straddle the connector and the other provided with a locking boss 223a. When the connector 223 is fitted, the connector 220 is designed so that both connectors are fitted with a low fitting force by rotating the lever 222 while holding the lever 222 and the locking boss 223a while holding the handle of the lever 222. (For example, see Patent Document 4). As shown in the drawing, the connector 220 is configured such that the lever 222 automatically rises in the rotational operation direction when the locking boss 223a is inserted into the tip of the groove 222a formed in the lever 222 in the initial state of fitting. It has a lever groove shape.
[0007]
Further, as another lever-type connector 230, as shown in FIG. 42, a male connector 231 having a cam pin 231a and a female connector 233 to which a lever 232 is attached so as to straddle the connector are formed on the lever 232. There is a structure in which the pin guide groove 232a is engaged with the cam pin 231a of the male connector 231 and the lever 232 is rotated to fit the connectors together (for example, see Patent Document 5). In this connector, the lever 232 is engaged with the elastic locking piece 234 formed on the female connector 233 when the connectors are completely fitted to each other so that the connector 230 does not fall off. ing.
[0008]
[Patent Document 1]
JP-A-6-333637 (page 3-4, FIG. 1)
[Patent Document 2]
JP-A-8-203597 (page 3-5, FIG. 1)
[Patent Document 3]
JP-A-10-83859 (page 3-4, FIG. 1)
[Patent Document 4]
Japanese Utility Model Publication No. 5-36775 (page 2, FIG. 1)
[Patent Document 5]
JP-A-5-129048 (page 3-4, FIG. 1)
[0009]
[Problems to be solved by the invention]
The first two lever-type mating connectors described above have a structure in which a pressing load is directly applied to the lever to fit the connectors together. Therefore, the lever itself is required to have strength and structure capable of withstanding the pressing load, and the structure is large and rigidity is high, which is against the demand for downsizing of the connector itself.
[0010]
In all of the above-mentioned lever-type mating connectors of the prior art, the lever is provided outside the connector so that the lever can be gripped by hand and rotated when the connector is assembled or disconnected. That is, the lever is attached at a position visible from the outside of the entire connector.
[0011]
When the lever is disposed outside the connector in this manner, the lever, which is a movable portion, is likely to be damaged. In order to prevent such damage to the lever, it is necessary to cover the periphery of the lever with a large lever protecting member having only the function of protecting the lever, which further increases the size of the entire connector. .
[0012]
Furthermore, there is a problem in the following connector fitting operation. That is, when the above-described conventional connector is used, it is necessary for an operator to hold and rotate the lever during the connector fitting operation. Therefore, for example, when the instrument panel must be attached to the vehicle and the connector must be fitted at the same time, or when the door trim must be attached to the door inner panel of the vehicle, it is difficult to reach the workers. When the connector fitting operation is required, the connector fitting becomes extremely difficult with the above-mentioned conventional connector. Further, as disclosed in Patent Document 5, it is necessary to fix and lock the levers so that the connectors are not detached from each other by mistake after the fitting, and the working efficiency of the connector fitting is considerably reduced.
[0013]
Further, the connectors described in Patent Literatures 4 and 5 (without levers) may be such that, when one connector is fixed to a wall such as a panel and used, the lever provided on the other connector interferes with the wall. In addition, there is also a problem that the fitting operation and the detaching operation of the connector become difficult.
[0014]
An object of the present invention is to solve the above-mentioned problems and to provide a lever-type mating connector that is small in size and can be low-mated, has excellent lever protection, and has improved connector-mating workability. .
[0015]
[Means for Solving the Problems]
In order to solve the above-described problems, a lever-type fitting connector according to the present invention can temporarily accommodate a first connector, a second connector that can be fitted to the first connector, and the second connector. A connector holder. The first connector includes a lever rotatable with respect to the first connector, and first rotation restricting means for restricting rotation of the lever in a first rotation direction with respect to the first connector. , Second rotation restricting means for restricting rotation of the lever in a direction opposite to the first rotation direction with respect to the first connector. The lever is provided on the cam groove and on the opposite side of the cam groove with respect to the center of rotation of the lever, and cooperates with the connector holder to move the lever to the first position in response to the first connector entering the connector holder. And an arm portion that rotates in the rotation direction. The second connector includes an engaging pin that can engage with the cam groove of the lever in accordance with fitting of the second connector to the first connector. Further, the connector holder engages with the first rotation restricting means in response to the insertion of the first connector, and releases first lever restricting means for restricting rotation of the lever by the first rotation restricting means; Second release means for releasing temporary accommodation of the second connector in the connector holder in accordance with insertion of the connector.
[0016]
Since the lever provided on the first connector is held at a fixed position by the first rotation restricting means and the second rotation restricting means before the connector is fitted, the first connector is fitted to the second connector. At the time of engagement, the engagement between the cam groove and the engagement pin is easily performed.
[0017]
Further, by temporarily releasing the second connector in the connector holder by the second release means in accordance with the insertion of the first connector, vibration from the connector holder is directly transmitted to the connector after the connector is fitted. Disappears.
[0018]
A lever-type mating connector according to a second aspect of the present invention is the lever-type mating connector according to the first aspect, wherein the first connector is fitted to the second connector. Is accommodated in the connector holder.
[0019]
When the connectors are fitted together, at least a part of the lever is housed in the connector holder, thereby preventing damage to the lever after the connector is fitted. In addition, the connector can be reduced in size without requiring a special member for protecting the lever as in the related art.
[0020]
Further, in the lever-type mating connector according to claim 3 of the present invention, in the lever-type mating connector according to claim 1 or 2, the distance between the pivot point of the lever and the arm portion is the same as that of the lever. It is larger than the distance between the fulcrum and the cam groove.
[0021]
Since the distance between the rotation fulcrum and the force point (arm portion) is larger than the distance between the rotation fulcrum and the action point (cam groove), low fitting between the connectors is realized by the principle of leverage.
[0022]
Further, the lever-type mating connector according to claim 4 of the present invention can be fixed to the panel via the first connector attachable to the bracket, a panel fixing holder fixable to the panel, and the panel fixing holder. The first connector includes a lever rotatably attached to the first connector and having a guide groove formed in a part thereof, and the second connector includes a lever. And a first connector and a second connector are fitted to each other by the boss entering the guide groove. The lever-type mating connector further includes an engagement portion that can be temporarily fixed to the second connector and the panel fixing holder, and a bracket having the first connector attached to the panel side to which the second connector is attached. The boss of the second connector enters the guide groove of the lever in response to the pushing of the lever, and the guide groove of the lever and the boss of the second connector cooperate with each other by the rotation of the lever to assist in fitting the connectors together. The second connector is held by the panel fixing holder in a state where the temporary fixing of the second connector to the panel fixing holder is released. Further, in this lever-type mating connector, a gap is formed between the panel fixing holder and the second connector when the connector is mated or the connector is detached so that the lever moves between the second connector and the panel fixing holder. The lever has a lever ratio that reduces the connector fitting force and the connector detaching force.
[0023]
One of the connectors with the lever attached so as to straddle the connector can be fixed to the bracket, and the mating connector can be fixed to the panel via the panel fixing holder. Then, by pressing the bracket with one connector attached to the panel side to which the mating connector is attached, the lever is inserted between the mating connector and the panel fixing holder. That is, the lever moves in the gap between the second connector and the panel fixing holder when the connector is fitted or disconnected, so that the lever is prevented from being damaged when the lever moves.
[0024]
A part of the lever abuts on a predetermined portion of the panel fixing holder when the connector is mated or unmated, so that the mating force and the mating force are reduced by utilizing the leverage principle. Thereby, without visually observing one connector temporarily fixed to the panel via the panel fixing holder and the other connector with a lever fixed to the bracket, that is, without having to worry about the positional relationship between the two connectors, By assembling the bracket to the panel, the connectors are securely fitted with a small fitting force. Similarly, when detaching the connectors from each other, if only the operation of removing the bracket from the panel is performed, the connectors are surely detached with a small fitting force. In addition, it is possible to perform an operation of fitting the connectors again with the detached state. Therefore, the effect is particularly large when the connector is connected or disconnected at a location where the operator cannot see it.
[0025]
Further, even if the second connector is fixed to the panel via the panel fixing holder, the connector provided by the first connector does not hit the panel, making it difficult for the connector to be engaged or disengaged. Restrictions on the mounting position are reduced.
[0026]
The lever-type mating connector according to a fifth aspect of the present invention is the lever-type mating connector according to the fourth aspect, wherein the force point of the lever, which is the contact portion between the lever and the panel fixing holder, is connected to the connector. It is formed in a different part when the connector is disconnected.
[0027]
By changing the lever ratio of the lever at the time of connector engagement and at the time of connector detachment, it is possible to individually cope with different operations of connector engagement and connector detachment, thereby enabling reliable connector engagement and reasonable connector detachment.
[0028]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, a lever-type mating connector according to a first embodiment of the present invention will be described.
[0029]
As shown in FIG. 1, the lever-type mating connector according to the first embodiment of the present invention includes a male connector (first connector) 10 and a female connector (second connector) that can be fitted to the male connector 10. ) 20 and a connector holder 30 capable of temporarily holding the female connector 20.
[0030]
The male connector 10 has a lever 40 rotatable with respect to the male connector 10 and a rotation of the lever 40 in a forward rotation direction (a first rotation direction, which is a counterclockwise direction in FIG. 2) with respect to the male connector 10. (First rotation restricting means) 18 and the rotation of the lever 40 in the reverse rotation direction (the direction opposite to the first rotation direction and clockwise in FIG. 2) with respect to the male connector 10. Anti-over (second rotation restricting means) 19.
[0031]
The lever 40 is provided on the opposite side of the cam groove 45 and the cam groove 45 with respect to the center of rotation of the lever 40, and cooperates with the connector holder 30 in response to the entry of the male connector 10 into the connector holder 30. And a rotating arm 46 for rotating the lever 40 in the forward rotation direction. Further, the female connector 20 includes a lever engaging projection 25 that can engage with the cam groove 45 of the lever in accordance with the fitting of the female connector 20 to the male connector 10.
[0032]
Then, the connector holder 30 engages with the lever stopper 18 in response to the insertion of the male connector 10 to release the rotation restriction by the lever stopper 18 (first release means) 38, and the insertion of the male connector 10. And a second tapered surface 36b (second release means) (FIG. 1 and FIG. 3) of a temporarily fixed arm for releasing the temporarily fixed accommodation of the female connector 20 in the connector holder 30 of the female connector 20.
[0033]
The lever 40 is accommodated in the connector holder 30 in accordance with the engagement between the male connector 10 and the female connector 20.
[0034]
Further, the distance between the rotation shaft 15 of the lever 40 and the rotation arm 46 is larger than the distance between the rotation shaft 15 and the cam groove 45. That is, the distance between the fulcrum (rotating shaft 15) and the point of force (the rotating arm 46) is larger than the distance between the fulcrum (rotating shaft 15) and the point of action (the cam groove 45). Achieve low mating.
[0035]
Hereinafter, each component of the lever-type mating connector will be described in more detail with reference to the drawings. Note that, although the plan view of FIG. 2 and subsequent figures is a plan view of the lever-type mating connector as viewed from above in the drawing of FIG. 1, the lever-type mating connector has a symmetrical shape with respect to the vertical direction. In the plan views after FIG. 2, the configuration of the lower half (not shown) is also equivalent to the configuration described below.
[0036]
First, the female connector 20 will be described.
[0037]
The female connector 20 is made of resin, and has a rectangular parallelepiped outer shape, as shown in FIGS. 1 and 2, and has a female connector terminal portion 20a on one end surface thereof. Each of the female connector terminals 20a has a built-in female terminal 22 (schematically shown in FIG. 2). A lever engagement projection 25 projects from the upper and lower surfaces of the female connector 20. Further, temporary fixing protrusions 26 with the connector holder 30 are also formed on both side surfaces of the female connector 20. In addition, a tapered surface 26 a for bending the female connector temporary fixing arm 36 of the connector holder 30 described later is formed on the temporary fixing protrusion 26. The female connector 20 that has entered the connector holder from one side (the left side in FIG. 1) of the connector holder 30 by means of these projections has a lever engagement projection (engagement pin) 25 that will be described later in the connector holder. The temporary fixing protrusion 26 engages with the temporary fixing arm 36 in the connector holder while being engaged with the engaging groove 35, so that the temporary fixing protrusion 26 stays at an appropriate position in the connector holder.
[0038]
Next, the connector holder 30 will be described. The connector holder 30 is also made of resin, and as shown in FIGS. 1 and 2, is a rectangular cylinder having a rectangular shape in end view, and the upper and lower inner wall surfaces thereof have the above-described lever engagement projections of the female connector. A shallow engaging groove 35 (FIG. 1) for engaging with the distal end of the portion 25 is formed from the female connector insertion side end to the middle of the wall. In addition, a cantilever-shaped female connector having a male connector insertion side opening (opposite to the female connector insertion side) as a base end and a female connector insertion side opening as a tip end is formed on both sides of the inner wall of the connector holder 30. A stop arm 36 is formed. Then, as is clear from the partially enlarged view of FIG. 3B and the enlarged plan view of FIG. 3A viewed from above in FIG. The surface 36a is formed. Further, a second tapered surface 36b is formed at both ends in the width direction of the temporary fixing arm 36 adjacent to the first tapered surface 36a, and the temporary fixing step engaging with the temporary fixing protrusion 26 of the female connector. A portion 36c is formed.
[0039]
With the above configuration, the female connector lever engaging projection 25 is located at the tip of the engaging groove 35 of the connector holder, and the female connector temporary fixing projection 26 is in contact with the temporary fixing arm temporary fixing step 36c. By the engagement, the female connector 20 is temporarily stored in the connector holder 30.
[0040]
In the inner wall of the connector holder 30, lever stopper grooves 38 of the male connector are formed at four corners of the opening on the male connector insertion side. The lever stopper groove 38 is formed in a tapered shape so that the groove width on the male connector insertion opening side is the widest.
[0041]
Further, the male connector insertion side opening of the connector holder 30 is brought into contact with a lever rotating arm 46 to be described later to move the lever 40 in one direction (the cam groove 45 of the lever and the lever engaging projection 25 of the female connector are engaged). The opening taper surface 37 is formed so as to rotate in the direction in which the openings taper. Further, lever release ribs 33 (FIG. 2) having a triangular shape in a plan view are formed on the upper and lower surfaces of the inner wall at the female connector insertion side opening of the connector holder 30.
[0042]
A panel fitting portion 39 is formed on both outer side walls of the connector holder so that the connector holder 30 can be firmly fixed to, for example, a vehicle body panel (not shown).
[0043]
Next, the male connector 10 will be described. The male connector 10 is also made of resin, and as shown in FIGS. 1 and 2, a plurality of male terminals (see FIG. 2) 12 and a connector housing 11 for accommodating the same and having a bottomed cylindrical body having a rectangular shape in end view. It has. The upper and lower walls of the connector housing 11 are formed with notches 11a into which the lever engaging projections 25 of the female connector can enter.
[0044]
Further, a temporary fixing arm engaging step 16 having a tapered surface 16a for releasing the temporary fixing of the holder is formed at the four outer corners of the male connector 10 on the connector fitting side, and is adjacent to the step 16. A cantilever-shaped lever stopper 18 is formed to extend toward the side opposite to the connector fitting surface.
[0045]
In addition, when the male connector 10 is inserted into the connector holder 30, the tapered surface 16a of the temporary fixing arm engaging step portion interferes with the second tapered surface 36b of the connector holder temporary fixing arm to bend the temporary fixing arm 36, Thereby, the engagement between the temporary fixing step 36c of the connector holder temporary fixing arm and the temporary fixing protrusion 26 of the female connector is released.
[0046]
Further, an anti-over 19 for preventing the lever from rotating is formed at a position symmetrical to the lever stopper 18 with respect to a lever rotation shaft 15 to be described later, and a reverse rotation of the lever 40 to be described later (clockwise rotation in FIG. 2). Has been prevented.
[0047]
On the other hand, the connector housing 11 is vertically sandwiched by a lever 40 having a rectangular C-shape in a side view. The lever 40 is rotatable with respect to the connector housing 11 by engaging with a lever rotation shaft 15 protruding from upper and lower walls of the connector housing 11. Note that the lever 40 is made of resin, and two plate plates having a complicated outer peripheral shape are connected to each other at a part of a peripheral edge thereof (a hatched portion in a partially broken sectional view of the lever in FIG. 2). It is configured.
[0048]
An elongated notch-like cam slightly curved around the rotation shaft 15 is provided on the lever 40 so that the lever engagement projection 25 of the female connector 20 can enter with one side (connector fitting side) as an opening. A groove 45 is formed. The upper and lower connecting portions of the lever 40 are formed on a rotating arm 46 that projects laterally from a part of the lever 40. The connecting portion (the hatched portion in FIG. 2 described above) is formed on the rotating arm 46, so that the rotating arm 46 has sufficient rigidity.
[0049]
As a result, the rotating arm 46 comes into contact with one side surface of the connector holder opening, and the lever 40 is forcibly moved in one direction (counterclockwise in FIG. 2) about the lever rotation shaft 15 with the contact portion as a point of force. It can be rotated without.
[0050]
Further, the lever 40 is formed with a lever hook 48 which engages with the free end of the lever stopper 18 and regulates the counterclockwise rotation of the lever 40 when viewed from above.
[0051]
On the side opposite to the lever hook 48 with respect to the lever rotation shaft 15, a stopper portion that engages with the anti-over 19 of the male connector to regulate reverse rotation (clockwise rotation in FIG. 2) of the lever 40. 49 are formed.
[0052]
Next, the operation of the lever-type mating connector according to the above-described embodiment, that is, a method of actually mating the connector will be described.
[0053]
In the present description, although not particularly shown in the drawings, it is assumed that the male connector 10 is fixed to, for example, a meter of a vehicle, and the connector holder 30 that temporarily stores the female connector 20 is fixed to a panel of the vehicle. An explanation will be given based on the above.
[0054]
Before the connector is fitted, as shown in FIGS. 2 and 4, a male connector 10 fixed to meters (not shown) of a vehicle and a vehicle body panel side (not shown) via a connector holder 30 are temporarily provided. The mounted female connector 20 faces each other. The rotation of the lever 40 rotatably attached to the male connector 10 is restricted by the lever stopper 18 and the lever anti-over 19, and the cam groove entrance portion 45 a of the lever has a fitting surface with the female connector 20. , The lever 40 is fixed to the male connector 10. At this time, the lever 40 is firmly held at three points: the rotating shaft 15, the lever stopper 18, and the anti-over 19 of the lever.
[0055]
Subsequently, as shown in FIGS. 5 and 6, when the male connector 10 is pushed into the connector holder 30, the lever stopper 18 of the male connector engages with the tapered portion of the lever stopper groove 38 in the connector holder. The stopper 18 starts to bend (spread). Due to the bending of the lever stopper 18, the engagement between the lever 40 and the lever stopper 18 is released, and the cam groove entrance 45a of the lever reaches the lever engaging projection 25 of the female connector.
[0056]
When the male connector 10 is further pushed into the connector holder 30, the lever stopper 18 is completely bent and disengaged from the lever 40 as shown in FIG. 7, and the lever 40 is moved in the forward direction (counterclockwise in the drawing). ), The lever engagement projection 25 of the female connector 20 starts to enter the cam groove 45 from the cam groove entrance 45a of the lever. Then, the rotating arm 46 of the lever comes into contact with the male connector insertion side opening tapered surface 37 of the connector holder 30.
[0057]
Subsequently, when the male connector 10 is further pushed into the connector holder 30, as shown in FIG. It rotates in the forward direction (counterclockwise in the figure) around the driving shaft 15. Also, the stepped tapered surface 16a of the male connector abuts on the second tapered surface 36b of the female connector temporary fixing arm, and the female connector temporary fixing arm 36 is bent. At this time, the lever 40 is held at three points: the lever rotating shaft 15, the tapered opening 37 of the connector holder, and the lever engaging projection 25 of the female connector.
[0058]
When the male connector 10 is further pushed into the connector holder 30, the stepped tapered surface 16a of the male connector is further pressed against the second tapered surface 36b of the female connector temporary fixing arm, as shown in FIG. 36 further deforms and deforms greatly. At this time, the lever 40 is held at three points: the lever rotation shaft 15, the tapered opening 37 of the connector holder, and the lever engaging projection 25 of the female connector, as in the case of FIG. Also, the lever 40 is rotated in one direction (counterclockwise in FIG. 9) by the rotation arm 46 being pushed by the tapered opening 37 of the connector holder 30. As a result, the lever engagement projection 25 of the female connector is rotated. Further enters the cam groove 45 of the lever.
[0059]
When the male connector 10 is further pushed into the connector holder, as shown in FIG. 10, the female connector temporary fixing arm 36 of the connector holder is flexed to the maximum and the temporary fixing step 36c is deflected. Is detached from the connector holder 30 (the cutting of the connector holder 30 and the female connector 20 is completed). At this time, the lever 40 is held at three points: the lever rotating shaft 15, the opening tapered surface 37 of the connector holder 30, and the lever engaging projection 25 of the female connector, as in the case of FIG.
[0060]
Here, the term “margin cutting” means that the male connector 10 is fitted into the female connector 20 from the state in which the female connector 20 is temporarily held in the connector holder 30 so that the male connector 10 and the female connector 20 are integrated. This means that at the same time, the female connector 20 shifts to a state in which it is detached from the connector holder 30.
[0061]
By such connector trimming, the vibration of the vehicle to which the connector holder 30 is fixed is transmitted only to the connector holder 30 and is not transmitted to the male and female connectors 10 and 20. Therefore, even after relative vibration occurs between the vehicle on which the connector holder 30 is fixed and the meter (auxiliary device) on which the male and female connectors 10 and 20 are fixed, the sliding wear of the terminal contact portion occurs. There is no occurrence of contact failure or the like.
[0062]
Subsequently, when the male connector 10 is further pushed into the connector holder 30, the state shifts to the state shown in FIG. 11, and the male terminal 12 of the male connector and the female terminal 22 of the female connector come into contact. That is, the connectors are in a half-fitted state. FIG. 12 is a sectional view of the connector corresponding to FIG. 11, and shows a state in which the male terminal 12 of the male connector is connected to the female terminal 22 of the female connector.
[0063]
At this time, the load on the lever 40 increases rapidly due to the coupling resistance between the male terminal 12 and the female terminal 22. However, as shown in FIG. 11, the distance X from the rotation fulcrum (fulcrum) 15 of the lever 40 to the rotation arm (power point) 46 depends on the action of the lever engagement projection 25 from the rotation fulcrum (fulcrum) 15 of the lever. Since the distance Y is larger than the distance Y to the cam groove (action point) 45, the pressing force on the male connector 10 is increased by the leverage principle, and the cam groove 45 is transmitted as a force to pull the lever engaging projection 25. As a result, the connectors can be guided to the following completely fitted state with a low fitting force. At this time, the lever 40 is held at three points: the lever rotation shaft 15, the tapered opening 37 of the connector holder, and the lever engaging projection 25 of the female connector, as in the case of FIG.
[0064]
Subsequently, when the male connector 10 is further pushed into the connector holder 30, as shown in FIGS. 13 and 14, the temporary fixing arm engaging step 16 of the male connector is inserted in the connector fitting direction (right side in FIGS. 13 and 14). ) To get over the second tapered surface 36b of the temporary fixing arm. As a result, the bending of the temporary fixing arm 36 starts to return to the original state. At this time, the lever 40 is held at the three points of the lever rotating shaft 15, the tapered surface 37 of the opening of the connector holder, and the lever engaging projection 25 of the female connector, as in the case of FIG.
[0065]
Subsequently, when the male connector 10 is further pushed into the connector holder 30, the lever stopper 18 of the male connector returns through the stopper groove 38 of the connector holder to the original position as shown in FIG. The female terminal 22 is completely connected (see FIG. 16). That is, the fitting between the male connector 10 and the female connector 20 is completed. At this time, the lever 40 is substantially housed in the connector holder. Further, as described above, the female connector 20 and the male connector 10 are separated (edge-cut) from the connector holder 30 in the fitted state.
[0066]
As described above, the lever-type fitting connector according to the present embodiment can perform connector fitting with a low fitting force. Further, when the connector is fitted, the fitting force does not directly act on the lever 40. Therefore, the lever 40 can be reduced in size and thickness, and the connector itself can be reduced in size and thickness. Further, since the lever 40 is held by the lever stopper 18 of the male connector and the anti-over 19 of the lever before the connector is fitted, the cam groove 45 of the lever is easily guided to the lever engaging projection 25 of the female connector. it can.
[0067]
Furthermore, since the lever 40 is substantially housed in the connector holder 30 in the connector fitted state, the risk of the lever 40 being damaged during use of the connector is reduced.
[0068]
Subsequently, the release of the lever-type mating connector in which the connectors have been once mated as described above will be described with reference to the drawings.
[0069]
The male connector 10 is pulled in the direction opposite to the fitting direction (the direction of releasing the fitting, left side in FIG. 17) from the connector fitting state shown in FIG. At this time, the lever 40 is held at three points: the lever rotating shaft 15, the tapered opening 37 of the connector holder, and the lever engaging projection 25 of the female connector.
[0070]
Due to the pulling operation of the male connector 10, a part of the lever 40 comes into contact with the lever release rib 33 of the connector holder as shown in FIG. Thus, the lever 40 is held at three points: the lever rotation shaft 15, the lever engagement protrusion 25 of the female connector, and the lever release rib 33 of the connector holder.
[0071]
Subsequently, when the male connector 10 is further pulled in the mating release direction, the male connector 10 together with the lever 40 is directed outward from the connector holder 30 together with the lever 40 while the lever 40 is in contact with the lever release rib 33 of the connector holder (FIG. Move to the middle and to the left). Therefore, the lever 40 rotates around the lever rotation shaft 15 in the direction opposite to the lever rotation direction when the connector is fitted (that is, clockwise in FIG. 18, hereinafter referred to as “reverse direction”). At this time, the lever engaging projection 25 of the female connector slightly moves toward the entrance 45a of the lever cam groove. At this time, the lever 40 is held at three points: the lever rotation shaft 15, the lever engagement projection 25 of the female connector, and the lever release rib 33 of the connector holder.
[0072]
Subsequently, when the male connector 10 is further pulled in the fitting releasing direction, as shown in FIG. 19, the contact between the lever releasing rib 33 and the lever 40 further advances, and the lever 40 further rotates in the opposite direction. At the same time, the female connector temporary fixing arm 36 of the connector holder is deformed by the temporary fixing protrusion 26 of the female connector riding on the temporary fixing arm first tapered portion 36a. Also at this time, the lever 40 is held at three points: the lever rotation shaft 15, the lever engagement projection 25 of the female connector, and the lever release rib 33 of the connector holder.
[0073]
Subsequently, when the male connector 10 is further pulled in the fitting releasing direction, the lever 40 is separated from the lever releasing rib 33 as can be seen from the transition operation from FIG. 20 to FIG. 21. Further, when the male connector 10 is pulled out from the female connector 20, the lever engaging projection 25 of the female connector and the cam groove 45 of the lever cooperate to further rotate the lever 40 in the opposite direction (clockwise in FIG. 21). Let it. Then, a part of the lever 40 eventually comes into contact with the lever anti-over 19 of the male connector and stops its rotation. The lever engaging projection 25 of the female connector is disengaged from the cam groove 45 of the lever, and the lever hook 48 engages with the lever stopper 18 of the male connector. As a result, the lever 40 is held at three points: the lever rotation shaft 15, the lever stopper 18, and the anti-over 19 of the lever, and the cam groove entrance 45a of the lever is fixed at a predetermined position with respect to the fitting surface of the male connector. Stay in the initial position again. Therefore, when the male connector 10 is fitted to the female connector 20 again, the cam groove 45 of the lever and the lever engaging projection 25 of the female connector can be easily engaged.
[0074]
On the other hand, the female connector 20 is disengaged from the male connector 10 and the temporary fixing projection 26 is re-engaged with the temporary fixing arm 36 of the connector holder. 21 (not shown in FIG. 21). As a result, the female connector 20 remains at a predetermined position of the connector holder 30. That is, the female connector 20 is temporarily stored again in the connector holder 30.
[0075]
As described above, in the lever-type mating connector according to the above-described embodiment, even when the connector is mated and the connector is cut off from the connector holder, the male connector 10 is simply pulled from the female connector 20 to connect the connectors. The fitting can be easily released, and the female connector 20 can be temporarily temporarily stored in the connector holder 30 again.
[0076]
In the above-described embodiment, the first connector is a male connector and the second connector is a female connector. However, the present invention is not limited to this. The reverse, that is, the first connector is a female connector, It goes without saying that the second connector may be a male connector.
[0077]
Next, a lever-type mating connector according to a second embodiment of the present invention will be described with reference to FIGS. In addition, about the structure equivalent to the lever-type fitting connector which concerns on 1st Embodiment, a corresponding code | symbol is attached | subjected and detailed description is abbreviate | omitted.
[0078]
As shown in FIGS. 22 to 29, a lever-type mating connector 100 (see FIG. 30) according to the second embodiment has a female connector (first connector) to which a lever (see FIG. 22) 130 is rotatably attached. 25), a male connector connector (second connector) 120 (see FIGS. 23 and 24), and a panel fixing holder 140 for temporarily fixing the male connector 120 (FIGS. 27 through 27). FIG. 29). Then, as shown in FIG. 30, the female connector 110 can be fixed to the bracket B, and the panel fixing holder 140 can be fixed to the panel P.
[0079]
The lever 130 is made of resin. As shown in FIG. 22B, the lever main body 132 has a symmetrical shape with respect to the support 131, and is attached so as to straddle the female connector 110 shown in FIG. The lever 130 is rotatable with respect to the female connector 110 via the support shaft 114 of the female connector 110 as shown in FIG.
[0080]
As shown in FIG. 22A, lock portions 133 for temporarily fixing the lever 130 so as not to rotate with respect to the female connector 120 before fitting the connector are formed on the opposing surfaces of the lever 130, respectively. . A curved guide groove 134 into which the boss 124 of the male connector 120 is inserted is formed on both surfaces of the lever 130. The entrance portion 134a of the guide groove 134 is formed by partially widening the opposing surfaces of the lever main bodies 132 so that a boss 124 of the male connector 120 described later can easily enter the guide groove 134 of the lever 130. Has become. A lever overhang 130a is formed near the support 131 of the lever main body 132, and a jaw 130b is formed near the entrance 134a of the guide groove 134 (see FIG. 22A).
[0081]
The male connector 120 shown in FIG. 23 is made of resin and has a plurality of built-in connector terminals (not shown) and can lead out an electric wire or a flexible flat cable C from the terminal insertion side of the male connector 120 as shown in FIG. And Further, convex portions (engaging portions) 121 shown in FIG. 23 are formed on both side walls of the male connector 120, and the male connector 120 has a structure that can be temporarily fixed to a panel fixing holder 140 described later using the convex portions 121. . Further, bosses 124 protrude from both side walls of the side wall of the male connector 120 where the protrusion 121 is not formed. The boss 124 engages with the guide groove 134 of the lever 130 and cooperates with the lever 130 to assist in fitting the female connector 110 and the male connector 120. The four corners of the side wall of the male connector 120 are slidable with a holding guide 144 of a panel fixing holder 140 described later.
[0082]
The female connector 110 is made of resin, and as shown in FIGS. 25 and 26, includes a connector main body 111 and a mounting portion 112 extending from the connector main body 111 and engaging with the bracket B. A lever 130 is attached to the shaft 114 so as to sandwich the female connector 110. The female connector 110 is screwed and fixed to the bracket B (see FIG. 30) via the mounting hole 112a. FIG. 25C shows a state where the lever 130 indicated by a dotted line is attached to the support shaft 114. Also, a plurality of terminals Tf (only some of which are shown in FIG. 26) are built in the connector main body 111 of the female connector 110, and as shown in FIG. The flat cable C can be led out.
[0083]
The panel fixing holder 140 is made of resin and has a rectangular tube shape as shown in FIGS. 27 to 29, and can be attached to the panel P with the male connector 120 temporarily fixed inside as described above. ing. On the connector fitting surface side of the panel fixing holder 140, flange portions 141 are formed at the four corners of the periphery (see FIG. 27), and come into contact with the periphery of the rectangular opening of the panel P (see FIG. 30). Further, on the four side walls of the panel fixing holder 140, cantilever-shaped panel fixing engaging pieces 142 are formed along the holder side walls with their free ends facing the flange side. In addition, the panel fixing holder 140 is inserted while bending the panel fixing locking piece 142 from the left side of the opening of the panel P in FIG. 30, and the four panel fixing locking pieces 142 cooperate with the flange 141. The panel fixing holder 140 is fixed to the panel P by sandwiching the periphery of the opening of the panel P.
[0084]
Further, an opening tapered portion 140a which is closer to the holder central axis direction toward the inside of the holder is formed at the connector insertion side opening of the panel fixing holder 140. When the connector is fitted, the projecting portion 130a of the lever 130 and the tapered opening portion 140a interfere with each other to rotate the lever 130.
[0085]
On the other hand, temporary fixing fixing pieces (engaging portions) 143 for temporarily fixing the male connector 120 are formed on two opposing inner wall surfaces of the panel fixing holder 140 (FIGS. 27, 29, and 30). reference). Further, as described above, four holding guide portions 144 for slidably holding the male connector 120 in the panel fixing holder 140 in cooperation with the side wall corners of the male connector 120 are provided on the inner wall surface of the panel fixing holder 140. (Only two locations are shown in FIG. 28). Note that the temporarily fixed fixing piece 143 has a role of engaging with the convex portion 121 of the male connector 120 slidably held in the panel fixing holder 140 and temporarily fixing the male connector 120 in the panel fixing holder 140. In addition, a mountain-shaped cam portion 148 is formed on the inner wall of the panel fixing holder 140 on the side where the lever 130 is inserted, as shown in FIGS. 29, 36 (a) and 36 (b). ). The mountain-shaped cam portion 148 serves to rotate the lever 130 when the connector is disconnected.
[0086]
With the above configuration, the male connector 110 is inserted into the panel fixing holder 140 from right to left as viewed in FIG. 29 and is temporarily fixed. Then, the female connector 110 starts to be fitted to the male connector 120 by pressing the bracket B with the female connector 110 attached to the panel P side, and the female connector 110 is completely fitted to the male connector 120 by using the assisting force of the lever 130. Fit. At the same time, the male connector 120 is held by the holding guide portion 144 of the panel fixing holder 140 in a state in which the engagement between the temporarily fixed fixing piece 143 of the panel fixing holder 140 and the convex portion 121 of the male connector 120 is released. It has become.
[0087]
Subsequently, the operation from the start of the fitting of the connectors to the end of the fitting will be described in more detail with reference to FIGS. FIG. 30 shows a state immediately before the connectors are fitted together. The female connector 110 to which the lever 130 is rotatably mounted is screwed and fixed to the bracket B via the mounting hole 112a of the mounting portion 112. Further, the lever 130 is temporarily fixed to the female connector 110 at the lock portion 133, so that the lever 130 is not accidentally rotated before the fitting operation is started.
[0088]
Further, as shown in FIG. 30, the panel fixing holder 140 is firmly attached to the panel P by sandwiching the panel P between the flange portion 141 and the panel fixing locking piece 142.
[0089]
The male connector 120 is slidably inserted into the holding guide portion 144 of the panel fixing holder 140 from the right side in FIG. 30 and is temporarily fixed in the panel fixing holder 140 by the temporarily fixing fixing locking piece 143 of the panel fixing holder 140. .
[0090]
Subsequently, when the bracket B is pressed against the panel P, the state shown in FIG. 31 is obtained. In the following figures, the illustration of the bracket B and the panel P is omitted except in FIG. FIG. 31 shows a state immediately before the lever 130 comes into contact with the panel fixing holder 140 and starts rotating. In this state, the boss 124 of the male connector 120 enters the guide groove 134 of the lever 130, and the lever projection 130a is in contact with the opening tapered portion 140a of the panel fixing holder 140. In addition, this contact portion becomes a power point when the lever 130 rotates. Arrow XX indicates the direction of rotation of the lever.
[0091]
Subsequently, when the bracket B is further pressed against the panel P, the state shown in FIG. 32 is reached. FIG. 32 shows a state in which the female connector 110 is being inserted into the male connector 120 side, and a contact portion between the projecting portion 130a of the lever 130 and the opening tapered portion 140a of the panel fixing holder 140 becomes a force point of the lever 130, The lever 130 has started to rotate about the support shaft 114 of the female connector 110. As a result, the engaging portion between the guide groove 134 of the lever 130 and the boss 124 of the male connector 120 becomes the point of action of the lever 130, and the boss 124 of the male connector 120 is drawn in along the guide groove 134 of the lever 130.
[0092]
Further, since the bracket B is pressed against the panel P, the male connector 120 is pushed into the back (right side in the figure) of the panel fixing holder 140 while the female connector 110 is fitted with the male connector 120. As a result, the convex portion 121 of the male connector 120 rides on the tapered portion of the temporary fixing and locking piece 143 of the panel fixing holder 140, and then climbs over the distal end of the temporary fixing and locking piece 143. Then, the male connector 120 is held by the holding guide portion 144 of the panel fixing holder 140 in a state in which the interference between the temporary fixing and locking pieces 143 of the panel fixing holder 140 and the protrusions 121 of the male connector 120 is released.
[0093]
At this point, the plurality of male terminals and female terminals housed in the connector start to come into contact with each other, and generally require a large fitting force. However, the center of rotation of the lever 130 (support shaft 114), the distance between the center of rotation of the lever 130 (support shaft 114) and the boss 124 (action point) of the male connector 120, the distance between the panel fixing holder 140 and the lever 130 Since the distance between the overhanging portion 130a and the contact portion (point of force) is large, the male connector 120 can be easily pulled toward the female connector 110 by the leverage principle to fit the connectors.
[0094]
Further, by releasing the temporary fixing between the male connector 120 and the panel fixing holder 140 and pushing the male connector 120 in the traveling direction of the female connector 110, the rotation of the lever 130 can be smoothly performed, and the connectors can be more fitted to each other. Make it easier.
[0095]
FIG. 33 shows a state where the connectors are fitted together after the male terminal Tm and the female terminal Tf come into contact with each other. In addition, in the drawings after FIG. 33, the engagement and disengagement states of some terminals Tf and terminals Tm are also shown.
[0096]
At the time shown in FIG. 33, the insertion force of the female connector 110 into the male connector 120 is maximized. This is formed so that the guide groove 134 of the lever 130 approaches the rotation fulcrum of the lever 130 as it gets deeper from the entrance, and as the boss 124 of the male connector 120 enters the guide groove 134 of the lever 130, This is because the distance between the boss 124 and the rotation center (support shaft 114) of the lever 130 becomes small, and the lever ratio of the lever 130 changes accordingly. At this point, the temporary fixing between the male connector 120 and the panel fixing holder 140 is released, and the male connector 120 is held by the holding guide portion 144 of the panel fixing holder 140 so as to be movable in the connector fitting direction.
[0097]
FIG. 34 shows a state where the connector fitting is completed. In this state, the connector fitting between the male connector 120 attached to the panel P and the female connector 110 attached to the bracket B via the panel fixing holder 140 ends.
[0098]
As described above, when the bracket B is pressed against the panel P, that is, only by inserting the female connector 110 having the lever 130 into the male connector 120 having the boss 124, the lever 130 rotates and a part of the lever 130 is rotated. Abuts against the opening tapered portion 140a of the panel fixing holder 140, and using the abutted portion as a power point, the lever fitting lever reduces the connector fitting force and improves the workability of the connector fitting. Further, since it is not necessary for the operator to operate the lever 130 in the connector fitting as in the related art, the connector fitting operation can be performed easily and quickly even in a portion where the connector cannot be manually fitted. Further, since the lever 130 is inserted into the gap between the panel fixing holder 140 and the male connector 120 when the connector is fitted, an unexpected external force acts on the lever 130 when the connector is fitted or after the connector is fitted, so that the lever 130 may be moved. 130 can be prevented from being damaged.
[0099]
Subsequently, a procedure for detaching the connectors once fitted will be described.
[0100]
35 to 39 show states in which the male connector 120 and the female connector 110 are separated from each other. FIG. 35 shows a state where the lever 130 comes into contact with the panel fixing holder 140 and the lever 130 starts rotating.
[0101]
Subsequently, when the bracket B to which the female connector 120 is attached is separated from the panel P, the jaws 130b of the lever 130 are pressed against the chevron cam 148 of the panel fixing holder 140 at the contact point CT shown in FIG. As a result, the lever 130 receives a reaction force, and starts to rotate about the support shaft 114 of the female connector 110 in the opposite direction (the direction of the arrow YY in the drawing) from that at the time of fitting. FIG. 36A shows a state in which the lever 130 starts to rotate and the male connector 120 and the female connector 110 start to separate.
[0102]
As the lever 130 rotates, the jaw portion 130b of the lever 130 rides over the angled cam portion 148 of the panel fixing holder 140, and at the same time, the boss 124 of the male connector 120 moves from the depth of the guide groove 134 of the lever 130 toward the entrance portion 134a. Move. The contact point between the lever 130 and the panel fixing holder 140 moves toward the vertex of the chevron cam 148 of the panel fixing holder 140 according to the connector detachment operation. The changing contact point becomes the power point of the lever 130, and the lever's principle acts to detach the female connector 110 from the male connector 120 with a small detaching force.
[0103]
FIG. 37 shows a state in which the contact point CT between the lever 130 and the panel fixing holder 140 reaches the top of the chevron cam 148 of the panel fixing holder 140, and immediately after that, the lever 130 gets over the chevron cam 148 of the panel fixing holder 140. And the contact resistance between the terminal Tf and the terminal Tm is eliminated at the same time as the vehicle gets over.
[0104]
In this state, the male connector 120 is pulled by the female connector 110 and slides toward the female connector insertion side opening of the panel fixing holder 140. As a result, as shown in FIG. 37, the protrusion 121 of the male connector 120 expands the temporarily fixed fixing piece 143 of the panel fixing holder 140 again.
[0105]
FIG. 38 shows a state in which the detachment of the connectors is further advanced, the terminal contact resistance is eliminated, and the lever 130 can be easily rotated. In the same figure, the male connector 120 is further pulled in the direction of the female connector insertion side opening of the panel fixing holder 140 so that the projection 121 of the male connector 120 rides over the temporarily fixed fixing piece 143 of the panel fixing holder 140. The male connector 120 is temporarily fixed in the panel fixing holder 140 again. In addition, since a series of connector detachment operations can be performed simply by pulling the bracket B away from the panel P, the connector is not gripped by the operator or the operator is not concerned with the positional relationship of the connector. The detaching operation can be performed easily and reliably.
[0106]
FIG. 39 shows a state in which the male connector 120 and the female connector 110 are completely separated. In this state, the state is exactly the same as the state before the two connectors started to be fitted. In this state, the connectors can be fitted by inserting the bracket B into the panel P again in this state.
[0107]
As described above, by using the lever-type mating connector according to the present embodiment, it is not necessary to perform a detaching operation between the connectors using an operator's hand. In other words, using the lever lever principle, the connector mating and unmating can be performed with a smaller force compared to normal connector mating and unmating, and the work efficiency of connector mating and unmating is significantly improved compared to the conventional Let it.
[0108]
【The invention's effect】
As described above, in the lever-type mating connector according to the present invention, the lever provided in the first connector is in a fixed position by the first rotation restricting means and the second rotation restricting means before the connector is fitted. Is held. Therefore, when the first connector is fitted to the second connector, the engagement between the cam groove and the engagement pin can be easily performed.
[0109]
In addition, by temporarily releasing the second connector in the connector holder in accordance with the insertion of the first connector by the second release means, vibrations from the connector holder are not directly transmitted to the connector after the connector is fitted. .
[0110]
Further, in the lever-type mating connector according to the second aspect of the present invention, when the connectors are mated, the lever is housed in the connector holder, thereby preventing damage to the lever after mating the connector. In addition, the connector can be reduced in size without requiring a special member for protecting the lever as in the related art.
[0111]
In the lever-type mating connector according to the third aspect of the present invention, the distance between the rotation fulcrum and the point of force (arm) is larger than the distance between the rotation fulcrum and the point of action (cam groove). Realize low fitting between each other.
[0112]
Further, the lever-type mating connector according to claim 4 of the present invention enables one connector having a lever attached so as to straddle the connector to be fixed to the bracket, and fixes the mating connector to the panel via the panel fixing holder. It has a structure that can be used. Then, by pressing the bracket to which one connector is attached to the panel to which the mating connector is attached, the lever is inserted between the mating connector and the panel fixing holder. That is, the lever moves in the gap between the second connector and the panel fixing holder when the connector is fitted or the connector is detached, so that the lever can be prevented from being damaged when the lever moves. To
[0113]
A part of the lever abuts on a predetermined portion of the panel fixing holder when the connector is mated or unmated, so that the mating force and the mating force are reduced by utilizing the leverage principle. Thereby, without visually observing one connector temporarily fixed to the panel via the panel fixing holder and the other connector with a lever fixed to the bracket, that is, without having to worry about the positional relationship between the two connectors, By assembling the bracket to the panel, the fitting can be surely performed with a small fitting force. Similarly, when detaching the connectors from each other, if only the operation of removing the bracket from the panel is performed, the connectors can be reliably detached with a small fitting force. In addition, it is possible to perform an operation of fitting the connectors again with the detached state. Therefore, the effect is particularly large when the connector is connected or disconnected at a location where the operator cannot see it.
[0114]
Further, even if the second connector is fixed to the panel via the panel fixing holder, the connector provided by the first connector does not hit the panel, making it difficult for the connector to be engaged or disengaged. Restrictions on the mounting position are reduced.
[0115]
Further, the lever-type mating connector according to claim 5 of the present invention can individually cope with different operations of connector mating and connector disengagement by changing the lever ratio of the lever when the connector is mated and when disengaging the connector. In addition, the connector can be securely connected and the connector can be easily detached.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a lever-type mating connector according to a first embodiment of the present invention.
2 is a plan view showing a partial cross section immediately before fitting of the lever-type fitting connector of FIG. 1;
3 is an enlarged perspective view (FIG. 3 (b)) of a temporary fixing arm in the connector holder of the lever-type mating connector of FIG. 1 (FIG. 3 (b)) and a plan view (FIG. 3 (a)) of this view as viewed from above.
FIG. 4 is a side view corresponding to FIG. 2 of the lever-type mating connector of FIG. 1;
FIG. 5 is a plan view showing a state in which the connector is inserted into the connector holder in a partial cross section, following FIG. 2;
6 is a partial sectional side view corresponding to FIG. 5 of the lever-type mating connector of FIG. 1;
FIG. 7 is a plan view showing a state in which the connector is inserted into the connector holder in a partial cross section, following FIG. 5;
FIG. 8 is a plan view showing a state in which the connectors have begun to be fitted with each other in a partial cross section, following FIG. 7;
FIG. 9 is a plan view showing a state in which fitting between connectors has progressed in a partial cross section, following FIG. 8;
FIG. 10 is a plan view showing a state in which fitting between the connectors has progressed in a partial cross section, following FIG. 9;
FIG. 11 is a plan view showing a state in which the connectors are fitted to each other in a partial cross section, following FIG. 10;
FIG. 12 is a partial sectional side view corresponding to FIG. 11 of the lever-type mating connector of FIG. 1;
FIG. 13 is a plan view showing a state in which fitting between connectors has progressed in a partial cross section, following FIG. 11;
14 is a partial cross-sectional side view of the lever-type mating connector of FIG. 1, corresponding to FIG.
FIG. 15 is a plan view showing a state in which the connectors are completely fitted and the connectors are detached from the connector holder in a partial cross section, following FIG. 13;
FIG. 16 is a partial cross-sectional side view corresponding to FIG. 15 of the lever-type mating connector of FIG. 1;
FIG. 17 is a plan view showing a partial cross section of an initial state related to release of fitting between the connectors shown in FIG. 1;
FIG. 18 is a partial cross-sectional plan view showing a state where the disengagement of the connectors has progressed following FIG.
FIG. 19 is a plan view showing a state in which the disengagement of the connectors has progressed from FIG. 18 in a partial cross section.
FIG. 20 is a plan view showing, in partial cross section, a state in which the disengagement of the connectors has progressed, following FIG. 19;
FIG. 21 is a plan view showing, in partial cross section, a state in which the disengagement of the connectors has progressed following FIG. 20;
FIG. 22 is a plan view (FIG. 22A) and a side view (FIG. 22B) of a lever in the lever-type mating connector according to the second embodiment of the present invention.
FIG. 23 is a front view (FIG. 23A), a plan view (FIG. 23B), and a side view (FIG. 23 (A)) of a male connector in a lever-type mating connector according to a second embodiment of the present invention. c)).
24 is a sectional view of the male connector shown in FIG.
FIG. 25 is a front view (FIG. 25A), a side view (FIG. 25B), and a plan view (FIG. 25 (A)) of the female connector in the lever-type mating connector according to the second embodiment of the present invention. c)), and the side view shows a state where the lever is attached.
26 is a sectional view of the female connector shown in FIG. 25 taken along the line BB-BB.
FIG. 27 is a front view of a panel fixing holder in the lever-type mating connector according to the second embodiment of the present invention.
28 is a cross-sectional view of the panel fixing holder shown in FIG. 27, taken along the line CC-CC.
FIG. 29 is a sectional view taken along the line DD-DD of the panel fixing holder shown in FIG. 27;
FIG. 30 is a view showing a state before the male connector and the female connector are fitted, and shows a panel fixing holder in a cross section for easy understanding.
FIG. 31 is a view showing a state in which the lever comes into contact with the panel fixing holder and the lever starts rotating, following FIG. 30;
FIG. 32 is a view showing a state in which the temporarily fixed fixing piece of the panel fixing holder is expanded by the male connector, and the male terminal and the female terminal of the connector start to make contact with each other.
FIG. 33 is a view showing a state in which the connectors are fitted together while the male terminal and the female terminal are in contact with each other, following FIG. 32;
FIG. 34 is a diagram showing a state where the connectors have been completely fitted.
FIG. 35 is a view showing a state immediately after detachment of the connectors is started, and in which the lever comes into contact with the panel fixing holder and the lever starts to rotate.
FIG. 36 shows a state in which the lever starts to rotate and the male connector and the female connector start to be detached (FIG. 36 (a)), and an enlarged view of the angled cam portion of the panel fixing holder (FIG. 36 (b)) It is.
FIG. 37 is a view showing a state in which the terminal contact resistance of the connector is eliminated at the same time when the lever gets over the mountain-shaped cam portion of the panel fixing holder.
FIG. 38 is a view showing a state in which the male connector is temporarily fixed to the panel fixing holder again, the terminal contact resistance of the connector is lost, and the lever can be easily rotated.
FIG. 39 is a diagram showing a state in which the detachment of the connectors is completed.
FIG. 40 is a view showing an example of a conventional lever-type mating connector.
FIG. 41 is a view showing an example of another conventional lever-type mating connector.
FIG. 42 is a view showing an example of still another conventional lever-type mating connector.
[Explanation of symbols]
10 male connector (first connector)
11 Connector housing
11a Notch
12 male terminals
15 Rotation axis
16 Temporary fixing arm engaging step
16a Step taper surface
18 Lever stopper
19 Anti-over
20 female connector (second connector)
20a female connector terminal
22 female terminal
25 Lever engagement protrusion
26 Temporary fixing protrusion
26a Tapered surface
30 Connector holder
33 Lever release rib
35 engagement groove
36 Temporary fixing arm
36a First tapered surface
36b Second tapered surface
36c Temporary fixing step
37 Opening taper surface
38 lever stopper groove
40 lever
45 cam groove
45a Cam groove entrance
46 Rotating arm
48 lever hook
49 Stopper
100 lever type mating connector
110 female connector (first connector)
111 Connector body
112 mounting part
112a mounting hole
114 spindle
120 male connector tractor (second connector)
121 convex part (engagement part)
124 Boss
130 lever
130a Lever overhang
130b chin
131 prop
132 lever body
133 Lock section
134 Guide groove
134a entrance
140 Panel fixing holder
140a Opening taper
141 flange
142 Locking piece for panel fixing
143 Temporary fixing fixed locking piece (engaging part)
144 Holding guide
148 Angle type cam
B bracket
C Electric wire, flexible flat cable
P panel
Tf, Tm terminals

Claims (5)

A first connector;
A second connector fittable with the first connector;
A connector holder capable of temporarily housing the second connector,
The first connector includes a lever rotatable with respect to the first connector, and first rotation restricting means for restricting rotation of the lever in a first rotation direction with respect to the first connector. When,
Second rotation restricting means for restricting rotation of the lever in a direction opposite to a first rotation direction with respect to the first connector,
The lever includes a cam groove,
The lever is provided on the side opposite to the cam groove with respect to the center of rotation of the lever, and cooperates with the connector holder to move the lever in a first rotational direction in response to entry of the first connector into the connector holder. With an arm to rotate,
The second connector includes an engagement pin engageable with a cam groove of the lever in accordance with fitting of the second connector to the first connector,
A first release unit that engages with the first rotation restriction unit in response to the insertion of the first connector to release lever rotation restriction by the first rotation restriction unit;
And a second release means for releasing temporary accommodation of the second connector in the connector holder in accordance with insertion of the first connector. The lever-type fitting according to claim 1, wherein at least a part of the lever is housed in the connector holder in accordance with fitting of the first connector to the second connector. connector. The lever-type mating connector according to claim 1, wherein a distance between the rotation fulcrum of the lever and the arm portion is larger than a distance between the rotation fulcrum and the cam groove. 4. . A first connector attachable to the bracket, a panel fixing holder fixable to the panel, and a second connector fixable to the panel via the panel fixing holder;
The first connector includes a lever rotatably attached to the first connector and partially having a guide groove formed therein, and the second connector is capable of entering the guide groove of the lever. A lever-type fitting connector comprising a boss, wherein the first connector and the second connector are fitted with each other by the boss entering the guide groove,
The second connector and the panel fixing holder are provided with engaging portions that can be temporarily fixed to each other,
The boss of the second connector enters the guide groove of the lever in response to the pushing of the bracket on which the first connector is attached to the panel side on which the second connector is attached, and the lever rotates. As a result, the guide groove of the lever and the boss of the second connector cooperate to assist the fitting between the connectors, and the second connector is released in a state where the temporary fixing of the second connector to the panel fixing holder is released. Is held by the panel fixing holder,
A gap is formed between the panel fixing holder and the second connector when at least a part of the lever moves through a gap between the second connector and the panel fixing holder when the connector is fitted or the connector is disconnected. Formed,
Further, the lever is provided with a lever ratio for reducing a connector fitting force and a connector detaching force. The lever-type fitting according to claim 4, wherein a force point of the lever, which is a contact portion between the lever and the panel fixing holder, is formed at a different portion between when the connector is fitted and when the connector is detached. connector.

Images