Source: https://patents.google.com/patent/JP4317973B2/en
Timestamp: 2020-02-23 00:05:11
Document Index: 71741932

Matched Legal Cases: ['arts 19', 'art 32', 'art 52', 'art 46', 'art 32', 'art 42', 'art 32', 'art 52', 'art 52', 'art 52', 'art 22', 'art 35', 'art 42', 'art 22', 'art 52', 'art 42', 'art 52', 'art 42', 'art 32', 'art 25', 'art 39', 'art 44']

JP4317973B2 - Connector - Google Patents
JP4317973B2
JP4317973B2 JP2004361593A JP2004361593A JP4317973B2 JP 4317973 B2 JP4317973 B2 JP 4317973B2 JP 2004361593 A JP2004361593 A JP 2004361593A JP 2004361593 A JP2004361593 A JP 2004361593A JP 4317973 B2 JP4317973 B2 JP 4317973B2
JP2004361593A
JP2006172825A (en
2004-12-14 Application filed by 住友電装株式会社 filed Critical 住友電装株式会社
2004-12-14 Priority to JP2004361593A priority Critical patent/JP4317973B2/en
2006-06-29 Publication of JP2006172825A publication Critical patent/JP2006172825A/en
2009-08-19 Publication of JP4317973B2 publication Critical patent/JP4317973B2/en
As a connector provided with a moving plate, a connector described in Patent Document 1 below is known. In this case, the moving plate is provided in the hood portion of the male housing so that the moving plate can be moved back and forth. When the moving plate is in the holding position on the opening side (front side) of the hood portion, the positioning hole of the moving plate is fitted to the front end portion of the tab. By positioning the tabs in the vertical and horizontal directions, the female housing pushes the moving plate toward the back (rear side) of the hood when the female housing is engaged with the hood. The connection is started.
In such a connector, in order to restrict the back-and-forth movement of the moving plate at the holding position, protrusions that are engaged with the front and rear ends of the moving plate are provided on the inner peripheral surface of the hood portion. Then, after the female housing has entered the hood part, the moving plate disengages from the protrusion and moves to the back side of the hood part by applying a fitting operation force that exceeds the locking force of the protrusion to the female housing. It is supposed to be.
No. 5-125953
By the way, in the above case, the locking surface of the protrusion on the inner peripheral surface of the hood part is configured as a tapered semi-lock structure along the moving direction of the moving plate. The locking can be released relatively easily.
However, in the case of such a semi-lock structure, there is a concern that the protrusion of the protrusion is inadvertently released and the moving plate is moved before the two housings are fitted, so that the tip of the tab becomes free.
The present invention has been completed based on the above circumstances, and an object thereof is to realize a highly reliable locking structure using a moving plate.
As means for achieving the above object, the invention of claim 1 is characterized in that a male housing that surrounds a tab of a male terminal fitting in a hood portion, and a tab that is accommodated in the hood portion and penetrates the tab. A moving plate that can be moved between a holding position that fits to the distal end portion and a holding release position that fits to the base end portion, and the moving plate that enters the hood portion and moves the moving plate at the holding position to the holding release position. A connector having a female housing that reaches a mating state with the male housing while being pushed and moved, wherein a receiving portion is provided at a center portion of the mating surface of the moving plate, and on the back surface of the hood portion The locking portion protruding toward the receiving portion is provided so as to be able to bend and deform so that the tip portion faces the fitting surface of the moving plate, and the locking portion and the receiving portion are elastically locked. Thus, movement of the moving plate to the holding release position at the holding position is restricted, and a release portion is provided on the fitting surface of the female housing, and fitting of both housings is started. Sometimes, the movement of the moving plate to the holding release position is allowed by the release portion coming into contact with the distal end portion of the locking portion and bending the locking portion in the direction of disengaging from the receiving portion. It is characterized by its configuration.
According to a second aspect of the present invention, in the first aspect of the present invention, in the peripheral portion of the moving plate, an auxiliary locking portion that can be elastically engaged with an auxiliary receiving portion provided on an inner peripheral surface of the hood portion. In a state where the locking portion is provided and disengaged from the receiving portion, the locking state by the auxiliary locking portion and the auxiliary receiving portion is released by pushing the moving plate to the holding release position. It is characterized by its configuration.
According to a third aspect of the present invention, in the first or second aspect of the present invention, when the female housing assumes a normal posture, the female housing is allowed to be fitted on the inner surface of the hood portion. When the housing does not take a normal posture, a misconnection prevention portion that restricts the fitting of the two housings is provided to protrude, and the moving plate is provided with an insertion hole that allows the misconnection prevention portion to pass therethrough. And the said latching | locking part has the characteristic in the place which was distribute | arranged along with the said misconnection prevention part, and was set as the structure penetrated the said insertion hole with this misconnection prevention part.
When the moving plate is in the holding position where it is fitted to the tip of the tab, the bending deformable locking portion protruding from the back surface of the hood is elastically engaged with the receiving portion provided at the tip of the moving plate. Since the movement of the moving plate to the holding release position is restricted, a higher holding force than the semi-lock structure can be obtained, and the moving plate in the holding position is inadvertently released before the two housings are fitted together. The movement to the position can be prevented.
In addition, since the receiving portion is provided at the center of the mating surface of the moving plate, if only one receiving portion is provided, a well-balanced locking structure can be realized between the locking portion and the moving plate. It is not necessary to provide a plurality of receiving portions on the peripheral edge.
On the other hand, when the female housing enters the hood portion, the locking portion comes into contact with the release portion provided on the mating surface of the female housing and is bent and deformed in a direction to disengage from the receiving portion. The locked state with the receiving part can be easily released.
By moving the moving plate to the holding release position with the locking part disengaged from the receiving part, the auxiliary locking part provided on the peripheral edge of the moving plate and the auxiliary provided on the inner peripheral surface of the hood part Since the locked state with the receiving portion is released, the moving plate can be reliably prevented from inadvertently moving to the holding release position.
The back of the hood part is provided with a misconnection prevention part that protrudes, and the locking part is arranged alongside the misconnection prevention part so as to penetrate the insertion hole provided in the moving plate together with the misconnection prevention part. Therefore, both the locking portion and the erroneous connection preventing portion can share one insertion hole, and the moving plate can be downsized.
A first embodiment of the present invention will be described with reference to FIGS. The connector of this embodiment includes a female housing 10 and a male housing 30 that can be fitted to each other, and a moving plate 50 is attached to the male housing 30. In the following description, with respect to the front-rear direction, the fitting surface side of both housings 10 and 30 is the front, and the vertical direction is based on FIG.
The female housing 10 includes a resin main body 11 that is elongated in the vertical direction, a rubber grommet 12 that is covered from the rear of the housing main body 11 so as to completely cover a portion other than the front surface of the housing main body 11, A resin grommet cover 13 attached to the outside of the grommet 12 and a lever 14 attached to the outside of the grommet cover 13 for fitting the two housings 10 and 30 are provided.
The grommet 12 is provided with a wire lead-out portion 15 that protrudes downward through which a wire group (not shown) drawn from the rear surface of the housing body 11 is projected, and the drawn wire group is bundled and guided downward. It is like that. The front end portion of the grommet 12 surrounds the outer periphery of the front edge of the housing main body 11, and is fitted to and latched by a hooking protrusion 16 protruding from the housing main body 11. The grommet 12 is also in close contact with the male housing 30 side when both the housings 10 and 30 are properly fitted, thereby taking a seal between the housings 10 and 30.
The grommet cover 13 is latched to the hooking protrusion 16 with the grommet 12 sandwiched between the housing main body 11 and the grommet cover 13. A pair of shaft portions 17 for projectingly supporting the lever 14 so as to be pivotable are provided at substantially the center in the height direction of both side surfaces of the grommet cover 13.
The lever 14 is formed in a gate shape as a whole, and a pair of arm portions 14A protrudes in parallel from both ends of the connecting portion 14B. As shown in FIG. 2, both arm portions 14 </ b> A are provided with cam grooves 14 </ b> E into which follower pins 31 provided on the male housing 30 side can enter. The entrance of the cam groove 14E faces forward in a state before the lever 14 is rotated, and the follower pin 31 is moved into the cam groove 14E by rotating the lever 14 from the state in which the follower pin 31 is inserted. The two housings 10 and 30 are engaged with each other by the cam action. Both arm portions 14 </ b> A are provided with shaft holes 14 </ b> F that fit into the shaft portions 17 of the grommet cover 13.
As shown in FIG. 1, the housing body 11 is provided with a large number of cavities 18 arranged in a line in the vertical direction in the right half portion when viewed from the front, and in the upper half of the left half when viewed from the front. A frame-like assembly portion 19 is provided which is divided into two and opens on both front and rear sides. A block-shaped sub-connector 20 is fitted into both assembly parts 19. A large number of cavities 18 are also formed inside the sub-connector 20, and female terminal fittings 25 fixed to the ends of the electric wires 24 are accommodated in the cavities 18. On the inner wall of each cavity 18, a lance 27 for retaining the female terminal fitting 25 is provided so as to be cantilevered and bendable.
An escape recess 23 for avoiding interference with the male housing 30 side is provided in the central portion of the front surface of the housing body 11 so as to be positioned between the both assembly portions 19. A release portion 22 for releasing the holding state of the moving plate 50 is provided at the upper right corner when viewed from the front of the front edge of the escape recess 23. The release portion 22 is formed to protrude toward the escape recess 23 at the front end portion of the housing body 11. The rear surface of the release portion 22 has a taper shape, and a punching hole 21 is formed on the rear surface of the housing body 11 corresponding to the tapered portion. Further, an erroneous connection preventing groove 26 that allows an erroneous connection preventing portion 32 (described later) provided in the male housing 30 to enter is formed on the left end side of the escape recess 23 as viewed from the front.
Next, the male housing 30 will be described. The male housing 30 is integrally formed of a synthetic resin material. As shown in FIG. 3, the male housing 30 is formed to be a block-shaped terminal accommodating portion 33 that is elongated in the vertical direction and is slightly larger than the terminal accommodating portion 33 and opens forward. And a hood portion 35 having a substantially rectangular tube shape. The terminal accommodating portion 33 has a large number of cavities 34 arranged in a line in the vertical direction in the left half portion viewed from the front so as to correspond to the housing body 11, and in the right half portion viewed from the front. A frame-like assembly portion 36 that is divided into two upper and lower stages and opens in the front-rear direction is provided. Both assembly portions 36 are fitted with block-shaped sub-connectors 37, and male terminal fittings 39 fixed to the ends of the electric wires 38 are accommodated in the cavities 34 formed inside the sub-connectors 37. . A front end of the male terminal fitting 39 is provided with a tab 40 that protrudes forward, and the deformation of the tab 40 is prevented by the moving plate 50 before the housings 10 and 30 are fitted together. On the inner wall of the cavity 34, a lance 62 that prevents and holds the male terminal fitting 39 is provided in a cantilevered manner and bendable. As shown in FIG. 7, a pair of guide grooves 41 into which a mounting portion 51 (to be described later) of the moving plate 50 can be fitted is formed in the upper and lower ends of the front surface of the terminal accommodating portion 33.
Further, at a position slightly closer to the one side than the central portion of the front surface of the terminal accommodating portion 33, the female housing 10 enters the misconnection preventing groove 26 when the female housing 10 is to be fitted in a normal posture. However, when the female housing 10 is about to be fitted without taking a normal posture, there is provided a misconnection preventing portion 32 that abuts against the front surface of the female housing 10 and restricts the fitting operation. The erroneous connection preventing portion 32 is formed in a substantially square bar shape so as to protrude forward from the front surface of the terminal accommodating portion 33. The erroneous connection preventing portion 32 is also configured to serve as a guide for guiding the female housing 10 to the normal fitting position by moving along the erroneous connection preventing groove 26 of the female housing 10.
Further, in the central portion of the front surface of the terminal accommodating portion 33, in other words, in the central portion of the rear surface of the hood portion 35, a relationship that protrudes forward with the base on the left side viewed from the front of the misconnection preventing portion 32 as a base end portion. A stop 42 is provided. The locking portion 42 is cantilevered with the base end as a fulcrum and can be bent and deformed in the left-right direction (width direction), and has a bending space between the locking portion 32 and the erroneous connection in the natural state. It is arranged in parallel with the prevention part 32. The locking portion 42 includes a locking body 43 that is wide in the vertical direction and extends in the front-rear direction, and a locking protrusion 44 that protrudes outward in the width direction on the free end side of the locking body 43. The protrusion 44 is elastically locked to a receiving portion 52 (described later) of the moving plate 50, so that the movement of the moving plate 50 to the back side of the hood portion 35 is restricted.
As shown in FIG. 3, the front surface of the locking projection 44 is divided into a locking area 44 </ b> B that can be locked with the receiving portion 52 and a release area 44 </ b> A that can come into contact with the releasing section 22. Specifically, the locking region 44B occupies the lower approximately two-thirds of the front surface of the locking portion 42, and the release region 44A is approximately one-third of the upper front surface of the locking portion 42. Occupies space. As shown in FIG. 9, the locking region 44 </ b> B of the locking protrusion 44 has a reverse tapered surface that is inclined forward as it goes to the protruding end side, and has a structure that increases the locking force with the receiving portion 52. ing. On the other hand, the release region 44A of the locking projection 44 is a tapered surface that inclines backward as it goes to the protruding end, and is received by the release portion 22 coming into contact therewith when the housings 10 and 30 are started to be fitted. The part 52 can be easily dissociated.
A pair of follower pins 31 protrude from the both sides on the long side of the inner peripheral surface of the hood portion 35 substantially at the center in the height direction. Then, behind the follower pin 31 on the inner peripheral surface of the hood portion 35, as will be described later, elastically engages with an elastic engagement piece 53 (corresponding to the auxiliary locking portion of the present invention) provided on the moving plate 50. A pair of first engagement receiving portions 45 (corresponding to the auxiliary receiving portions of the present invention) for holding the moving plate 50 in the holding position are recessed symmetrically. The front surface of the first engagement receiving portion 45 is a vertical surface extending in a direction orthogonal to the fitting direction, and the rear surface of the first engagement receiving portion 45 is a tapered surface that is inclined along the fitting direction. . Further, on the inner peripheral surface of the hood portion 35, a pair of second engagements into which an elastic engagement piece 53 to be restored after getting over the first engagement receiving portion 45 can enter after the first engagement receiving portion 45. The receiving part 46 is recessed symmetrically. The front surface of the second engagement receiving portion 46 is a gently tapered surface along the fitting direction, and the rear surface of the second engagement receiving portion 46 is a vertical surface extending in a direction orthogonal to the fitting direction. .
Next, the moving plate 50 will be described. The moving plate 50 is formed of a synthetic resin material, and as shown in FIG. 4, includes a plate body 54 having a flat plate shape elongated in the vertical direction that can be fitted almost tightly into the hood portion 35 of the male housing 30. ing. The moving plate 50 is assembled into the hood portion 35 from the front, and a holding position (see FIG. 9) in the middle of the hood portion 35 in the length direction and a holding release position on the back side (rear side) of the hood portion 35. It is possible to move between them in the front-rear direction, that is, in the fitting direction of both housings 10 and 30. When the female housing 10 enters the hood portion 35 and moves to the back side, the moving plate 50 is held in the holding position in a state where the front surface of the female housing 10 and the front surface (fitting surface) of the moving plate 50 are in contact with each other. It is designed to be pushed to the release position.
A side wall 55 projecting forward is provided on the peripheral edge of the plate body 54 (see FIG. 9), and a flange 56 projecting radially outward is continuously provided on the front edge of the side wall 55. From the square of the flange portion 56, an overhang portion 57 is provided to protrude forward. The overhanging portion 57 has an arc shape that follows the square of the rounded flange portion 56 and closely fits with the inner peripheral surface of the hood portion 35 to prevent the moving plate 50 from tilting in the front-rear direction. is doing. A mounting portion 51 that protrudes rearward from the upper and lower peripheral edges of the rear surface of the plate body 54 is provided. Both attachment portions 51 are fitted into the corresponding guide grooves 41 of the terminal accommodating portion 33, and are movable along the guide grooves 41 when the moving plate 50 is moved. Further, a seal plug 70 is fitted around the mounting portion 51 so as to abut the rear surface of the flange portion 56, and the seal plug 70 is in close contact with the inner end of the inner peripheral surface of the hood portion 35 so that the seal between them is sealed. It is supposed to be. The outer peripheral surface of the seal plug 70 fitted to the mounting portion 51 is substantially flush with the outer peripheral surface of the overhang portion 57.
Further, as shown in FIG. 5, two pairs of upper and lower elastic engagement pieces 53 are provided on both side edges on the long side of the flange portion 56 so as to protrude forward. Between the pair of upper and lower elastic engagement pieces 53, a protruding edge portion 59 is provided between the elastic engagement pieces 53 so as to protrude forward through a slit 58. The projecting end of the projecting edge portion 59 has an arc shape, and is divided into upper and lower portions by a notch 60 provided at the center thereof. When the moving plate 50 is mounted in the hood portion 35, the follower pin 31 is allowed to escape through the notch 60.
Each elastic engagement piece 53 is set at a symmetrical position with the same shape and size and sandwiching the fitting center, and is provided so as to be able to bend and deform with both side edges of the flange portion 56 as base ends. An engaging protrusion 53A that protrudes outward in the width direction is provided at the tip of the elastic engaging piece 53. The moving plate 50 is held at the holding position by fitting the engaging protrusion 53A to the first engaging receiving portion 45, and the moving plate 50 is held by fitting the engaging protrusion 53A to the second engaging receiving portion 46. It is to be kept in the release position. The rear surface of the engaging protrusion 53A is a tapered surface that is inclined forward as it goes to the protruding end. Accordingly, the locking structure between the engaging protrusion 53A and the first engaging receiving portion 45 is a semi-lock structure in which the tapered surfaces come into contact with each other. Therefore, if the female housing 10 is lightly pushed into the hood portion 35, the moving plate 50 can be moved to the holding release position.
The plate main body 54 is provided with a large number of tab through holes 63 penetrating in the plate thickness direction (front-rear direction) at positions corresponding to the cavities 34 of the terminal accommodating portion 33. In the state where the moving plate 50 is in the holding position, the tab through-hole 63 is engaged with the tip end portion of the tab 40 of the male terminal fitting 39 so that the vertical and horizontal movement of the tab 40 is restricted. . On the other hand, when the moving plate 50 is moved to the holding release position, the tab through-hole 63 is fitted to the proximal end portion of the tab 40 and the distal end portion of the tab 40 is connected to the female terminal fitting 25. .
Further, the plate main body 54 is formed with an insertion hole 64 that allows insertion of the erroneous connection preventing portion 32 and the locking portion 42 so as to extend to the right side when viewed from the front side from the center portion. The insertion hole 64 of the plate main body 54 is opened with a size and a shape that allow the erroneous connection preventing part 32 and the locking part 42 to pass through. The erroneous connection preventing part 32 penetrating through the insertion hole 64 is The female housing 10 is configured to enter the misconnection preventing groove 26.
And the receiving part 52 which protrudes ahead is provided in the center part of the height direction and the width direction in the front surface of the plate main body 54 along the part which went to the lower edge from the left side edge of the insertion hole 64 seen from the front. Yes. The front edge of the receiving part 52 is set at a position slightly retracted from the front edge of the side wall 55, and the protruding dimension of the receiving part 52 is set to be substantially the same as the longitudinal dimension of the release part 22.
As shown in FIGS. 4 and 9, a receiving main body 52 </ b> A having a substantially square shape when viewed from the front is provided at the front end of the receiving portion 52. The receiving body portion 52A is disposed substantially parallel to the front surface of the moving plate 50, and is set so that a part thereof faces the lower left side as viewed from the front surface of the insertion hole 64. The rear surface of the receiving body 52A is an inversely tapered surface that inclines backward as it goes to the protruding end side. When the moving plate 50 is in the holding position, a high locking force can be obtained by bringing the front surface of the locking region 44B of the locking projection 44 into contact with the rear surface of the receiving body portion 52A and the mutually opposite tapered surfaces. It is like that. Further, when the moving plate 50 is in the holding position, the release region 44 </ b> A of the locking projection 44 is exposed above the receiving body portion 52 </ b> A in the insertion hole 64.
When the female housing 10 enters the hood portion 35 and the release portion 22 of the female housing 10 comes into contact with the release region 44A of the locking projection 44, the release portion 22 slides along the tapered surface of the release flow region. The stop main body 43 is bent and deformed in the width direction, and at the same time, the locking region 44B of the locking projection 44 is dissociated from the receiving main body portion 52A. Thereafter, when the female housing 10 is moved, the elastic engagement piece 53 is bent and deformed, the engagement projection 53A is disengaged from the first engagement receiving portion 45, and the moving plate 50 at the holding position moves to the holding release position. Start. When the moving plate 50 reaches the holding release position, the elastic engagement piece 53 is elastically restored and the engagement protrusion 53A is fitted into the second engagement receiving portion 46, and the locking portion 42 gets over the release portion 22. It is elastically restored to the rear surface side of the release portion 22.
Next, the operation of this embodiment will be described. First, as shown in FIGS. 7 and 9, the moving plate 50 is inserted into the hood portion 35 of the male housing 30 and held in the holding position. The moving plate 50 in the holding position is prevented from coming out backward by the engagement protrusion 53A of the elastic engagement piece 53 being fitted into the first engagement receiving portion 45, and the receiving portion 52 is the locking portion 42. Further forward movement is restricted by being locked by the locking protrusion 44.
Subsequently, the female housing 10 is inserted into the hood portion 35 of the male housing 30, and the two housings 10, 30 are lightly fitted to such an extent that the follower pin 31 enters the entrance of the cam groove 14E. Then, the front surface of the housing body 11 of the female housing 10 is fitted into the side wall 55 of the moving plate 50, and the release portion 22 of the housing body 11 is exposed to the front surface from the insertion hole 64 of the moving plate 50 as shown in FIG. The locking main body 43 is bent and deformed by abutting the release region 44A of the locking projection 44 and the release portion 22 sliding along the tapered surface of the release region 44A, so that the locking projection 44 is received by the receiving portion. Dissociates from 52.
When the lever 14 mounted on the female housing 10 side is rotated from this state, the follower pin 31 moves along the cam groove 14E, and the female housing 10 moves to the back of the hood portion 35 as the follower pin 31 moves. And the fitting operation of both housings 10 and 30 proceeds. Since the operating force of the lever 14 exceeds the locking force by the elastic engagement piece 53 and the first engagement receiving portion 45, the engagement between the elastic engagement piece 53 and the first engagement receiving portion 45 is started when fitting is started. The state is easily released. When the lever 14 is pivoted to the pivot end position, as shown in FIGS. 8 and 11, both the housings 10 and 30 are properly fitted to connect the terminal fittings 25 and 39, and the elastic engagement piece. 53 is restored, and the engaging projection 53A enters the second engagement receiving portion 46, and the rear surface of the moving plate 50 faces the inner surface of the hood portion 35. At this time, the tip of the mounting portion 51 of the moving plate 50 reaches the back end of the guide groove 41 of the terminal accommodating portion 33.
As described above, in the present embodiment, when the moving plate 50 is in the holding position where the moving plate 50 is fitted to the distal end portion of the tab 40, the receiving portion 52 provided on the moving plate 50 projects from the inner surface of the hood portion 35. Since the locking portion 42 is elastically engaged, movement of the moving plate 50 to the holding release position is restricted. Therefore, a higher holding force than that of the semi-lock structure can be obtained, and before the housings 10 and 30 are fitted together. Furthermore, it is possible to prevent the moving plate 50 in the holding position from inadvertently moving to the holding release position.
In addition, since the receiving portion 52 is only provided at the central portion of the front surface of the moving plate 50, even if the plurality of receiving portions 52 are not provided on the peripheral edge portion of the moving plate 50, A well-balanced locking structure can be realized.
On the other hand, when the female housing 10 enters the hood part 35, the locking part 42 comes into contact with the release part 22 provided on the fitting surface of the female housing 10, and is bent and deformed in a direction to disengage from the receiving part 52. Therefore, the locked state by the locking part 42 and the receiving part 52 can be easily released.
In addition, an erroneous connection preventing portion 32 is provided to protrude from the inner surface of the hood portion 35, and a locking portion 42 is arranged alongside the erroneous connection preventing portion 32 and is provided on the moving plate 50 together with the erroneous connection preventing portion 32. Since the insertion hole 64 is penetrated, both the locking part 42 and the erroneous connection prevention part 32 can share the single insertion hole 64, and the moving plate 50 can be downsized by effectively using the space.
(1) Although the said embodiment showed the example applied to the lever-type connector, this invention is applicable also to the connector which does not have a lever.
(2) In the present invention, at the start of fitting of both housings, the release portion of the female housing comes into contact with the engagement portion provided in the center of the front surface of the moving plate, and the engagement portion is bent and deformed in the release direction. For example, if the locking portion can be elastically locked to the hole edge of the insertion hole, the receiving portion may not be provided in a form protruding forward.
(3) In the present invention, the locking portion is arranged side by side with the erroneous connection prevention portion, but the erroneous connection prevention portion may not be provided, and an insertion hole for passing the locking portion is opened in the moving plate. If you do.
The front view of the female housing of the connector of Embodiment 1 of this invention Side view of female housing Front view of male housing with moving plate Front view of moving plate Moving plate side view Top view of moving plate Side sectional view before both male and female housings are mated Side sectional view of both male and female housings properly fitted Cross section before the male and female housings are mated Cross-sectional view of the state where both the male and female housings begin to fit and the locking portion is bent and deformed Cross-sectional view with both male and female housings properly fitted
DESCRIPTION OF SYMBOLS 10 ... Female housing 22 ... Release | release part 25 ... Female terminal metal fitting 30 ... Male housing 35 ... Hood part 39 ... Male terminal metal fitting 40 ... Tab 42 ... Locking part 44 ... Locking protrusion 50 ... Moving plate 52 ... Receiving part
A male housing that encloses the tab of the male terminal fitting in the hood;
A moving plate that is accommodated in the hood portion and is movable between a holding position that fits the tip end portion of the tab and a holding release position that fits the base end portion in a state of penetrating the tab;
A female housing that enters the hood portion and pushes the moving plate in the holding position to the holding release position and reaches a fitting state with the male housing;
A receiving portion is provided at the center of the fitting surface of the moving plate, and a locking portion that protrudes toward the receiving portion on the back surface of the hood portion so that the tip portion faces the fitting surface of the moving plate. Is provided so that it can be bent and deformed, and the locking portion and the receiving portion are elastically locked, so that the movement of the moving plate to the holding release position at the holding position is restricted. And,
A release portion is provided on the fitting surface of the female housing, and when the two housings start to be fitted, the release portion comes into contact with the distal end portion of the locking portion and disengages the locking portion from the receiving portion. A connector characterized in that the moving plate is allowed to move to the holding release position by being bent to the right.
The peripheral edge of the moving plate is provided with an auxiliary locking portion that can be elastically engaged with the auxiliary receiving portion provided on the inner peripheral surface of the hood portion, and the locking portion is separated from the receiving portion. The connector according to claim 1, wherein the moving plate is pushed to the holding release position to release the locked state between the auxiliary locking portion and the auxiliary receiving portion.
The back surface of the hood portion allows the fitting of the two housings when the female housing takes a normal posture, and prevents the erroneous connection by restricting the fitting of the two housings when the female housing does not take the normal posture. A protruding portion is provided, and the moving plate is provided with an insertion hole that allows the erroneous connection preventing portion to pass through, and
The connector according to claim 1, wherein the locking portion is arranged side by side with the erroneous connection preventing portion and penetrates the insertion hole together with the erroneous connection preventing portion.
JP2004361593A 2004-12-14 2004-12-14 Connector Active JP4317973B2 (en)
DE200560000815 DE602005000815T2 (en) 2004-12-14 2005-12-12 Interconnects
EP20050027086 EP1672747B1 (en) 2004-12-14 2005-12-12 A connector
US11/302,881 US7134901B2 (en) 2004-12-14 2005-12-14 Connector with a moving plate
JP2006172825A JP2006172825A (en) 2006-06-29
JP4317973B2 true JP4317973B2 (en) 2009-08-19
JP2004361593A Active JP4317973B2 (en) 2004-12-14 2004-12-14 Connector
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JP4857048B2 (en) * 2006-08-07 2012-01-18 日本航空電子工業株式会社 Lever type connector
DE602006013317D1 (en) * 2006-09-21 2010-05-12 Molex Inc Lever-type electrical connector
CN103918133A (en) * 2011-09-27 2014-07-09 矢崎总业株式会社 Shielded connector
JP6537805B2 (en) * 2014-10-29 2019-07-03 日本航空電子工業株式会社 Lever type connector
DE102016201391B3 (en) * 2016-01-29 2017-08-03 Robert Bosch Gmbh Electrical plug connection
JP6492030B2 (en) * 2016-05-30 2019-03-27 矢崎総業株式会社 connector
JP2018181786A (en) * 2017-04-21 2018-11-15 住友電装株式会社 Connector
JPH0418226Y2 (en) * 1987-01-26 1992-04-23
DE19952023C2 (en) * 1999-10-28 2003-05-15 Grote & Hartmann connector female
JP3743555B2 (en) * 2001-05-07 2006-02-08 住友電装株式会社 Lever type connector
2004-12-14 JP JP2004361593A patent/JP4317973B2/en active Active
2005-12-12 EP EP20050027086 patent/EP1672747B1/en active Active
2005-12-12 DE DE200560000815 patent/DE602005000815T2/en active Active
2005-12-14 US US11/302,881 patent/US7134901B2/en active Active
JP2006172825A (en) 2006-06-29
EP1672747B1 (en) 2007-04-04
US7134901B2 (en) 2006-11-14
US20060154511A1 (en) 2006-07-13
DE602005000815T2 (en) 2008-01-10
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