JP5666181B2 - connector - Google Patents

Description

  The present invention relates to a connector, for example, a connector that is attached to and detached from a device-side connector coupling portion provided in a device such as an automobile.

  FIG. 15 is an exploded perspective view showing a schematic configuration of a conventional connector 300, and FIGS. 16 to 18 are sectional views showing a schematic configuration of the connector 300 and a device-side connector coupling portion 302 on which the connector 300 is installed. is there.

  A conventional connector 300 (see, for example, Patent Document 1) includes a housing 304 and a retainer 306. The housing 304 includes a recess 310 that accommodates a socket contact (terminal portion) 308, an elastically deformable latch arm (lock arm) 312 and a locking portion 314 that locks the retainer 306 when the retainer 306 is installed. I have. The lock arm 312 is elastically deformed when the connector 300 is installed on the device-side connector coupling portion 302, and the connector 300 once installed on the device-side connector coupling portion 302 is removed from the device-side connector coupling portion 302 by a restoring force. This is to prevent it from coming off.

  The retainer 306 includes a main body portion 316 and a cover portion 320 provided on the main body portion 316 via the hinge portion 318 so as to be slightly movable. The main body 316 is provided with a locked portion 322. When the terminal portion 308 is installed in the concave portion 310 of the housing 304 and the retainer 306 is installed in the housing 304, the locking portion 314 and the locked portion 322 are engaged to form the connector 300. Yes.

  Further, the cover part 320 of the retainer 306 is provided with a blocking lug (regulating arm) 324 and an elastic part 326 that urges the cover part 320 in the rotation direction of the cover part 320. The elastic deformation of the lock arm 312 is restricted by the restriction arm 324 or the lock arm 312 can be elastically deformed according to the position of the cover part 320 with respect to the main body part 316.

  Here, an operation when the connector 300 is installed in the device-side connector coupling portion 302 will be described.

  As shown in FIG. 16A, in a state before the connector 300 is installed in the device-side connector coupling portion 302, the restricting arm 324 causes elastic deformation to the inside of the lock arm 312 (the connectors of the pair of left and right lock arms 312). (Elastic deformation to the center side of 300) is regulated. As a result, the lock beak 328 of the lock arm 312 is caught in the opening 330 of the device-side connector coupling portion 302 so that the connector 300 cannot move downward.

  When a downward force is applied to the cover part 320 of the retainer 306 in the state shown in FIG. 16A, the elastic part 326 is elastically deformed, and the cover part 320 moves downward as shown in FIG. As a result, the restriction arm 324 also moves downward, and the restriction by the restriction arm 324 is eliminated. Subsequently, the housing 304 is pushed downward by the retainer 306 and the pair of lock arms 312 is pushed by the opening 330 to be elastically deformed inward, and the lock beak 328 of the lock arm 312 is coupled to the device side connector. It enters the opening 330 of the part 302.

  When a downward force is further applied to the cover portion 320 of the housing 304 in the state shown in FIG. 16B, the housing 304 and the retainer 306 are moved downward as shown in FIGS. 17C and 17D. It will move and will be in the state shown in FIG.18 (e) eventually.

  In FIG. 18E, the lock beak 328 of the pair of lock arms 312 passes through the opening 330 and is positioned below the opening 330, and the lock arm 312 is restored and the elastic part 326 is also restored. The elastic deformation to the inside of the lock arm 312 is restricted by the restriction arm 324.

  Thereby, the connector 300 once installed in the apparatus side connector coupling part 302 is not easily detached from the apparatus side connector coupling part 302.

  Reference numeral 332 shown in FIG. 16 and the like is a lead pin connected to the terminal portion 308.

Special table 2003-527726 gazette

  By the way, as shown in FIG. 18E, when the connector 300 installed in the device-side connector coupling portion 302 is removed from the device-side connector coupling portion 302, an operation almost opposite to the above-described installation operation is performed. As a matter of course, the conventional connector 300 has a problem that the releasing operation for removing the connector 300 installed in the device-side connector coupling portion 302 from the device-side connector coupling portion 302 is complicated.

  That is, from the state shown in FIG. 18 (e), as shown in FIG. 18 (e), the cover 320 of the retainer 306 is pushed downward to move the restricting arm 324 downward, and to the inside of the lock arm 312. 17 (d), a force as indicated by an arrow is applied to elastically deform the lock arm 312 inward, and a connector as shown by an arrow in FIGS. 17 (c) and 16 (b). Is pulled upward, and the connector 300 is detached from the device-side connector coupling portion 302.

  As understood from the arrows shown in FIGS. 18E, 17D, 17C, and 16B, when the connector 300 is removed from the device-side connector coupling portion 302, the connector 300 is removed. The direction of the force applied to the connector must be sequentially changed, and the release (detachment) operation for removing the connector 300 from the device-side connector coupling portion 302 is complicated.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a connector having a simple releasing operation for removing a connector installed in a device-side connector coupling portion from the device-side connector coupling portion.

One embodiment of the present invention relates to a connector. This connector is configured to include a housing and a retainer, and in a connector that is detachable from the device-side connector coupling portion by moving in a direction approaching / separating from the device-side connector coupling portion, The housing is positioned at a neutral position that extends from the housing main body, the retainer abuts on a tip portion, and the retainer is restored to the elastic portion when the retainer is attached to the housing. An engaging portion that is elastically deformed and engages with the device-side connector coupling portion provided in the housing when the retainer is positioned at the neutral position. The elastic deformation of the part is configured to be regulated by the regulating part, and the retainer is moved forward in the approaching direction with respect to the housing. When the elastic part is moved from the neutral position and the elastic part is elastically deformed, or when the elastic part is moved from the neutral position in the direction away from the housing and the elastic part is elastically deformed and is located at the extraction position. , the engaging portion is configured so as to be elastically deformable, the locking structure of the retainer at the withdrawal position, engaged with the engaging structure of the housing, moving the retainer in a direction the separating Thus, the connector can be pulled together to be detached from the device-side connector coupling portion, and the elastic portion is constituted by a restoring arm provided in the housing, and the retainer Is provided with a first taper portion that contacts the contact portion of the restoring arm and a second taper portion that contacts the contact portion of the recovery arm. When the retainer is located at the neutral position, the contact portion of the restoring arm is located between the taper portions, and the retainer moves to contact the restoring arm. Comes into contact with the first taper portion or the second taper portion, so that the restoring arm is elastically deformed by the pressing force from the retainer, and the retainer moves toward the neutral position by the restoring force of the restoring arm. It is comprised so that such energizing may be carried out .
In addition, a plurality of the restoration arms may be provided, and the contact portions of the restoration arms may be in contact with the tapered portions of the retainers at the four corners of the retainer.
Further, the engaging portion is constituted by a lock arm provided in the housing and a lock beak provided on an intermediate portion or a tip end side of the lock arm, and the restricting portion is formed by the lock beak. It may be configured to be disposed on the back side to prevent elastic deformation of the lock arm.
In addition, when the connector is installed in the device-side connector coupling portion, the force required to move the retainer from the intermediate position engages the engagement portion with the engaged portion of the device-side connector coupling portion. You may comprise so that it may become larger than the force required when making it.

  Advantageous Effects of Invention According to the present invention, there is an effect that it is possible to provide a connector with a simple release operation for removing a connector installed in a device-side connector coupling portion from the device-side connector coupling portion.

It is a disassembled perspective view which shows schematic structure of the connector which concerns on embodiment of this invention. It is a perspective view which shows schematic structure of the connector system comprised by the connector and the apparatus side connector coupling | bond part to which this connector is joined. It is a perspective view which shows schematic structure of a connector. It is a perspective view which shows schematic structure of a connector. FIG. 6 is a perspective view showing a state where the retainer is removed from the housing in the connector. FIG. 6 is a perspective view showing a state where the retainer is removed from the housing in the connector. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part. It is a figure explaining operation when removing a connector from an apparatus side connector coupling part. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part. It is a figure explaining operation when installing a connector in an apparatus side connector coupling part, and operation when separating a connector from an apparatus side connector coupling part. It is a figure explaining operation when removing a connector from an apparatus side connector coupling part. It is a disassembled perspective view which shows schematic structure of the conventional connector. It is sectional drawing which shows schematic structure of the conventional connector and the apparatus side connector coupling | bond part in which this connector is installed. It is sectional drawing which shows schematic structure of the conventional connector and the apparatus side connector coupling | bond part in which this connector is installed. It is sectional drawing which shows schematic structure of the conventional connector and the apparatus side connector coupling | bond part in which this connector is installed.

  FIG. 1 is an exploded perspective view showing a schematic configuration of a connector (electrical connector) 1 according to an embodiment of the present invention, and FIG. 2 is a device (auxiliary) side connector coupling to which the connector 1 and the connector 1 are joined. 2 is a perspective view showing a schematic configuration of a connector system 3 configured with a section 2. FIG. FIG. 2 shows a state in which the connector 1 is detached (detached) from the device-side connector coupling portion 2.

  3 and 4 are perspective views showing a schematic configuration of the connector 1. In FIG. 3, a part of the connector 1 (a part of the housing 10) is cut away. 5 and 6 are perspective views showing a state where the retainer 20 is removed from the housing 10 in the connector 1. In FIG. 6, a part of the connector 1 (a part of the housing 10) is cut away.

  For convenience of explanation below, the moving direction of the retainer 20 relative to the housing 10 is defined as the height direction of the connector 1, the housing 10, or the retainer 20. This height direction is the moving direction (approaching / separating direction) of the connector 1 when the connector 1 is attached to or detached from the device-side connector coupling portion 2 (when installed or detached).

  Further, one direction orthogonal to the height direction is defined as the width direction of the connector 1, the housing 10, or the retainer 20, and the other direction orthogonal to the moving direction and the direction orthogonal to the width direction is The vertical direction of the connector 1, the housing 10, or the retainer 20 may be used.

  Furthermore, in the height direction, a direction in which the connector 1 approaches the device-side connector coupling portion 2 may be a downward direction, and a direction in which the connector 1 is separated from the device-side connector coupling portion 2 may be an upward direction.

  The connector (female connector) 1 includes a housing 10 and a retainer 20. The connector 1 is detachably attached to the device-side connector coupling portion 2 by moving in a direction (vertical direction) that approaches and separates from the device-side connector coupling portion 2. In other words, the connector 1 is detachably attached to the device-side connector coupling portion 2 when the housing 10 engages with or disengages from the device-side connector coupling portion 2.

  When the retainer 20 that is movable with respect to the housing 10 in the height direction is located at a neutral position with respect to the housing 10 (a position substantially in the middle of the movement stroke of the retainer 20), a restriction provided on the retainer 20 The portion (restricting arm) 21 is configured to restrict the elastic deformation of the engaging portion (lock arm) 11 provided in the housing 10.

  Due to this restriction, the connector 1 (housing 10) that is not installed in the device-side connector coupling portion 2 cannot be easily installed in the device-side connector coupling portion 2, and is joined to the device-side connector coupling portion 2. The (installed) connector 1 (housing 10) cannot be easily detached (removed) from the device-side connector coupling portion 2.

  The neutral position is the position of the retainer 20 (the position of the retainer 20 relative to the housing 10) when the elastic portion (restoring arm) 14 is almost restored. The restoring arm 14 is provided on the housing 10 and is in contact with the retainer 20.

  The lock arm 11 is provided in the housing 10 and is elastically deformed when the connector 1 is installed integrally with the device-side connector coupling portion 2 or when the connector 1 is detached from the device-side connector coupling portion 2. Thus, it engages with or disengages from the device-side connector coupling portion 2 (the engaged portion 61 shown in FIG. 10 and the like).

  The retainer 20 moves in the height direction by a predetermined distance from the neutral position with respect to the housing 10 and moves to a pressing position (position when moved downward) or a pulling position (position when moved upward). When positioned (when pressed or pulled out), the lock arm 11 can be elastically deformed without being restricted by the restriction arm 21 of the retainer 20.

  And the connector 1 which is not installed in the apparatus side connector coupling | bond part 2 can be installed in the apparatus side connector coupling | bond part 2, and the connector 1 installed in the apparatus side connector coupling | bond part 2 is used as an apparatus side connector. It can be made to detach | leave from the coupling | bond part 2. FIG.

  The pressing position is a predetermined direction from the neutral position in a direction approaching the housing 10 (downward direction; a direction in which the connector 1 approaches the device-side connector coupling portion 2; a direction in which the retainer 20 is pushed into the housing 10). This is the position where the retainer 20 has been moved by the distance. At the pressing position, the restoring arm 14 is elastically deformed by the force (pressing force) received from the retainer 20.

  Further, the pulling position is from the neutral position in the direction away from the housing 10 (upward direction; the direction in which the connector 1 moves away from the connector connecting portion 2 on the device side; the direction in which the retainer 20 is pulled out from the housing 10). This is the position where the retainer 20 has been moved by a predetermined distance. Even in the above-described extraction position, the restoring arm 14 is elastically deformed by the force (pressing force) received from the retainer 20.

  Further, the contact surface (housing hooking portion) 26 of the retainer 20 is brought into contact with the contacted surface 99 (retainer hooking portion 17) of the housing 10 and moves in the direction in which the retainer 20 is separated (upward) at the pulling position. By doing so, the connector 1 (housing 10) installed in the device side connector coupling portion 2 can be pulled together and detached from the device side connector coupling portion 2.

  The restoring arm 14 is restored without being elastically deformed in the state where the retainer 20 is not provided in the housing 10 and no external force is applied to the restoring arm 14.

  The restoring arm 14 is almost restored in a state where the retainer 20 is installed in the housing 10 and the installed retainer 20 is located at the neutral position. That is, no force is applied to the restoring arm 14 by the retainer 20 and the restoring arm 14 is not elastically deformed, or a small force is applied to the restoring arm 14 by the retainer 20 and the restoring arm 14 is slightly elastically deformed. As a result, the restoring arm 14 is almost restored. When the retainer 20 is positioned at the neutral position and the retainer 20 applies a force (pressing force) to the restoring arm 14, the force applied and the amount of deformation of the restoring arm 14 due to this force are determined by the retainer 20 by the pressing force. It is smaller than the force applied to the restoring arm 14 by the retainer 20 and the amount of deformation of the restoring arm 14 when it is located at the position or the pulling position.

  Thereby, when the retainer 20 is assembled to the housing 10, the retainer 20 is normally positioned at the neutral position by the restoring force of the restoring arm 14. That is, when no external force is applied to the retainer 20 or the housing 10 in a state where the retainer 20 is assembled to the housing 10, the retainer 20 is positioned at the neutral position. On the other hand, when a force in the height direction is applied to the retainer 20 or the housing 10, the retainer 20 is positioned at the pressing position or the extraction position when this force is applied. And if the force of a height direction is removed, the retainer 20 will return to the said neutral position.

  The restoring arm 14 is an example of a biasing means 71 that biases the retainer 20 so that the retainer 20 is positioned at the neutral position.

  The housing 10 includes a housing main body 73, a terminal storage portion 12 that is provided on the housing main body 73 and that is electrically connected to the pin 50 of the device-side connector coupling portion 2, and a housing main body 73. And a lock arm 11 that is elastically deformed when attached to and detached from the device-side connector coupling portion 2.

  When the lock arm 11 starts to engage with the engaged portion (annular engagement groove) 61 of the device-side connector coupling portion 2 and when it has finished engaging with the engaged portion 61 of the device-side connector coupling portion 2 (A state in which the connector 1 is being installed on the device-side connector coupling portion 2), a predetermined portion of the device-side connector coupling portion 2 (for example, the engaged portion 61 and the device-side fitting front end portion) 60 is configured to abut against the inner wall of the connector coupling portion main body portion 79 existing between and 60 and elastically deform.

  Further, the lock arm 11 is not elastically deformed when the connector 1 is away from the device-side connector coupling portion 2, and has finished engaging the connector 1 with the engaged portion 61 of the device-side connector coupling portion 2. In this state, it is not elastically deformed or is slightly elastically deformed (for example, by an amount smaller than the amount of elastic deformation in the middle of installation).

  In the state where the connector 1 has been engaged with the device-side connector coupling portion 2, in addition to the lock arm 11 (lock beak 15) being engaged with the engaged portion 61, the housing body 73 is It abuts on the side connector coupling portion 2 (device side fitting front end portion 60). The connector 1 (housing 10) is integrally installed on the device-side connector coupling portion 2.

  The retainer 20 includes a retainer main body portion 75 and a restriction arm 21 provided on the retainer main body portion 75 for restricting elastic deformation of the lock arm 11, and approaches the device-side connector coupling portion 2 with respect to the housing 10. It is provided in the housing 10 so as to move a predetermined stroke (by a predetermined distance) in the separating direction (vertical direction). When the retainer 20 is located at the neutral position in the middle of the stroke, the elastic deformation of the lock arm 11 is restricted by the restriction arm 21 and moved by a predetermined distance from the neutral position (the pressing position or It is configured to release the restriction by the restriction arm 21 (when in the pulling position).

  Here, the case where the restriction | limiting by the control arm 21 is cancelled | released is demonstrated in detail. The retainer 20 moves with respect to the housing 10 by a predetermined distance from the neutral position in one direction (downward). When the movement of the predetermined distance is completed and the retainer 20 is positioned at the pressing position (the lower end position of the stroke), the restriction by the restriction arm 21 is eliminated, and the lock arm 11 can be elastically deformed, and the connector 1 ( The housing 10) can be installed in the device-side connector coupling portion 2.

  The retainer 20 moves with respect to the housing 10 by a predetermined distance from the intermediate position in the other direction (upward). When the movement of the predetermined distance is completed and the retainer 20 is positioned at the extraction position (the upper end position of the stroke), the restriction by the restriction arm 21 is lost, and the lock arm 11 can be elastically deformed. The (housing 10) can be extracted from the device-side connector coupling portion 2.

  In the restoring arm 14, the base end portion in the longitudinal direction is provided integrally with the housing main body 73.

  The retainer 20 includes a first taper portion (upper taper portion; fitting-side taper portion) 24 that abuts against the abutting portion 16 provided at a longitudinal end portion of the restoring arm 14, and a contact of the restoring arm 14. A second taper portion (lower taper portion; detachable taper portion) 25 that abuts the contact portion 16 is provided.

  When the retainer 20 is positioned at the neutral position, the contact portion 16 of the restoring arm 14 is positioned between the taper portions 24 and 25. Thereby, the restoring arm 14 is not elastically deformed or slightly elastically deformed. Further, the contact portion 16 of the restoring arm 14 is not in contact with any of the taper portions 24 and 25 or is in contact with both of the taper portions 24 and 25.

  When the retainer 20 moves and the abutting portion 16 of the restoring arm 14 abuts on the first tapered portion 24 or the second tapered portion 25, the restoring arm 14 is elastically deformed by the pressing force from the retainer 20, The restoring force of the restoring arm 14 urges the retainer 20 toward the neutral position. As already understood, as the moving distance from the intermediate position increases, the amount of elastic deformation of the restoring arm 14 increases, and the force by the restoring arm 14 to return the retainer 20 to the neutral position increases. Become.

  A plurality of (for example, four) restoring arms 14 are provided, and the contact portions 16 of the restoring arm 14 are configured to contact the tapered portions 24 and 25 of the retainer 20 at the four corners of the retainer 20.

  Naturally, a plurality of taper portions 24 and 25 that contact the contact portion 16 of the restoring arm 14 are also provided. That is, the first taper portion 24 is provided in the same number (four) as the number of restoring arms 14, and the second taper portion 25 is also provided in the same number (four) as the restoring arms 14.

  More specifically, when the connector 1 (housing 10 or retainer 20) is viewed from the moving direction (height direction) of the retainer 20 relative to the housing 10, the retainer 20 is formed in a rectangular shape, and the housing 10 is rectangular. An annular portion (first portion) 77 is formed, and the first portion 77 substantially surrounds the retainer 20.

  The four restoring arms 14 are provided at the respective taper portions (the first taper portion 24 and the second taper portion 25) provided at the four corners of the outer periphery of the rectangular retainer 20 (in the vicinity of the four corner portions). The abutting portions 16 are provided at the four corners inside the first portion 77 of the housing 10 so as to abut.

  Note that the restoring arm 14 and the tapered portions 24 and 25 may be provided at locations other than the four corners of the retainer 20.

  For example, when the connector 1 is viewed from the moving direction of the retainer 20 with respect to the housing 10, each restoration is performed at the outer peripheral position of the retainer 20 so as to be symmetrical with respect to the center in the width direction and the center in the vertical direction. The arm 14 and the taper portions 24 and 25 may be arranged, or the restoring arms 14 and the taper portions 24 and 25 are arranged at the outer peripheral position of the retainer 20 so as to be point-symmetric with respect to the center of the retainer 20. You may arrange.

  Further, when the connector 1 is viewed in the height direction, each restoring arm 14 and each tapered portion 24, 25 are provided at a predetermined interval in the peripheral portion of the retainer 20, and the retainer 20 is The restoring arms 14 and the taper portions 24 and 25 are arranged at such positions that the restoring forces of the restoring arms 14 are substantially equal to each other when moved with respect to the housing 10 while maintaining the posture in the neutral position. It may be.

  The lock arm 11 has a base end portion in the longitudinal direction provided in the housing 10, and a lock beak 15 is provided in the middle portion or the distal end portion side in the longitudinal direction of the lock arm 11. The lock beak 15 is provided on one side (outside) of the lock arm 11 in the thickness direction (width direction in the housing 10). That is, the lock beak 15 protrudes to the side away from the center of the housing 10 in the width direction of the housing 10.

  The restriction arm 21 is disposed on the back side (inner side; the center side of the retainer 20 or the housing 10) of the lock beak 15 so as to prevent elastic deformation of the lock arm 11.

  That is, the regulating arm 21 is on the back side (the back side of the lock arm 11 or the lock beak 15) opposite to the side on which the lock beak 15 protrudes in the thickness direction of the lock arm 11. 15, the lock arm 11 and the lock beak 15 are supported and elastic deformation to the inside of the lock arm 11 is prevented.

  In the connector 1, when the connector 1 is installed in the device-side connector coupling portion 2, the force (pressing force) required to move the retainer 20 from the intermediate position to the pressing position causes the lock arm 11 to move to the device-side connector. It is comprised so that it may be larger than the force (pressing force) required when making it engage with the to-be-engaged part 61 of the coupling | bond part 2. FIG.

  Here, the connector system 3 (device-side connector coupling portion 2; connector 1) will be described in more detail.

  The device-side connector coupling portion 2 is integrally installed in a device such as an automobile, and includes a cylindrical connector coupling portion main body 79, a shunt ring 40, and a pin terminal (pin) 50.

  A base end portion in the axial direction of the connector coupling portion main body 79 is integrally installed in the device, and a ring-shaped device-side fitting front end portion 60 is provided at the distal end portion in the axial direction of the connector coupling portion main body 79. Is formed. The device-side fitting opening 60 is a portion with which the housing 10 of the connector 1 comes into contact when the connector 1 is installed in the device-side connector coupling portion 2.

  Further, an annular groove (engaged portion) 61 into which the lock beak 15 is engaged when the connector 1 is installed in the device-side connector coupling portion 2 is formed on the inner wall of the connector coupling portion main body portion 79. Yes. The engaged portion 61 is provided slightly apart downward from the device-side fitting opening 60.

  Inside the connector coupling portion main body 79, a shunt ring 40 with which the housing 10 of the connector 1 engages when the connector 1 is installed in the device-side connector coupling portion 2, and a terminal 30 of the connector 1. Are connected to the pin terminal 50.

  In addition, the connector 1 and the apparatus side connector coupling | bond part 2 are formed substantially symmetrically in these width directions.

  The housing 10 includes a housing body 73, a cover 13, and a hinge 81, and is formed by integrally molding a material such as resin. The housing main body 73 and the cover part 13 are connected via a hinge part 81, and the cover part 13 can be rotated with respect to the housing main body 73 with the hinge part 81 as a rotation center.

  The housing main body 73 includes a rectangular annular first portion 77, a rectangular parallelepiped second portion, and a “U” -shaped third portion 85.

  The second portion 83 is located inside the first portion 77 when viewed from the height direction. Further, in the height direction, the second portion 83 extends from the intermediate portion of the first portion 77 through one end portion (lower portion) of the first portion 77 and extends from the lower portion of the first portion 77. Yes.

  Further, the second part 83 is connected to the first part 77 at both ends in the vertical direction, and both ends in the width direction are separated from the first part 77. Thereby, when viewed from the height direction, rectangular through holes 87 surrounded by the second portion 83 and the first portion 77 are formed at both ends in the width direction of the second portion 83. ing. In addition, a terminal storage portion 12 that stores the terminal 30 is formed inside the second portion 83.

  The third portion 85 is provided to extend from one end portion of the first portion 77 in the vertical direction. In addition, when viewed from the vertical direction, the third portion 85 is formed in a “U” shape. The third portion 85 opens in the height direction on the side opposite to the side where the second portion 83 extends from the first portion 77 (upper side).

  The cover portion 13 includes a rectangular flat plate-like base end side portion (hinge portion side portion) 89 and a rectangular flat plate-shaped distal end portion side portion 91.

  For example, as shown in FIG. 1, the terminal 30 is installed in the second portion 83 in a state where the cover portion 13 and the housing main body portion 73 are aligned in the vertical direction, and the hinge portion 81 is rotated after the installation. When the cover part 13 is rotated about the moving center and the cover part 13 is overlapped with the housing main body part 73, the base end side part 89 of the cover part 13 overlaps the second part 83, and the tip end part 91 is the first part. 3, the terminal 30 is installed integrally with the housing 10. In this way, the retainer 20 is installed in the housing 10 in a state where the cover portion 13 and the housing main body portion 73 overlap with each other, so that the connector 1 is formed.

  In addition, when the cover part 13 is overlapped on the housing main body 73, the locking protrusions 93 provided at both ends in the width direction of the third portion 85 are provided at both ends in the width direction of the cover part 13. The locked portion 95 is engaged, and the state where the cover portion 13 is stacked on the housing main body 73 is maintained.

  The restoring arm 14 is formed in a “J” shape having a bent base end portion, and is provided to extend from the inner wall of the first portion 77 inside the rectangular annular first portion 77. Further, in the restoring arm 14, in the height direction of the first portion 77, the proximal end portion of the restoring arm 14 is at one end side of the inner wall of the first portion 77 (the side where the second portion 83 extends). Positioned on the lower side, and the distal end side of the restoring arm 14 extends toward the other end side (upper side) of the inner wall of the first portion 77. Further, the height (length) of the restoring arm 14 is slightly smaller than the height of the first portion 77, and the restoring arm 14 has the first portion 77 in the height direction of the first portion 77. 77 is located inside.

  The restoring arm 14 is provided on two surfaces of the four inner surfaces of the first portion 77 that are opposed to each other in the vertical direction. The restoring arm 14 is located in two spaces (through holes 87) formed at both ends in the width direction of the second portion 83 in the width direction of the first portion 77 (housing 10). As a result, four restoring arms 14 are provided.

  Further, each restoring arm 14 is pushed by each tapered portion 24, 25 of the retainer 20 by the movement of the retainer 20, and the tip end side is elastically deformed. The direction of elastic deformation at this time substantially coincides with the longitudinal direction of the first portion 77.

  More specifically, the contact portion 16 at the tip of the restoring arm 14 contacts the first taper portion 24 or the second taper portion 25 provided on the retainer 20, and the restoring arm 14 is elastically deformed and cantilevered. It bends like a beam. At this time, the distal end side of each restoring arm 14 such as the contact portion 16 is elastically deformed in a direction approaching the inner wall of the first portion 77. In this way, when each restoring arm 14 is elastically deformed, a force that sandwiches the retainer 20 in the longitudinal direction of the first portion 77 is applied to the retainer 20 by each restoring arm 14.

  The lock arm 11 is formed in a “J” shape in which the base end side is bent, and two lock arms 11 are provided. These lock arms 11 extend from both ends in the width direction of the rectangular parallelepiped second portion 83. Further, in the height direction of the second portion 83, the lock arm 11 has the proximal end portion of the lock arm 11 positioned in the vicinity of one end portion (lower side) of the second portion 83, and the distal end of the lock arm 11. The side extends toward the other end side (upper side) of the second portion 83. Further, in the height direction of the second portion 83, the distal end portion of the lock arm 11 is positioned at the end portion (one end portion; the lower end portion) of the first portion 77, but the first portion 77. Away from. Further, in the width direction of the second portion 83, the lock arm 11 is slightly separated from the second portion 83, and in the longitudinal direction of the second portion 83, the lock arm 11 is connected to the second portion 83. It is located at the center.

  The lock beak (lock arm beak) 15 is provided, for example, at an intermediate portion of the second portion 83 in the height direction of the second portion 83 (longitudinal direction of the lock arm 11). Further, in the width direction of the second portion 83, the lock beak 15 protrudes from the lock arm 11 on the side away from the center of the second portion 83 (outside the second portion 83). Further, in the vertical direction of the second portion 83, the center of the lock beak 15 and the center of the lock arm 11 coincide with each other, and the vertical dimension of the lock beak 15 is the vertical dimension of the lock arm 11. It is getting bigger. As a result, the lock beak 15 protrudes on both sides of the lock arm 11 in the longitudinal direction of the housing 10. Note that the vertical dimension of the lock beak 15 is substantially equal to or slightly smaller than the vertical dimension of the second portion 83, and in the vertical direction of the housing 10, the lock beak 15 has the second portion 83. Located inside.

  Retainer hooking portions 17 are provided so as to protrude from both ends of the second portion 83 in the width direction. Further, in the vertical direction of the second portion 83, the retainer hooking portion 17 is provided on each end portion side of the second portion 83. As a result, four retainer hooks 17 are provided. In the height direction of the second portion 83, the retainer hooking portion 17 is located above the first portion 77. Furthermore, the retainer hooking portion 17 includes a small tapered surface 97 located on the upper side and a small flat surface 99 located on the lower side and perpendicular to the height direction of the second portion.

  The retainer 20 includes a retainer main body 75, a fitting-side taper portion (first taper portion) 24, a pull-out side taper portion (second taper portion) 25, a retainer operation portion 23, a restriction arm 21, and a housing hook portion 26. Are formed in a “U” shape (“U” shape when viewed from the vertical direction of the connector 1). The retainer 20 is integrally formed of resin or the like in the same manner as the housing 10.

  The retainer body 75 is formed in a rectangular shape, and has one end (upper end face) in the height direction of the retainer body 75 and both ends in the width direction (both ends in the width direction) of the retainer body 75. A retainer operating portion 23 is formed at a portion slightly protruding from the restricting arm 21 at the portion. A portion corresponding to one end surface in the height direction of the retainer main body portion 75 in the retainer operation portion 23 is brought close to the retainer 20 so as to be pushed into the housing 10, and the connector 1 is installed in the device-side connector coupling portion 2. Sometimes it is a part that is pushed by an operator's finger. Further, portions of the retainer operating portion 23 that are provided at both end portions in the width direction of the retainer main body portion 75 are provided when the retainer 20 is pulled out from the housing 10 and the connector 1 is detached from the device-side connector coupling portion 2. This is the part where the operator places a finger.

  As described above, four first tapered portions 24 are provided according to the number of restoring arms 14 of the housing 10. That is, the first taper portion 24 is provided at both ends of the retainer main body 75 in the longitudinal direction of the retainer 20, and is provided in the vicinity of both ends of the retainer main body 75 in the width direction of the retainer 20. Yes. Further, in the height direction of the retainer 20, the first taper portion 24 is provided on the other end side of the retainer 20 (on the side opposite to the side where the restricting arm 21 extends; the upper side). As described above, when the retainer 20 is installed in the housing 10 (the housing 10 in which the housing main body 73 and the cover 13 overlap) and the retainer 20 is pushed into the housing 10 as described above. Further, it is a part that abuts against the abutting portion 16 of the restoring arm 14 and elastically deforms the restoring arm 14.

  Four second tapered portions 25 are also provided according to the number of restoring arms 14 of the housing 10. That is, the second taper portion 25 is provided at both end portions of the retainer main body portion 75 in the longitudinal direction of the retainer 20, and the retainer main body portion outside the first taper portion 24 in the width direction of the retainer 20. It is provided in the vicinity of both ends of 75. Further, in the height direction of the retainer 20, the second taper portion 25 is provided at an intermediate portion of the retainer 20. As described above, the second taper portion 25 is provided when the retainer 20 is installed in the housing 10 (the housing 10 in which the housing main body 73 and the cover portion 13 overlap), and the retainer 20 is pulled out from the housing 10. This is a portion that abuts against the abutting portion 16 of the restoring arm 14 and elastically deforms the restoring arm 14.

  When viewed from the width direction of the retainer 20, the one end portion in the longitudinal direction of the retainer 20 is formed in a “V” shape by the inclined surface of the first taper portion 24 and the inclined surface of the second taper portion 25. Similarly, at the other end in the longitudinal direction of the retainer 20, a portion having a “V” shape is formed by the inclined surface of the first tapered portion 24 and the inclined surface of the second tapered portion 25. Is formed. In the state where the retainer 20 installed in the housing 10 exists in the neutral position, the contact portion 16 at the distal end portion of the restoring arm 14 is fitted to the bottom portion of the “V” -shaped portion.

  The restricting arm 21 extends from the retainer main body 75 to one end (lower side) in the height direction of the retainer 20 at both ends in the width direction of the retainer 20. As a result, two restriction arms 21 are provided, and the two restriction arms 21 and the retainer main body 75 form the retainer 20 in a “U” shape.

  A groove 101 is provided at a central portion of the restricting arm 21 (a central portion in the longitudinal direction of the retainer 20) and outside the restricting arm 21 (on the side opposite to the center of the retainer 20 in the width direction of the retainer 20). ing. The groove 101 is provided from the distal end portion of the restriction arm 21 (the distal end portion in the height direction of the retainer 20; the lower end portion) to the intermediate portion of the restriction arm 21 (the intermediate portion in the height direction of the retainer 20). When the retainer 20 is installed on the housing 10, the lock arm 11 of the housing 10 enters the groove 101. The lock arm 11 that has entered the groove 101 can be elastically deformed unless it is restricted by the restriction arm 21 of the retainer 20.

  There is a portion on the distal end side of the regulating arm 21 (the distal end side in the height direction of the retainer 20; the lower side) and outside the regulating arm 21 (on the side opposite to the center of the retainer 20 in the width direction of the retainer 20). A groove 103 different from the groove 101 is provided. This groove 103 is provided so as to penetrate in the longitudinal direction of the retainer 20.

  When the retainer 20 installed in the housing 10 is located at the pressing position, the lock beak 15 enters the groove 103 so that the lock arm 11 can be elastically deformed. Thereby, the connector 1 can be installed in the apparatus side connector coupling | bond part 2 (refer FIG. 11 and FIG. 12).

  In addition, when the retainer 20 installed in the housing 10 is located at the above-described extraction position, the tip (lower end) of the restriction arm 21 is disengaged from the lock beak 15 so that the lock arm 11 can be elastically deformed. Thus, the connector 1 can be detached from the device-side connector coupling portion 2 (see FIG. 14).

  Furthermore, when the retainer 20 installed in the housing 10 is located at the neutral position, the lock beak 15 (the surface on the back side of the lock beak 15) is formed between the tip end portion (lower end portion) of the restriction arm 21 and the groove 103. The lock arm 11 cannot be elastically deformed by contacting the portion 22 located in the middle. As a result, the connector 1 cannot be installed in the device-side connector coupling portion 2 as it is (when the retainer 20 is positioned at the neutral position), and the device-side connector coupling portion 2 is The installed connector 1 cannot be detached from the device-side connector coupling portion 2.

  The housing hooking portion 26 is provided inside each regulation arm 21. More specifically, the housing hooking portion 26 includes four small planes 105 (planes perpendicular to the height direction of the retainer 20) 105 provided on the inner side of the restriction arm 21.

  When the retainer 20 is installed in the housing 10, the retainer 20 is pushed into the housing 10. At this time, first, the tip of each regulating arm 21 comes into contact with the small tapered surface 97 of the retainer hooking portion 17, and each regulation The distal end side of the arm 21 is elastically deformed outside (in a direction away from each other). Thereafter, when the retainer 20 is further pushed in, the contact between the retainer hooking portion 17 and the restriction arm 21 is lost, and the elastic deformation of the restriction arm 21 is lost. When the retainer 20 is further moved by a predetermined distance after the elastic deformation is eliminated, the retainer 20 is positioned at the neutral position, and the small flat surface 105 of the housing hook 26 and the small flat surface of the retainer hook 17 are disposed. 99 is separated by a predetermined distance (for example, see FIG. 10A).

  In addition, after the retainer 20 is once installed in the housing 10, each restricting arm 21 is hardly elastically deformed. Further, when the retainer 20 is once installed in the housing 10, the restriction arm 21 is supported on the side surface of the second portion 83 of the housing 10. There is almost no deformation inside.

  Further, in the state where the retainer 20 installed in the housing 10 is located at the neutral position, as described above, the small flat surface 105 of the housing hooking portion 26 and the small flat surface 99 of the retainer hooking portion 17 are a predetermined distance. When the retainer 20 is located at a distance, and the retainer 20 is positioned at the above-described extraction position, the small flat surface 105 of the housing hook portion 26 and the small flat surface 99 of the retainer hook portion 17 are in surface contact with each other. As a result, the other end (extraction position) of the movement distance of the retainer 20 relative to the housing 10 is determined, and if a force in the extraction direction is applied only to the retainer 20, the housing 10 is also moved upward by being pulled by the retainer 20. The connector 1 can be detached from the side connector coupling portion 2.

Note that stoppers (not shown) (the stopper provided on the housing 10 and the stopper provided on the retainer 20) come into contact with each other, so that the lower end of the movement distance of the retainer 20 relative to the housing 10 (the pressing position of the retainer 20). Is now decided.
Here, the operation of the connector system 3 will be described.
First, the assembly operation of the connector 1 will be described.

  As shown in FIG. 1, in a state in which the connector 1 is disassembled, the terminals 30 are installed in the terminal housing portion 12, the cover portion 13 is rotated, and the cover portion 13 is overlapped and fixed on the housing main body 73. .

Subsequently, the retainer 20 is pushed into the housing 10 and installed. Thereby, the connector 1 in which the retainer 20 is located at the neutral position is generated.
Next, an operation for installing the connector 1 in the device-side connector coupling portion 2 will be described.

  7, 8, and 10 to 13 are diagrams for explaining operations when the connector 1 is installed in the device-side connector coupling portion 2. 7 and 8 are perspective views of the connector 1 and the device-side connector coupling portion 2, and FIGS. 10 to 13 (a) are planes perpendicular to the longitudinal direction of the connector 1. The cross section of the connector 1 and the apparatus side connector coupling | bond part 2 by the plane which passes along the center is shown, (b) of FIGS. 10-13 is perpendicular | vertical to the width direction of the connector 1, and was off from the center of the connector 1. The cross section of the connector 1 and the apparatus side connector coupling | bond part 2 by the plane is shown.

  First, as shown in FIGS. 7 and 10, the connector 1 is positioned with respect to the device-side connector coupling portion 2 in the width direction and the vertical direction, and the lock beak 15 is brought into contact with the device-side fitting opening 60. In this state, the retainer 20 is located at the neutral position.

  Subsequently, when the retainer 20 is pressed as shown by the white arrow in FIG. 11, the restoring arm 14 is elastically deformed as shown by the arrow in FIG. 11 (b), and in the height direction of the connector 1, The position with the groove 103 coincides, and the lock arm 11 becomes elastically deformable. Here, when the retainer 20 is further pushed in as shown by the white arrow, the lock arm 11 starts to be elastically deformed as shown by the arrow in FIG. . At this time, the retainer 20 continues to be positioned at the pressing position.

  As the lock arm 11 is elastically deformed in this way, the lock beak 15 enters the connector coupling portion main body 79, and finally enters the state shown in FIG.

  In the state shown in FIG. 12, the lock beak 15 is restored and enters the engaged portion 61 of the device-side connector coupling portion 2.

  In the state shown in FIG. 12, when the application of the force indicated by the white arrow is stopped, the restoring force of the restoring arm 14 returns the retainer 20 to the neutral position, and the state shown in FIG. Installation of the connector 1 to the end is completed. In the state where the installation is completed, the elastic deformation of the lock arm 11 is restricted by the restriction arm 21, so that the connector 1 is not easily detached from the device-side connector coupling portion 2.

  When the connector 1 is installed in the device-side connector coupling portion 2, the force (pressing force) required to move the retainer 20 from the intermediate position to the pressing position causes the lock beak 15 to move to the device-side connector coupling portion 2. Since it is configured to be larger than the force (pressing force) required to engage with the engaged portion 61 (for example, the configuration of the restoring arm 14 and the lock arm 11 is appropriately determined) The pushing force applied to the retainer 20 when shifting from the state of FIG. 10 to the state of FIG. 11 is larger than the pushing force applied to the retainer 20 when shifting from the state of FIG. 11 to the state of FIG.

  Next, an operation for detaching the connector 1 from the device-side connector coupling portion 2 will be described.

  9, 13, and 14 are diagrams for explaining an operation when the connector 1 is detached from the device-side connector coupling portion 2. 9 is a perspective view of the connector 1 and the device-side connector coupling portion 2, and FIG. 14A is a plane perpendicular to the vertical direction of the connector 1 and passing through the center of the connector 1. FIG. 14B shows a cross section of the connector 1 and the device-side connector coupling portion 2, and FIG. 14B shows the connector 1 and the device-side connector by a plane perpendicular to the width direction of the connector 1 and off the center of the connector 1 The cross section of the coupling | bond part 2 is shown.

  First, as shown in FIG. 13, in the state where the connector 1 is installed in the device-side connector coupling portion 2, an upward force is applied to the retainer 20 in the direction of pulling out the connector 1 as shown in FIGS. 9 and 13. Add

  As a result, as shown in FIG. 14, the restoring arm 14 is elastically deformed as indicated by an arrow in FIG. 14B, the retainer 20 is located at the extraction position, and the lock arm 11 is in an elastically deformable state. .

  In the state shown in FIG. 14, when a further pulling force as shown by a white arrow in FIG. 14 is applied to the retainer 20, the lock arm 11 is elastically deformed as shown by an arrow in FIG. However, it is disengaged from the engaged portion 61 and the connector coupling portion main body 79, and the disconnection of the connector 1 is completed. Thereafter, the retainer 20 returns to the neutral position.

  According to the connector 1, in the state where the connector 1 is installed in the device-side connector coupling portion 2, the elastic deformation of the lock arm 11 is restricted by the restriction arm 21 of the retainer 20 located at the neutral position. The connector 1 is not easily detached from the device side connector coupling portion 2. Further, when the connector 1 installed in the device-side connector coupling portion 2 is removed from the device-side connector coupling portion 2, only the retainer 20 needs to be pulled in one direction (upward). The releasing operation of removing the connector 1 from the device-side connector coupling portion 2 is simplified.

  Further, according to the connector 1, the contact portion 16 of the restoring arm 14 is configured to contact and be biased against the taper portions 24 and 25, so that the retainer 20 can be moved to the neutral position with a simple configuration. Can be energized.

  Further, according to the connector 1, the contact portions 16 of the restoring arm 14 are configured to contact the tapered portions 24 and 25 of the retainer 20 at the four corners of the retainer 20, so that the retainer 20 is urged with a good balance. The retainer 20 is not inserted in the housing 10 in a biased manner, and the retainer 20 moves smoothly with respect to the housing 10 when the connector 1 is attached or detached.

  Further, according to the connector 1, when the connector 1 is installed in the device-side connector coupling portion 2, the force (pressing force) required to move the retainer 20 from the intermediate position to the pressing position causes the lock beak 15 to move to the device. Since it is configured to be larger than the force (pressing force) required to engage the engaged portion 61 of the side connector coupling portion 2, the connector 1 is installed in the device side connector coupling portion 2 due to the inertia effect. It is possible to avoid the midway fitting state (the state between FIG. 11 and FIG. 12) when doing. That is, the connector 1 has a momentum by the force applied to the retainer 20 to move the retainer 20 from the intermediate position to the pressing position, and the connector 1 moves downward by this momentum, and the lock beak 15 is replaced in the middle. Without being engaged with the engaged portion 61 of the device-side connector coupling portion 2 without fail.

  In addition, the said structure which enlarges the force (pressing force) required when moving the retainer 20 from the said intermediate | middle position to the said press position is easily achieved by providing the restoring arm 14 with two or more. . That is, by providing a plurality of restoring arms 14, it is easy to increase the force required for the retainer 20 to move from the neutral position.

  Moreover, in the conventional connector 300, since the elastic part 326 is formed in the retainer 306, it is difficult to employ a reinforcing material such as a glass reinforcing material as the material of the retainer 306. Therefore, it is necessary to increase the thickness of the retainer 306 in order to ensure the strength of the retainer 306. Further, since the elastic portion 326 of the retainer 306 is exposed on the surface of the connector 300, the elastic portion (restoring arm) 326 may be deformed or damaged by an external force.

  However, in the connector 1, the restoring arm 14 corresponding to the elastic portion is provided inside the housing 10, and the restriction arm 21 is elastically deformed only once when the retainer 20 is first installed in the housing 10. The retainer 20 is not elastically deformed. Therefore, deformation and breakage of the restriction arm 21 can be avoided, and a glass reinforcing material that is disadvantageous against bending can be adopted as a material constituting the retainer 20 (a retainer can be formed by mixing glass fibers). The retainer 20 can be thinned (the dimension “t” in FIG. 4 can be reduced), and the retainer 20 can be reduced in size (the dimension “h” in FIG. 4 can be reduced). it can.

  In the conventional connector 300, the lock arm 312 is provided with a protrusion 334 for releasing the lock beak 328 from the engaged portion of the device-side connector coupling portion. In addition to the increase in size, the protruding portion 334 may be caught by an obstacle during the transportation of the connector 300 or the like and may be deformed or damaged.

  However, according to the connector 1, it is not necessary to provide a protruding portion such as the protruding portion 334, so that the connector 1 can be prevented from being enlarged or damaged during transportation.

  Further, according to the connector 1, the restricting arm 21 supports the lock beak 15 and restricts elastic deformation of the lock arm 11 over almost the entire length of the lock beak 15 in the longitudinal direction (vertical direction in the housing 10). It is possible to avoid interference between the restriction arm 21 and the equipment-side fitting opening 60 when the connector 1 is installed in the equipment-side connector coupling portion 2 (the regulation arm 21 together with the lock beak 15 in the connector coupling portion main body 79). And the elastic deformation of the lock arm 11 when the retainer 20 is located at the neutral position can be reliably prevented.

DESCRIPTION OF SYMBOLS 1 Connector 2 Device side connector coupling | bond part 10 Housing 11 Lock arm 14 Restoration arm 15 Lock beak 16 Contact part 20 Retainer 21 Restriction arm 24 1st taper part 25 2nd taper part 61 Engagement part 71 Energizing means 73 Housing body 75 Retainer body

Claims (4)

In the connector that is configured to include a housing and a retainer, and that is detachable from the device-side connector coupling portion by moving in a direction approaching / separating from the device-side connector coupling portion,
The housing extends from the housing main body so that the retainer abuts on a distal end portion, and when the retainer is attached to the housing, the retainer is positioned at a neutral position that is a restoring position. Having an elastic part to urge,
When the retainer is positioned at the neutral position, the retainer restricts elastic deformation of an engaging portion provided in the housing and elastically deformed and engaged with the device-side connector coupling portion by the restricting portion. Configured,
The retainer moves from the neutral position in the approaching direction with respect to the housing and the elastic portion elastically deforms, or moves from the neutral position in the direction away from the housing. When the elastic portion is located at the extraction position where the elastic portion is elastically deformed, the engaging portion is configured to be elastically deformable,
The retaining structure of the retainer is latched to the retaining structure of the housing at the pulling position, and the connector is pulled together by moving the retainer in the separating direction to be detached from the device side connector coupling portion. Configured to be able to
The elastic part is constituted by a restoring arm provided in the housing,
The retainer is provided with a first taper portion that contacts the contact portion of the restoring arm and a second taper portion that contacts the contact portion of the recovery arm,
When the retainer is located at the neutral position, the contact portion of the restoring arm is located between the taper portions,
When the retainer moves and the contact portion of the restoring arm comes into contact with the first taper portion or the second taper portion, the restoring arm is elastically deformed by the pressing force from the retainer. A connector configured to be urged so that the retainer moves toward the neutral position by a restoring force of a restoring arm. The connector according to claim 1,
The connector is characterized in that a plurality of the restoring arms are provided, and the contact portions of the restoring arms are in contact with the tapered portions of the retainers at the four corners of the retainer . The connector according to claim 1 or 2,
The engaging portion is configured by a lock arm provided in the housing and a lock beak provided on an intermediate portion or a tip side of the lock arm,
The connector is characterized in that the restricting portion is arranged on the back side of the lock beak to prevent elastic deformation of the lock arm . In the connector according to any one of claims 1 to 3,
When the connector is installed in the device-side connector coupling portion, the force required to move the retainer from the neutral position causes the engagement portion to engage with the engaged portion of the device-side connector coupling portion. A connector characterized by being configured to be larger than the force required .

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