• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An electrical connector (10) includes a connector terminal (20), a housing (30) formed with a slide groove (314), a retainer (40) locking the connector terminal (20) and preventing the terminal connector (20) to be slidably released from the unlock position to the lock position. The retainer (40) includes a base end (410) housed in the slide groove (314), and a protrusion (420) projecting from the base end (410) toward the opening of a hole engaging (321). The base end (410) is formed with a control hole (415) into which is inserted a control jig which changes the position of the retainer (40) between the lock position and the unlock position. The projection (420) is formed with a guide portion which guides the insertion of the control template into the control hole (415).
    公开号:FR3035744A1
    申请号:FR1653759
    申请日:2016-04-27
    公开日:2016-11-04
    发明作者:Takayoshi Endo;Kenya Ando
    申请人:Dai Ichi Seiko Co Ltd;
    IPC主号:
    专利说明:

    [0001] FIELD OF THE INVENTION The present application generally relates to an electrical connector which includes a retainer which prevents the connector terminals from loosening. Background The connector terminals are housed in terminal housing chambers formed in a housing. Loosening of the connector terminals is prevented with lances which are formed in the terminal accommodating chambers and which block the connector terminals. However, the reduction in the dimensions of the electrical connector is now accelerating, and there is a tendency that the holding force for the connector terminals by the lances alone may become inadequate. Therefore, the housing is provided with a retainer, and the connector terminals are doubly locked, thereby improving the holding force for the connector terminals.
    [0002] The electrical connectors which doubly lock the connector terminals are described, for example, in the Kokai Publication of Unexamined Japanese Patent Application Number S62-64076 (Patent Literature 1), the Kokai Publication of the Unexamined Japanese Patent Application. No. 2001-43925 (Patent Literature 2) and Kokai Publication of Unexamined Japanese Patent Application Number 2000-208195 (Patent Literature 3). The electrical connector described in patent literature 1, as shown in FIG. 23 of the present application, has a stop lever member 3b and a lock lever member 8b. The stop lever member 3b is engaged with the connection terminal 2b provided in the housing 1b. The locking lever member 8b extends from the rear side of the housing 1b towards its front side, and at the front end is a free end 9b. A user pushes a thrust end 11b to move the locking lever members 8b outward. Thus, the free end 9b of the locking lever member 8b is engaged with a latching pawl 7b of the connection terminal 2b. The electrical connector described in patent literature 2, as illustrated in FIGS. 24 to 25 of the present application, comprises a male terminal support 103A, a female terminal support 105A and a female terminal lock 104A. The female terminal lock 104A can slide in the X direction and the X 'direction.
    [0003] As shown in FIG. 25 of the present application, the flexible stopping piece 1012 of the female terminal 102A is locked with an engagement step 1040C. Further, when the user slides the female terminal lock 104A, the vertical wall 1033 of the female terminal lock 104A and the vertical portion 1031a of the frame 31 are engaged with the shoulder portion 1019 of the female terminal. 102A and thus the female terminal 102A is locked. The electrical connector described in patent literature 3, as shown in FIG. 26 of the present application, has a lateral retainer 1130. The lateral retainer 1130 is slidable between the test lock position and the the final locking position in which the male terminal accessory 111 can be engaged.
    [0004] Sliding of the lateral retainer 1130 is accomplished by inserting a template into the control portion 1135 formed in the side retainer 1130.
    [0005] According to the electrical connector described in patent literature 1, however, as the reduction in dimensions of the electrical connector progresses, the dimensions of the housing engagement hole are also reduced. As a result, the adjustment work between the locking lever members 8b and the holding member 10b which is maintained becomes difficult. In addition, when the connection terminal 2b is strongly pulled in the withdrawal direction, depending on the deformation condition of the locking lever member 8b, locking of the connection terminal 2b can be released. In addition, also according to the electrical connector described in patent literature 2, as the reduction in the dimensions of the electrical connector progresses, the control lever 1036 becomes very small, complicating the task of the user in sliding the locking of 104A female terminal while maintaining the control lever 1036. Still further, according to the electrical connector described in the patent literature 3, when the template is inserted into the retainer, a contact portion of the terminal accessory male 111 and the inner face of the engaging recess 1112 of the outer casing 1110 may be damaged.
    [0006] SUMMARY Accordingly, it is an object of this disclosure to provide an electrical connector that can operate without damaging the connector terminal or a housing when a retainer is operated even though the reduction in dimensions is progressing. An electrical connector according to one aspect of the present disclosure comprises: a connector terminal; A housing comprising a terminal housing chamber in which the connector terminal is to be installed, an engaging hole in which an engagement counterpart electrical connector is to be installed, and a groove. a slider which is formed in the rearmost wall of the engagement hole to extend in a direction intersecting the direction of adjustment and release of the connector terminal; and a retaining device which includes a projection which locks the connector terminal installed in the terminal housing chamber, and which changes a position between an unlocking position in which the projection unlocks the connector terminal, and a locking position which can be reached by sliding from the unlocking position along the slide groove, and wherein the projection locks the connector terminal, wherein: the retainer further comprises a base end portion to accommodating in the slide groove, and a protrusion projecting from the base end toward an opening of the engaging hole; the base end is formed with a control hole in which a control template is inserted, the control template modifying the position of the retainer between the unlocking position and the locking position; and the projection is formed with a guide portion which guides insertion of the control jig into the control hole. It is desirable that the guide portion be formed with, from an insertion opening in which the control template is inserted into the control hole of the base end, a section cut along the a direction of insertion of the control template. It is desirable that the guide portion has two ends in a sliding direction of the base end or a direction orthogonal to the asymmetrically formed sliding direction to limit the insertion of the control jig into the hole of the base. order in an inappropriate posture. It is desirable that the base end comprise a recess or a convex portion engaged with a convex portion or a recess of the housing when the retainer is respectively positioned in the unlocking position and in the locking position. It is desirable for the protrusion to have a contour dimension as seen from an opening of the engaging hole, lower than the base end in one or both of a sliding direction and a sliding direction. direction orthogonal to the direction of sliding. It is desirable that a position of one end of the projection is compatible with a position of a tip of the connector terminal in a direction projecting towards the engagement hole or protrude from the position of the projection. the tip of the connector terminal. It is desirable that, with the control template in an appropriate posture, when the control template is inserted into the control hole of the retainer, and the retainer is in the unlocking position and / or the locking position, the control template comes into abutment against an inner wall 30 of the housing engaging hole. It is desirable that, with the control template in an improper posture, when the retainer is in the unlocking position or the locking position, the control template interferes with an opening edge of the locking hole. engaging and inserting the control template into the guide portion is prevented; and with the control template in the wrong position, when the control template is inserted into the guide portion and the retainer is in the lock position or the unlock position, the control template comes into operation. abutment against the inner wall of the engagement hole, and a sliding of the control jig is limited. It is desirable that, with the control template in an improper posture, the control template interferes with the guide portion of the retainer and can not be inserted into the guide portion.
    [0007] Brief Description of the Drawings A more complete understanding of the present application can be obtained when the following detailed description is taken into consideration in conjunction with the following drawings, in which: FIG. 1 is a perspective view illustrating an electrical connector according to a first embodiment embodiment of the present description; Fig. 2A is a view when the housing shown in Fig. 1 is viewed from the side of the engagement hole; Fig. 2B is a view when the electrical connector of Fig. 1 is viewed from the side of the engagement hole; Fig. 3 is a perspective sectional view of the electrical connector shown in Fig. 2B; Figure 4 is an enlarged partial view of the electrical connector shown in Figure 3; Figure 5 is a perspective view in section V-V of the housing illustrated in Figure 2A and a perspective view of the retainer; Fig. 6 is a perspective view of the retainer for the electrical connector shown in Fig. 5; Figure 7 is a sectional perspective view VII-VII of the electrical connector of Figure 2B when the retainer is in an unlocked position; Fig. 8 is an enlarged partial view of the electrical connector shown in Fig. 7; Figure 9 is a perspective view in section IX-IX of the electrical connector of Figure 2B when the retainer is in a locking position; Fig. 10 is an enlarged partial view of the electrical connector shown in Fig. 9; Fig. 11 is a perspective view of a control jig for operating the retainer shown in Fig. 6; Fig. 12 is a plan view of the retainer shown in Fig. 11; Fig. 13 is a vertical sectional view orthogonal to a sliding direction in which the control jig illustrated in Fig. 11 is inserted into the electrical connector shown in Fig. 1; Fig. 14 is a horizontal sectional view when the electrical connector retainer shown in Fig. 13 is in the unlock position and the control jig is inserted; Fig. 15 is a horizontal sectional view when the electrical connector retainer shown in Fig. 13 is in the lock position and the control template is inserted; Fig. 16 is a horizontal sectional view when the electrical connector retainer shown in Fig. 13 is in the unlock position and the control template is inserted into the retainer 5 in an inverted posture; Fig. 17 is a horizontal sectional view when the electrical connector retainer shown in Fig. 13 is in the lock position and the control template is inserted into the retainer 10 in the inverted posture; Fig. 18 is a vertical sectional view for explaining a condition in which a foreign body enters the electrical connector shown in Fig. 1; Fig. 19 is a perspective view illustrating a retainer of an electrical connector according to a second embodiment of the present disclosure; Fig. 20 is a front view of the retainer shown in Fig. 19; Fig. 21 is a perspective view of a control jig for operating the retainer shown in Fig. 19; Fig. 22 is a diagram of the control jig illustrated in Fig. 21, as seen from one side of the control rod; Figure 23 is a vertical sectional view of the electrical connector described in Patent Literature 1; Fig. 24 is a perspective view illustrating the electrical connector disclosed in Patent Literature 2; Fig. 25 is an enlarged view of the electrical connector shown in Fig. 24; and Fig. 26 is a horizontal sectional view of the electrical connector described in patent literature 3.
    [0008] DETAILED DESCRIPTION First Embodiment 5 An electrical connector according to a first embodiment of the present disclosure is explained with reference to Figs. 1 to 18 attached. In the following explanation, the term "front and back" is a reference phrase with a mounting side in relation to an engaging counterpart electrical connector which is provided as "front side" and side opposite to the latter which is provided as "back side". An electrical connector 10 illustrated in Figures 1, 2A and 2B is a waterproof electrical connector. The electrical connector 10 includes a connector terminal 20, a housing 30, and a retainer 40. As illustrated in FIGS. 7 through 10, the connector terminal 20 is a male terminal. The connector terminal 20 comprises a tongue portion 21, a cylinder portion 22, a step portion 23, a wire sheath portion 24, an insulating sheath portion 25. Here, Figures 7 and 9 are views. in section of the same cross section as in Figure 2B. In Fig. 7, the retainer 40 is in an unlocked position to unlock the connector terminals 20 and in Fig. 9, the retainer 40 is in a lock position to lock the connector terminals 20. The Fig. 8 is an enlarged view of the area designated by the dashed line in FIG. 7 and FIG. 10 is an enlarged view of the area designated by the dashed line in FIG. 9. The tongue portion 21 has a shaped tip. a pointed needle shape is mounted in and contacts the female connector terminal of a counterpart electrical connector. The cylinder portion 22 is formed in a rectangular cylindrical shape such as a plate wrapped by several turns. The cylinder portion 22 is formed with a tapered portion 22a which becomes narrower towards the tongue portion 21. The peripheral face of the cylinder portion 22 facing the retainer 40 is formed with a convex portion 22b to be Locked by the retainer 40. Provided at the rear portion of the barrel portion 22, there is a lance snap 22c which is a plate member forming the downwardly bent cylinder portion 22 toward an opening 23a of the step portion 23. The step portion 23 is formed in a shape that has a half-portion in the direction orthogonal to the axial line of the removed portion of the cylinder 22, thereby forming a step relative to the portion The wire sheath portion 24 is provided for crimping and securing a stripped wire core by removing the outer coating of a wiring W in an electrical connection condition. The wire sheath portion 24 is formed by bending projecting pieces protruding at both sides from the axial line of the connector terminal 20 to the wire core. The insulating sheath portion 25 is provided to crimp and secure the outer covering which covers the core of wire. The insulating sheath portion 25 is formed by folding projecting pieces on both sides with respect to the axial line of the connector terminal 20 to the wire core. The housing 30 illustrated in FIGS. 1, 2A is a molded component formed with an insulating resin. The housing 30 includes a main body 31 in which the connector terminals 20 are to be disposed, and a peripheral wall 32 which has a peripheral face 311 of the main body 31 to encircle an engagement hole 321 where the connector Appetizer counterpart must be mounted and extend in a direction of engagement Fl.
    [0009] As illustrated in FIGS. 7 to 10, the main body 31 is formed with terminal housing chambers 312 in which the connector terminals 20 are to be mounted from the rear end side of the housing 30. The five chambers terminal housing 312 arranged in sequence are taken as a whole, and two sets are placed on both sides on the retainer 40, thus corresponding to the arrangement of the connector terminals 20. A seal 33 which The wiring W connected to the connector terminal 20 is arranged in a sealed manner at the rear side of the terminal housing chamber 312 of the main body 31. A flexible part 313 extending from the position of the Wire sheath portion 24 which is the rear portion of connector terminal 20 to engaging hole 321 is formed in the terminal housing chamber 312. A lance 313a protrudes into the lance flush 22c of connector terminal 20 is formed on flexible part 313. As illustrated in FIG. 2A and in FIG. 5 which is a perspective view in section VV of FIG. 2A, a slide groove 314 which extends in the direction of intersection between the mounting and releasing direction F2 of the connector 20, is formed in the rearmost wall 321a of the engaging hole 321 of the housing 30.
    [0010] The slide groove 314 includes a base end portion groove 314a in which the base end of the retainer 40 which will be explained later is accommodated and slides, and locating grooves 314b positioned therein. at both ends of the retainer 40 in a sliding direction F3, thus being formed in a H-shape, as seen from the side of the engaging hole 321.
    [0011] As illustrated in FIGS. 14, 15, a groove bottom wall 314c of the base end portion groove 314a which abuts against the retainer 40 mounted in the slide groove 314 is formed with a housing wall. projection 315 at one side S1 in the sliding direction F3. The projecting wall 315 is provided for positioning the mounting position of the retainer 40 and the locking position when the retainer 40 is sliding. In addition, the lower groove wall 314c is also formed with a pair of recesses 314d1, 314d2 for engaging the convex portion of the retainer 40 which will be explained later, when the retainer 40 is in position. the locking part or in an unlocking position.
    [0012] As shown in FIG. 2A, the fixing portion groove 314b is formed to have a wider groove than that of the base end portion groove 314a. In addition, the length of the fastener portion groove 314b in the sliding direction F3 covers a sliding width which allows the retainer 40 to slide between the locking position and the unlocking position. As shown in FIGS. 2A, 3 and 4 which is an enlarged view of the dashed area of FIG. 3, the respective groove faces of the facing portion groove 314b are formed with a pair of projections of FIG. fixing 314e which reduce the width of the groove.
    [0013] As illustrated in FIG. 2A, the fixing portion groove 314b positioned at one side S1 in the sliding direction F3 is formed with a closing portion 314g which closes a portion of the opening 314f of the fastener portion groove 314b to reduce the fastener portion groove 314b. Since the closure portion 314g limits the mounting position of the attachment portion of the retainer 40 which will be explained later, the retainer 40 mounted in the slider groove 314 is initially positioned in the unlocked position. As illustrated in FIGS. 5, 6, the retainer 40 is attached to the slide groove 314 formed in the innermost wall 321a of the engaging hole 321. The retainer 40 includes one end of base 410 intended to be housed in the slide groove 314 and positioned on the rear side from the position of the rearmost wall 321a, and projections 420 formed to protrude from the base end 410 to 20 the aperture 321b of the engaging hole 321. In addition, the retainer 40 includes a securing portion 430 for attaching the retainer 40 to the housing 30. The rear portion of the base end 410 is formed with a thinner portion 412 which is thinner than the front portion to form a step. The thinner portion 412 is formed with projections 413 which lock the corresponding connector terminals 20 along the sliding direction F3, respectively. The projections 413 are formed at the same time as the upper and lower surfaces of the thinner part 412. As shown in FIGS. 7, 9, each of the projections 413 faces the convex portions 22b of the corresponding connector terminal 20 when the retainer 40 is in a locking position, but does not face any of the convex portions 22b when the retainer 40 is in the unlocking position. The rear end face of the base end 410 is formed with an engaging convexity 414. The engaging convexity 414 includes a cross-linking portion 414a which has a flexible portion between the two ends, with the two ends which are fixed, and a convex portion 414b which protrudes rearward from the cross-linking portion 414a. The base end 410 is formed with a control hole 415 in which a control template 50, which will be explained later, is inserted to change the position of the retainer 40 between the unlocking position and the locking position. . The control hole 415 is formed in the position where the distance from an inner side wall of the engaging hole 321 at a side S1 is L1 when the retainer 40 is in the lock position, as shown 15 and having the distance from the opposite inner side wall of the engaging hole 321 at the other side S2 is L2 when the retainer 40 is in the unlock position, as shown in FIG. 14. The projections 420 are formed in a plate shape.
    [0014] The projections 420 are provided at a location on a connection plane 416 with the base end 410 shifted to the other side S2 in the sliding direction F3 with the protrusions 420 which are attached to the housing 30. The protrusions 420 comprise a guide portion 421 which guides the insertion of the control jig 50 into the control hole 415 and which is formed centrally in the sliding direction F3. The guide portion 421 is formed with a cutaway section 421b extending from an insertion opening 421a in which the control jig 50 is inserted into the control hole 415 in the base end 410. along an insertion direction F4 of the control jig 50.
    [0015] The cut-out section 421b divides the projections 420 in one portion at one side S1 and in one portion at the other side S2 in the sliding direction F3. The insertion opening 421a is formed to extend the open area towards the leading end side of the projection 420.
    [0016] As illustrated in FIG. 2B, the protrusions 420 have a contour dimension, as seen from the aperture 321b of the engaging hole 321b which is smaller than that of the base end 410 both in the sliding direction F3 and the direction orthogonal to the latter.
    [0017] As illustrated in FIG. 18, the upper portions of the projections 420 are formed to be positioned in the same position as the tips of the connector terminals 20 in a projecting direction F5 toward the engaging hole 321.
    [0018] As illustrated in FIGS. 4, 6, the engagement portions 430 are formed at both ends of the base end 410 in the width direction (the same direction as the sliding direction F3). Each of the attachment portions 430 comprises V-shaped arms 431 which separate the space between them towards the tip from the base end, and pawls 432 formed at the respective tips of the arms 431 and directed into opposite directions. The manner in which the control jig 50 operates the retainer 40 is explained. As shown in FIGS. 11, 12, a control jig 50 includes a control rod 510 and a grip portion 520.
    [0019] The control rod 510 is formed in a circular bar shape. The control rod 510 protrudes perpendicularly from the one end face of the gripping portion 520 along its length direction. The control rod 510 is formed to have a length corresponding to a distance between the tip of the projections 420 of the retainer 40 and the lower surface of the control hole, as shown in Fig. 14. In addition, the control rod 510 is disposed in a staggered position towards the other side S2 from the central position of the gripping portion 520, as seen from the front side of the gripping portion 520 in the direction of the thickness F6, as illustrated in FIG. 12. In other words, the distance L1 is greater than the distance L2.
    [0020] The grip portion 520 is formed into a thick plate shape as shown in FIG. 11. The letters that guide the control directions are provided opposite the end face of the grip portion 520 to the face from which the control rod 510 protrudes. A method of assembling the electrical connector 10 using the above structure according to this embodiment of the present description is explained with reference to the figures.
    [0021] First, the wires W are connected to the connection terminals 20 and the housing 30 is prepared without the retaining device 40. Then, as illustrated in FIGS. 7, 8 (the retaining device 40 is not yet attached to the housing 30), the connector terminals 20 are mounted in the terminal housing chambers 312 of the housing 30 from its rear end side. The cylinder portion of the connector terminal 20 abuts against the flexible member 313 formed in the terminal housing chamber 312 when mounted thereto. The flexible part 313 is deformed on the inclined face of the tapered part 22a of the cylinder part 22. The flexible part 313 elastically returns and thus its lance 313a is gripped by the lance snap 22c when the cylinder part 22 pass on the spear 313a. When the lance 313a is gripped by the lance snap 22c, the mounting of the connector terminal 20 in the housing 10 is completed. Then, the retainer 40 is attached to the housing 30. When the retainer 40 is attached to the housing 30, the projections 420 of the retainer 40 are pinched by the mandrel of an automatic machine from both sides. in the direction of the thickness F7 of the projection 420, allowing the projections 420 to be mounted in the slide groove 314. In addition, it is possible for a user to insert the control rod 510 of the control jig 50 into the control hole 415 through the guide portion 421, and mounts the retainer 40 in the slide groove 314 of the housing 30 supporting the retainer 40 with the control rod 510 while maintaining the gripping portion 520. When the retainer 40 is mounted in the slider groove 314, as shown in FIGS. 3, 5, the base end portion 410 of the retainer 40 enters the part groove. of extreme In FIG. 4, the pawls 432 of the arms 431 of the fastening portion 430 are in the respective fastening portion grooves 314b of the slide groove 314. As shown in FIG. contact with the respective fixing projections 314e of the fixing groove 314b cause deformation of the arms 431 and the pawls 432 are pushed down. When the retainer 40 is further pushed inside, the pawls 432 pass over the respective attachment projection 314e, the arms 431 spring back and thus the pawls 432 are locked by the respective attachment projections 314e. As illustrated in FIG. 2B, the work of mounting the retainer 40 in the slide groove 314 is guided into the unlocking position by the closing portion 314g. As illustrated in FIGS. 7, 8, the retainer 40 in the unlocking position has the offset positional relationship between the projections 413 formed on the base end 410 and the convex portions 22b of the connector terminal 20 in the direction of sliding F3. As a result, the connector terminals 20 are locked by the lance 313a of the housing 30 only and the retainer 40 does not lock the connector terminals 20 under this condition.
    [0022] In addition, as illustrated in FIG. 14, the convex portion 414b of the retainer 40 is engaged with the recess 314d2 formed in the lower slot wall 314c of the slide groove 314 on the other side S2.
    [0023] The method for sliding the retainer 40 from the unlocking position to the locking position is explained. First, as illustrated in FIGS. 13 and 14, the user inserts the control rod 510 of the control template 50 into the control hole 415 by the guide portion 421 in an appropriate posture. As shown in Fig. 12, the control rod 510 is shifted from the central position of the gripping portion 520. Therefore, the appropriate posture of the control jig 50 is a posture in which the control rod 510 is positioned in the offset position, from the central position of the gripping portion 520 to the other side S2. Even if the user tries to insert the control rod 510 into the control hole 415 in an inappropriate posture, the user can find it easily, as described later. With the control template 50 which is inserted into the retainer 40 in the proper posture, as shown in Fig. 14, the user slides the control template 50 from the other side S2 to the one side Si. This operation moves the retainer 40 from the unlock position to the lock position, as shown in an arrow F8. When the retainer 40 slides in the sliding direction F8 shown in Fig. 14, the base end 410 moves into the base end portion groove 314a, and the attachment portions 430 move through the respective fixing member grooves 314b of the slide groove 314. The cross-linking portion 414 deforms the engaging convexity 414 formed on the base end 410 and the convex portion 414b moves, and thus the cross-linking portion 414a. is deformed and is disengaged from the recess 314d2. The convex portion 414b slides on the lower groove wall 314c, and rises to a position of the recess 314d1. In this case, as illustrated in FIG. 15, the cross-linking portion 141a resiliently returns and is engaged with the recess 314d1. At this time, the lateral face 521 of the gripping portion 520 abuts against the inner wall 321c of the engaging hole 321 of the housing 30.
    [0024] As illustrated in FIGS. 9, 10, the projections 413 of the retainer 40 are positioned at the front side in the release direction F9 of the convex portions 22b of the respective connector terminals 20. Since the projection 413 is positioned on the front side in the release direction F9 of the convex portion 22b, the connector terminal 20 is locked. By the locking made by the lance 313a of the housing 30 and the locking by the projection 413 of the retainer 40, the connector terminal 20 is doubly locked. Next, a case is explained in which the user actuates the control jig 50 to slide the retainer 40 from the lock position to the unlock position.
    [0025] When the user slides the retainer 40 into the unlocking position and cancels the locking of the connector terminal 20 by the projection 413 of the retainer 40, the user slides the retainer 40 towards the other side S2 in the sliding direction F3 (sliding direction F10 shown in Fig. 15) using the control jig 50. The holding device 40 is moved to the other side S2 along the slide groove 314 The convex portion 414b of the engaging convexity 414 formed on the base end 410 is released from the recess 314d1, slides on the bottom groove wall 314c and is engaged with the recess 314d2, as Fig. 14. At this time, the side face 522 of the gripping portion 520 of the control jig 50 on the other side S2 in the sliding direction F3 abuts against an inner wall. e 321d of the engagement hole 321 of the housing 30.
    [0026] As shown in FIGS. 7, 8, the projections 413 of the retainer 40 return to the positions when the retainer 40 has been mounted. That is, the projections 413 are released from the front positions in the release direction F9 of the convex portions 22b of the connector terminals 20 and thus the locking by the projection 413 of the retainer 40 is canceled. As explained above, the retainer 40 is provided with the protrusions 420 having the guide portion 421 protruding toward the aperture 321b of the engaging hole 321. Therefore, the operator can easily insert the control rod 510 in the control hole 415 of the base end 410 through the guide portion 421 of the projections 420.
    [0027] According to this embodiment, the retainer 40 is mounted through the engaging hole 321 of the housing 30. This allows safe operation with respect to the retainer 40 by using the control template 50 without damaging the portion 21 of the connector terminal 20 and the inner wall of the engaging hole 321 of the housing 30 even if the reduction of the dimensions of the electrical connector 10 progresses and the size of the opening 321b of the setting hole take 321 becomes narrow. In addition, when the retainer 40 slides from the unlock position to the lock position, the user slides the gripping portion 520 until the gripping portion 520 abuts against the inner wall 321c In contrast, when the retainer 40 slides from the lock position to the unlocking position, the user slides the gripping portion 520 until the gripping portion comes abutting against the inner wall 321d of the engaging hole 321. Therefore, the user can actuate the control template 50 without genius, and can safely dispose the retainer 40 in the target position . At this time, the vibrations caused when the convex portion 414b is engaged with the recess 314d1 or the recess 314d2 are transmitted to the user via the control template. In addition, the sounds produced when the convex portion 414b is engaged with the recess 314d1 or the recess 314d2, are transmitted to the user. Therefore, the user holding the control template 50 can recognize that the retainer 40 has slid to the target position and that the operation is terminated according to the vibrations of the grip portion 520 and the set-up sounds. outlet.
    [0028] Still further, as illustrated in FIG. 6, the cut-off section 421b is formed in the guide portion 421 along the insertion direction F4 of the control jig 50, from the insertion opening 421a to the junction hole 421b. 415. Therefore, in order to guarantee the rigidity of the control rod 510, even if the control rod 510 is designed to have a certain thickness, allowing the control rod 510 to project from the cut-out section 421b , the projections 420 may have a thickness made thin. As illustrated in FIG. 2B, the contour dimension of the protrusion 420, as seen from the aperture 321b, is formed to be smaller than that of the base end 410. Therefore, even in the In the case of the electrical connector which has a narrow engagement hole 321, the retainer 40 may have the protrusions 420.
    [0029] Next, a case is explained in which the control jig 50 is actuated in an inappropriate posture. The improper posture of the control jig 50 is an inverted posture which has two ends of the grip portion 30 in the sliding direction F3 of the retainer 40 inverted relative to those of the appropriate posture. First, a case is explained in which the retainer 40 is positioned in the unlocking position. As shown in Fig. 16, when the retainer 40 is positioned in the unlock position, the retainer 40 is positioned in a position shifted to the other side S2. In addition, in the improper posture which has the inverted control template 50, illustrated in Fig. 16, with reference to the control rod 510, the control template 50 has a longer distance L1 to the side surface 521. from the grip portion 520 on the other side S2 than the distance L2 to the side face 522 at one side Si. Therefore, if the user attempts to insert the control rod 510 into the With the guide template 421 with the control template 50 in an unsuitable posture, the grip portion 520 interferes with an opening edge 321e of the engaging aperture 321. Therefore, the user can recognize that the the user attempts to operate the retainer 40 with the control template 50 which is in an inappropriate posture. Fig. 16 illustrates a condition in which grip portion 520 overlies and interferes with inner wall 321d of engaging aperture 321. Next, a case is explained in which retainer 40 is positioned in the position locking. As shown in Fig. 17, when the retainer 40 is positioned in the lock position, the retainer 40 is moved to the one Si side of the housing 30. The user can insert the control rod 510 into the hole 450 through the guide portion 421 with the control template 50 which is in an inappropriate posture. However, the side face 521 of the gripping portion 520 abuts against the inner wall 321d of the engaging hole 321, and thus the sliding of the gripping portion 520 is limited. Therefore, the user can recognize that the user is attempting to actuate the retainer 40 with the control template 50 which is in an inappropriate posture. As shown in Fig. 18, foreign bodies may enter the engaging hole 321 of the housing 10 and the engagement counterpart electrical connector may enter deeply into the engaging hole 321 in a slanted condition. However, the projections 420 are formed to have tips intended to be positioned in the same position as that of the tip of the connector terminal 20 in the direction of projection F5 towards the hole. Accordingly, projections 420 of the retainer 40 prevent the entry of foreign bodies, and the insertion of the inclined counterpart housing before contacting the connector terminal 20. , damage and deformation of the tab portion 21 of the connector terminal 20 are suppressed. It should be noted that the projections 420 shown in Fig. 18 can be formed to protrude from the side of the engaging hole 321 beyond the tab portion 21. The foreign bodies and the counterbalance electrical connector are in engagement first engage the protrusions 420 before the tab portion 21, deformation of the tab portion 21 and damage to the engagement counter electrical connector housing are removed. In addition, the housing 30 and the retainer 40 have the recesses 314d1, 314d2 of the housing 30 and the convex portion 304 of the engagement convex 414 of the retainer interengaged therebetween. On the contrary, the housing 30 may have a convex portion, while the retainer may have a recess.
    [0030] Second Embodiment An electrical connector according to a second embodiment of the present description is explained with reference to the figures. It should be noted that in Figs. 19 to 22, the same component shown in Figs. 6, 11, 12 is designated by the same reference numeral. The electrical connector according to the second embodiment has the retaining guide portion which has two ends in the direction of sliding or the orthogonal direction, formed asymmetrically. A retainer 41 shown in Figs. 19, 20 has a control hole 417 at the base end 410 and a guide portion 433 at the projections 420 formed along the insertion direction F4. a control rod 511 of a control jig 51 illustrated in Figs. 21,22. As seen in the insertion direction F4, the control hole 417 is formed such that a portion of the end of the hole Rectangular at one side S1 25 extends the width of the rectangular hole. The guide portion 423 is formed continuously with the control hole 417. The guide portion 423 is formed with a cutaway section 423a that has a closed bottom wall and a top wall partially closed in the thickness direction 30 F7 . Thus, the control hole 417 and the guide portion 423 at both ends in the sliding direction F3 are formed asymmetrically.
    [0031] The control rod 511 of the control jig 51 is shaped to correspond to the shape of the control hole 417 and that of the guide portion 423. Specifically, the control rod 511 comprises a main bar body 511a in a square bar shape, and a keyed portion 511b formed at a portion of the end of the bar main body 511a at one side S1 to increase the width of the bar main body 511a. When the retainer 41 is actuated, if the control template 51 is in a proper posture, the user can insert the control rod 511 into the control hole 417 via the guide portion 423. However, when the The user attempts to insert the control rod 511 into the guide portion 423 with the control template 51 which is in an improper posture, since the guide portion 423 is asymmetrically formed at both ends in the direction of rotation. sliding F3, the keyed portion 511b abuts against the front face of the projection 420, and thus the control jig 51 can not be inserted into the guide portion 423. Therefore, when inserting the jig control 51 in the projections 420, the user can recognize whether the control template 51 is in an appropriate posture or in an inappropriate posture.
    [0032] It should be noted that in the second embodiment, although both ends of the guide portion 423 in the sliding direction F3 are asymmetrically formed, the guide portion may have both ends in the orthogonal direction (direction). from the thickness F7) to the sliding direction F3 in Fig. 19 formed asymmetrically. The guide portion formed in such a shape may limit the insertion of the control jig into the control hole even if the control rod 30 is inserted in the guide portion with the control jig which is in an inappropriate posture. The description of this specification is not limited to the embodiments.
    [0033] For example, in the embodiments, the connector terminals are the male terminals. The connector terminals can be female terminals. In the embodiments, the slide groove 314 has an H-shape in a plan view. The shape of the slide groove is arbitrary if the retainer is slidable in the groove. The shapes and structures of the base end 410 of the retainer 40 are arbitrary, if the retainer 40 can lock the connection terminals 20.
    [0034] The shapes and structures of the projections 420 of the retainer 40 are arbitrary, if the projections can be used to insert the retainer 40 into the slide groove 314 and guide the control template 50 into the control hole 415. For example, the protrusion may be formed in a rectangular cylinder or a circular cylinder. The cross sections of the guide portion 421 and the control hole 415 may not be identical to each other. In the embodiments, the insertion aperture 421a is formed to depart. The guide portion 421 may move the open area toward the insertion opening 421 incrementally or stepwise. The cut portion 421b may not be formed in the guide portion 421.
    [0035] The manner of forming the guide portion asynchronously is arbitrary. For example, a projection may be formed in the guide portion and a groove housing the projection may be formed in the control jig.
    [0036] The housing 30 and the retainer 40 may have no recesses 314d1 and 314d2 nor convex portion 414b. In the embodiments, the projections 420 have a contour dimension, as seen from the aperture 321b of the engaging hole 321, which is smaller than that of the base end 410 to the times in the direction of sliding F3 and the direction orthogonal to the latter. The protrusions 420 may have a contour dimension as seen from the opening of the engaging hole 321b which is smaller than that of the base end 410 in one of the sliding direction F3 and the direction orthogonal to that last. In the embodiments, the control template 50 comprises the control rod 510, 511 and the gripping portion 520, 521. The control template 50, 51 may have a different structure from that described. For example, it is possible to use a control template comprising a bar. Even in the state where the control template 50 is inserted into the retainer 40 in an appropriate posture and the retainer 40 is in the lock or unlock position, the control template 50 may not abut against the inner wall 321c of the engaging hole 321 of the housing 30. It is also possible that even in the state in which the control jig 50 is inserted into the retainer 40 in an inappropriate posture, the control jig 50 may not interfere or abut against the inner wall 321c of the engaging hole 321 of the housing 30.
    [0037] Further, in the first embodiment, with the control template 50 in an improper posture, when the retainer is in the unlock position, the control template 50 interferes with an opening edge 30. of the engaging hole 321, and the insertion of the control jig 50 into the guide portion 421 is prevented, and when the jig 50 is inserted into the guide portion 421 and the retainer 40 5 is in the locking position, the control jig 50 abuts against the inner wall of the engaging hole 321, and a sliding of the retainer 40 and the jig 50 is limited. On the other hand, with the control jig 50 in an improper posture, when the retainer 40 is in the lock position, the jig 50 may interfere with the opening edge of the jogging hole. taken 321, and when the control jig 50 is inserted into the guide portion 421 and the retainer 40 is in the unlocking position, the jig 50 abuts the inner wall of the jogging hole. socket 321, and a sliding of the control jig 50 can be limited. The previous section describes some exemplary embodiments for explanatory purposes. Although the foregoing discussion has presented specific embodiments, those skilled in the art will recognize that changes can be made in form and detail without departing from the broader spirit and scope of the invention. . Therefore, the description and the drawings should be considered in an illustrative rather than a restrictive sense. The present detailed description, therefore, should not be taken in a limiting sense and the scope of the invention is only defined by the appended claims, together with the full range of equivalents to which such claims are entitled. List of references 3035744 30 10 electrical connector 20 connector terminal 21 tab part 5 22 cylinder part 22a progressively narrowed part 22b convex part 22c lance snap-fitting 23 step part 10 23a opening 24 part of wire sheath 25 part of insulating sheath Housing 31 main body 15 311 peripheral face 312 terminal housing chamber 313 flexible part 313a lance 314 slide groove 20 314a base end portion groove 314b fastener part groove 314c groove bottom wall 314d1, 314d2 recess 314e fixing projection 25 314f opening 314g closing part 315 protruding wall 32 peripheral wall 321 engaging hole 30 321a rearmost wall 321b opening 321c, 321d inner wall 321e opening edge 3035744 31 33 sealing gasket 40, 41 retainer 410 base end 412 thinner portion 5 413 protrusion 414 convexity engaging 414a share crosslinking 414b convex portion 415, 417 control hole 10 416 connecting plane 420 projection 421, 423 guiding portion 421a insertion opening 421b, 423a cutting section 15 430 fixing portion 431 arm 432 pawl 50, 51 control jig 510, 511 control rod 20 511a bar main body 511b keyed part 520 gripping part 521, 522 lateral side W wiring 25 F1 direction of engagement F2 direction of assembly and release F3 direction of sliding F4 direction of insertion F5 direction of projection 30 F6, F7 direction of thickness F8, F10 direction of sliding F9 direction of release S1 one side S2 the other side L1, L2 distance
    权利要求:
    Claims (9)
    [0001]
    REVENDICATIONS1. An electrical connector characterized by comprising: a connector terminal (20); a housing (30) including a terminal accommodating chamber (312) in which the connector terminal is to be mounted, an engaging hole (321) in which an engaging counter electrical connector is for be mounted and a slide groove (314) which is formed in the rearmost wall of the engagement hole to extend in a direction intersecting a mounting and release direction of the connector terminal; and a retainer (40) which includes a protrusion (413) which locks the connector terminal mounted in the terminal accommodating chamber (312) and which changes a position between an unlocking position in which the projection (413) unlocks the connector terminal and a locking position which can be reached by sliding from the locking position along the slide groove (314) and in which the projection (413) locks the connector terminal (20), wherein: the retainer (40) further comprises a base end portion (410) to be accommodated in the slide groove (314) and a projection (420) projecting from the base end (410) to an opening of the engagement hole (321); the base end (410) is formed with a control hole (415) into which a control jig (50) 3035744 34 is inserted, the control jig (50) changing the position of the retainer (40) between the unlocking position and the locking position; and the projection (420) is formed with a guide portion (421) which guides insertion of the control jig (50) into the control hole (415).
    [0002]
    Electrical connector according to claim 1, characterized in that the guide portion (421) is formed from an insertion opening (421a) in which the control jig (50) is inserted into the control hole (415) of the base end (410), a cut section (421b) along an insertion direction of the control jig (50).
    [0003]
    Electrical connector according to claim 1 or 2, characterized in that the guide portion (423) has two ends in a sliding direction (F3) of the base end (410) or an orthogonal direction (F7). in the sliding direction, formed asymmetrically to limit the insertion of the control jig (51) into the control hole (417) in an inappropriate posture.
    [0004]
    An electrical connector according to any one of claims 1 to 3, characterized in that the base end comprises a recess or a convex portion (414b) engaged with a convex portion or recess (314d1, 314d2) of the housing (30) when the retainer (40) is positioned in the unlocking position and the locking position, respectively. 30
    [0005]
    An electrical connector according to any one of claims 1 to 4, characterized in that the projection 3035744 (420) has an outline dimension as seen from an opening of the engaging hole (321). smaller than the base end (410) in one or both of a sliding direction (F3) and an orthogonal direction (F7) to the sliding direction.
    [0006]
    An electrical connector according to any one of claims 1 to 5, characterized in that a position of a point of the projection (420) is compatible with a position of a tip of the connector terminal (20). in a direction projecting toward the engagement hole (321) or protrudes from the position of the tip of the connector terminal (20).
    [0007]
    An electrical connector according to any one of claims 1 to 6, characterized in that when, with the control template (50) in a proper posture, the control template (50) is inserted into the control (415) of the retainer (40) and that the retainer (40) is in the unlocking position and / or the locking position, the control template (50) abuts against an inner wall of the engagement hole (321) of the housing (30).
    [0008]
    Electrical connector according to one of claims 1 to 7, characterized in that: with the control jig (50) in an unsuitable position, when the retainer (40) is in the unlocking position or in the locked position, the control template (50) interferes with an opening edge (321e) of the engagement hole (321), and the insertion of the control template (50) into the portion of guiding (421) is prevented; and 3035744 36 with the control jig (50) in the improper posture, when the jig (50) is inserted into the guide portion (421) and the retainer (40) is in the position of With the lock or release position, the control template (50) abuts against the inner wall (321d) of the engagement hole (321) and a sliding of the control template (50) is limited.
    [0009]
    Electrical connector according to one of Claims 1 to 7, characterized in that: with the control jig (51) in an unsuitable position, the control jig (51) interferes with the guide portion ( 423) of the retainer (40) and can not be inserted into the guide portion (423).
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    同族专利:
    公开号 | 公开日
    DE102016107817A1|2016-11-03|
    JP5900684B1|2016-04-06|
    JP2016207627A|2016-12-08|
    US9553388B2|2017-01-24|
    KR101780895B1|2017-09-21|
    FR3035744B1|2019-03-22|
    KR20160128237A|2016-11-07|
    CN106099540A|2016-11-09|
    CN106099540B|2018-09-25|
    US20160322735A1|2016-11-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPH0514386B2|1985-09-17|1993-02-24|Nitsusan Jidosha Kk|
    US5100346A|1991-03-15|1992-03-31|Cardell Corporation|Micropin connector system|
    JP3693149B2|1999-01-11|2005-09-07|住友電装株式会社|connector|
    JP3685314B2|1999-08-02|2005-08-17|矢崎総業株式会社|Female connector with terminal lock and electrical connector with terminal lock|
    JP3463636B2|1999-12-13|2003-11-05|住友電装株式会社|connector|
    US6305990B1|2000-05-08|2001-10-23|Tyco Electronics Corp|Sealed electrical connector with secondary locking|
    JP2003068387A|2001-08-28|2003-03-07|Sumitomo Wiring Syst Ltd|Connector|
    GB2393592B|2002-07-29|2005-12-21|Yazaki Corp|Connector|
    US7179135B2|2005-04-25|2007-02-20|J.S. T. Corporation|Electrical connector with a terminal position assurance mechanism|
    JP4737543B2|2006-07-07|2011-08-03|住友電装株式会社|connector|
    US7179136B1|2006-09-19|2007-02-20|Delphi Technologies, Inc.|Electrical connector|
    KR100858755B1|2006-11-20|2008-09-16|에프씨아이 커넥터즈 싱가포르 피티이 엘티디.|Electrical connector and connector assembly|
    JP5125410B2|2007-10-26|2013-01-23|住友電装株式会社|Connector|
    US8721374B2|2011-07-22|2014-05-13|Lear Corporation|Electrical connector|EP3637562A4|2017-06-06|2020-12-09|Nippon Tanshi Co., Ltd.|Connector structure|
    JP2019050169A|2017-09-12|2019-03-28|住友電装株式会社|connector|
    JP6544412B2|2017-11-22|2019-07-17|オムロン株式会社|Connector terminals and connectors|
    US10276966B1|2017-12-04|2019-04-30|Te Connectivity Corporation|Electrical connector with alignment plate and seal|
    法律状态:
    2017-04-19| PLFP| Fee payment|Year of fee payment: 2 |
    2018-04-20| PLFP| Fee payment|Year of fee payment: 3 |
    2018-08-17| PLSC| Search report ready|Effective date: 20180817 |
    2019-04-18| PLFP| Fee payment|Year of fee payment: 4 |
    2020-04-20| PLFP| Fee payment|Year of fee payment: 5 |
    2021-04-23| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2015-092004|2015-04-28|
    JP2015092004A|JP5900684B1|2015-04-28|2015-04-28|Electrical connector|
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