JP2007242632A - Connector structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem of waterproof effectiveness in lock structure removably fitting a male holder and a female holder in prior connector structures. <P>SOLUTION: The male holder 34 and the female holder 3 respectively have the lock structure and a waterproof wall surrounding the lock structure, the lock structure removably locking the fit between the male holder 34 and the female holder 3. The lock structure includes a flexible engaging claw 51 mounted on the male holder 34, and an engaging step part 54 mounted on the female holder 3. As waterproof walls, twofold standing walls 47, 48 are mounted on the male holder 34, and twofold standing walls 55, 56 are mounted on the female holder 3, fitting staggeringly each other with the twofold standing walls 47, 48 of the male holder 34. Resultantly, waterproof effectiveness is provided for the lock structure. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a connector structure. In particular, the present invention relates to a connector structure that has an excellent waterproof effect of a lock mechanism that detachably fits a male holder and a female holder.

  The structure of this type of connector is conventional (for example, Patent Document 1). Hereinafter, the structure of this connector will be described with reference to FIGS. This example shows an example used for a power unit of an automotive remote control type mirror device.

  In FIG. 25, reference numeral 1 denotes a power unit of an automotive remote control type mirror device. The power unit 1 is configured as follows. That is, in the first housing 2 and the second housing 3, the left and right motors and the vertical motor 200 (note that the left and right motors are not shown in FIGS. 26 and 27) are incorporated. . The left and right motors and the up and down motor 200 are connected to the left and right advancing and retracting rods 4 and the up and down advancing and retracting rods 4 through a speed reduction mechanism (not shown) and an advancing / retreating mechanism (not shown). (The illustration of the rod is omitted). As a result, the left / right advance / retreat rod and the up / down advance / retreat rod 4 can advance and retreat relative to the first housing 2 and the second housing 3. A ball portion 5 is integrally provided at the tip of the left / right advance / retreat rod and the up / down advance / retreat rod 4.

  In FIG. 25, reference numeral 6 denotes a mirror unit of an automotive remote control type mirror device. The mirror unit 6 includes a mirror body 7 and a mirror holder 8 that holds the mirror body 7. The mirror holder 8 is provided with a spherical recess 9.

  A mirror holder 8 of the mirror unit 6 is attached to the first housing 2 of the power unit 1 via a pivot mechanism 10 and a guide mechanism 11 so as to be tiltable in the left-right direction and the up-down direction. The spherical portion 5 and the spherical concave portion 9 are fitted to each other. In the mirror holder 8, a portion for holding the mirror body 7 (so-called mirror holder) and a portion having the pivot mechanism 10 and the guide mechanism 11 (so-called mirror holder base) form an integral structure. Some of them are assembled in a separate structure. There is not much difference in the operation of the two.

  Furthermore, in FIG. 25, 12 is a connector. The connector 12 includes a male connector 13 and the power unit 1 as a female connector. The male connector 13 includes a male terminal 320 and an insulating male holder 14 that holds the male terminal 320 with a part of the male terminal 320 protruding outward. A harness 15 is connected to the male terminal 320.

  On the other hand, the female connector (power unit 1) holds the female terminal 280 built in the left and right motors and the vertical motor 200 and the female terminal 280 in a state of being housed therein, and the protruding of the male terminal 320. It is comprised from the said 1st housing 2 and the 2nd housing 3 as an insulating female holder of the case structure in which the insertion hole 290 for inserting a part is provided.

  The male holder 14 and the female holder (second housing 3) are fitted together, and the protruding portion of the male terminal 320 is inserted into the insertion hole 290, so that the left and right motors and the female terminal 280 of the up and down motor 200 are inserted. The male terminal 320 and the female terminal 280 are electrically connected to each other by being directly inserted into the terminal. As a result, the left and right motors and the up and down motor 200 are in a power feedable state. The power unit 1, the mirror unit 6 and the connector 12 are built in a mirror housing (not shown), and the mirror body 7 of the mirror unit 6 is disposed in a front opening (not shown) of the mirror housing. Thus, a remote control mirror device for automobiles is configured.

  Here, power is supplied to the left / right motor or the up / down motor 200 by remote control from the driver's seat of the automobile. Then, the left / right motor is driven and the left / right advance / retreat rod is advanced / retracted, and accordingly, the mirror unit 6 moves left and right around a vertical axis (not shown) passing through the center of the pivot mechanism 10 with respect to the power unit 1. Tilt. Alternatively, the vertical motor 200 is driven to move the vertical rod 4 back and forth, and accordingly, the mirror unit 6 moves around a horizontal axis (not shown) passing through the center of the pivot mechanism 10 with respect to the power unit 1. Tilt up and down.

  However, in this connector structure, there is no lock mechanism for removably locking the fitting between the male holder and the female holder, and there is no waterproof wall surrounding the lock mechanism.

  On the other hand, the structure of the connector provided with the lock mechanism is conventional (for example, Patent Document 2). Moreover, the structure of the connector provided with the waterproof wall is conventional (for example, Patent Document 3, Patent Document 4, Patent Document 5, and Patent Document 6). However, the structure of the conventional connector has a problem in the waterproof effect of the lock mechanism because the waterproof wall surrounding the lock mechanism is not provided.

JP-A-8-192680 JP-A-10-74559 JP-A-10-69939 Japanese Utility Model Publication No. 3-22947 JP 2000-131337 A

  The problem to be solved by the present invention is that the conventional connector structure has a problem in the waterproof effect of the lock mechanism for detachably fitting the male holder and the female holder.

  This invention (invention according to claim 1) is provided with a locking mechanism for removably locking the fitting between the male holder and the female holder at the central part of the male holder and the central part of the female holder, and The peripheral part of the male holder and the peripheral part of the female holder are provided with a waterproof wall surrounding the lock mechanism, and the lock mechanism is provided on the elastic engagement claw provided on the male holder and on the female holder. And a waterproof wall that is provided on the male holder, and a female holder that is provided on the female holder and mates with the double vertical wall of the male holder. And a double standing wall.

  In the present invention (the invention according to claim 2), the double standing wall of the male holder and the double standing wall of the female holder are each provided with a notch for pulling out the harness connected to the male terminal. It is characterized by that.

  Further, according to the present invention (the invention according to claim 3), a part of the standing wall outside the double standing wall of the male holder has a convex portion higher than the other part, and the groove of the double standing wall of the female holder is formed. Some of the recesses are deeper than the other parts, and the protrusions and recesses engage with each other before inserting the male terminal into the female terminal, and provide a guide for inserting the male terminal into the female terminal. It is characterized by that.

  Furthermore, according to the present invention (the invention according to claim 4), the bottom of the groove of the double standing wall of the female holder protrudes into the female holder so as to determine the position of the component built in the female holder. Eggplant.

  In the connector structure of the present invention (the invention according to claim 1), a waterproof wall is provided around the lock mechanism. As a result, the structure of the connector of the present invention (the invention according to claim 1) is waterproof to the lock mechanism even though the male holder and the female holder are provided with a lock mechanism that is detachably fitted to each other. effective.

  In the connector structure of the present invention (the invention according to claim 2), the harness connected to the male terminal is exposed to the outside through the notch of the double standing wall of the male holder and the notch of the double standing wall of the female holder. Since it can be pulled out, there is a waterproof effect on the part where the harness is pulled out from the connector cover and the female holder.

  Further, according to the connector structure of the present invention (invention according to claim 3), when the male terminal is inserted into the female terminal, a high convex portion of a part of the standing wall outside the double standing wall of the male holder is Since this convex part and the concave part are engaged with each other in a deep concave part of the groove of the double standing wall to form a guide, the burden on the male terminal and the female terminal can be reduced. Damage to the terminal can be prevented. In addition, since the waterproof wall and the guide are combined, the structure is simplified.

  Furthermore, according to the connector structure of the present invention (the invention according to claim 4), the convex portion which is the bottom of the groove of the double standing wall of the female holder can be positioned without undue components built in the female holder. can do.

  Hereinafter, an example of an embodiment of a connector structure according to the present invention will be described with reference to FIGS. This embodiment shows an example used for a power unit of an automotive remote control type mirror device. Note that the present invention is not limited to the embodiments.

  In the figure, the same reference numerals as those in FIGS. 25 to 27 denote the same components. Also, by connecting the IIA arrow and IIB arrow in FIG. 1 to the IA arrow and IB arrow in FIG. 2, an exploded perspective view of the power unit and mirror holder base of the remote control mirror device for automobiles in this embodiment is provided. Composed.

  The structure of the terminal structure in this embodiment will be described below.

  In FIG. 1, 16 is a mirror holder base of the mirror unit. The mirror holder base 16 constitutes a mirror holder by assembling with a portion (not shown, so-called mirror holder) for holding a mirror body, and forming a separate structure. A mirror unit is composed of the mirror holder base 16, a portion for holding the mirror body, and the mirror body. The mirror holder base 16 and the part holding the mirror body may have an integral structure.

  The mirror holder base 16 is attached to the first housing 2 of the power unit 1 via a spring 17, a pivot mechanism 10, and a guide mechanism 11 so as to be tiltable in the left-right direction and the up-down direction. The spring 17 may be formed integrally with a cross shape, or may be formed in a cross shape by combining two negative shapes.

  The first housing 2 is provided with left and right openings 18A and up and down openings 18B. Left and right packings 19A and 19B are attached to the edges of the left and right openings 18A and the vertical openings 18B, respectively.

  As shown in FIG. 2, the left and right motors 20 </ b> A and 20 </ b> B are built in the first housing 2 and the second housing 3 of the power unit 1. The left / right motor 20A and the up / down motor 20B are connected to a left / right advance / retreat rod 21A and an up / down advance / retreat rod 21B via a speed reduction mechanism and an advance / retreat mechanism. The left / right advance / retreat rod 21A and the up / down advance / retreat rod 21B are mounted so as to be rotatable and advanceable / retreatable with respect to the first housing 2 and the second housing 3, and the left / right packing 19A and the up / down packing 19B. To keep it watertight.

  The left / right ball part 5A of the left / right advance / retreat rod 21A and the up / down ball part 5B of the up / down advance / retreat rod 21B are fitted to the left / right ball recess 9A and the up / down ball recess 9B of the mirror holder base 16. Thereby, the mirror holder base 16 can tilt in the left-right direction and the up-down direction.

  As shown in FIG. 2, the speed reduction mechanism includes a left / right worm 22A and an up / down worm 22B attached to the rotation shafts of the left / right motor 20A and the up / down motor 20B, and a left / right worm 22A and an up / down worm 22B. The left and right helical gears 23A and 23B are in mesh with each other.

  The left and right helical gears 23A and the vertical helical gears 23B are rotatable with respect to the first housing 2 and the second housing 3 and are not movable in the forward / backward direction of the left / right advance / retreat rod 21A and the up / down advance / retreat rod 21B. It is attached.

  The left and right helical gears 23A and the vertical helical gears 23B have a hollow shape. In the hollow portions of the left and right helical gears 23A and the vertical helical gears 23B, the left / right advance / retreat rods 21A and the up / down advance / retreat rods 21B are respectively arranged. The left and right helical gears 23A and the vertical helical gears 23B are provided with a plurality of, in this example, four left and right through holes 24A and up and down through holes 24B.

  As shown in FIG. 2, the advancing / retracting mechanism includes left and right screw holes 25A and vertical screw holes 25B provided in the second housing 3, and base ends (left and right) of the left / right advance / retreat rod 21A and the vertical advance / retreat rod 21B. Left and right elastic engaging claws 26A and upper and lower elastic engaging claws 26B provided on the opposite side of the tip provided with the upper and lower ball parts 5A and 5B, the left and right springs 27A and the upper and lower springs 27B. It is composed of

  The left and right elastic engagement claws 26A and the vertical elastic engagement claws 26B have the left and right through holes 24A and the upper and lower through holes 24B by their own elastic action and the spring actions of the left and right springs 27A and 27B. Is always elastically engaged with the screws of the left and right screw holes 25A and the upper and lower screw holes 25B. The left / right advance / retreat rod 21 </ b> A and the up / down advance / retreat rod are brought into contact with the left and right elastic engagement claws 26 </ b> A and the vertical elastic engagement claws 26 </ b> B with the edges of the left / right through holes 24 </ b> A and 24 </ b> B. The left and right helical gears 23A and 23B and the vertical helical gears 23B rotate synchronously.

  As shown in FIG. 3, the female connector (power unit 1) includes two female terminals 28 incorporated in the left and right motors 20A and 20B, respectively, and an insulation for holding a total of four female terminals 28. The first housing 2 and the second housing 3 are configured as a sex female holder.

  The second housing 3 as a female holder is provided with four insertion holes 29 corresponding to the four female terminals 28, respectively. The second housing 3 is provided with left and right fitting portions 30 </ b> A and vertical fitting portions 30 </ b> B so as to surround the two insertion holes 29.

  On the other hand, as shown in FIG. 3, the left and right male connectors 31 </ b> A and the vertical male connector 31 </ b> B have two male terminals 32 and 32 and a part of the two male terminals 32 and 32 projected outward. In the state, it is comprised from the insulating male holder 33 which hold | maintains the said two male terminals 32 and 32, respectively. The male holder 33 is provided with a first fitting portion 34 that is fitted to the left / right fitting portion 30A and the vertical fitting portion 30B of the female holder (second housing 3).

  Harnesses 15 and 15 are connected to the two male terminals 32 and 32, respectively. As shown in FIGS. 5 and 6, the male terminal 32 to which the harness 15 is connected includes a harness connection part 35 to which the harness 15 is connected and a terminal connection part 36 to be connected to the female terminal 28. ing. The harness connecting portion 35 and the terminal connecting portion 36 are bent substantially at a right angle. The terminal connection portion 36 is provided with a retaining portion 37 by cutting and raising a part thereof. The retaining portion 37 prevents the male terminal 32 from being detached from the male holder 33.

  As shown in FIGS. 5, 6, 9, and 10, a second fitting portion that fits in the insertion hole 29 is formed at the base portion of the male holder 33 with the protruding portion of the male terminal 32. 38 is provided integrally.

  The insertion direction of the protruding portion of the male terminal 32 (the direction in which the protruding portion of the male terminal 32 is inserted into the female terminal 28, on the lower outer surface of the second fitting portion 38 and the lower inner surface of the insertion hole 29, Tapered surfaces 39 and 40 are formed, the widths of which decrease in the direction A in the direction of the arrow A).

  The insertion hole 29 is sized to fit the second fitting portion 38, and is a test for testing a device (left and right motor 20A and vertical motor 20B) on the female connector (power unit 1) side. It also serves as an insertion hole for inserting a terminal (not shown).

  The male holder 33 includes a separate connector holder 41 and a connector cover 42.

  The connector holder 41 has a plate-shaped base structure as shown in FIGS. The connector holder 41 is provided with two temporary holding through holes 43. The connector holder 41 is provided with two temporary holding recesses 44 in a state of being substantially orthogonal to the temporary holding through hole 43. Further, a retaining step 45 is provided on the inner side surface of the temporary holding through hole 43. Furthermore, third fitting portions 46 for fitting with the connector cover 42 are respectively provided at the centers on both sides of the connector holder 41.

  The connector cover 42 forms a cover structure that covers the connector holder 41 as shown in FIGS. 12 to 15, 17, 18, 20, and 23. That is, the connector cover 42 has a structure in which one surface (lower surface) side is open and the other surface (upper surface) side is closed, and a double standing wall, an inner standing wall 47 and an outer standing wall 48 are provided.

  The height of the inner standing wall 47 and the height of a part of the outer standing wall 48 are substantially the same height. Note that the height of the other part of the outer standing wall 48 (having a U-shape) is higher than the height of the inner standing wall 47 and a part of the outer standing wall 48. The high portion of the outer standing wall 48 also serves as guide means 58 described later.

  The outer standing wall 48 also serves as the first fitting portion 34 that fits to the left / right fitting portion 30A and the upper / lower fitting portion 30B of the female holder (second housing 3). The double standing walls 47 and 48 are provided with notches 49 for drawing out the harness 15. In addition, lance-shaped elastic fitting portions 50 as fitting portions that are fitted to the third fitting portions 46 of the connector holder 41 are provided at the centers on both sides of the inner standing wall 47.

  As shown in FIG. 11, FIG. 12, FIG. 16 and FIG. 17, the terminal connection portion 36 of the male terminal 32 is inserted in the insertion direction A into the temporary holding through hole 43 of the connector holder 41. A part of the terminal connecting portion 36 is projected outward from the temporary holding through hole 43 of the connector holder 41. Further, the retaining portion 37 of the male terminal 32 is fixed to the retaining step 45 of the connector holder 41. At the same time, the harness connecting portion 35 and the harness 15 of the male terminal 32 are housed in the temporary holding recess 44 of the connector holder 41. As a result, the male terminal 32 can be temporarily held by the connector holder 41 with a part of the male terminal 32 protruding outward from the connector holder 41.

  As shown in FIGS. 12 to 15, 17, and 18, the connector cover 42 is fitted and covered in the insertion direction A to the connector holder 41 that temporarily holds the male terminal 32. That is, the connector holder 41 and the male terminal 32 are housed in a standing wall 47 inside the connector cover 42. The harness 15 is fitted into the notch 49 of the connector cover 42 and pulled out from the male holder 33. Further, the elastic fitting portion 50 of the connector cover 42 is elastically fitted to the third fitting portion 46 of the connector holder 41. At this time, the third fitting portion 46 and the elastic fitting portion 50 bend as shown by the arrows in FIG. As a result, the male terminal 32 can be permanently held by the connector holder 41, the connector cover 42, and the male holder 33 with a part of the male terminal 32 protruding outward from the connector holder 41. it can.

  As shown in FIGS. 7 and 8, the male holder 33 and the female holder (second housing 3) are fitted to the central portion of the male holder 33 and the central portion of the second housing 3 as a female holder. There is provided a lock mechanism for detachably locking.

  In other words, the locking mechanism on the male holder 33 side is composed of a pair of lance-shaped elastic engagement claws 51 provided integrally at the center of the connector holder 41. On the other hand, as shown in FIG. 4, a small square opening 52 is provided in the center of the left and right fitting portions 30A and the vertical fitting portion 30B of the female holder (second housing 3). A standing wall 53 is integrally provided around the opening 52. Further, a pair of engaging step portions 54 as a locking mechanism are integrally provided on the inner surfaces of the standing wall 53 and the opening 52.

  The male holder 33 and the female holder (second housing 3) are provided with a third fitting portion 46 of the connector holder 41 when the lock mechanism (elastic engagement claw 51 and engagement step portion 54) is unlocked. And a holding mechanism for holding the fitting state of the connector cover 42 with the elastic fitting portion 50.

  That is, the left and right fitting portions 30A and the vertical fitting portion 30B of the female holder (second housing 3) have a structure of double standing walls, an inner standing wall 55 and an outer standing wall 56. The double standing walls 55 and 56 are provided with notches 57 for drawing out the harness 15. The height of the outer standing wall 56 is higher than the height of the inner standing wall 55. The inner standing wall 55 on the female holder (second housing 3) side, the outer standing wall 56, and the outer standing wall 48 on the male holder 33 side also serve as the holding mechanism.

  The elastic engagement claw 51 and the engagement step portion 54 of the lock mechanism, the double standing walls 47 and 48 of the male holder 33 surrounding the male terminal 32 and the female terminal 28, and the female holder (second housing 3). These double standing walls 55 and 56 also serve as waterproof walls. Further, the standing wall 53 surrounding the opening 52 also serves as a waterproof wall.

  The male terminal 33 and the female holder (second housing 3) are engaged with each other before the male terminal 32 is inserted into the female terminal 28, and the male terminal 32 is inserted into the female terminal 28. Guide means 58 and 59 are provided to provide a guide. The guide means 58, 59 includes a long (high) guide convex portion 58 of the standing wall 48 outside the male holder 33, a left / right fitting portion 30A and a vertical fitting of the female holder (second housing 3). It consists of a guide recess 59 which is long (deep) in the groove between the inner standing wall 55 and the outer standing wall 56 of the joint portion 30B.

  The guide convex portion 58 and the guide concave portion 59 as the guide means are the elastic engagement claw 51 and the engagement step portion 54 of the lock mechanism, the outer standing wall 48 surrounding the male terminal 32 and the female terminal 28, and the It consists of a part of the double standing walls 55 and 56 and also serves as a waterproof wall.

  As shown in FIGS. 4 to 6, there are a center part on both sides of the outer standing wall 48 on the male holder 33 side and a center part on both sides of the outer standing wall 56 on the female holder (second housing 3) side. The fitting convex part 60 and the fitting recessed part 61 which are mutually fitted are provided.

  As shown in FIGS. 2, 9, and 10, the second housing 3 has an inner side in the axial direction of the left and right worms 22 </ b> A and 22 </ b> B of the left and right motors 20 </ b> A and 20 </ b> B. On the other hand, positioning protrusions 62 for positioning the left and right are integrally provided. The positioning convex portion 62 is provided corresponding to the bottom of the groove between the inner standing wall 55 and the outer standing wall 56.

  The structure of the terminal in this embodiment is configured as described above, and its operation will be described below.

  As shown in FIG. 4, the first fitting portions 34, 34 of the male holders 33, 33 of the male connector 31A for left and right and the male connector 31B for upper and lower are connected to the female holder (second housing 3) of the female connector (power unit 1). The left and right fitting portions 30A and the upper and lower fitting portions 30B are fitted in the arrow A direction.

  Then, as shown in FIGS. 6 and 10, first, the guide convex portion 58 and the guide concave portion 59 are engaged with each other. At the same time, the terminal connection portion 36 of the male terminal 32 is inserted into the insertion hole 29 of the female holder (second housing 3) in the direction of arrow A.

  Next, as shown in FIG. 5 and FIG. 9, the terminal connection portion 36 of the male terminal 32 is connected to the left and right motors 20 </ b> A and the up / down direction while being guided by the guide action of the mutual engagement between the guide convex portion 58 and the guide concave portion 59. It is directly inserted into the female terminal 28 of the motor 20B. At the same time, the second fitting portion 38 of the male holder 33 is fitted into the insertion hole 29 of the female holder (second housing 3). Further, the tapered surface 39 of the second fitting portion 38 and the tapered surface 40 of the insertion hole 29 are fitted in the same manner.

  On the other hand, as shown in FIGS. 7 and 8, the elastic engagement claw 51 of the lock mechanism is once bent and elastically restored to elastically engage with the engagement step portion 54.

  Accordingly, as shown in FIGS. 5, 7, and 9, the first fitting portions 34 and 34 of the male holders 33 and 33 of the left and right male connectors 31 </ b> A and the vertical male connector 31 </ b> B and the female connector (power unit 1) The female fitting (second housing 3) of the right and left fitting portion 30A and the vertical fitting portion 30B are fitted to each other. At this time, the fitting convex portion 60 on the male holder 33 side and the fitting concave portion 61 on the female holder (second housing 3) side are fitted to each other.

  That is, the double standing walls 47 and 48 on the male holder 33 side and the double standing walls 55 and 56 on the female holder (second housing 3) side are fitted to each other alternately. Further, the harness 15 is pulled out through the notch 49 on the male holder 33 side and the notch 57 on the female holder (second housing 3) side. Further, the male terminal 32 and the female terminal 28 are electrically connected. As a result, the left and right motors 20A and the up and down motors 20B are ready to supply power.

  Here, power is supplied to the left / right motor 20A or the up / down motor 20B by remote control from the driver's seat of the automobile. Then, the left / right motor 20A is driven and the left / right advance / retreat rod 21A advances / retreats, and accordingly, the mirror unit passes through the center of the pivot mechanism 10 with respect to the power unit 1 via the mirror holder base 16 (see FIG. Tilt right and left around (not shown). Alternatively, the vertical motor 20B is driven so that the vertical rod 21B moves forward and backward, and accordingly, the mirror unit passes through the center of the pivot mechanism 10 with respect to the power unit 1 via the mirror holder base 16 (see FIG. Tilt up and down around (not shown).

  Next, the first fitting portions 34, 34 of the male holders 33, 33 of the left and right male connectors 31A and the vertical male connector 31B are fitted to the left and right fittings of the female holder (second housing 3) of the female connector (power unit 1). Pull out in the opposite direction to the arrow A from the mating portion 30A and the vertical fitting portion 30B. Then, as shown in FIG. 8, the elastic engagement claw 51 of the lock mechanism is bent to be out of the elastic engagement state with the engagement step portion 54. Accordingly, the first fitting portions 34, 34 of the male holders 33, 33 of the left and right male connectors 31A and the vertical male connector 31B are fitted to the left and right fittings of the female holder (second housing 3) of the female connector (power unit 1). It can be extracted from the mating portion 30A and the upper and lower fitting portions 30B. At the time of the above-mentioned extraction, a tool or the like (not shown) is hooked on the fitting convex portion 60 on the male holder 33 side and extracted.

  Since the structure of the terminal in this embodiment is constituted as described above, the following effects can be achieved.

  That is, in the terminal structure in this embodiment, the portion of the terminal connection portion 36 of the protruding portion of the male terminal 32 that is located in the insertion hole 29 from the base portion with the male holders 33 and 41 is the second fitting portion 38. Covered by. Thereby, since the exposed part among the terminal connection parts 36 of the protrusion part of the male terminal 32 is very small compared with the structure of the conventional connector, it becomes difficult to adhere water and dust. For this reason, it is extremely rare that water and dust adhering to the exposed portion of the male terminal 32 enter the connecting portion between the male terminal 32 and the female terminal 28, which is electrically preferable. Thus, the terminal structure in this embodiment is excellent in waterproof effect and dustproof effect.

  Further, in the terminal structure in this embodiment, since the second fitting portion 38 fits in the insertion hole 29, the fitting between the second fitting portion 38 and the insertion hole 29 allows the male terminal 32 and the female to be fitted. The terminal 28 can be securely inserted without rattling. Therefore, the electrical connection between the male terminal 32 and the female terminal 28 is reliable.

  Further, the structure of the terminal in this embodiment is as follows in the insertion direction A of the terminal connecting portion 36 of the protruding portion of the male terminal 32 between the outer surface of the second fitting portion 38 and the inner surface of the insertion hole 29. Tapered surfaces 39 and 40 having a narrow width are formed. As a result, in the terminal structure in this embodiment, the fitting between the second fitting portion 38 and the insertion hole 29 is further ensured. For this reason, the male terminal 32 and the female terminal 28 can be securely inserted and electrically connected without any further. In addition, it is possible to reliably prevent water and dust from entering the female holder (second housing 3) through the firm fitting of the second fitting portion 38 and the insertion hole 29. The effect is further improved.

  In addition, the terminal structure in this embodiment is such that a test terminal (not shown) for testing the equipment (left and right motor 20A, vertical motor 20B) on the female connector (power unit 1) side of the insertion hole 29 is used. Also serves as an insertion hole for insertion. As a result, the terminal structure in this embodiment can reduce the number of insertion holes 29 provided in the female holder (second housing 3). Accordingly, the waterproof effect and the dustproof effect are further improved.

  The terminal structure in this embodiment is such that the male terminal 32 is temporarily held by the connector holder 41 and then the male terminal 32 is permanently held by the connector holder 41 and the connector cover 42. For this reason, the holding | maintenance assembly | attachment of the male terminal 32 and the male holder 33 can be performed reliably, and stabilization of the holding | maintenance assembly operation of the male terminal 32 and the male holder 33 is achieved.

  Further, in the terminal structure in this embodiment, the male holder 33 and the female holder (second housing 3) are provided with an elastic engagement claw 51 and an engagement step portion 54 as a lock mechanism, respectively. In addition, when the lock is released, a holding mechanism (the inner standing wall on the female holder (second housing 3) side that holds the fitting state of the third fitting portion 46 of the connector holder 41 and the elastic fitting portion 50 of the connector cover 42. 55, an outer standing wall 56 and an outer standing wall 48) on the male holder 33 side are provided.

  As a result, the structure of the terminal in this embodiment is that the male holder 33 and the female holder (second housing 3) are arranged even though the male holder 33 is composed of the separate connector holder 41 and the connector cover 42. When releasing the locked state, the connector holder 41 and the connector cover 42 of the male holder 33 are not separated.

  That is, as shown in FIG. 7 and FIG. 8, the periphery of the third fitting portion 46 of the connector holder 41 and the elastic fitting portion 50 of the connector cover 42 that are elastically fitted to each other is the holding mechanism (fitted to each other). The inner standing wall 55 on the female holder (second housing 3) side, the outer standing wall 56, and the outer standing wall 48 on the male holder 33 side are surrounded. For this reason, even when the elastic engagement claw 51 of the lock mechanism bends and disengages from the engagement step portion 54, the holding mechanism is used to move the outer side of the elastic engagement portion 50 even if the elastic engagement portion 50 tries to spread outward. The spread to is suppressed.

  Therefore, the male holder 32 can be reliably extracted from the female holder (second housing 3). In addition, when the male holder 33 is removed from the female holder (second housing 3), the connector holder 41 and the connector cover 42 of the male holder 33 are not easily separated, so that the connector holder 41 and the connector cover 42 of the male holder 33 are not separated. Quality is stable.

  Further, the terminal structure in this embodiment has a waterproof wall (double standing walls 47 and 48 on the male holder 33 side, a female holder (second A double standing wall 55, 56 and a standing wall 53) on the housing 3) side are provided. Thereby, although the male holder 33 and the female holder (second housing 3) are provided with the elastic engagement claw 51 and the engagement step portion 54 of the lock mechanism, the elastic engagement claw 51 of the lock mechanism and There is a waterproof effect on the engaging step portion 54.

  Similarly, the terminal structure in this embodiment has a waterproof wall (double standing walls 47 and 48 on the male holder 33 side, and female holder (second housing 3) side around the male terminal 32 and the female terminal 28. Double standing walls 55 and 56 and a standing wall 53) are provided. Thereby, there is a waterproof effect on the male terminal 32 and the female terminal 28.

  The terminal structure in this embodiment is guided by the guide convex portion 58 and the guide concave portion 59 of the guide means when the male terminal 32 is inserted into the female terminal 28. Thereby, the structure of the terminal in this embodiment can reduce the burden on the male terminal 32 and the female terminal 28, and can prevent the male terminal 32 and the female terminal 28 from being damaged.

  In the terminal structure in this embodiment, both the waterproof wall and the guide means are used. That is, the outer standing wall 48 on the male holder 33 side serves as both the waterproof wall and the guide convex portion 58. Further, the inner standing wall 55 and the outer standing wall 56 on the female holder (second housing 3) side form a waterproof wall, and the groove between them forms a guide recess 59. This simplifies the structure.

  In particular, the terminal structure in this embodiment is such that the harness 15 has a notch 49 in the double standing walls 47 and 48 on the male holder 33 side and a notch 57 in the double standing walls 55 and 56 on the female holder (second housing 3) side. It is pulled out through. As a result, the structure of the terminal in this embodiment has a waterproofing effect on a portion where the harness 15 is pulled out from the male holder 33 and the female holder (second housing 3).

  Further, the terminal structure in this embodiment is provided with a positioning projection 62 inside the second housing 3. For this reason, the structure of the terminal in this embodiment can position the left and right motors 20A and the vertical motors 20B with respect to the axial direction of the left and right worms 22A and the vertical worms 22B.

  The left and right worms 22A and 22B are engaged with the left and right helical gears 23A and the vertical helical gears 23B. Directional play is suppressed.

  Moreover, the positioning convex part 62 is provided corresponding to the bottom part of the groove | channel between the inner standing wall 55 and the outer standing wall 56 by the side of a female holder (2nd housing 3). For this reason, the structure is simple.

  Hereinafter, examples other than the above-described embodiment will be described. This embodiment shows an example used for the structure of a power unit 1 of a remote control mirror device for automobiles, that is, a two-piece type connector. However, the connector structure of the present invention can be applied to other than the power unit 1 of the automotive remote control type mirror device, for example, a one-piece type connector structure or a three-piece or more type connector structure.

It is a disassembled perspective view of the spring, mirror holder base, and 1st housing which show the Example of the structure of the connector of this invention. Similarly, it is a disassembled perspective view which shows a packing, a forward / backward rod, a spring, a helical gear, a motor and a worm, and a second housing. Similarly, it is a disassembled perspective view which shows a male connector and a 2nd housing. It is a partially expanded perspective view which shows the male holder fitting part of a male connector, and the fitting part of the female holder of a female connector. It is a partial sectional view showing the state where the male terminal of the male connector and the female terminal of the female connector are electrically connected. It is a partial cross section figure which shows the state which inserts or pulls out a male connector in a female connector. It is a partial cross section figure in which a locking mechanism shows a locked state. It is a partial cross section figure which shows when the locked state of a locking mechanism is cancelled | released. It is the IX-IX sectional view taken on the line in FIG. It is the XX sectional view taken on the line in FIG. It is sectional drawing which shows the state which incorporates a male terminal in a connector holder. It is sectional drawing which shows the state which incorporates a connector cover in the connector holder which temporarily hold | maintains a male terminal. It is sectional drawing which shows the state which hold | maintains a male terminal by a connector holder and a connector cover. It is sectional drawing which shows the state before elastically fitting the elastic fitting part of a connector cover to the 3rd fitting part of a connector holder. It is sectional drawing which shows the state which elastically fitted the elastic fitting part of the connector cover to the 3rd fitting part of the connector holder. It is the XVI-XVI sectional view taken on the line in FIG. It is the XVII-XVII sectional view taken on the line in FIG. It is the XVIII-XVIII sectional view taken on the line in FIG. It is a top view which shows the connector holder which temporarily hold | maintains a male terminal. It is a top view which shows a connector cover. It is a top view which shows the connector holder and connector cover which hold | maintain a male terminal book. It is a perspective view which shows a connector holder. It is a perspective view which shows a connector cover. It is a top view which shows the assembly | attachment state of a connector holder and a connector cover. It is a partially broken side view which shows the example which used the structure of the connector for the power unit of the remote control-type mirror apparatus for motor vehicles. It is a structure of the conventional connector, Comprising: It is a partial cross section figure which shows the state which inserts or pulls out a male connector in a female connector. It is the structure of the conventional connector, Comprising: It is a partial cross section figure which shows the state in which the male terminal of a male connector and the female terminal of a female connector are electrically connected.

Explanation of symbols

1 Power unit (female connector)
2 First housing (female holder)
3 Second housing (female holder)
4 Advancing and retreating rod for up and down 5 Sphere part 5A Left and right sphere part 5B Up and down sphere part 6 Mirror unit 7 Mirror body 8 Mirror holder 9 Sphere recess 9A Left and right sphere recess 9B Vertical sphere recess 10 Pivot mechanism 11 Guide mechanism 12 Connector 13 Male Connector 14 Male holder 15 Harness 16 Mirror holder base 17 Spring 18A Left / right opening 18B Up / down opening 19A Left / right packing 19B Up / down packing 20A Left / right motor 20B Up / down motor 21A Left / right advance / retreat rod 21B Up / down advance / retreat rod 22A Left / right worm 22B Vertical worm 23A Left and right helical gear 23B Vertical helical gear 24A Left and right through hole 24B Up and down through hole 25A Left and right screw hole 25B Up and down screw hole 26A Left and right elastic engaging claw 26B Up and down elastic engaging claw 2 A Left and right spring 27B Up and down spring 28 (280) Female terminal 29 (290) Insertion hole 30A Left and right fitting part 30B Up and down fitting part 31A Left and right male connector 31B Up and down male connector 32 (320) Male terminal 33 Male Holder 34 First fitting portion 35 Harness connection portion 36 Terminal connection portion 37 Retaining portion 38 Second fitting portion 39 Tapered surface 40 Tapered surface 41 Connector holder 42 Connector cover 43 Temporary holding through hole 44 Temporary holding recess 45 Detachment Stop step portion 46 Third fitting portion 47 Inside standing wall 48 Outside standing wall 49 Notch 50 Elastic fitting portion 51 Elastic engagement claw (lock mechanism)
52 Opening 53 Standing Wall 54 Engagement Step (Lock Mechanism)
55 Inner standing wall 56 Outer standing wall 57 Notch 58 Guide convex part 59 Guide concave part 60 Fitting convex part 61 Fitting concave part 62 Positioning convex part A Insertion direction

Claims (4)

It has a male connector and a female connector,
The male connector is composed of a male terminal and an insulating male holder that holds the male terminal,
The female connector is composed of a female terminal and an insulating female holder that holds the female terminal,
In the connector for electrically connecting the male terminal and the female terminal by inserting the male terminal into the female terminal,
A lock mechanism for removably locking the fitting between the male holder and the female holder is provided at the central portion of the male holder and the central portion of the female holder, and the peripheral portion of the male holder and the On the periphery of the female holder, a waterproof wall surrounding the lock mechanism is provided,
The lock mechanism comprises an elastic engagement claw provided in the male holder, and an engagement step provided in the female holder,
The waterproof wall includes a double standing wall provided on the male holder, and a double standing wall provided on the female holder and alternately and alternately engaged with the double standing wall of the male holder. And consist of,
A connector structure characterized by that. The double standing wall of the male holder and the double standing wall of the female holder are each provided with a notch for pulling out a harness connected to the male terminal.
The structure of the connector according to claim 1. A part of the standing wall outside the double standing wall of the male holder has a convex portion higher than the other part, and a part of the groove of the double standing wall of the female holder is more than the other part. A deep concave portion is formed, and the convex portion and the concave portion are engaged with each other before inserting the male terminal into the female terminal, and serve as a guide when inserting the male terminal into the female terminal.
The connector structure according to claim 1, wherein the connector has a structure. A bottom portion of the groove of the double standing wall of the female holder forms a convex portion that protrudes into the female holder and determines a position of a component built in the female holder;
The structure of the connector according to claim 1, wherein the connector has a structure.

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