JP2012003871A - Connector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connector which can be designed to have a waterproof feature, and which can prevent detachment of a contact even when force toward a direction to pull out a cable is applied to the contact.SOLUTION: A connector comprises: a plurality of contacts 100 each of which is connected with a cable 50; a housing 200 which accommodates the contacts 100 inserted along a front/rear direction (X-direction: first direction); and a retainer 300 inserted in the housing 200 along the front/rear direction and held by the housing 200. The retainer 300 is held by the housing 200 in such a way that the retainer 300 can assume two positions, i.e., a temporary position to permit the insertion of the contact 100 into the housing 200 along the front/rear direction, and a fixed position different from the temporary position in the vertical direction (Z-direction: second direction). When the retainer 300 moves from the temporary position to the fixed position, the retainer 300 retains the contact 100 inside the housing 200.

Description

  The present invention relates to a connector for holding and fixing a plurality of contacts inside a housing by a retainer.

  An example of this type of connector is disclosed in Patent Document 1. The connector disclosed in Patent Document 1 includes a plurality of contacts to which cables are respectively connected, a housing that houses the contacts, a spacer (retainer) for holding and fixing the contacts inside the housing, and a front end of the contacts inside the housing And a front holder for holding the side. The housing is formed with a spacer accommodating portion that opens at the bottom and accommodates the spacer. After the contact to which the cable is connected is accommodated in the housing from the rear end side of the housing, the contact is held and fixed inside the housing by inserting the spacer into the spacer accommodating portion from the bottom side of the housing.

  A connector having a waterproof function is disclosed in Patent Document 2. The connector of patent document 2 is provided with the member called a retainer. However, the retainer of Patent Document 2 is a member corresponding to the front holder of the connector of Patent Document 1, and the member corresponding to the spacer (retainer) of Patent Document 1 is not provided in Patent Document 2.

Japanese Patent Laid-Open No. 2003-17174 JP 2003-123890 A

  In the connector of Patent Document 1, since the opening for retaining the retainer is formed at the bottom of the housing, it cannot have a waterproof function like the connector of Patent Document 2.

  On the other hand, since the connector of Patent Document 2 is not provided with a spacer (retainer) as in Patent Document 1, the contact is damaged and pulled out when a force in the direction of pulling out the cable is applied to the contact. There is a fear.

  Therefore, the present invention has an object to provide a connector that can be provided with a waterproof function and that can prevent the contact from falling off even when a force in the direction of pulling out the cable is applied to the contact. And

According to the present invention, as the first connector,
A connector comprising a plurality of contacts, a housing for accommodating the contacts inserted along a first direction, and a retainer inserted into the housing along the first direction and held by the housing,
The retainer has a temporary position that allows the contact to be inserted into the housing along the first direction, and a fixed position that is different from the temporary position in a second direction orthogonal to the first direction. A connector held in the housing is obtained so that a fixed position for holding and fixing in the housing can be taken.

According to the present invention, the second connector is a first connector,
The retainer is provided with a retainer engaging portion,
The housing engages with the retainer engaging portion in the second direction to engage the retainer engaging portion in the second direction and engages with the retainer engaging portion in the second direction. A main engagement portion for positioning the retainer at the fixed position;
After the contact is inserted into the housing along the first direction with the retainer engaging portion and the temporary engaging portion engaged in the second direction, the retainer engaging portion and the The engagement with the temporary engagement portion is released to move the retainer from the temporary position to the fixed position along the second direction, and the retainer engagement portion and the main engagement portion in the second direction. To obtain a connector configured to maintain the retainer in the fixed position.

Moreover, according to the present invention, the third connector is a second connector,
The housing is provided with a housing engaging portion,
The housing engaging portion has two engaging surfaces in the second direction;
One of the engaging surfaces functions as the temporary engaging portion, and the other of the engaging surfaces provides a connector that functions as the main engaging portion.

Moreover, according to the present invention, the fourth connector is a third connector,
When the retainer is in the temporary position, the retainer is provided with a connector further provided with a holding portion that holds the housing engaging portion in the second direction together with the retainer engaging portion.

According to the present invention, the fifth connector is a third or fourth connector,
The retainer includes two arm portions extending along the first direction,
The retainer engaging portion is located at the tip of the arm portion in the first direction, and protrudes outward in a third direction orthogonal to both the first direction and the second direction. Is formed,
The housing is formed with an arm portion accommodating portion capable of accommodating the arm portion,
An elastic part that can be bent in the third direction is provided in the vicinity of the tip of the arm part accommodating part in the first direction,
In the elastic portion, a connector having the housing engaging portion formed so as to protrude inward in the third direction is obtained.

According to the present invention, the sixth connector is a fifth connector,
As for the said arm part, the connector accommodated in the said arm part accommodating part in the state by which the movement and deformation | transformation in the said 3rd direction were controlled is obtained.

Further, according to the present invention, as the seventh connector, any one of the first to sixth connectors,
The retainer is formed with a guided portion,
The housing is formed with a guide portion for guiding movement of the guided portion along the first direction,
The guide portion guides movement of the guided portion in the second direction while restricting movement of the guided portion until the retainer reaches the temporary position, while the retainer reaches the temporary position. And a connector configured to allow movement of the guided portion in the second direction.

According to the present invention, the eighth connector is a seventh connector,
The guided portion has a ridge shape protruding in a third direction orthogonal to both the first direction and the second direction and extending along the first direction,
The guide portion includes a first restricting portion and a second restricting portion that are provided so as to be separated from each other in the second direction and face each other according to the size of the guided portion in the second direction. ,
The retainer is guided toward the temporary position along the first direction by moving the retainer so as to pass the guided portion between the first restricting portion and the second restricting portion. Connector is obtained.

According to the present invention, the ninth connector is an eighth connector,
In the retainer, an interference part is formed in the vicinity of the end of the guided part,
The interference part is configured to get over the second restricting part when the retainer is positioned at the temporary position;
Even if the retainer tries to return from the temporary position toward the outside of the housing, a connector is obtained in which the interference portion interferes with the second restricting portion and the retainer is prevented from moving along the first direction. .

According to the present invention, as the tenth connector, any one of the first to ninth connectors,
The first direction is a front-back direction of the connector;
The contact is inserted from the rear end of the housing toward the inside of the housing along the first direction,
The retainer is inserted from the rear end of the housing toward the temporary position along the first direction,
The connector further includes a front cap attached to the front end of the housing along the first direction;
The front cap is provided with a transmission protrusion extending along the first direction,
When the front cap is attached to the housing, the transmission protrusion converts the movement of the front cap along the first direction into a force along the second direction and transmits the force to the retainer. A connector for moving the retainer from the temporary position toward the fixed position is obtained.

According to the present invention, the eleventh connector is a tenth connector,
The tip of the transmission protrusion is provided with a transmission surface that obliquely crosses both the first direction and the second direction,
When the front cap is moved along the first direction, the transmission surface is pressed against the retainer, whereby a connector is obtained in which the retainer is moved from the temporary position to the fixed position.

  The retainer by this invention is inserted in a housing from the direction similar to the insertion direction (1st direction: front-back direction) to the housing of a contact. That is, the part opened in the direction orthogonal to the insertion direction as in the connector of Patent Document 1 is not provided for inserting the retainer. Therefore, for example, a waterproof function can be easily added by inserting a seal member into the housing following the retainer.

  In addition, the retainer according to the present invention can take a temporary position and a fixed position in the housing. By moving the retainer in the temporary position in a direction perpendicular to the insertion direction, the retainer is moved to the fixed position and contacted. Since the retainer is held and fixed in the housing, the retainer can prevent the contact from falling off even when a force in the direction of pulling out the cable (the direction opposite to the insertion direction) is transmitted to the contact through the cable.

It is a disassembled perspective view which shows the connector by embodiment of this invention. It is a perspective view which shows the connector of FIG. It is a perspective view which shows the contact contained in the connector of FIG. It is a perspective view which shows the housing contained in the connector of FIG. It is an expansion perspective view which shows a part of housing of FIG. It is a front view which shows the housing of FIG. It is an enlarged front view which shows a part of housing of FIG. It is sectional drawing which shows the housing of FIG. 6 along the VIII--VIII line. It is a perspective view which shows the retainer contained in the connector of FIG. FIG. 10 is a cross-sectional view showing the retainer of FIG. 9 along line X--X. It is a partially cutaway perspective sectional view showing one state of the process of inserting the retainer into the housing. FIG. 12 is a partially cutaway perspective sectional view showing a state following the state of FIG. 11. FIG. 13 is a partially cutaway perspective sectional view showing a state following the state of FIG. 12. It is an enlarged front view which shows a part of state of FIG. FIG. 14 is a perspective sectional view showing the connector in the state of FIG. 13. However, the contact has not yet been inserted. FIG. 16 is a perspective cross-sectional view showing a state in which contacts are inserted into the connector of FIG. 15. It is a partially cutaway perspective sectional view showing a state following the state of FIG. It is an enlarged front view which shows a part of state of FIG. FIG. 18 is a perspective sectional view showing the connector in the state of FIG. 17. However, the contact has not yet been inserted. FIG. 20 is a perspective cross-sectional view showing a state where contacts are inserted into the connector of FIG. 19. It is sectional drawing which shows the front cap contained in the connector of FIG. It is sectional drawing which shows the attachment process of a front cap. Here, the retainer is in a temporary position. It is sectional drawing which shows the connector with which the front cap was attached. Here, the retainer is in a fixed position.

  1 and 2, a connector 10 according to an embodiment of the present invention has a waterproof function, and includes a contact 100 connected to a cable 50, and a housing 200 made of an insulator that accommodates the contact 100. , A retainer 300 made of an insulator housed in the housing 200, a first seal member (grommet) 400 made of rubber held in the housing 200, a rear cover 500 made of an insulator held in the housing 200, and the housing 200 A second seal member (sealing) 600 made of rubber attached to the front side of the housing 200 and a front cap 700 made of an insulator attached to the front end of the housing 200 are provided.

  Referring to FIG. 3, the contact 100 is obtained by punching and bending a single metal plate, and includes a rectangular tube-shaped box portion 110 extending in the front-rear direction (X direction: first direction), and a box A locked portion 120 formed of an opening provided in an upper portion of the portion 110 (one portion of the box portion 110 in the Z direction (second direction)), and a held portion 130 provided behind the box portion 110. A connecting portion 140 provided further rearward of the held portion 130 and connected to the conductor 52 of the cable 50, and a gripping portion 150 gripping the insulator (covering portion) 54 of the cable 50 behind the connecting portion 140. ing. As will be described later, the contact 100 is inserted into the housing 200 along the front-rear direction.

  Here, as is apparent from FIG. 3, the contact 100 according to the present embodiment is a female contact. However, the present invention is not limited to this, and may be a male contact as long as it has a portion that functions as the held portion 130 in relation to the retainer 300 described later.

  4 to 8, the housing 200 includes a main part 210, a hood part 220 spaced from the main part 210 in a plane orthogonal to the front-rear direction, and a mating connector (not shown). And a lock lever 225 for maintaining a fitted state in cooperation with a lock portion provided in the mating connector at the time of fitting.

  As best shown in FIG. 8, the main portion 210 includes a contact housing portion 212 extending rearward from the front end 201 of the housing 200, a retainer housing portion 230 positioned behind the contact housing portion 212, and A seal member accommodating portion 240 located behind the retainer accommodating portion 230 and a rear cover accommodating portion 250 located behind the seal member accommodating portion 240 are provided. Here, the contact accommodating portion 212 is a portion that mainly accommodates the box portion 110 of the contact 100, and the retainer accommodating portion 230 is a portion that accommodates a main portion 310 (described later) of the retainer 300, and the seal member accommodating portion 240. Is a part for accommodating the first seal member 400, and the rear cover accommodating part 250 is a part for accommodating the rear cover 500.

  As is clear from FIG. 8, the contact accommodating portion 212 communicates with the rear end 202 of the housing 200 via the retainer accommodating portion 230, the seal member accommodating portion 240, and the rear cover accommodating portion 250. Inside the main portion 210 of the housing 200, a lance 214 extending obliquely downward and forward in the contact accommodating portion 212 is formed. When the contact 100 is inserted into the contact accommodating portion 212 from the rear end 202 side of the housing 200, the lance 214 is locked to the locked portion 120 formed on the upper portion of the box portion 110. This is a part for preventing 100 from moving backward (−X direction).

  As understood from FIGS. 6 and 8, arm portion accommodating portions 232 extending in the X direction are formed on both sides of the retainer accommodating portion 230 in the left-right direction (Y direction: third direction). Each arm housing portion 232 extends to the front end 201. That is, each arm portion accommodating portion 232 communicates the front end 201 of the housing 200 with the retainer accommodating portion 230.

  As shown in FIG. 4 to FIG. 7, there is elasticity that can be bent in the left-right direction near the front end (tip in the X direction) of each arm portion accommodating portion 232 and outside in the left-right direction (Y direction: third direction). A portion 260 is provided. The elastic part 260 in the present embodiment has a plate-like shape. Each elastic portion 260 is formed with a housing engaging portion 270 that protrudes inward in the left-right direction. Each housing engaging portion 270 has two engaging surfaces 272 and 274 in the vertical direction (Z direction: second direction).

  As shown in FIG. 8, FIG. 11 to FIG. 13 and FIG. 17, the arm portion accommodating portion 232 according to the present embodiment is further provided with a guide portion 280. The guide portion 280 includes a first restricting portion 282 that extends forward from the left and right sides of the retainer accommodating portion 230 and a second restricting portion 284 that is located on both sides of the retainer accommodating portion 230 in the left and right direction. The first restricting portion 282 and the second restricting portion 284 are provided so as to be separated from each other and face each other in the vertical direction. In particular, each second restricting portion 284 extends in the vertical direction and protrudes inward in the horizontal direction. Each second restricting portion 284 according to the present embodiment has a rear surface that is oblique to both the front-rear direction and the left-right direction, and has a substantially pentagonal cross section in a plane orthogonal to the vertical direction. ing.

  Referring to FIGS. 9 and 10, the retainer 300 includes a main portion 310 and a substantially plate-like arm portion 320 that extends forward from both left and right sides of the main portion 310. Here, the size of the main portion 310 in the front-rear direction and the left-right direction corresponds to the size of the retainer accommodating portion 230. On the other hand, the size of the main portion 310 in the vertical direction is smaller than the size of the retainer accommodating portion 230. Therefore, as can be understood from FIGS. 8, 15, and 19, the main portion 310 can move in the vertical direction within the retainer accommodating portion 230.

  As shown in FIGS. 9 and 10, the main portion 310 is formed with a through hole 312 and a holding portion 314. The through hole 312 and the holding portion 314 are provided corresponding to the contact accommodating portion 212. As shown in FIG. 10, the through hole 312 passes through the main portion 310 in the front-rear direction. As shown in FIGS. 9 and 10, the holding portion 314 extends so as to protrude forward from the vicinity of the upper portion of the front end of the through hole 312. The holding portion 314 is finally located behind the held portion 130 of the contact 100 and is for holding and fixing the contact 100 in the housing 200.

  Referring to FIGS. 11 to 14 and FIGS. 17 and 18, the size of the arm part 320 in the vertical direction is smaller than the minimum size in the vertical direction of the main part of the arm part accommodating part 232 (part excluding the guide part 280). . That is, as can be understood from FIGS. 13 and 17, the arm accommodating portion 232 according to the present embodiment has a space in which the arm 320 can move up and down in front of the second restricting portion 284. .

  As shown in FIG. 9, a guided portion 330 is formed on the arm portion 320. The guided portion 330 is located at the upper end of the arm portion 320. The guided portion 330 protrudes outward in the left-right direction and extends along the front-rear direction. As can be understood from FIGS. 11 to 13, 17, 14, and 18, the thickness in the left-right direction of the arm portion 320 including the guided portion 330 is equal to the size in the left-right direction of the arm portion housing portion 232. It corresponds. Therefore, when the arm part 320 is accommodated in the arm part accommodating part 232, movement and deformation in the left-right direction of the arm part 320 are restricted.

  Further, the size of the guided portion 330 in the vertical direction is, as understood from FIGS. 11 to 13 and 17, the first restricting portion 282 and the second restricting portion 284 constituting the guide portion 280 of the housing 200. Corresponds to the distance between. Therefore, when the guided portion 330 is inserted between the first restricting portion 282 and the second restricting portion 284, the movement of the guided portion 330 in the vertical direction is restricted. Thereby, the movement of the guided portion 330 along the front-rear direction is guided by the guide portion 280.

  Referring to FIG. 9 again, the arm part 320 is formed with an interference part 340. The interference part 340 is located near the rear end of the arm part 320 and below the guided part 330. In addition, the interference unit 340 has a front surface oblique to both the front-rear direction and the left-right direction, and has a substantially pentagonal cross section in a plane (horizontal plane) orthogonal to the vertical direction. Due to the shape of the interference part 340, it is relatively easy for the interference part 340 located on the rear side of the second restriction part 284 to move over the second restriction part 284, but as a result of the overcoming As a result, even if the interference part 340 on the front side of the second restriction part 284 attempts to move to the rear side beyond the second restriction part 284 (even if it tries to return), it interferes with the second restriction part 284, which is difficult.

  Further, the arm part 320 is formed with a pressed part 322 and a concave part 325. The pressed part 322 according to the present embodiment is located in the upper part on the front end side of the arm part 320 and obliquely crosses both in the front-rear direction and in the up-down direction. Further, the recess 325 according to the present embodiment is located at a position relatively close to the front end of the arm part 320 and penetrates the arm part 320 in the left-right direction.

  Referring to FIG. 9, a retainer engagement portion 350 and a clamping portion 360 are formed at the tip of the arm portion 320 (specifically, in front of the guided portion 330).

  As shown in FIG. 9, the retainer engaging portion 350 has a ridge shape that protrudes outward in the left-right direction and extends in the front-rear direction. The retainer engaging portion 350 is positioned on the upper engaging surface 272 of the housing engaging portion 280 when the guided portion 330 is guided by the guide portion 280 and the retainer 300 moves horizontally into the housing 200. So that it is arranged. Note that the position of the retainer 300 when the retainer engagement portion 350 is in contact with the engagement surface 272 of the housing engagement portion 280 is referred to as a “temporary position” in the present embodiment. In other words, the engaging surface 272 functions as a temporary engaging portion that engages with the retainer engaging portion 350 to place the retainer 300 at the temporary position.

  When the retainer 300 horizontally moves to the temporary position (moves along the X direction), the interference unit 340 gets over the second restricting unit 284 as described above. Therefore, for example, as shown in FIG. 13, the guided portion 330 is released from the restriction of the vertical movement by the guide portion 280 (specifically, the downward movement by the second restriction portion 284).

  When the retainer 300 is in the temporary position, as shown in FIGS. 15 and 16, the main portion of the retainer 300 is positioned relatively on the upper side in the retainer housing portion 230. At this time, the holding portion 314 is located at a position that allows (does not inhibit) the insertion of the contact 100 into the housing 200.

  As shown in FIG. 9, like the retainer engaging portion 350, the clamping portion 360 has a ridge shape that protrudes outward in the left-right direction and extends in the front-rear direction. The retainer engaging portion 350 and the clamping portion 360 are provided apart from each other in the vertical direction. The distance in the vertical direction between the retainer engaging portion 350 and the clamping portion 360 corresponds to the size in the vertical direction of the housing engaging portion 270 of the housing 200. Therefore, when the retainer engaging portion 350 is positioned on the upper engaging surface 272 of the housing engaging portion 270 (when the retainer 300 is positioned at the temporary position), the holding portion 360 is 270 is in contact with the lower engagement surface 274. That is, when the retainer engaging portion 350 is positioned on the upper engaging surface 272 of the housing engaging portion 270, the housing engaging portion 270 is sandwiched between the retainer engaging portion 350 and the sandwiching portion 360. By this clamping, rattling of the retainer 300 located at the temporary position is prevented.

  As described above, the size in the vertical direction of the main portion of the arm portion accommodating portion 232 is larger than the size in the vertical direction of the arm portion 320. Therefore, when the engagement between the retainer engagement portion 350 and the engagement surface (temporary engagement portion) 272 is released, the arm portion 320 is in the vertical direction (particularly in the present embodiment, downward). It is movable. When the arm portion 320 moves downward, the retainer engaging portion 350 and the housing engaging portion 270 are turned upside down compared to when the retainer 300 is in the temporary position, and the lower side of the housing engaging portion 270 is moved. The engaging surface 274 is engaged with the retainer engaging portion 350. The position of the retainer 300 at this time is referred to as a “fixed position”. In other words, the engagement surface 274 functions as a main engagement portion that positions the retainer 300 at a fixed position by engaging with the retainer engagement portion 350. As is clear from this description and FIGS. 14 and 18, the temporary position and the fixed position are different in the vertical direction.

  When the retainer 300 is in the fixed position, as shown in FIGS. 19 and 20, the main portion of the retainer 300 is located relatively lower in the retainer accommodating portion 230. At this time, the holding portion 314 is located on the rear side of the box portion 110 of the contact 100 accommodated in the contact accommodating portion 212. When the contact 100 is to be pulled out rearward, the holding portion 314 is in contact with the held portion 130. In contact, the movement of such a contact 100 is obstructed. In other words, when the retainer 300 is in the fixed position, the holding portion 314 is located on the rear side of the held portion 130, and the contact 100 is held and fixed in the housing 200.

  Referring to FIGS. 8, 15, and 19, the rear cover 500 corresponds to the size of the rear cover housing portion 250, and the first seal member 400 is larger than the size of the seal member housing portion 240 in a plane orthogonal to the front-rear direction. Somewhat big. For this reason, when the first seal member 400 is accommodated in the seal member accommodating portion 240, the first seal member 400 is slightly compressed in a plane orthogonal to the front-rear direction. Referring to FIGS. 1, 15, and 19, a plurality of through holes 410 are formed in the first seal member 400, and a plurality of through holes 510 are formed in the rear cover 500. The through hole 410 and the through hole 510 correspond to the through hole 312 of the retainer 300 as shown in FIGS. 15 and 19. That is, the through hole 410 and the through hole 510 also correspond to the contact accommodating portion 212.

  As shown in FIGS. 15 and 19, when the retainer 300, the first seal member 400, and the rear cover 500 are housed in the retainer housing portion 230, the seal member housing portion 240, and the rear cover housing portion 250 of the housing 200, contact accommodation is performed. The portion 212 communicates with the rear end 202 of the housing 200 through the through holes 312, 410, 510.

  When the retainer 300 is in the temporary position, as shown in FIG. 15, the holding portion 314 is in a position that allows the contact 100 to move in the front-rear direction. Therefore, as shown in FIG. 16, the contact 100 can be inserted into the housing 200 from the rear end 202 of the housing 200.

  In the state shown in FIG. 16, the lance 214 is locked to the locked portion 120 of the contact 100, but there is no other means for preventing the contact 100 from moving backward (−X direction).

  Here, as can be understood from FIGS. 15, 16, 19, and 20, the contact accommodating portion 212, the through hole 410, and the through hole 510 have a size or a size corresponding to the part of the contact 100 or the cable 50 to be held. It has a slightly smaller size. Therefore, the contact 100 or the cable 50 cannot move vertically and horizontally in the contact accommodating portion 212, the through hole 410, and the through hole 510. On the other hand, the through hole 312 of the retainer 300 is larger than the corresponding contact 100 and cable 50 parts. Therefore, even if the retainer 300 moves in the vertical direction in the housing 200, the contact 100 and the cable are not subjected to undesirable pressure by the inner wall of the through hole 312.

  When the retainer 300 is in the temporary position and the contact 100 is inserted into the housing 200 as shown in FIG. 16, if a downward force (−Z direction) is applied to the arm portion 320, the elastic portion 260 is bent outward in the left-right direction, whereby the engagement between the retainer engagement portion 350 and the housing engagement portion 270 is released. As a result, the retainer 300 moves downward (along the −Z direction) from the temporary position to the fixed position. As shown in FIG. 20, when the retainer 300 is in the fixed position, the holding portion 314 is located on the rear side of the held portion 130. Accordingly, the contact 100 is prevented from moving backward by the holding portion 314 in addition to the lance 214. Therefore, as compared with the case where only the lance 214 is used, the retainer 300 is provided, so that the contact 100 is more reliably prevented from falling off. In addition, the retainer 300 according to the present embodiment is inserted into the housing 200 along the insertion direction (front-rear direction: first direction) of the contact 100, and the first seal member 400 and the rear cover 500 are attached from behind. Therefore, unlike the connector of Patent Document 1, the incorporation of the retainer 300 does not become an obstacle when providing a waterproof function.

  As shown in FIG. 1, the second seal member 600 is annular. That is, the second seal member 600 has only one opening. As shown in FIGS. 15, 16, 19, and 20, the second seal member 600 is attached around the main portion 210 of the housing 200 and in the hood portion 220. The second seal member 600 is compressed when the mating connector (not shown) and the connector 10 are fitted to thereby exert a sealing function.

  As shown in FIGS. 1 and 21, the front cap 700 includes a substantially bat-shaped main portion 710, a through hole 720 that penetrates the main portion 710 along the front-rear direction, and an upper side of each through hole 720. A pressing projection 730 extending rearward from the left side, a convex portion 740 protruding inward from both side walls in the left-right direction of the main portion, and a transmission projection 750 extending rearward from the main portion 710. The front cap 700 is attached to the housing 200 so that the main portion 710 covers the front end 201 of the main portion 210 of the housing 200. The through hole 720 corresponds to the contact accommodating portion 212. The presser projection 730 is accommodated in the contact accommodating portion 212 when the front cap 700 is attached to the housing 200 in which the contact 100 is incorporated. Thereby, since the upper part of the box part 110 of the contact 100 is pressed by the pressing protrusion 730, the play of the contact 100 is further prevented. The convex portion 740 is a portion that fits into the concave portion 325 of the arm portion 320 when the front cap 700 is attached to the housing 200.

  The transmission protrusion 750 of the front cap 700 plays a role of a jig for moving the retainer 300 as described above from the temporary position to the fixed position. In the left-right direction, the transmission protrusion 750 is provided on both outer sides of the through-holes 720 arranged. positioned. That is, the transmission protrusion 750 is provided so as to correspond to the arm portion 320 in the left-right direction. Note that the position of the transmission protrusion 750 in the vertical direction is slightly higher than the position of the arm portion 320 in the vertical direction.

As shown in FIG. 21, a transmission surface 752 that obliquely crosses both in the front-rear direction (X direction) and in the up-down direction (Z direction) is formed below the tip of each transmission protrusion 750. The transmission surface 752 is a part that presses the pressed part 322 of the arm part 320, and the movement of the transmission protrusion 750 in the front-rear direction is downward with respect to the arm part 320 of the retainer 300 via the pressed part 322. It is for transmitting as a heading force (see FIG. 22). By inserting the transmission protrusion 750 into the housing 200 along the front-rear direction, the retainer 300 is moved from the temporary position toward the fixed position (see FIGS. 22 and 23).
In addition, this invention is not necessarily limited to the transmission surface 752 and the to-be-pressed part 322 mentioned above, Only either one of the transmission surface 752 or the to-be-pressed part 322 is the front-back direction (X direction) and an up-down direction (Z direction). ), Or both of them may be rounded. However, the force along the front-rear direction when the front cap 700 is attached to the housing 200 is applied to the retainer 300 as a downward force. On the other hand, in order to transmit efficiently, it is desirable that both of them obliquely cross in both the front-rear direction (X direction) and the vertical direction (Z direction) as in this embodiment.

  Although the embodiment of the present invention has been specifically described above, the present invention is not limited to this. For example, although the connector according to the embodiment has a waterproof function, the present invention is also applicable to the connector of Patent Document 1 that does not have a waterproof function.

  Moreover, although the connector by embodiment mentioned above has a front cap, this invention is applicable also to the type of connector which does not have a front cap. In this case, for example, a jig may be inserted from the front end side of the connector, and the retainer may be moved from the temporary position to the fixed position or vice versa.

DESCRIPTION OF SYMBOLS 10 Connector 50 Cable 52 Conductor 54 Insulator 100 Contact 110 Box part 120 Locked part 130 Holding part 140 Connection part 150 Holding part 200 Housing 201 Front end 202 Rear end 210 Main part 212 Contact accommodating part 214 Lance 220 Hood part 225 Lock Lever 230 Retainer accommodating portion 232 Arm portion accommodating portion 240 Seal member accommodating portion 250 Rear cover accommodating portion 260 Elastic portion 270 Housing engaging portion 272 Engaging surface (temporary engaging portion)
274 Engagement surface (main engagement part)
280 Guide part 282 First restriction part 284 Second restriction part 300 Retainer 310 Main part 312 Through hole 314 Holding part 320 Arm part 322 Pressed part 325 Recessed part 330 Guided part 340 Interference part 350 Retainer engaging part 360 Clamping part 400 First 1 seal member 410 through-hole 500 rear cover 510 through-hole 600 second seal member 700 front cap 710 main portion 720 through-hole 730 presser projection 740 convex portion 750 transmission projection 752 transmission surface

Claims (11)

A connector comprising a plurality of contacts, a housing for accommodating the contacts inserted along a first direction, and a retainer inserted into the housing along the first direction and held by the housing,
The retainer has a temporary position that allows the contact to be inserted into the housing along the first direction, and a fixed position that is different from the temporary position in a second direction orthogonal to the first direction. A connector held by the housing so that a fixed position for holding and fixing the inside of the housing can be taken. The connector according to claim 1,
The retainer is provided with a retainer engaging portion,
The housing engages with the retainer engaging portion in the second direction to engage the retainer engaging portion in the second direction and engages with the retainer engaging portion in the second direction. A main engagement portion for positioning the retainer at the fixed position;
After the contact is inserted into the housing along the first direction with the retainer engaging portion and the temporary engaging portion engaged in the second direction, the retainer engaging portion and the The engagement with the temporary engagement portion is released to move the retainer from the temporary position to the fixed position along the second direction, and the retainer engagement portion and the main engagement portion in the second direction. A connector configured to maintain the retainer in the fixed position by engaging the. The connector according to claim 2,
The housing is provided with a housing engaging portion,
The housing engaging portion has two engaging surfaces in the second direction;
One of the engagement surfaces functions as the temporary engagement portion, and the other of the engagement surfaces functions as the main engagement portion. The connector according to claim 3, wherein
The connector, wherein the retainer is further provided with a holding portion that holds the housing engaging portion in the second direction together with the retainer engaging portion when the retainer is in the temporary position. The connector according to claim 3 or claim 4, wherein
The retainer includes two arm portions extending along the first direction,
The retainer engaging portion is located at the tip of the arm portion in the first direction, and protrudes outward in a third direction orthogonal to both the first direction and the second direction. Is formed,
The housing is formed with an arm portion accommodating portion capable of accommodating the arm portion,
An elastic part that can be bent in the third direction is provided in the vicinity of the tip of the arm part accommodating part in the first direction,
The connector in which the housing engaging portion is formed on the elastic portion so as to protrude inward in the third direction. The connector according to claim 5, wherein
The said arm part is a connector accommodated in the said arm part accommodating part in the state in which the movement and deformation | transformation in the said 3rd direction were controlled. The connector according to any one of claims 1 to 6,
The retainer is formed with a guided portion,
The housing is formed with a guide portion for guiding movement of the guided portion along the first direction,
The guide portion guides movement of the guided portion in the second direction while restricting movement of the guided portion until the retainer reaches the temporary position, while the retainer reaches the temporary position. And a connector configured to allow movement of the guided portion in the second direction. The connector according to claim 7, wherein
The guided portion has a ridge shape protruding in a third direction orthogonal to both the first direction and the second direction and extending along the first direction,
The guide portion includes a first restricting portion and a second restricting portion that are provided so as to be separated from each other in the second direction and face each other according to the size of the guided portion in the second direction. ,
The retainer is guided toward the temporary position along the first direction by moving the retainer so as to pass the guided portion between the first restricting portion and the second restricting portion. Connector. The connector according to claim 8, wherein
In the retainer, an interference part is formed in the vicinity of the end of the guided part,
The interference part is configured to get over the second restricting part when the retainer is positioned at the temporary position;
The connector that prevents the retainer from moving along the first direction by the interference portion interfering with the second restricting portion even when the retainer returns from the temporary position toward the outside of the housing. The connector according to any one of claims 1 to 9,
The first direction is a front-back direction of the connector;
The contact is inserted from the rear end of the housing toward the inside of the housing along the first direction,
The retainer is inserted from the rear end of the housing toward the temporary position along the first direction,
The connector further includes a front cap attached to the front end of the housing along the first direction;
The front cap is provided with a transmission protrusion extending along the first direction,
When the front cap is attached to the housing, the transmission protrusion converts the movement of the front cap along the first direction into a force along the second direction and transmits the force to the retainer. A connector for moving the retainer from the temporary position toward the fixed position. The connector according to claim 10, wherein
The tip of the transmission protrusion is provided with a transmission surface that obliquely crosses both the first direction and the second direction,
A connector that moves the retainer from the temporary position to the fixed position by pressing the transmission surface against the retainer when the front cap moves along the first direction.

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