JP2023019545A - charging connector - Google Patents

Abstract

To provide a technology capable of facilitating work of attaching a grommet.SOLUTION: A charging connector comprises: a power terminal; a signal terminal; a housing that holds the power terminal and the signal terminal; a retainer combined with the housing; a relay terminal electrically connected with the power terminal, and extending in a direction crossing an inserting/drawing-out direction of an external charging connector; an electric power line electrically connected with the power terminal via the relay terminal; a signal line electrically connected with the signal terminal; and a grommet covering from a rear end part of the housing to an intermediate part of the electric power line and the signal line collectively. The grommet is provided with an opening lying over the rear end part of the housing. The retainer has a wall protruding along the inserting/drawing-out direction. The wall has a regulation wall that regulates the position of the relay terminal. A reinforcement rib is provided on an outer surface of an end part in a direction the relay terminal extends, of the regulation wall. The grommet has a flange part provided around the opening.SELECTED DRAWING: Figure 11

Description

The present disclosure relates to charging connectors.

Patent Literature 1 discloses an inlet assembly provided in a vehicle that uses an external power supply to charge an internal power storage device. A grommet is attached to the rear side of the inlet base described in Patent Document 1.

JP 2011-175764 A

Grommet installation work is troublesome.

Therefore, it is an object of the present invention to provide a technique that facilitates the grommet mounting work.

A charging connector of the present disclosure is a charging connector that is mounted on a vehicle, is mated with an external charging connector that is connected to an external power source of the vehicle, and is used for charging a battery that is provided in the vehicle, wherein the battery is charged. holding first and second power terminals used for power supply, a plurality of signal terminals, the first and second power terminals and the plurality of signal terminals, and extending along the insertion/removal direction of the external charging connector a housing mating with the external charging connector at its front end; a retainer united with the rear end of the housing to hold the first and second power terminals and the plurality of signal terminals together with the housing; first and second relay terminals electrically connected to respective rear end portions of the first and second power terminals and extending in a direction intersecting with the insertion/removal direction; and the first and second relay terminals. First and second power lines electrically connected to the first and second power terminals, respectively, and a plurality of signal lines electrically connected to the plurality of signal terminals, respectively, via and a grommet that collectively covers from the rear end portion of the housing to intermediate portions of the power line and the signal line, and the grommet is provided with an opening that covers the rear end portion of the housing. , the retainer has a wall projecting along the inserting/removing direction, the wall has a restricting wall for restricting the position of the relay terminal, and an end portion of the restricting wall in the direction in which the relay terminal extends. An outer surface of the grommet is provided with reinforcing ribs, and the grommet has a collar provided around the opening.

According to the present disclosure, grommet mounting work is facilitated.

FIG. 1 is a plan view showing a charging connector according to Embodiment 1 and its assembly mode. FIG. 2 is a perspective view showing the charging connector according to Embodiment 1. FIG. FIG. 3 is an exploded perspective view showing the charging connector according to Embodiment 1. FIG. 4 is a front view showing the charging connector according to the first embodiment; FIG. 5 is a cross-sectional view taken along line VV of FIG. 4. FIG. FIG. 6 is a diagram for explaining an electric wire with a terminal and its housing position. FIG. 7 is a diagram illustrating wire paths in the charging connector. FIG. 8 is a front view showing a grommet. FIG. 9 is a perspective view showing how the grommet is temporarily held by the retainer. FIG. 10 is a rear view of the housing. FIG. 11 is a plan view showing how the grommet is attached to the housing and retainer. FIG. 12 is a plan view showing how the grommet is temporarily held by the retainer. FIG. 13 is a rear view showing a charging connector according to a modification.

[Description of Embodiments of the Present Disclosure]
First, the embodiments of the present disclosure are listed and described.

The charging connector of the present disclosure is as follows.

(1) A charging connector that is mounted on a vehicle, is mated with an external charging connector that is connected to an external power source of the vehicle, and is used to charge a battery provided in the vehicle, and is used to supply power to the battery. holding the first and second power terminals, a plurality of signal terminals, the first and second power terminals and the plurality of signal terminals, and holding the first and second power terminals and the plurality of signal terminals at the front end portion along the insertion/removal direction of the external charging connector; a housing for mating with an external charging connector; a retainer united with the rear end of the housing to hold the first and second power terminals and the plurality of signal terminals together with the housing; through first and second relay terminals electrically connected to respective rear end portions of two power terminals and extending in a direction intersecting the insertion/removal direction; and through the first and second relay terminals, first and second power lines electrically connected to each of the first and second power terminals; a plurality of signal lines electrically connected to each of the plurality of signal terminals; and the housing. and a grommet that collectively covers from the rear end of the power line and intermediate portions of the signal line, the grommet is provided with an opening that covers the rear end of the housing, and the retainer is a wall protruding along the inserting/removing direction, the wall having a restricting wall for restricting the position of the relay terminal; A reinforcing rib is provided and the grommet is a charging connector having a collar provided around the opening. When the grommet is attached, the peripheral edge of the opening in the grommet can be temporarily held by being hooked on the reinforcing ribs of the retainer wall. Also, when attaching the grommet, an operator can work while holding the flange. These make it easier to attach the grommet.

(2) In the charging connector of (1), the restricting wall has a first restricting wall and a second restricting wall facing each other across the relay terminal, and the reinforcing rib provided on the first restricting wall. , and the reinforcing ribs provided on the second restricting wall may be formed in directions opposite to each other. As a result, when the grommet is attached, the peripheral edge of the opening of the grommet is likely to catch on the reinforcing ribs of the retainer.

(3) In the charging connector of (1) or (2), the grommet is provided with a drain port that opens in a direction that intersects with the insertion/removal direction, and the wall extends the rear end portion of the retainer into the first discharge port. and a first area corresponding to the second power terminal and the plurality of signal terminals, and a partition wall that partitions the second area located closer to the drain port than the first area, wherein the tip of the partition wall A portion may abut the inner surface of the grommet. As a result, the space in which the terminals are located and the space in which the drain port is located are separated by the lower wall and the grommet, making it difficult for dust and the like entering the grommet from the drain groove to reach the space in which the terminals are located.

(4) In the charging connector of (3), the insertion/removal direction, the direction in which the drain port opens, and the direction in which the power line extends inside the grommet may be directions that intersect each other. Accordingly, when the grommet is arranged so that the drain port faces vertically downward, the power line extends in a direction that intersects the vertically downward direction, so water is less likely to enter from the outlet of the power line.

(5) In the charging connector according to any one of (1) to (4), the housing includes a housing body holding the first and second power terminals and the plurality of signal terminals, and bolts to the vehicle. a vehicle attachment portion used for fastening, the vehicle attachment portion including a flange portion projecting outward from the housing body, and first and second ribs projecting from the flange portion in the insertion/removal direction. and the grommet has a projection provided outside the opening covering the housing and projecting toward the vehicle mounting portion, the projection being fitted between the first and second ribs. good too. This prevents the grommet and the housing from rotating.

(6) In the charging connector of (5), the vehicle mounting portion has a connecting rib that connects the first and second ribs, and the protrusions are arranged at positions avoiding the connecting ribs. It may fit between the second ribs. As a result, the rigidity of the mounting portion is increased by the connecting ribs while the rotation is stopped by the projections.

(7) In the charging connector according to any one of (1) to (6), the housing includes a housing body holding the first and second power terminals and the plurality of signal terminals, and bolts to the vehicle. a vehicle mounting portion used for fastening, the vehicle mounting portion having a flange portion projecting outward from the housing body and a plurality of ribs projecting from the flange portion in the insertion/removal direction; The flange portion has a first mounting hole and a second mounting hole closer to the housing body than the first mounting hole. may be provided so as to be higher in rigidity than the portion where the first mounting hole is formed. Since the second mounting hole is closer to the cylindrical portion of the housing than the first mounting hole, the force applied from the vehicle to the portion where the second mounting hole is formed is greater than the force applied to the portion where the first mounting hole is formed. Prone. Even in this case, cracking or the like of the vehicle mounting portion is suppressed by increasing the rigidity of the portion where the second mounting hole is formed.

[Details of the embodiment of the present disclosure]
A specific example of the charging connector of the present disclosure will be described below with reference to the drawings. The present disclosure is not limited to these examples, but is indicated by the scope of the claims, and is intended to include all modifications within the scope and meaning equivalent to the scope of the claims.

[Embodiment 1]
The charging connector according to the first embodiment will be described below.

<About the vehicle>
First, a vehicle in which a charging connector is incorporated will be described.

A vehicle in which the charging connector is incorporated is an electric vehicle that includes a power storage device and a motor. The vehicle runs by driving the motor with the electric power of the power storage device. The vehicle may be an electric vehicle having only a motor as a drive source, or a hybrid vehicle having a motor and an engine. A power storage device in a vehicle is charged with electric power supplied from an external power supply. The charging connector is configured such that an external charging connector can be inserted and electrically connected. The external charging connector is a connector for a charging cable extending from an external power supply.

Generally, there are normal charging and rapid charging as modes of charging a power storage device in a vehicle. Rapid charging enables charging in a shorter time than normal charging by allowing a larger current to flow than normal charging. For normal charging, it is assumed that a household power source or an equivalent external power source is used. In rapid charging, it is assumed that a dedicated power supply such as a charging stand is used. The charging connector of the present disclosure will be described as a charging connector that supports rapid charging.

<Charging connector in vehicle>
Referring to FIG. 1, a manner of assembling a charging connector in a vehicle will be described. FIG. 1 is a plan view showing a charging connector 10 according to Embodiment 1 and its assembly mode.

Charging connector 10 is attached, for example, to attachment portion 100 provided on the outer surface of the body of the vehicle. An example of the mounting portion 100 is shown in FIG. The mounting portion 100 is formed, for example, in a concave shape in which a part of a panel forming the body is concave inside the vehicle. A through hole 104 is formed in the bottom panel 102 of the mounting portion 100 .

A connecting portion with an external charging connector is provided on the front side of the charging connector 10 . The connecting portion includes a portion into which an external charging connector is inserted and electrically connected. A portion of charging connector 10 , including the connection portion, penetrates through hole 104 and is exposed to the outside of panel 102 . Another part of charging connector 10 is arranged inside the vehicle rather than panel 102 . Usually, the mounting portion 100 is provided with a vehicle body side cover 106 . The vehicle body side cover 106 is attached by a hinge or the like so as to be openable and closable. The vehicle body side cover 106 covers the opening of the panel 102 when the vehicle body side cover 106 is closed. When the vehicle body side cover 106 is opened, the charging connector 10 is exposed and can be accessed from the outside.

In the present disclosure, as shown in FIG. 1, of the X, Y, and Z directions that are orthogonal to each other, the X direction is parallel to the direction in which the charging connector 10 penetrates the through hole 104 of the panel 102. be. The charging connector 10 and the external charging connector are connected in the X direction. The Z direction is, for example, the vertical direction. For example, when charging connector 10 is provided on the side of the vehicle, the Y direction is the front-rear direction of the vehicle. For example, when charging connector 10 is provided on the front or rear surface of the vehicle, the Y direction is the width direction of the vehicle. In the following description, the members that are not in the attached state are also explained according to the directions corresponding to the X, Y, and Z directions when they are in the attached state.

<Overall composition>
The overall configuration of charging connector 10 will be described with reference to FIGS. 2 to 7 in addition to FIG. FIG. 2 is a perspective view showing the charging connector 10 according to Embodiment 1. FIG. FIG. 3 is an exploded perspective view showing the charging connector 10 according to Embodiment 1. FIG. FIG. 4 is a front view showing the charging connector 10 according to Embodiment 1. FIG. 5 is a cross-sectional view taken along line VV of FIG. 4. FIG. FIG. 6 is a diagram for explaining the terminal-equipped wire 38 and its accommodating position. FIG. 7 is a diagram illustrating the route of the electric wire 30 in the charging connector 10. As shown in FIG. Note that the electric wire 30 is omitted in FIG. Also, in FIG. 6, some of the electric wires 38 with terminals are omitted.

Charging connector 10 includes terminal 20 , electric wire 30 , thermistor unit 40 , housing 50 , retainer 60 , electric wire cover 70 , lid unit 80 and grommet 90 .

<Terminal>
Terminals 20 include connector terminals 21 and relay terminals 28 . Connector terminals 21 are accommodated in housing 50 . The connector terminals 21 are connected to terminals of the mating connector. The number and type of connector terminals 21 are appropriately set according to the standard of charging connector 10 and the like. In the example of this embodiment, two power terminals 22 , six signal terminals 24 and one ground terminal 26 are provided as connector terminals 21 . The relay terminal 28 is interposed between the power terminal 22 and the electric wire 30 . The relay terminals 28 are provided in the same number as the power terminals 22 (here, two). Each terminal 20 is formed by pressing (bending) a metal plate. The two power terminals 22 are an example of first and second power terminals. The two relay terminals 28 are examples of first and second relay terminals. Either one of the two power terminals 22 may be used as the first power terminal. Either of the two relay terminals 28 may be the first relay terminal.

The power terminal 22 has a mating connection portion 23a, a terminal fixing portion 23b, and a projecting portion 23c. The power terminal 22 further has a thermistor mounting portion 23d. The signal terminal 24 has a mating connection portion 25a, a wire connection portion 25b, and a projecting portion 25c. The ground terminal 26 has a mating connection portion 27a, a wire connection portion 27b, and a projecting portion 27c. The relay terminal 28 has a terminal fixing portion 29a and a wire connecting portion 29b.

The mating connection portions 23a, 25a, and 27a are portions electrically connected to connector terminals of the external charging connector. Holes through which the screws S can be inserted are formed in the terminal fixing portions 23b and 29a. The power terminal 22 and the relay terminal 28 are electrically connected and fixed by being fixed by screws S at the terminal fixing portions 23b and 29a. The wire connection portions 25b, 27b, and 29b are crimp portions. The signal terminal 24, the ground terminal 26, and the relay terminal 28 are crimped to the corresponding ends of the wires 30 by wire connection portions 25b, 27b, and 29b, respectively. Thereby, the signal terminal 24 , the ground terminal 26 and the relay terminal 28 are fixed while being electrically connected to the corresponding electric wires 30 . Projections 23 c , 25 c , and 27 c are provided in intermediate portions of each connector terminal 21 . The projecting portions 23 c , 25 c , 27 c are portions held down by the retainer 60 . The thermistor mounting portion 23d is a portion to which the thermistor unit 40 is mounted.

<Electric wire>
One end of each wire 30 is connected to the terminal 20 . The other end of each electric wire 30 extends outside from the grommet 90 . With the charging connector 10 mounted on the vehicle, the other end of each electric wire 30 is connected to another device mounted on the vehicle. Such a device is appropriately set according to the type of the electric wire 30, and is assumed to be, for example, a battery, an electronic control unit (ECU), or the like. The number and types of wires 30 correspond to the number and types of connector terminals 21 . In the example of this embodiment, the wires 30 include two power lines 32 , six signal lines 34 and one ground line 36 . One end of the power line 32 is connected to the relay terminal 28 . The power line 32 is connected to the power terminal 22 via the relay terminal 28 . One end of the signal line 34 is connected to the signal terminal 24 . One end of the ground wire 36 is connected to the ground terminal 26 . One end of the thermistor electric wire 44 is connected to the thermistor 42 .

Each wire 30 is a covered wire. The coated electric wire has a core wire 31a and a coating 31b covering the core wire 31a. The core wire 31a is formed by, for example, twisting a plurality of metal strands. The coating 31b is formed by, for example, extruding an insulating resin around the core wire 31a. A plurality of types of electric wires 30 having different thicknesses are used as the electric wires 30 . The thickness of the electric wire 30 is set according to the allowable current value and the like. Generally, in order to increase the allowable current value, it is necessary to increase the cross-sectional area of the conductor, and the thickness of the electric wire 30 is increased accordingly. Also, the thickness of the electric wire 30 generally correlates with the difficulty of bending the electric wire 30, and the thicker the electric wire 30, the more difficult it is to bend the electric wire 30. For example, when an easy-to-bend electric wire and a hard-to-bend electric wire are bent by the same angle, the radius of curvature of the hard-to-bend electric wire is larger than that of the easy-to-bend electric wire, and accordingly, a large arrangement space is required.

In this example, the power line 32 is thicker than the ground line 36 and signal line 34 . Therefore, the power line 32 is less likely to bend than the ground line 36 and the signal line 34 . Also, the ground line 36 is thicker than the signal line 34 . Therefore, the ground line 36 is less likely to bend than the signal line 34 .

<Electric wire with terminal>
The terminal 20 and the electric wire 30 are electrically connected to each other by crimping, and are fixed and integrated at a stage in the middle of manufacturing the charging connector 10 . Such an integrated wire 30 and terminal 20 is sometimes called a terminal-equipped wire 38 . In this example, a terminal-attached wire 38 in which the power line 32 and the relay terminal 28 are integrated, a terminal-attached wire 38 in which the signal wire 34 and the signal terminal 24 are integrated, and a terminal in which the ground wire 36 and the ground terminal 26 are integrated An attached wire 38 is provided.

As shown in FIG. 5, the terminal-equipped electric wire 38 may be covered with a shrinkable tube 39 . A shrinkable tube 39 covers the connecting portion between the electric wire 30 and the terminal 20 . As a result, it is possible to prevent water from splashing on the connecting portion between the electric wire 30 and the terminal 20 and water from entering the coating 31b. The shrinkable tube 39 covers, for example, a portion of the terminal 20 in front of the portion to which the electric wire 30 is connected to a portion of the electric wire 30 having the covering 31b. The shrinkable tube 39 is a heat-shrinkable tube 39 that shrinks when heated. The heat-shrinkable tube 39 is put over the terminal-equipped wire 38 in a large-diameter state before being heated. After that, when the heat-shrinkable tube 39 is heated and shrunk, it assumes a shape corresponding to the shape of the connecting portion, thereby being able to adhere to the connecting portion. For example, the inner surface of the heat-shrinkable tube 39 may be provided with a hot-melt adhesive. As a result, the hot-melt adhesive can fill the gap between the heat-shrinkable tube 39 and the terminal 20 and the gap between the heat-shrinkable tube 39 and the wire 30, and the waterproofness of the shrinkable tube 39 is enhanced. The inner surface of the heat-shrinkable tube 39 may not be provided with hot-melt adhesive. In the electric wire 38 with a terminal, the connecting portion between the electric wire 30 and the terminal 20 may be exposed without the shrinkable tube 39 being provided. In the electric wire 38 with a terminal, a resin such as an adhesive may be provided at the connecting portion between the electric wire 30 and the terminal 20 instead of the shrinkable tube 39 .

<Thermistor unit>
The thermistor unit 40 measures the temperature of the power supply circuit. In the charging connector 10 for rapid charging, a large current flows through the power supply circuit for charging the battery, so the temperature of the power supply circuit rises correspondingly. By monitoring the temperature of the power supply circuit using the thermistor unit 40, it is possible to prevent the temperature of the power supply circuit from becoming too high. The thermistor unit 40 has a thermistor 42 and a thermistor wire 44 . In this example, a thermistor 42 is attached to each of the pair of power terminals 22 to measure the temperature of each of the pair of power terminals 22 . One end of the thermistor electric wire 44 is connected to the thermistor 42 . The other end of the thermistor electric wire 44 extends outside from the grommet 90 like the other end of the electric wire 30 . With the charging connector 10 mounted on the vehicle, the other end of the thermistor wire 44 is connected to an ECU or the like, for example. The thermistor wire 44 is thinner than the power wire 32 and the ground wire 36 . Therefore, the thermistor wire 44 is more likely to bend than the power line 32 and the ground wire 36 .

<Housing>
The housing 50 holds the connector terminal 21 at a predetermined position (a position where it can be connected to the connector terminal 21 of the external charging connector). The housing 50 includes a housing body 51 , a vehicle mounting portion 54 and a wire holding portion 57 .

The connector terminals 21 are accommodated in the housing body 51 . The housing body 51 has an outer frame portion 52 and a plurality of terminal holding portions 53 . Each of the plurality of terminal holding portions 53 is formed in a tubular shape capable of accommodating the corresponding connector terminal 21 . The outer frame portion 52 is formed in a tubular shape surrounding the plurality of terminal holding portions 53 . At an intermediate portion of the terminal holding portion 53, the terminal holding portions 53 and the outer frame portion 52 are connected by a flat connecting portion. A lid unit 80 is attached to the front of the housing body 51 . A retainer 60 is attached to the rear of the housing body 51 .

Vehicle mounting portion 54 is a portion for mounting charging connector 10 to mounting portion 100 . The vehicle mounting portion 54 is formed in a plate-like shape protruding around the outer frame portion 52 at the intermediate portion of the housing body 51 . The vehicle attachment portion 54 is attached to the attachment portion 100 by screws S or the like, for example.

The wire pressing portion 57 presses the intermediate portion of the wire 30 extending from the terminal 20 . As a result, the vibration generated in the other end side of the wire 30 from the portion held by the wire holding portion 57 is less likely to be transmitted to the terminal 20, and the contact between the terminal 20 and the housing body 51 is suppressed. A block-shaped arm 56 protrudes in the Y direction from the outer frame portion 52 behind the housing body 51 . A wire pressing portion 57 is provided at the tip portion of the arm 56 along the direction in which the arm 56 protrudes from the housing body 51 . Three wire holding portions 57 are provided. Two of the three wire holding portions 57 hold two power lines 32 , and the remaining one wire holding portion 57 holds one ground wire 36 .

<Retainer>
The retainer 60 prevents the terminals 20 from coming off from the housing 50 . The retainer 60 includes a terminal pressing portion 61 and walls 65 and 66 .

The terminal pressing portion 61 presses the rear of the connector terminal 21 accommodated in the housing 50 . This prevents the connector terminal 21 from coming out of the housing 50 backward. Terminal pressing portion 61 includes a rear cover portion 62 and a plurality of projecting tubular portions 63 .

The rear cover portion 62 closes the rear opening of the outer frame portion 52 . A plurality of through holes are formed in the rear cover portion 62 . A plurality of through holes are formed at positions corresponding to the respective terminal holding portions 53 . Through a through hole corresponding to the power terminal 22, the power terminal 22 and the relay terminal 28 are screwed while being in contact with each other. The relay terminal 28 is arranged on the rear surface of the rear cover portion 62 . A signal line 34 and a ground line 36 are led out from through holes corresponding to the signal terminal 24 and the ground terminal 26 .

A plurality of protruding tubular portions 63 protrude forward (toward the housing 50 ) from the rear cover portion 62 . A plurality of projecting tubular portions 63 are formed at positions corresponding to the respective terminal holding portions 53 . Each projecting tubular portion 63 communicates with each through hole. The tip of each protruding cylindrical portion 63 is inserted into the corresponding terminal holding portion 53 to press the corresponding protruding portions 23c, 25c, 27c from behind.

The walls 65 and 66 protrude rearward from the rear cover portion 62 along the insertion/removal direction. The wall 65 is a regulation wall 65 that regulates the position of the relay terminal 28 . A portion of the relay terminal 28 that is connected to the power terminal 22 is arranged along the regulation wall 65 . The restriction wall 65 partitions the relay terminals 28 from each other. Also, the regulation wall 65 partitions the relay terminal 28 and the signal terminal 24 . The wall 66 is a partition wall 66 that separates the terminal 20 accommodation space and the drainage space inside the grommet 90 .

The housing 50 and the retainer 60 are provided with locking portions. In this example, a locking protrusion formed on the housing 50 and a locking piece formed on the retainer 60 are provided as the locking portions. The housing 50 and the retainer 60 are kept attached to each other by the engagement of the engagement pieces with the engagement projections.

<Electric wire cover>
The wire cover 70 is attached to the wire holding portion 57 . The wire cover 70 prevents the wire 30 from coming off the wire holding portion 57 . The entire periphery of the wire 30 is covered by the wire cover 70 and the wire holding portion 57 . In this embodiment, two wire covers 70 are provided. One of the two wire covers 70 holds down the two power lines 32 . The other wire cover 70 of the two wire covers 70 holds down one ground wire 36 .

<Lid unit>
The lid unit 80 is provided in front of the housing body 51 so as to be openable and closable. The connection port of the housing body 51 is exposed by opening the lid unit 80 . Thereby, an external charging connector can be connected to the charging connector 10 . By closing the lid unit 80 , the connection port of the housing body 51 is closed by the lid unit 80 . The lid unit 80 has a lid 82 , a hinge unit 84 and a lock unit 86 . The lid 82 is attached to the housing body 51 via a hinge unit 84 so as to be openable and closable. A lock unit 86 keeps the lid 82 closed. An operator can operate the lock unit 86 to open the lid 82 during the charging operation.

<Grommet>
Grommet 90 will now be described with reference to FIGS. 1 to 7 and also to FIG. FIG. 8 is a front view showing the grommet 90. FIG.

Grommet 90 covers housing 50 and retainer 60 . Grommet 90 includes a first protector 91 and a second protector 94 . The first protection portion 91 covers the rear end portion of the housing body 51 and the retainer 60 . The second protection portion 94 covers the wire holding portion 57 . The grommet 90 is a flexible member. Grommet 90 is made of an elastomer such as EPDM, for example. The grommet 90 is, for example, an integrally molded product.

A housing drawer port 92 and a drain port 93 are formed in the first protection portion 91 . The housing outlet 92 is an example of an opening that covers the rear end of the housing 50 . The front end of the housing body 51 extends outside the grommet 90 through the housing outlet 92 . The housing outlet 92 is formed in a tubular shape extending in the X direction. Drain port 93 is an opening for draining water that has entered charging connector 10 to the outside. Such water is assumed to enter from the front end portion of the housing body 51 when the lid unit 80 is opened, for example. The drain port 93 is formed in a tubular shape extending in the Z direction.

A binding band 98 is attached to the outer surface of the housing outlet 92 . Grommet 90 is attached to housing 50 by a tie band 98 . An annular rib 92 a is provided on the inner surface of the housing outlet 92 . The annular rib 92a is provided on the inner surface of the housing drawer port 92 over the entire circumference. The annular rib 92a is in close contact with the outer surface of the housing body 51 over the entire circumference. By tightening the housing outlet 92 with the binding band 98 , the annular rib 92 a is compressed between the inner surface of the housing outlet 92 and the outer surface of the housing body 51 . This enhances the waterproofness between the outer surface of the housing main body 51 and the inner surface of the housing outlet 92 .

The grommet 90 has a collar portion 92b and a protrusion 92c. The collar portion 92b and the projection 92c are provided around the housing outlet 92. As shown in FIG.

The flange portion 92b is provided around the distal end side of the housing outlet 92 extending in a cylindrical shape. By providing the collar portion 92b, an operator can grip the collar portion 92b to perform the mounting work of the grommet 90. As shown in FIG. In addition, by providing the flange portion 92b, the binding band 98 is prevented from being displaced toward the distal end side of the housing drawer port 92. As shown in FIG. The collar portion 92b is provided all around the housing outlet 92 . The collar portion 92b may be provided on a part of the periphery of the housing drawer port 92 . The protrusion 92c protrudes from the collar portion 92b toward the vehicle mounting portion 54. As shown in FIG. The protrusion 92c is used for positioning (stopping rotation) between the housing 50 and the grommet 90. As shown in FIG. This will be described later in detail.

A wire outlet 95 is formed in the second protection portion 94 . The other end of the wire 30 extends outside the grommet 90 through the wire outlet 95 . One grommet 90 is provided with three wire outlets 95 . Two of the three wire outlets 95 are provided for two power lines 32 . One power line 32 is passed through each of the two wire outlets 95 . The signal wire 34 , the ground wire 36 , and the thermistor wire 44 are collectively passed through the remaining one wire outlet 95 out of the three wire outlets 95 .

<Wire path in charging connector>
The power line 32 extends straight through the grommet 90 from one end connected to the relay terminal 28 toward the other end, and extends outside the grommet 90 through the outlet. Therefore, one end of the power line 32 is not inserted into the through hole.

The two power lines 32 extend in the grommet 90 side by side in the Z direction. The two power terminals 22 are housed in the housing body 51 side by side in the Y direction. The difference between the direction in which the two power lines 32 are arranged and the direction in which the two power terminals 22 are arranged is absorbed by the relay terminal 28 . More specifically, the two relay terminals 28 are arranged on the rear cover portion 62 respectively. Of the two relay terminals 28, the relay terminal 28A is connected to the power terminal 22 closer to the outlet, and the relay terminal 28B is connected to the power terminal 22 farther from the outlet. The relay terminals 28</b>A and 28</b>B are aligned in the Y direction at the portions connected to the power terminals 22 , and aligned in the Z direction at the portions connected to the electric wires 30 . The relay terminal 28A extends straight along the rear cover portion 62 between the portion connected to the power terminal 22 and the portion connected to the power line 32 . The relay terminal 28B is bent away from the rear cover portion 62 on the way from the portion connected to the power terminal 22 to the portion connected to the power line 32 .

One end of the signal line 34 is inserted into the terminal holding portion 53 . The other end of the signal line 34 extends from the through hole and bends inside the grommet 90 toward the outlet of the grommet 90 . Of the plurality of signal lines 34 , the signal line 34A is connected to the signal terminal 24 located above the power terminal 22 , and the signal line 34B is connected to the signal terminal 24 located below the power terminal 22 . After extending from the through hole, the signal line 34A passes between the pair of power lines 32 and merges with the signal line 34B to extend in the Y direction.

One end of the ground wire 36 is inserted into the terminal holding portion 53 . The ground line 36 extends from one end to the other end through the through hole, bends inside the grommet 90 , and heads toward the outlet of the grommet 90 together with the signal line 34 . As described above, since the ground line 36 is less likely to bend than the signal line 34, the ground line 36 is bent more than the signal line 34 at the portion where the signal line 34 and the ground line 36 are bent from the X direction to the Y direction. The radius of curvature tends to be large. By holding the other end of the ground wire 36 with the wire holding portion 57 and the wire cover 70 , the ground wire 36 is prevented from bulging excessively within the grommet 90 .

The thermistor 42 is housed in the housing body 51 together with the power terminal 22 . Accordingly, one end of the thermistor electric wire 44 is also accommodated in the housing main body 51 . The other end of the thermistor electric wire 44 extends through the through hole to the outside of the rear cover portion 62 , bends inside the grommet 90 , and heads toward the outlet of the grommet 90 . The thermistor electric wire 44 passes through a portion of the through hole that is used for inserting the terminal-equipped electric wire 38 . The thermistor electric wire 44 extends in the Y direction together with the signal line 34 while passing between the pair of power lines 32 .

The insertion/removal direction, the direction in which the drain port 93 opens, and the direction in which the power line 32 extends inside the grommet 90 are directions that intersect each other. Here, the insertion/removal direction is the X direction. The direction in which the drain port 93 opens is the Z direction. The direction in which the power line 32 extends inside the grommet 90 is the Y direction. The insertion/removal direction, the direction in which the drain port 93 opens, and the direction in which the power line 32 extends inside the grommet 90 are orthogonal to each other, but may intersect at an angle other than the orthogonal angle.

<Drainage structure of charging connector>
The drainage structure of charging connector 10 will be described.

During charging, water may enter the interior of the housing 50 from outside the panel 102 through holes formed in the housing 50 . The water is drained to the outside through the drain hole 64 of the retainer 60 and the drain port 93 of the grommet 90 .

The drain hole 64 penetrates the rear cover portion 62 of the retainer 60 in the X direction. A drain hole 64 is formed in the second region. The drain hole 64 prevents water from accumulating inside the housing 50 . Water inside the housing 50 reaches the inside of the grommet 90 through the drain hole 64 and is drained to the outside of the grommet 90 through the drain port 93 .

When the drain port 93 is formed, dust or the like may enter the inside of the grommet 90 through the drain port 93 . The partition wall 66 prevents the dust from adhering to the terminals. Specifically, the partition wall 66 partitions the rear end portion of the retainer 60 into a first area and a second area. The first area is an area corresponding to the power terminal 22 and the signal terminal 24 . The second area is an area located closer to the drain port 93 than the first area. The tip of the partition wall 66 in the X direction contacts the inner surface of the grommet 90 . Accordingly, even if dust enters the inside of the grommet 90 from the drain port 93, the dust is less likely to reach the first area from the second area.

A barrier 93 a is provided above the drain port 93 in the grommet 90 . As a result, the dust entering the inside of the grommet 90 through the drain port 93 hits the barrier 93a and is weakened. This makes it difficult for dust that has entered the inside of the grommet 90 to reach the first region.

A terminal through-hole is formed in the first region of the rear cover portion 62 . Water may also enter the rear end side of the rear cover portion 62 through the through holes. The water is guided through the partition wall 66 to the second area where the drain port 93 is located. Specifically, the portion of the regulation wall 65 provided below the relay terminal B also serves as the partition wall 66 . The partition wall 66 extends along the Y direction from a portion that serves as both the regulation wall 65 and the partition wall 66 . The end of the partition wall 66 in the Y direction is positioned below the portion serving as both the regulation wall 65 and the partition wall 66 in the Z direction. This allows water to flow along the partition wall 66 and be guided to the second region below.

A portion of the grommet 90 that contacts the distal end portion of the partition wall 66 is formed as a thick portion 91a that is thicker than the other portions and is less likely to deform. The contact of the partition wall 66 with the thick portion 91 a facilitates maintaining the contact state between the grommet 90 and the partition wall 66 even when the grommet 90 is pushed by the partition wall 66 .

The amount of protrusion of the partition wall 66 is greater than the amount of protrusion of the regulation wall 65 in the X direction. This facilitates contact between the partition wall 66 and the grommet 90 . Moreover, the thick portion 91a is thicker than the other portions by protruding further inward than the other portions along the X direction. As a result, the thick portion 91 a is closer to the partition wall 66 than the other portions along the X direction, and the partition wall 66 easily comes into contact with the grommet 90 .

<Temporary holding structure for retainer and grommet>
Next, a temporary holding structure for the retainer 60 and the grommet 90 will be described with reference to FIG. FIG. 9 is a perspective view showing how the grommet 90 is temporarily held by the retainer 60. FIG.

Reinforcing ribs 67 are provided on the outer surface of the end portion of the restricting wall 65 in the direction in which the relay terminal 28 extends. Here, reinforcing ribs 67 are provided on the outer surfaces of the end portions of the regulation walls 65A and 65B of the regulation walls 65. As shown in FIG. The restriction walls 65A and 65B extend toward the wire outlet 95 together with the relay terminal 28A along the Y direction. The end portions of the regulation walls 65A and 65B reach the outer edge of the rear cover portion 62. As shown in FIG.

An end portion of the regulation wall 65 serves as a terminal end. The reinforcing rib 67 increases the rigidity of the end of the regulation wall 65 . The reinforcing rib 67 is provided over the entire length of the regulation wall 65 along the X direction. The reinforcing rib 67 temporarily holds the grommet 90 in the middle of covering the housing 50 in the retainer 60 . As shown in FIG. 9 , the grommet 90 is temporarily held by the retainer 60 by hooking the reinforcing ribs 67 on the inner surface of the housing outlet 92 .

The outer surface of the reinforcing rib 67 facing the positive side in the Y direction is an inclined surface along the outer edge of the rear cover portion 62 . The inclined surface functions as a guide surface. That is, when the housing outlet 92 of the grommet 90 is moved from the positive side in the Y direction, even if the inner surface of the housing outlet 92 hits the guide surface, the movement of the grommet 90 is less likely to be hindered. tend to cross over the reinforcing ribs 67 . Outer surfaces of the reinforcing ribs 67 facing the negative side in the Y direction are parallel to the XZ plane. Let the said surface be a hooking surface. That is, when the grommet 90 beyond the reinforcing rib 67 attempts to return in the Y direction, the inner surface of the housing drawer port 92 is caught by the hooking surface, and the return of the grommet 90 is restricted.

The restricting wall 65 has a first restricting wall 65A and a second restricting wall 65B. The first restricting wall 65A and the second restricting wall 65B face each other with the relay terminal 28A interposed therebetween. The reinforcing ribs 67 provided on the first restricting wall 65A and the reinforcing ribs 67 provided on the second restricting wall 65B are formed in opposite directions. 65 A of 1st control walls and the 2nd control wall 65B are divided into both sides with respect to the center of the back cover part 62 in the up-down direction. Here, the relay terminal 28A extends in the center of the rear cover portion 62 in the vertical direction. The first restricting wall 65A is located on one side (above) of the relay terminal 28A. The second restricting wall 65B is positioned on the other side (below) of the relay terminal 28A. A reinforcing rib 67 is provided on each of the upper surface of the first restricting wall 65A and the lower surface of the second restricting wall 65B.

<Housing and grommet positioning structure>
Next, a positioning structure for the housing 50 and the grommet 90 will be described with reference to FIG. 10 . 10 is a rear view of the housing 50. FIG. 10, the arm 56 is omitted and the housing body 51 is simplified.

The vehicle mounting portion 54 has a flange portion 54 a and a plurality of ribs 55 . The flange portion 54 a protrudes outward from the housing body 51 . A first attachment hole 54b and a second attachment hole 54c are formed in the flange portion 54a. The second mounting hole 54c is closer to the housing body 51 than the first mounting hole 54b. A plurality of ribs 55 protrude in the insertion/removal direction from the flange portion 54a.

The plurality of ribs 55 has ribs 55a, 55b, 55c, 55d, 55e, and 55f. The ribs 55a and 55b connect the housing body 51 and the flange portion 54a. The ribs 55a extend from the housing body 51 in the Z direction, and the ribs 55b extend from the housing body 51 in the Y direction. The rib 55c connects the peripheral portion of the first attachment hole 54b and the housing body 51 . The rib 55d connects the peripheral portion of the second mounting hole 54c and the housing body 51 . The rib 55e connects the plurality of ribs 55a. The rib 55f connects the peripheral portion of the second mounting hole 54c and the flange portion 54a.

A plurality of ribs 55a are provided. A projection 92c of the grommet 90 fits between the two ribs 55a. The two ribs 55a are the first and second ribs 55a. A rib 55e connecting ribs 55a including two ribs 55a is a connecting rib 55e. The protrusion 92c is fitted between the first and second ribs 55a at a position avoiding the connecting rib 55e. The rib 55 e protrudes from the outer surface of the housing body 51 .

The plurality of ribs 55 are provided so that the rigidity of the portion where the second mounting hole 54c is formed is higher than the rigidity of the portion where the first mounting hole 54b is formed. Here, the second mounting hole 54c is formed by the difference in the number and thickness of the ribs 55 between the portion where the second mounting hole 54c is formed and the portion where the first mounting hole 54b is formed. The rigidity of the portion is higher than that of the portion where the first mounting hole 54b is formed.

Specifically, FIG. 10 shows an imaginary line L that passes through the center of the housing body 51 and divides the portion where the first mounting hole 54b is formed and the portion where the second mounting hole 54c is formed. . In the vehicle mounting portion 54, the portion below the phantom line L is the portion where the first mounting hole 54b is formed, and the portion above the phantom line L is the portion where the second mounting hole 54c is formed. .

Regarding the number of ribs 55, for example, the number of ribs 55a, 55b in the upper portion is greater than the number of ribs 55a, 55b in the lower portion. Further, for example, the connecting rib 55e is provided in the upper portion and not provided in the lower portion. Also, for example, the rib 55f extending from the second mounting hole 54c is provided in the upper portion and not provided in the lower portion. These ribs 55a, 55b, 55e, 55f provided on the upper portion and not provided on the lower portion are reinforcing ribs for increasing the rigidity of the upper portion relative to that of the lower portion.

Regarding the size of the rib 55, the size of the rib 55c is thicker than the size of the rib 55d. As shown in FIG. 10, the rib 55c is thicker than the rib 55d. Moreover, as shown in FIG. 3, the height of the rib 55c is thicker than the height of the rib 55d.

<Attaching the grommet to the housing>
Next, the operation of attaching the grommet 90 to the housing 50 will be described with reference to FIGS. 11 and 12. FIG. 11 is a plan view showing how the grommet 90 is attached to the housing 50 and the retainer 60. FIG. 12 is a plan view showing how the grommet 90 is temporarily held by the retainer 60. FIG.

Before the operation of attaching grommet 90 to housing 50, some of the operations of assembling charging connector 10 are performed. The work of assembling charging connector 10 before the work of attaching grommet 90 to housing 50 (hereinafter sometimes referred to as pre-work) includes, for example, the work of crimping terminals 24 , 26 and 28 , the work of crimping retainer 60 and housing 50 . insertion of the terminal-equipped wire 38 of the signal terminal 24 and the terminal-equipped wire 38 of the ground terminal 26 into the housing 50; insertion of the thermistor unit 40 into the retainer 60; The work of inserting the power terminal 22 with the thermistor unit 40, the work of attaching the retainer 60 to the housing 50, the work of attaching the terminal-equipped wire 38 of the relay terminal 28 to the power terminal 22, and the work of attaching the wire cover 70 are assumed. FIG. 11 shows a state immediately before the work of attaching the grommet 90 to the housing 50 after these preparatory works are completed.

It is assumed that part or all of the above pre-work is performed with the wires 30 , 44 passing through the grommet 90 . That is, one end of each wire 30 , 44 extends outside the grommet 90 through the housing outlet 92 , and the other end extends outside the grommet 90 through the wire outlet 95 . In this state, one end of each electric wire 30 , 44 positioned outside the grommet 90 through the housing outlet 92 undergoes part or all of the above-described pre-work.

In the grommet 90, a housing outlet 92 and a wire outlet 95 are opened in directions intersecting each other. Therefore, the wires 30 and 44 pass through the grommet 90 by bending at least one of the grommet 90 and the wires 30 and 44 . Which of the wires 30, 44 and the grommet 90 bends can be determined by the rigidity of the wires 30, 44 and the grommet 90, for example. When the rigidity of the electric wires 30, 44 (especially the power line 32) is higher than the rigidity of the grommet 90, the grommet 90 is bent so that the housing outlet 92 and the electric wire outlet 95 are aligned as shown in FIG. If the grommet 90 is stiffer than the wires 30 , 44 , the wires 30 , 44 may be bent inside the grommet 90 .

From the state shown in FIG. 11, the grommet 90 moves along the wires 30, 44 toward the housing 50 side. At this time, the operator accommodates the housing 50 , the retainer 60 and the wire cover 70 inside the grommet 90 through the housing outlet 92 while pulling out the wires 30 and 44 from the wire outlet 95 . The work of pulling out the wires 30 and 44 from the wire outlet 95 is the work of moving the second protection portion 94 of the grommet 90 toward the housing 50 . The operation of housing the housing 50 , the retainer 60 and the wire cover 70 inside the grommet 90 through the housing outlet 92 is the operation of moving the first protection portion 91 of the grommet 90 toward the housing 50 . When the worker moves the first protective portion 91, the operator can hold the collar portion 92b to perform the work.

Since the wire outlet 95 is in close contact with the wires 30 and 44, it takes time and effort to pull the wires 30 and 44 with a strong force or widen the wire outlet 95 when pulling out the wires 30 and 44 from the wire outlet 95.例文帳に追加Further, if the housing 50, the retainer 60 and the wire cover 70 are larger than the housing outlet 92, it takes time to widen the housing outlet 92. In addition, since the housing outlet 92 and the wire outlet 95 are opened in the directions intersecting each other in the grommet 90, it is troublesome to work with the grommet 90 bent or to change the angle of the grommet 90. Normally, the operation of moving the first protective portion 91 toward the housing 50 and the operation of moving the second protective portion 94 toward the housing 50 are alternately performed little by little. In other words, after the first protection portion 91 is moved, the second protection portion 94 is moved next, and then the first protection portion 91 is moved.

When the grommet 90 moves along the wires 30 and 44 and the arm 56 and the wire cover 70 are housed inside the grommet 90 through the housing outlet 92, the state shown in FIG. 12 is reached. The state of FIG. 12 is the state of FIG. 9 , that is, the state in which the grommet 90 is temporarily held by the retainer 60 . As the grommet 90 is temporarily held by the retainer 60 in this manner, other work can be easily performed during this time. Another work is, for example, the work of moving the second protective portion 94 of the grommet 90 to the housing 50 .

When the grommet 90 moves further along the wires 30 and 44 in the Y direction from the state shown in FIG. Thereafter, the grommet 90 covers the rear end portion of the housing 50 by moving the housing outlet 92 along the X direction while the bending deformation of the grommet 90 is eliminated. Thereafter, the binding band 98 is fastened around the housing drawer port 92 to complete the work of attaching the grommet 90 to the housing 50 .

<Effects, etc.>
According to the charging connector 10 configured as described above, when the grommet 90 is attached, the periphery of the housing outlet 92 of the grommet 90 can be caught by the reinforcing ribs 67 of the wall 65 of the retainer 60 to be temporarily held. . Also, when attaching the grommet 90, the operator can work while holding the collar portion 92b. These facilitate the attachment work of the grommet 90 .

Further, the reinforcing ribs 67 provided on the first restricting wall 65A and the reinforcing ribs 67 provided on the second restricting wall 65B are formed in opposite directions. As a result, when the grommet 90 is attached, the peripheral edge of the housing outlet 92 of the grommet 90 is easily caught by the reinforcing ribs 67 of the retainer 60 .

Also, the tip portion of the partition wall 66 that divides the rear end portion of the retainer 60 into the first region and the second region contacts the inner surface of the grommet 90 . Thereby, the space where the terminals 22 , 24 , 26 and 28 are located and the space where the drain port 93 is located are partitioned by the partition wall 66 and the grommet 90 .

The insertion/removal direction, the direction in which the drain port 93 opens, and the direction in which the power line 32 extends inside the grommet 90 are directions that intersect each other. Accordingly, when the grommet 90 is arranged so that the drain port 93 faces vertically downward, the power line 32 extends in a direction intersecting the vertically downward direction, so that water is less likely to enter from the wire outlet 95 .

A projection 92c is also fitted between the first and second ribs 55a. This prevents the grommet 90 and the housing 50 from rotating.

Also, the protrusion 92c is fitted between the first and second ribs 55a at a position avoiding the connecting rib 55e. As a result, the rigidity of the vehicle mounting portion 54 is increased by the connection rib 55e while the rotation is stopped by the projection 92c.

Further, since the second mounting hole 54c is closer to the housing body 51 than the first mounting hole 54b, the force applied to the second mounting hole 54c tends to be greater than the force applied to the first mounting hole 54b. Since the rigidity of the portion where the plurality of ribs 55 and the second mounting holes 54c are formed is higher than the rigidity of the portion where the first mounting holes 54b are formed, the vehicle mounting portion 54 is prevented from cracking or the like.

[Appendix]
FIG. 13 is a rear view showing charging connector 110 according to a modification. 13, some members such as the electric wire 30 are omitted. In addition, in the description of this modified example, the same reference numerals are given to the same components as those described so far, and the description thereof will be omitted.

In charging connector 110 shown in FIG. 13 , reinforcing rib 67 is also provided at the end of partition wall 66 . The reinforcing rib 67 of the partition wall 66 is formed in the opposite direction to the reinforcing rib 67 of the second restricting wall 65B. The retainer 160 and the grommet 90 may be temporarily held using the reinforcing ribs 67 of the partition wall 66 . In this case, the temporary holding position of the retainer 160 and the grommet 90 using the reinforcing ribs 67 of the partition wall 66 is closer to the housing 50 than the temporary holding position of the retainer 160 and the grommet 90 using the reinforcing ribs 67 of the second regulation wall 65B. side. By providing a plurality of temporary holding positions in this way, the attachment work of the grommet 90 becomes easier.

Note that eight signal terminals 24 are provided in charging connector 110 shown in FIG. 13 . Also, in this example, the ground terminal 26 is omitted. Along with this, in the housing 150 and the retainer 160, the structure related to the ground terminal 26 is omitted.

In addition, the reinforcing ribs 67 provided on the first restricting wall 65A and the reinforcing ribs 67 provided on the second restricting wall 65B have been described so far as being formed in opposite directions to each other, but this is not the case. is not a required configuration. For example, the number of walls on which the reinforcing ribs 67 are provided may be one. Further, reinforcing ribs 67 may be provided in the same direction on a plurality of restricting walls 65 .

Also, although the tip of the partition wall 66 has been described as contacting the inner surface of the grommet 90, this is not an essential configuration. For example, the partition wall 66 may not be provided. Further, for example, when the partition wall 66 is provided, the tip of the partition wall 66 does not have to be in contact with the inner surface of the grommet 90 .

Further, although the insertion/removal direction, the direction in which the drain port 93 opens, and the direction in which the power line 32 extends inside the grommet 90 have been described as crossing each other, this is not an essential configuration. For example, any two of the insertion/removal direction, the direction in which the drain port 93 opens, and the direction in which the power line 32 extends inside the grommet 90 may be parallel.

Also, although the projection 92c has been described as fitting between the first and second ribs 55a, this is not an essential configuration. For example, the grommet 90 may not be provided with the protrusion 93c. Also, although the protrusion 93c is described as fitting between the first and second ribs 55a at a position avoiding the connecting rib 55e, this is not an essential configuration. For example, the vehicle mounting portion 54 may not be provided with the connecting rib 55e.

In the above description, the plurality of ribs 55 are provided so that the rigidity of the portion where the second mounting hole 54c is formed is higher than the rigidity of the portion where the first mounting hole 54b is formed. , which is not a required configuration. For example, the plurality of ribs 55 may be provided in the same manner in the portion where the first mounting hole 54b is formed and the portion where the second mounting hole 54c is formed. Further, for example, in the vehicle attachment portion 54, the plurality of ribs 55 may be omitted while the flange portion 54a alone has sufficient rigidity. Further, for example, a plurality of mounting holes 54b and 54c may be provided at symmetrical positions with the housing body 51 as the center.

Note that the configurations described in the above embodiments and modifications can be appropriately combined as long as they do not contradict each other.

REFERENCE SIGNS LIST 10 charging connector 20 terminal 21 connector terminal 22 power terminal 23a mating connection portion 23b terminal fixing portion 23c projection 23d thermistor mounting portion 24 signal terminal 25a mating connection portion 25b wire connection portion 25c projection 26 ground terminal 27a mating connection portion 27b Wire connecting portion 27c Protruding portion 28, 28A, 28B Relay terminal 29a Terminal fixing portion 29b Wire connecting portion 30 Electric wire 31a Core wire 31b Coating 32 Power line 34, 34A, 34B Signal wire 36 Ground wire 38 Wire with terminal 39 Shrinkable tube 40 Thermistor unit 42 thermistor 44 thermistor wire 50 housing 51 housing body 52 outer frame portion 53 terminal holding portion 54 vehicle mounting portion 54a flange portion 54b first mounting hole 54c second mounting hole 55, 55a, 55b, 55c, 55d, 55e, 55f rib 56 arm 57 wire holding portion 60 retainer 61 terminal holding portion 62 rear cover portion 63 projecting cylindrical portion 64 drainage hole 65 regulation wall 65A first regulation wall 65B second regulation wall 66 partition wall 67 reinforcing rib 70 wire cover 80 lid unit 82 Lid 84 Hinge unit 86 Lock unit 90 Grommet 91 First protection part 91a Thick part 92 Housing outlet (opening)
92a Annular rib 92b Collar 92c Projection 93 Drain port 93a Barrier 94 Second protection part 95 Wire outlet 98 Binding band 100 Mounting part 102 Panel 104 Through hole 106 Body side cover S Screw

Claims (7)

A charging connector mounted on a vehicle, mated with an external charging connector connected to an external power source of the vehicle, and used for charging a battery provided in the vehicle,
first and second power terminals used to supply power to the battery;
a plurality of signal terminals;
a housing that holds the first and second power terminals and the plurality of signal terminals and is fitted with the external charging connector at a front end along the insertion/extraction direction of the external charging connector;
a retainer mating with the rear end of the housing to retain the first and second power terminals and the plurality of signal terminals with the housing;
first and second relay terminals electrically connected to respective rear end portions of the first and second power terminals and extending in a direction crossing the insertion/removal direction;
first and second power lines electrically connected to the first and second power terminals via the first and second relay terminals, respectively;
a plurality of signal lines electrically connected to each of the plurality of signal terminals;
a grommet that collectively covers from the rear end portion of the housing to an intermediate portion of the power line and the signal line;
with
The grommet has an opening that covers the rear end of the housing,
The retainer has a wall projecting along the insertion/removal direction,
the wall has a regulation wall that regulates the position of the relay terminal,
A reinforcing rib is provided on an outer surface of an end portion of the restricting wall in a direction in which the relay terminal extends,
The charging connector, wherein the grommet has a collar provided around the opening. The charging connector according to claim 1,
the restricting wall has a first restricting wall and a second restricting wall facing each other across the relay terminal;
The charging connector, wherein the reinforcing rib provided on the first restricting wall and the reinforcing rib provided on the second restricting wall are formed in opposite directions to each other. The charging connector according to claim 1 or 2,
The grommet is provided with a drainage port that opens in a direction that intersects with the insertion/removal direction,
The wall has a first region corresponding to the first and second power terminals and the plurality of signal terminals, and a second region positioned closer to the drain port than the first region. has a partition wall that separates
A charging connector, wherein a tip portion of the partition wall abuts an inner surface of the grommet. The charging connector according to claim 3,
The charging connector, wherein the insertion/removal direction, the direction in which the drain port opens, and the direction in which the power line extends inside the grommet are directions that intersect each other. The charging connector according to any one of claims 1 to 4,
The housing has a housing body that holds the first and second power terminals and the plurality of signal terminals, and a vehicle mounting portion used for bolting to the vehicle,
The vehicle mounting portion has a flange portion projecting outward from the housing body, and first and second ribs projecting from the flange portion in the insertion/removal direction,
The grommet has a projection provided outside the opening covering the housing and protruding toward the vehicle mounting portion,
A charging connector, wherein the projection fits between the first and second ribs. The charging connector according to claim 5,
The vehicle mounting portion has a connecting rib that connects the first and second ribs,
The charging connector, wherein the protrusion is fitted between the first and second ribs at a position avoiding the connecting rib. The charging connector according to any one of claims 1 to 6,
The housing has a housing body that holds the first and second power terminals and the plurality of signal terminals, and a vehicle mounting portion used for bolting to the vehicle,
The vehicle mounting portion has a flange portion projecting outward from the housing body, and a plurality of ribs projecting from the flange portion in the insertion/removal direction,
The flange portion is formed with a first mounting hole and a second mounting hole closer to the housing body than the first mounting hole,
The charging connector, wherein the plurality of ribs are provided so as to increase the rigidity of the portion in which the second mounting hole is formed as compared to the rigidity of the portion in which the first mounting hole is formed.

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