JP2013129343A - Saddle riding type electric vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connection structure of a receptacle and a plug provided with a waterproof function and a coming-off prevention function without complicating the structure or increasing the size, in a saddle riding type electric vehicle.SOLUTION: A saddle riding type electric vehicle 1 includes: a storage chamber S1 provided with an opening 30; a first lid 29 capable of closing the opening 30; a receptacle 53 stored in the storage chamber S1 and with a connection port 54; a second lid 85 provided so as to be capable of opening and closing the connection port 54; and a through-part 63 through which a cable 57 penetrates while the first lid 29 closes the opening 30. The second lid 85 includes a coming-off prevention part 88 preventing a plug 53 from coming off from the receptacle 55. The saddle riding type electric vehicle 1 can be charged while the coming-off prevention part 88 prevents the plug 53 from coming off and that the first lid 29 closes the opening 30.

Description

  The present invention relates to a straddle-type electric vehicle using an electric motor as a power source.

  An electric motorcycle using an electric motor as a power source includes a receptacle for charging a battery. When charging the battery, a plug provided at the end of the cord extending from the charger is connected to the receptacle.

  As such an electric motorcycle, a battery charging receptacle is disposed in a receiving box provided below a seating surface and covered with a side cover (see, for example, Patent Document 1). In this vehicle, by closing the side cover, the charging receptacle is prevented from being exposed to the outside. This prevents rainwater and dust from entering the receptacle.

JP 2011-63066 A

  By the way, if the cord is pulled during charging of the battery, the plug may come off from the receptacle, resulting in poor connection, and smooth charging may not be performed. Therefore, in order to prevent the plug from being detached from the receptacle in the motorcycle having the above structure, it is considered to hold the cable extending from the plug between the side cover and the edge of the storage box with the side cover closed. It is done. However, even with such a configuration, the holding force of the cable is not sufficient. For this reason, there is a possibility that the plug may come off from the receptacle when the cable is pulled strongly. In addition, in a saddle-ride type vehicle with a limited mounting space, it is difficult to adopt a complicated structure or a large structure in order to ensure the retaining.

  SUMMARY OF THE INVENTION Accordingly, the object of the present invention is to carry out charging work satisfactorily by preventing rainwater and dust from entering the receptacle and preventing the plug from coming out of the receptacle while avoiding complication and enlargement. An object of the present invention is to provide a straddle-type electric vehicle that can be used.

In order to achieve the above object, a straddle-type electric vehicle of the present invention is
A storage room provided in the vehicle and provided with an opening;
A first lid capable of closing the opening;
A receptacle provided with a connection port which is accommodated in the accommodation chamber and into which a plug is inserted and removed;
A second lid provided to be capable of opening and closing the connection port,
At least one of the first lid or the opening has a through-portion that allows a cable connecting the plug and the charger to pass through in a state where the first lid closes the opening.
The second lid has a retaining portion for preventing a plug inserted into the connection port of the receptacle from coming out of the receptacle,
Charging is possible in a state where the retaining portion of the second lid prevents the plug from being detached, and in a state where the first lid closes the opening.

  According to the straddle-type electric vehicle according to the present invention, the receptacle is accommodated in the accommodating chamber having the opening closed by the first lid, and the receptacle is provided with a retaining portion for preventing the plug from coming off. It has been. As a result, the first lid prevents rainwater and dust from entering the receptacle, and the receptacle retaining portion prevents the plug from coming off. Providing a straddle-type electric vehicle with good workability during charging, in which the receptacle itself does not increase in size and the plug can be easily inserted and removed by realizing the waterproof function and the retaining function in separate parts. it can.

In the saddle riding type electric vehicle according to the present invention,
The second lid is provided to be rotatable around a rotation axis with respect to the receptacle,
The second lid may be configured such that the retaining portion prevents the plug from being detached while the connection port is opened.

In the saddle riding type electric vehicle according to the present invention,
The second lid is
A lid that can close the connection port;
The retaining portion is
You may provide adjacent to the said cover part so that it may be located in the outer side of the said connection port in the state which obstruct | occluded the said connection port.

  Since the retaining portion is located outside the connection port in a state in which the connection port is closed, the retaining portion can prevent rainwater and dust from entering the receptacle. Therefore, the waterproofness of the receptacle can be further enhanced along with the closing of the opening of the storage chamber by the first lid.

In the saddle riding type electric vehicle according to the present invention,
The second lid is formed larger than the connection port,
In a state where the plug is not inserted into the connection port, the lid may close the connection port and separate the connection port from the storage chamber.

  Even when another vehicle member is disposed in the storage chamber or when the storage chamber is used together with an accessory case, the second lid can prevent the member or the accessory from entering the receptacle in the non-charged state. .

In the saddle riding type electric vehicle according to the present invention,
The receptacle is flat when viewed from the plug insertion / extraction direction,
A plurality of terminals may be arranged in a line in the longitudinal direction of the flat shape of the receptacle.

  By making the receptacle shape flat, the receptacle can be easily placed in a limited interior of the electric vehicle.

In the saddle riding type electric vehicle according to the present invention,
The opening may open above the vehicle.

In the saddle riding type electric vehicle according to the present invention,
The first lid may be a seat on which a passenger can sit.

In the saddle riding type electric vehicle according to the present invention,
The storage chamber may be provided below a seat on which a passenger can sit.

In the saddle riding type electric vehicle according to the present invention,
The opening may be opened to the side, front or rear of the vehicle.

1 is a left side view of an electric motorcycle according to a first embodiment of the present invention. FIG. 3 is a left side view of a state where some parts such as a body cover of the electric motorcycle are removed. It is a perspective view of the accommodation space of the state which opened the sheet | seat. It is a perspective view of the accommodation space in the state where the plug was connected to the receptacle. It is a schematic wiring diagram of a vehicle and a charger. It is a figure which shows the structure of a receptacle, Comprising: (a) is a perspective view of the receptacle of the state which closed the connection port, (b) is a perspective view of the receptacle of the state which opened the connection port. It is a longitudinal cross-sectional view of a receptacle which shows the structure of a receptacle. It is a perspective view of the inner surface side of the cap with which a receptacle is mounted | worn. It is a figure which shows the plug connected to a receptacle, Comprising: (a) is a perspective view of the plug seen from the upper surface side, (b) is a perspective view of the plug seen from the back surface side. It is a figure which shows the holding state of a plug. FIGS. 3A to 3E are diagrams showing connection operations of a plug to a receptacle, and FIGS. 3A to 3E are schematic sectional views of the receptacle and the plug, respectively. It is a figure which shows a mode that a plug is pulled out to a receptacle. It is a left view of the electric motorcycle of 2nd Embodiment of this invention.

(First embodiment)
The first embodiment of the present invention will be specifically described below with reference to the drawings.
FIG. 1 is a left side view of an electric motorcycle 1 which is a straddle-type electric vehicle according to a first embodiment of the present invention. In this embodiment, an electric motorcycle 1 including a scooter will be described as an example of a saddle riding type electric vehicle. The electric motorcycle 1 can travel with a load placed on the front part and the rear part, and is suitable for use as a cargo handling vehicle.

  In the following description, the front, rear, top and bottom, and left and right directions are in a reference posture corresponding to a state in which the electric motorcycle 1 is traveling straight on a horizontal plane, and the driver when the driver is facing forward. Based on this viewpoint. In addition, the configuration of the electric motorcycle 1 will be described with reference to the electric motorcycle 1 that stands upright, the front wheels 3 and the rear wheels 4 are in contact with the road surface A1, and the driver is not on the vehicle.

  The electric motorcycle 1 includes a body frame 2, a front wheel 3, a rear wheel 4, an electric motor 5, a battery 6, and a vehicle body cover 7. The electric motorcycle 1 drives the electric motor 5 with the electric power supplied from the battery 6, and drives the rear wheel 4 with the output of the electric motor 5. Hereinafter, the entire structure of the electric motorcycle 1 will be described in order from the front of the vehicle body.

FIG. 2 is a left side view of the electric motorcycle 1 with some parts such as the body cover 7 removed.
The electric motorcycle 1 has a head pipe 8 disposed at the front upper portion of the electric motorcycle 1. A steering shaft 9 is rotatably inserted into the head pipe 8. A pair of left and right front forks 10 are attached to the lower end of the steering shaft 9. The front wheel 3 is attached to the front fork 10.

A handle 11 is attached to the upper end portion of the steering shaft 9. The driver can turn the steering shaft 9, the front fork 10 and the front wheel 3 around the axis of the steering shaft 9 by operating the handle 11.
A grip 12 is provided at each of the left and right ends of the handle 11 (only the left grip is shown). The right grip constitutes the throttle grip. The driver can adjust the output of the electric motor 5 by turning the throttle grip.

  As shown in FIG. 1, a meter 13 is provided near the center of the handle 11. A loading platform 14 is disposed below the meter 13. The loading platform 14 is fixed to the head pipe 8. The load of the load loaded on the loading platform 14 mainly acts on the front wheel 3 via the head pipe 8 and the steering shaft 9. A headlamp 15 is fixed to the bottom of the loading platform 14.

  As shown in FIG. 2, the electric motorcycle 1 includes a vehicle body frame 2 that extends rearward from the head pipe 8. The body frame 2 is formed using a steel pipe member or the like. The vehicle body frame 2 includes a down tube 19 and a frame main body 20 disposed behind the down tube 19. The down tube 19 extends obliquely downward and rearward from the lower portion of the head pipe 8. In the side view, the frame body 20 extends rearward from the lower end portion of the down tube 19, and an intermediate portion of the vehicle in the front-rear direction X <b> 1 is formed in an S shape.

  A pair of left and right frame bodies 20 are provided. The frame body 20 includes a first frame portion 21, a second frame portion 22, a third frame portion 23, and a fourth frame portion 24. The first frame portion 21 extends substantially straight rearward from the lower end portion of the down tube 19 and is slightly inclined rearward and upward.

  The second frame portion 22 is formed in an S shape in a side view. The second frame portion 22 includes a lower end portion 22a, an intermediate portion 22b, and an upper end portion 22c. The lower end portion 22 a of the second frame portion 22 is formed in a curved shape and is connected to the rear end portion of the first frame portion 21. The intermediate part 22b of the second frame part 22 extends straight from the lower end part 22a obliquely rearward and upward. In side view, the inclination angle of the intermediate portion 22b with respect to the first frame portion 21 is, for example, about 45 degrees. The upper end portion 22c of the second frame portion 22 is formed in a curved shape and is connected to the intermediate portion 22b.

  The third frame portion 23 extends linearly from the upper end portion 22c, and is slightly inclined rearward and upward. The fourth frame portion 24 extends rearward from the intermediate portion 22 b of the second frame portion 22, is bent obliquely rearward and upward in the middle, and is connected to the intermediate portion of the third frame portion 23.

  As shown in FIG. 1, the electric motorcycle 1 includes a vehicle body cover 7 attached to the vehicle body frame 2. The vehicle body cover 7 includes a front cover 25 that covers the head pipe 8, a lower cover 26 that extends rearward from the lower portion of the front cover 25, and a rear cover 27 that is disposed behind the front cover 25.

  The front cover 25 surrounds a part of the steering shaft 9 and the head pipe 8, and surrounds the down tube 19. The lower cover 26 extends rearward from the lower portion 25a of the front cover 25, and covers the first frame portion 21 and the lower end portion 22a of the second frame portion 22 from the lower side and the left and right sides. A footrest portion 28 is disposed at the upper end portion of the lower cover 26. The footrest portion 28 is provided for the driver to place his / her feet, and is formed substantially flat.

  The rear cover 27 as a whole is formed in a shape extending obliquely upward and rearward from the rear portion 26a of the lower cover 26. The rear cover 27 covers the area of the second frame portion 22 excluding the lower end portion 22a from the front and both left and right sides. The rear cover 27 covers the third frame portion 23 and the fourth frame portion 24 from both the front and left and right sides.

  A seat 29 is disposed above the rear cover 27. While the electric motorcycle 1 is traveling, the feet of the driver sitting on the seat 29 are placed on the footrest portion 28. In the front-rear direction X1, the footrest portion 28 is disposed between the rear surface 25b of the front cover 25 and the front end portion 29a of the seat 29. The seat 29 is disposed above the second frame portion 22, disposed above a portion of the third frame portion 23, and disposed above a portion of the fourth frame portion 24. . A space surrounded by the seat 29 and the rear cover 27 defines an accommodation room S1.

  As shown in FIG. 2, the seat 29 is supported by a first bracket 31 and a support bracket 37. The first bracket 31 is attached to the intermediate part 22 b of the second frame part 22. The first bracket 31 extends upward from the intermediate portion 22b. A hinge portion 38 is provided at the upper end portion of the first bracket 31. The seat 29 is supported by the first bracket 31 via the hinge portion 38. The first bracket 31 supports the seat 29 from below. The seat 29 can be rotated around the hinge portion 38. By rotating the seat 29 around the hinge portion 38, the storage chamber S1 can be opened upward. The hinge portion 38 may be omitted and the seat 29 may be directly fixed to the first bracket 31.

  The rear portion 29 b of the seat 29 is supported by a support bracket 37. The support bracket 37 is fixed to the third frame portion 23 of the vehicle body frame 2 and has a shape protruding upward from the third frame portion 23.

  A battery 6 as a power source for the electric motor 5 is disposed below the seat 29. The battery 6 is disposed between the pair of left and right second frame portions 22. The battery 6 is a rechargeable secondary battery. The battery 6 is formed in a substantially rectangular shape in a side view, and the length (height) in the vertical direction Z1 of the vehicle is longer than the length (width) in the front-rear direction X1. The battery 6 is disposed in a posture inclined rearward and obliquely upward, and is supported by the vehicle body frame 2. The upper part 6 a of the battery 6 is disposed between the first bracket 31 and the support bracket 37.

  As shown in FIG. 1, a loading platform 45 is disposed behind the seat 29. The loading platform 45 is disposed above the third frame portion 23 and is supported by the third frame portion 23. A load can be placed above the loading platform 45. The load of the load placed on the loading platform 45 is mainly received by the rear wheel 4.

  Thus, the loading platform 14, the battery 6 that is a heavy object, and the loading platform 45 are arranged side by side in the front-rear direction X1. Therefore, when a load is placed on the loading platform 14 and the loading platform 45, the load balance of the electric motorcycle 1 in the front-rear direction X1 can be made uniform. Therefore, even when a load is placed on the loading platform 14 and the loading platform 45, high maneuverability of the electric motorcycle 1 can be maintained.

3 is a perspective view of the storage chamber S1 with the seat 29 opened, and FIG. 4 is a perspective view of the storage chamber S1 with the plug 55 connected to the receptacle 53. As shown in FIG.
As shown in FIGS. 3 and 4, by opening the seat 29 with the hinge portion 38, the opening portion 30 opened above the accommodation chamber S <b> 1 is opened. Further, the opening 30 is closed by rotating and closing the seat 29 at the hinge 38 in the opposite direction. Thus, the sheet 29 is a lid body as a first lid capable of closing the accommodation chamber S1. When the sheet 29 closes the opening 30, rainwater, dust, and the like are prevented from entering the storage chamber S1.

  In the accommodation room S1, a connection box 51 is provided on the right side of the vehicle. A receptacle 53 is provided on the left side wall 52 of the connection box 51. The receptacle 53 has a connection port 54. A plug 55 is inserted into and removed from the connection port 54 of the receptacle 53. Then, by inserting the plug 55 into the connection port 54 of the receptacle 53, the receptacle 53 and the plug 55 are connected.

FIG. 5 is a schematic wiring diagram of the vehicle and the charger 58.
As shown in FIG. 5, the receptacle 53 is connected to the battery 6 via the wiring 56. The plug 55 connected to the receptacle 53 is connected to a charging cord 57 as a cable. The charging cord 57 is connected to the charger 58. A power source 62 is connected to the charger 58 via an electric wire 61. Thus, with the plug 55 connected to the receptacle 53, the power from the power source 62 is supplied to the battery 6 via the charger 58, and the battery 6 is charged.

  As shown in FIG. 4, the charging cord 57 is pulled out to the left side of the vehicle with the plug 55 connected to the receptacle 53. A notch 63 is formed on the left front side of the edge of the opening 30 of the storage chamber S1. The charging cord 57 is passed through the notch 63 of the opening 30 as a penetrating part. Accordingly, the sheet 29 can block the opening 30 of the storage chamber S1 in a state where the charging cord 57 that connects the plug 55 and the charger 58 is drawn into the storage chamber S1 from the outside.

  As shown in FIG. 5, the receptacle 53 includes a housing 71 made of synthetic resin or the like. A connection port 54 is formed in the housing 71. The receptacle 53 is formed in a flat shape, and the connection port 54 is also formed in a flat shape (see FIG. 6). The housing 71 has a plurality of male terminals 72 inside an outer peripheral wall 73 that forms the connection port 54.

  These male terminals 72 are supported by the housing 71 so as to extend from the base portion 71 a of the housing 71 toward the connection port 54. These male terminals 72 are arranged in a line at intervals in the longitudinal direction of the flat shape of the housing 71. A partition wall 74 is formed between the male terminals 72 in the housing 71.

  The plug 55 includes a housing 75 formed from a synthetic resin or the like. A connection portion 76 having a plurality of terminal accommodating portions 70 is provided on the connection side of the receptacle 53 to the connection port 54 in the housing 75.

  Similarly to the receptacle 53, the plug 55 has a flat shape. The plurality of terminal accommodating portions 70 of the connecting portion 76 are arranged in the longitudinal direction of the flat housing 75. Between each terminal accommodating part 70, the slit 77 which can insert the partition part 74 formed in the housing 71 of the receptacle 53 is formed. Each terminal accommodating portion 70 accommodates a female terminal 78. By inserting the connecting portion 76 of the plug 55 into the connection port 54 of the receptacle 53, the male terminal 72 is inserted into the female terminal 78, and the male terminal 72 and the female terminal 78 are conductively connected.

  The male terminal 72 of the receptacle 53 includes, in order from one end side in the longitudinal direction of the housing 71, a positive pole male terminal 72a, a first communication male terminal 72b, a second communication male terminal 72c, a connection confirmation male terminal 72d, a ground male terminal 72e, and a negative terminal. The pole male terminal 72f is provided. The projecting dimensions of the male terminal 72 toward the connection port 54 are, in order from the longest, the ground male terminal 72e, the negative pole male terminal 72f, and the plus pole male terminal 72a. The first communication male terminal 72b, the second communication male terminal 72c, and the connection confirmation male terminal 72d all have the same protruding dimension. Among the male terminals 72, the projecting dimensions of the first communication male terminal 72b, the second communication male terminal 72c, and the connection confirmation male terminal 72d are set to be the shortest.

  Thereby, when the plug 55 is inserted into the receptacle 53, the earth male terminal 72 e first contacts the female terminal 78. Next, the negative pole male terminal 72 f contacts the female terminal 78, and then the plus pole male terminal 72 a contacts the female terminal 78. Finally, the first communication male terminal 72b, the second communication male terminal 72c, and the connection confirmation male terminal 72d simultaneously contact the female terminal 78.

  Further, when the plug 55 is pulled out from the receptacle 53, the first communication male terminal 72b, the second communication male terminal 72c, and the connection confirmation male terminal 72d are first separated from the female terminal 78. Next, the positive pole male terminal 72 a is separated from the female terminal 78, and then the negative pole male terminal 72 f is separated from the female terminal 78. Finally, the ground male terminal 72 e is separated from the female terminal 78.

  That is, when the plug 55 is connected to the receptacle 53, the ground male terminal 72e is first connected to the female terminal 78, and when the plug 55 is removed from the receptacle 53, the ground male terminal 72e is connected to the female terminal 78. Finally released.

  Therefore, when the positive pole male terminal 72a, the first communication male terminal 72b, the second communication male terminal 72c, the connection confirmation male terminal 72d and the negative pole male terminal 72f are connected to or separated from the female terminal 78, a grounded state is always ensured. Has been. As a result, it is possible to prevent electric shock due to electric leakage when the plug 55 is inserted into and removed from the receptacle 53.

  6A and 6B are views showing the structure of the receptacle 53, wherein FIG. 6A is a perspective view of the receptacle 53 with the connection port 54 closed, and FIG. 6B is a perspective view of the receptacle 53 with the connection port 54 open. It is. FIG. 7 is a longitudinal sectional view of the receptacle 53 showing the structure of the receptacle 53.

  As shown in FIGS. 6 and 7, the housing 71 of the receptacle 53 is formed with a flange portion 81 that projects around the outer peripheral wall 73. The flange portion 81 has mounting holes 82 formed on both sides. A bolt (not shown) is inserted into the mounting hole 82 from the side exposed to the storage chamber S 1, and this bolt is fixed with a nut (not shown) on the opposite side of the receptacle 53, so that the receptacle 53 is connected to the side wall 52 of the connection box 51. Fixed to.

  The housing 71 has a protruding portion 83 protruding from the flange portion 81 on the lower side of the connection port 54. In addition, the housing 71 has a pair of guide grooves 84 on the inner peripheral surface on the lower side of the outer peripheral wall 73 that forms the connection port 54. These guide grooves 84 are formed on both the left and right sides in the width direction of the housing 71 of the receptacle 53. These guide grooves 84 are formed along the insertion / extraction direction of the plug 55. The receptacle 53 has a cap 85 as a second lid that can open and close the connection port 54. The cap 85 is formed larger than the connection port 54. Thereby, in the state which the cap 85 obstruct | occluded the connection port 54, the connection port 54 and accommodation chamber S1 can be separated.

  FIG. 8 is a perspective view of the inner surface side of the cap 85 attached to the receptacle 53. As shown in FIG. 8, the cap 85 is made of a synthetic resin or the like and has a flat plate portion 86. The cap 85 has a peripheral wall 87 on the connection port 54 side in the flat plate portion 86. The peripheral wall 87 extends along the outer peripheral wall 73 of the housing 71 of the receptacle 53 with the cap 85 closing the connection port 54 of the receptacle 53.

  An upper end side of the cap 85 in the peripheral wall 87 is a claw portion 88 as a retaining portion. The claw portion 88 is provided with a pair of guide recesses 89. These guide recesses 89 are formed on the left and right sides of the claw portion 88 in the width direction. A part of the flat plate portion 86 of the cap 85 protrudes to both sides of the peripheral wall 87, and a protruding portion of the flat plate portion 86 serves as a pressing portion 86a.

  As shown in FIG. 7, the claw portion 88 is positioned outside the connection port 54 on the opposite side of the rotation shaft 91 with the cap 85 closing the connection port 54. Further, it is provided at a position adjacent to the flat plate portion 86. Thereby, the nail | claw part 88 can prevent the penetration | invasion of the water and dust from the side (upper side in FIG. 7) by which the connection port 54 is opened and closed.

  As shown in FIG. 7, the lower end portion of the cap 85 is rotatably connected to the housing 71 by a rotating shaft 91 extending along the flat longitudinal direction of the connection port 54. The rotation shaft 91 is provided below the connection port 54 in the housing 71. When the cap 85 is rotated by the rotation shaft 91, the connection port 54 of the receptacle 53 is opened and closed by the cap 85. That is, when the cap 85 is closed, the connection port 54 of the receptacle 53 is closed.

  A rotating shaft 91 that supports the cap 85 is provided with a coil spring 92. The cap 85 is pressed against the connection port 54 of the receptacle 53 by the elastic force of the coil spring 92. Thereby, the connection port 54 of the receptacle 53 is maintained in a state of being closed by the cap 85. The rotating shaft 91 may be attached to the receptacle 53, or may be attached to a member constituting the accommodation chamber S1.

9A and 9B are diagrams showing the plug 55 connected to the receptacle 53, wherein FIG. 9A is a perspective view of the plug 55 viewed from the front surface side, and FIG. 9B is a perspective view of the plug 55 viewed from the back surface side. .
As shown in FIG. 9A, the housing 75 of the plug 55 has a grip portion 101. A connecting portion 76 is provided at the tip of the grip portion 101. The grip portion 101 is formed so that its outer shape is slightly larger than the connection portion 76 when viewed in cross section. A cord derivation unit 102 from which the charging cord 57 is derived is provided on the side opposite to the connection unit 76 in the grip unit 101.

  As shown in FIG. 9B, a guide portion 106 having a pair of guide protrusions 105 is formed on the back surface of the plug 55. The guide part 106 is formed over the entire length of the connection part 76 including a part of the grip part 101. The guide protrusions 105 of the guide portion 106 are formed on the left and right sides of the plug 55 in the width direction. The guide protrusion 105 is formed along the insertion / extraction direction with respect to the receptacle 53. The guide portion 106 having the guide protrusion 105 is slightly bulged on the grip portion 101 side. In this guide portion 106, a step portion formed at an end portion on the gripping portion 101 side is an engagement step portion 107.

Next, the charging operation of the battery 6 in the electric motorcycle 1 of the present embodiment will be described.
FIG. 10 is a diagram illustrating a gripping state of the plug 55. FIG. 11 is a diagram showing the connection operation of the plug 55 to the receptacle 53, and (a) to (e) are schematic cross-sectional views of the receptacle 53 and the plug 55, respectively.

In order to charge the battery 6, as shown in FIG. 3, first, the seat 29 of the electric motorcycle 1 is unlocked, and the seat 29 is rotated to open the accommodation chamber S1.
Next, as shown in FIG. 10, the plug 55 of the charging cord 57 is gripped in order to connect the plug 55 to the receptacle 53. Note that the user of the electric motorcycle 1 gets off to the front side of the seat 29 and to the left side of the vehicle. Therefore, when charging the battery 6, the user holds the plug 55 with the right hand RH and performs a charging operation from the left side of the vehicle.

  The user holding the plug 55 causes the plug 55 to enter the storage chamber S1, and the back surface of the plug 55 is brought into contact with the claw portion 88 of the cap 85 as shown in FIG. At this time, the guide protrusion 105 on the back surface of the plug 55 is fitted into the guide recess 89 of the claw portion 88, so that the plug 55 is positioned at a correct position with respect to the receptacle 53.

  Here, the guide protrusion 105 of the plug 55 and the guide recess 89 of the claw portion 88 are provided on both the left and right sides in the width direction. Therefore, even if the posture of the plug 55 is slightly inclined to the left and right, the posture of the plug 55 with respect to the cap 85 is stabilized by fitting the guide protrusion 105 into the guide recess 89.

  From this state, the plug 55 is pushed down as shown in FIG. Then, the cap 85 that has closed the connection port 54 by the elastic force of the coil spring 92 is rotated, and the connection port 54 is opened.

  Next, as shown in FIG. 11 (c), the tip of the connection portion 76 of the plug 55 is inserted into the opened connection port 54. Then, the guide protrusion 105 on the back surface of the plug 55 meshes with the guide groove 84 of the housing 71 of the receptacle 53. Also here, the guide protrusion 105 of the plug 55 and the guide groove 84 of the housing 71 are provided on both the left and right sides in the width direction. Therefore, even if the attitude of the plug 55 is slightly inclined to the left and right, the attitude of the plug 55 with respect to the housing 71 is stabilized by fitting the guide protrusion 105 into the guide groove 84.

  If the front and back of the plug 55 are reversed, the portion protruding inward between the guide grooves 84 of the housing 71 interferes with the end surface of the plug 55, and the end of the guide protrusion 105 of the plug 55 is the housing 71. Interferes with the outer peripheral wall 73. Thereby, the connection part 76 of the plug 55 whose front and back are opposite to the connection port 54 of the receptacle 53 is not inserted. Therefore, the plug 55 is not electrically connected to the receptacle 53 with the front and back sides of the plug 55 being wrong.

  Further, as shown in FIG. 11 (d), the plug 55 is pushed toward the receptacle 53. Here, the guide protrusion 105 of the plug 55 is formed over the entire length of the connection portion 76 including a part of the grip portion 101. Therefore, the guide protrusion 105 is guided to the guide groove 84 and the guide recess 89 from the beginning to the end of the process of inserting the plug 55 into the receptacle 53. Thereby, the plug 55 can be inserted in a stable posture at all times.

  As shown in FIG. 11 (e), when the plug 55 is completely inserted into the receptacle 53, the claw portion 88 of the cap 85 reaches the engagement step portion 107 at the end portion of the guide portion 106. Then, the cap 85 is rotated toward the plug 55 by the elastic force of the coil spring 92, and the claw portion 88 of the cap 85 comes into contact with the engagement step portion 107 of the plug 55.

  The engagement step portion 107 has a surface substantially perpendicular to the insertion / extraction direction of the plug 55. Accordingly, when an external force in a direction away from the receptacle 53 is applied to the plug 55, the engagement step portion 107 applies a reaction force in the direction opposite to the external force to the claw portion 88. In this manner, the claw portion 88 functions as a retaining portion, and the retaining of the plug 55 from the receptacle 53 is intended.

  Next, as shown in FIG. 4, the charging cord 57 is disposed in the notch 63 formed in the opening 30, and the seat 29 is rotated to close the opening 30 of the storage chamber S1. When the seat 29 is closed and the seat 29 is locked, charging of the battery 6 is started. As described above, the electric motorcycle 1 according to this embodiment can be charged in a state where the claw portion 88 of the cap 85 prevents the plug 55 from coming off from the receptacle 53 and the seat 29 closes the opening 30. It is.

When charging is completed, the lock of the seat 29 is released, and the seat 29 is rotated to open the accommodation chamber S1 as shown in FIG.
Next, as shown in FIG. 12, the grip portion 101 of the plug 55 is gripped with the right hand RH in order to pull out the plug 55 from the receptacle 53 to release the connection. FIG. 12 is a schematic diagram showing how the plug 55 is pulled out.
At this time, the thumb and index finger of the user's right hand RH holding the grip portion 101 abut against a pair of pressing portions 86 a made up of a part of the flat plate portion 86 of the cap 85. As a result, the pressing portion 86 a is pushed down by the user's thumb and index finger, whereby the cap 85 is rotated in a direction away from the plug 55. Therefore, the retaining state of the claw portion 88 with respect to the engagement step portion 107 is released.

  As described above, when the plug 55 is prevented from being detached by the claw portion 88 of the cap 85, the plug 55 is pulled out from the receptacle 53. As a result, the connection state of the plug 55 to the receptacle 53 is released. Further, when the plug 55 is pulled out from the receptacle 53, the cap 85 rotates to the connection port 54 side by the elastic force of the coil spring 92 and closes the connection port 54 again. As a result, the receptacle 53 is protected by the cap 85.

  Thereafter, the plug 55 is taken out from the storage chamber S1, the sheet 29 is rotated to close the opening 30 of the storage chamber S1, and the seat 29 is locked. Then, the storage chamber S1 is closed with the sheet 29, and rainwater and dust are prevented from entering the storage chamber S1.

  In addition to the receptacle 53, a member may be accommodated in the accommodation chamber S1, or the accommodation chamber S1 may be used as an accessory case. In this case, if another member enters the inside of the connection port 54 of the receptacle 53 or a small object enters, there is a possibility that the plurality of male terminals 72 are electrically connected. However, in the electric motorcycle 1 according to this embodiment, the cap 85 is formed larger than the connection port 54 of the receptacle 53, and the cap 85 always closes the connection port 54 by the coil spring 92. For this reason, in the non-charged state of the battery 6, the connection port 54 and the storage chamber S1 can be separated by the cap 85. Therefore, the male terminals 72 are not short-circuited when the battery 6 is charged.

  As described above, according to the electric motorcycle 1 that is the saddle riding type electric vehicle according to the present embodiment, the storage chamber S1 is closed by the seat 29, so that rainwater and dust are collected in the receptacle 53 inside the storage chamber S1. Intrusion is prevented. Further, the claw portion 88 of the cap 85 prevents the plug 55 from coming off from the receptacle 53. Thus, the waterproof function and the retaining function are achieved by separate members. In this way, since there is no need to arrange a waterproof member and a retaining member together around the receptacle 53 accommodated in a limited area of the accommodation chamber S1 of the electric motorcycle 1, the receptacle 53 In addition, the storage chamber S1 is not increased in size. Further, in order to achieve the waterproof function and the retaining function with small members, these members do not need to have complicated shapes. Therefore, according to the electric motorcycle 1 according to the present embodiment, the waterproof function and the retaining function can be realized without causing the receptacle 53 and the storage chamber S1 to be complicated and large.

  The inventors of the present invention have studied a structure for attaching a charging cable having a waterproof function and a retaining function to a vehicle body. Therefore, the present inventors first considered adding an additional member to the plug and the receptacle to provide both functions. However, this will inevitably increase the size of the plug and receptacle. On the other hand, in the saddle riding type vehicle, the space for mounting components is limited. As a result, when trying to divert the generally used storage chamber, the cover cannot be closed with the plug and the receptacle connected because the storage chamber is too small. Or, in order to secure a large accommodation room, it was necessary to change the arrangement of the peripheral members of the vehicle or to reduce the size.

  For example, in the configuration described in Japanese Patent Application Laid-Open No. 2011-63066 shown as Patent Document 1, the influence of rainwater and dust on the receptacle is suppressed by arranging the receptacle in a space covered with a lid. However, two-wheeled vehicles have limited space for mounting members compared to four-wheeled vehicles. Therefore, the receptacle is also arranged in a narrow space, and the workability of inserting and removing the plug is deteriorated. That is, there is room for improvement in workability of plug insertion / extraction.

  Accordingly, the present inventors have arrived at the present invention with the idea that the connecting portion between the plug and the receptacle is assigned with a retaining function and the cover of the accommodation chamber is assigned with a waterproof function. According to the electric motorcycle 1 according to the present embodiment, the waterproof function is realized by the seat 29, and the retaining function is realized by the claw portion 88 of the cap 85. Thereby, it is possible to provide the electric motorcycle 1 having a compact plug and receptacle connection structure and having good charging workability.

  In particular, in this embodiment, the shape of the receptacle 53 is a flat shape, and a plurality of male terminals 72 are arranged in a line in the longitudinal direction. Thereby, the freedom degree of attachment of the receptacle 53 is raised. For example, if the longitudinal direction of the receptacle 53 is arranged in the horizontal direction, the receptacle 53 can be attached without difficulty in a narrow space. Further, if the longitudinal direction of the receptacle 53 is arranged in the vertical direction, it can be attached without difficulty to a narrow space. The flat-shaped receptacle 53 is particularly useful for the electric motorcycle 1 in which the mounting space is limited and a space for the receptacle 53 cannot be secured.

  Further, according to the electric motorcycle 1 according to the present embodiment, the protrusion protruding from the flat plate portion 86 of the cap 85 is the claw portion 88, and the plug 55 is prevented from being detached by this claw portion 88. Therefore, it is possible to prevent the plug 55 from coming off with a small number of parts compared to the case where the plug 55 is prevented from coming off by another member other than the cap 85.

(Second Embodiment)
FIG. 13 is a left side view of an electric motorcycle 1A that is a straddle-type electric vehicle according to the second embodiment.
Below, a different point from 1st Embodiment is mainly demonstrated. The same components as those in the first embodiment are denoted by the same reference numerals and description thereof is omitted.
As shown in FIG. 13, the electric motorcycle 1 </ b> A according to the second embodiment includes an accommodation chamber S <b> 2 on the left side of the vehicle in the rear cover 27, unlike the electric motorcycle 1 according to the first embodiment. The opening 112 of the storage chamber S2 opens to the side of the vehicle. On the outer wall of the storage chamber S2, an opening 112 that can be opened and closed as a first lid is provided. In addition, a receptacle 53 that can open and close the connection port 54 with a cap 85 is provided in the storage chamber S2.

  In the electric motorcycle 1A, first, the lid 113 is opened to open the opening 112 of the storage chamber S2. Thereafter, as described above, the plug 55 is inserted into the connection port 54 of the receptacle 53, and the claw portion 88 of the cap 85 prevents the plug 55 from coming off, and the lid 112 closes the opening 112. Then, the battery 6 is charged.

  The present invention has been described above by taking the first embodiment and the second embodiment as examples. However, the present invention is not limited to the first embodiment and the second embodiment described above.

  For example, in the first embodiment, the accommodation chamber S1 includes an opening 30 that opens toward the upper side of the vehicle. In the second embodiment, the accommodation chamber S2 opens toward the side of the vehicle. Although the example provided with the part 112 was given and demonstrated, this invention is not limited to these examples. The accommodation chamber may be formed so that the opening is opened toward the front or rear of the vehicle.

  In the first and second embodiments, the electric motorcycle has been described as an example. However, the present invention may be applied to other than the electric motorcycle such as an electric tricycle as long as it is a saddle type vehicle. good.

  As an example, the first lid has been described using the seat 29 and the lid body 113 that opens and closes toward the side, but the present invention is not limited to this. For example, any member that can open and close the storage chamber, such as a lid that opens and closes forward or a sliding shutter, can be employed as the first lid.

  Moreover, although the cap 85 that opens and closes the connection port 54 of the receptacle 53 has been described as an example as the second lid, the present invention is not limited to this. For example, any member that can open and close the connection port 54, such as a sliding shutter that opens and closes the connection port 54, can be employed as the second lid.

  Furthermore, although the claw part 88 was mentioned as an example and demonstrated in the above-mentioned embodiment as a retaining part, this invention is not limited to this. Any shape that prevents the plug 55 inserted into the connection port 54 of the receptacle 53 from coming off, such as a protrusion that contacts the plug 55 or a hook that catches the plug 55, can be employed as a retaining portion.

  Further, for example, the charging cord 57 may be sandwiched and supported by the notch portion 63 and the sheet 29. By preventing the plug 55 from coming off at the claw portion 88 of the cap 85 and supporting the charging cord 57 by the notch portion 63 and the sheet 29, the plug 55 can be more securely prevented from falling off the receptacle 53. For example, the plug 55 can be prevented from falling off even when the weight of the charger 58 or the like, which is a heavy object, acts on the charging cord 57 or when the vehicle falls and the charging cord 57 is pulled strongly during charging. Thereby, the connection failure at the time of charge with the receptacle 53 and the plug 55 can be prevented, and a charging operation can be performed smoothly and satisfactorily.

  For this purpose, the notch 63 may be formed by simply notching a part of the outer wall constituting the storage chamber S <b> 1 by the size of the charging cable 57. Alternatively, when an external force that pulls out the charging cord 57 is applied, a convex portion that the portion of the charging cord 57 is caught may be provided together with the notch portion 63. Further, the notch 63 may be provided in the sheet 29.

  Furthermore, in the above-described embodiment, the structure in which the female terminal 78 is provided on the plug 55 side and the male terminal 72 is provided on the receptacle 53 side has been described as an example, but the male terminal 72 is provided on the plug 55 side and the receptacle 53 side is described. A female terminal 78 may be provided.

  In addition, various design changes can be made within the scope of matters described in the claims.

  DESCRIPTION OF SYMBOLS 1,1A ... Electric motorcycle (saddle-type electric vehicle), 29 ... Seat (first lid), 30, 112 ... Opening, 53 ... Receptacle, 54 ... Connection port, 55 ... Plug, 72 ... Terminal, 85 ... Cap (Second lid), 86 ... flat plate part (lid part), 88 ... claw part, 91 ... rotating shaft, 113 ... lid body (first lid), S1, S2 ... accommodation chamber

Claims (13)

A storage room provided in the vehicle and provided with an opening;
A first lid capable of closing the opening;
A receptacle provided with a connection port which is accommodated in the accommodation chamber and into which a plug is inserted and removed;
A second lid provided to be capable of opening and closing the connection port,
At least one of the first lid or the opening has a through-portion that allows a cable connecting the plug and the charger to pass through in a state where the first lid closes the opening.
The second lid has a retaining portion for preventing a plug inserted into the connection port of the receptacle from coming out of the receptacle,
A straddle-type electric vehicle that can be charged in a state in which the retaining portion of the second lid prevents the plug from being detached, and in a state in which the first lid closes the opening. The second lid is provided to be rotatable around a rotation axis with respect to the receptacle,
The straddle-type electric vehicle according to claim 1, wherein the retaining portion prevents the plug from being detached while the second lid opens the connection port. The second lid is
A lid that can close the connection port;
The retaining portion is
The straddle-type electric vehicle according to claim 1 or 2, wherein the straddle-type electric vehicle is provided adjacent to the lid so as to be positioned outside the connection port in a state where the connection port is closed. The second lid is formed larger than the connection port,
The straddle-type electric vehicle according to claim 1 or 2, wherein in a state where the plug is not inserted into the connection port, the lid portion closes the connection port and separates the connection port from the storage chamber. . The second lid is formed larger than the connection port,
4. The straddle-type electric vehicle according to claim 3, wherein, in a state where the plug is not inserted into the connection port, the lid portion closes the connection port and separates the connection port from the storage chamber. The receptacle is flat when viewed from the plug insertion / extraction direction,
The straddle-type electric vehicle according to claim 1 or 2, wherein a plurality of terminals are arranged in a line in a longitudinal direction of a flat shape of the receptacle. The receptacle is flat when viewed from the plug insertion / extraction direction,
The straddle-type electric vehicle according to claim 3, wherein a plurality of terminals are arranged in a line in a longitudinal direction of a flat shape of the receptacle. The receptacle is flat when viewed from the plug insertion / extraction direction,
The straddle-type electric vehicle according to claim 4, wherein a plurality of terminals are arranged in a line in a longitudinal direction of the flat shape of the receptacle. The receptacle is flat when viewed from the plug insertion / extraction direction,
The straddle-type electric vehicle according to claim 5, wherein a plurality of terminals are arranged in a line in a longitudinal direction of the flat shape of the receptacle.   The straddle-type electric vehicle according to any one of claims 1 to 9, wherein the opening is opened above the vehicle.   The straddle-type electric vehicle according to any one of claims 1 to 10, wherein the first lid includes a seat on which a passenger can sit.   The straddle-type electric vehicle according to any one of claims 1 to 11, wherein the accommodation chamber is provided below a seat on which a passenger can sit.   The straddle-type electric vehicle according to any one of claims 1 to 9, wherein the opening portion opens to a side, a front side, or a rear side of the vehicle.

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