JP2010165596A - Charging system for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a charging system for vehicles that facilitates carrying out an operation inserting a power-charging connector to a charging port with a predetermined relative position. <P>SOLUTION: The charging system 10 includes the power-charging connector 12, the charging port 14 for an insertion-tip 16 of the power-charging connector 12 to be inserted into, a plurality of light emitters 26a to 26c which are arranged around the insertion-tip 16 of the power-charging connector 12 and emit light toward the charging port 14 side, a plurality of light-receiving units 40a to 40c arranged around the charging port 14 corresponding to the light emitters 26a to 26c, a connector position decision unit which determines information about an insert position of the insertion-tip of the power-charging connector 12 for the charging port 14 on the basis of the light emitted from the light emitter 26a to 26c and received by the light-receiving units 40a to 40c, and an information unit which includes a display unit showing a user an information about the insert position of the insertion-tip of the power charging connector 12 determined by the connector position decision unit. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a vehicle charging system, and more particularly to a vehicle charging system that facilitates a user's work of connecting a charging connector to a vehicle-side charging port.

  2. Description of the Related Art Conventionally, there are electric vehicles such as an electric vehicle and a hybrid vehicle that include a motor that receives power supplied from a power storage device such as a battery and outputs driving power as a power source. Among such electric vehicles, a charging port for connecting a charging connector connected to an external power source via a power cord to enable charging of the power storage device while the vehicle is parked at home or the like The one with is known.

  For example, in Patent Document 1, the charger-side connector (2) is inserted into the guide tube portion (11) that constitutes the vehicle-side connector (1) and rotated to rotate the inner periphery of the guide tube portion (11). The engagement protrusions (22a, 22b) of the charger side connector (1) engaged with the spiral groove (14) on the surface move along the spiral groove (14), and both the connectors (1, 2) are half-fitted. In this position, the holding mechanism (16) is activated and the charger side connector (2) is fixed to the vehicle side connector (1) in a fully fitted state. An electric vehicle charging connector is also disclosed.

Japanese Unexamined Patent Publication No. 7-29639

  The electric vehicle charging connector of Patent Document 1 has a disadvantage that the shape and structure of both the vehicle-side connector and the charger-side connector are complicated.

  In the electric vehicle that charges the power storage device by connecting the charging connector to the vehicle-side power supply port as described above, for convenience of standards, depending on the arrangement and connection structure of the connection terminals provided according to the power supply port and the charging connector, Insertion and connection of the charging connector with respect to the charging port can be performed only in a predetermined determined positional relationship.

  In order to allow the user to accurately insert the charging connector with respect to the charging port in the predetermined positional relationship, guide portions that are concavo-convexly fitted to each other are often formed on the charging port and the charging connector. It is not easy for a user who has become accustomed to accurately align and insert them into the charging port once.

  In particular, when the vehicle is stopped in a narrow place where the user cannot directly see the power supply port, or when the vehicle is parked in a dark place, the charging connector is accurately aligned with the power supply port. The insertion work becomes more difficult.

  An object of the present invention is to provide a vehicle charging system capable of easily performing an operation of inserting a charging connector in a predetermined positional relationship with respect to a charging port.

  The vehicle charging system according to the present invention includes a charging connector connected to an external power source, a charging port provided in the vehicle, into which the charging connector is inserted, and a charging port side disposed around a tip insertion portion of the charging connector. A plurality of light emitting units that emit light toward the charging port, a plurality of light receiving units arranged around the charging port corresponding to the light emitting unit, and a charging connector for the charging port based on light from the light emitting unit received by the light receiving unit A charging connector position determination unit that determines information regarding the position of the distal end insertion portion, and a notification unit that notifies the user of information regarding the position of the distal end insertion portion of the charging connector determined by the connector position determination unit.

  According to this configuration, the charging port is illuminated by the light from the light emitting portion of the charging connector, so that even when the vehicle is stopped in the dark, the user accurately aligns the charging connector with respect to the charging port. And can be easily inserted and connected. Even when the user cannot directly look at the charging port, the user can easily insert the charging connector into the charging port by correcting the orientation of the charging connector held by the hand based on information obtained from the notification unit. Can be done.

  In the vehicle charging system according to the present invention, the notification unit is configured by at least one of a display unit that displays information relating to the position of the distal end insertion unit of the charging connector so as to be visible to the user and a voice generation unit that notifies the user by voice. May be.

  According to this configuration, the user holds by hand based on the information on the position of the tip insertion portion of the charging connector obtained while watching the information displayed on the display unit or listening to the sound from the sound generation unit. By correcting the direction of the charging connector, etc., the charging connector can be easily inserted into the charging port. In particular, audio notification is useful for users who have a slight visual impairment.

  Moreover, in the vehicle charging system according to the present invention, it is preferable that the display unit and the sound generation unit be installed at a position hidden by a power supply port door that closes the power supply port when charging is not performed.

  According to this configuration, since the display unit and the sound generation unit are hidden by the charging port door, the appearance of the vehicle is not disturbed.

  Furthermore, in the vehicle charging system according to the present invention, the information related to the position of the tip insertion portion of the charging connector may include guide information for guiding the user to correct the position of the tip insertion portion of the charging connector.

  According to this configuration, the user can easily insert the charging connector into the charging port by correcting the position of the tip insertion portion of the charging connector held by the hand based on the guide information obtained from the notification unit. be able to.

  According to the vehicle charging system of the present invention, the user can easily perform the work of inserting and connecting the charging connector to the charging port of the electric vehicle.

It is a figure which shows the charge connector and charge port which comprise the charge system which is one embodiment of this invention. It is a front view of the front-end | tip insertion part of a charging connector. It is a front view of a charging port and its periphery. It is a block diagram which shows the light-receiving part which comprises the charging system shown in FIG. 1, a charging connector position information determination part, a display part, and a speaker. It is a figure for demonstrating the distance and vertical direction angular position of the front-end | tip insertion part of the charging connector with respect to a charging port. It is a figure for demonstrating the horizontal direction angular position of the front-end | tip insertion part of the charging connector with respect to a charging port. It is a figure which shows the example of a display in a display part. It is a figure for demonstrating the state which the front-end | tip insertion part of the charging connector shifted | deviated to the twist angle direction. It is a figure which shows another example of a display in a display part.

  Embodiments according to the present invention will be described below in detail with reference to the accompanying drawings. In this description, specific shapes, materials, numerical values, directions, and the like are examples for facilitating the understanding of the present invention, and can be appropriately changed according to the application, purpose, specification, and the like.

  FIG. 1 is a diagram showing a charging connector 12 and a charging port 14 constituting a vehicle charging system (hereinafter, simply referred to as a “charging system”) 10 according to one embodiment of the present invention, and FIG. FIG. 3 is a front view showing the charging port 14 and its peripheral part.

  The charging system 10 can be applied to various electric vehicles such as an electric vehicle, a hybrid vehicle, and a fuel cell having a motor driven by power supply from the power storage device as a driving power source.

  As shown in FIG. 1, the charging connector 12 includes a distal end insertion portion 16 that is inserted into the charging port 14, a main body portion 20 that is connected by forming a stepped portion 18 on the proximal end side of the distal end insertion portion 16, The handle portion 22 is connected to the main body portion 20.

  A pair of engaging protrusions 24 project outward from the distal end insertion portion 16 having a columnar shape at the outer peripheral edge portion of the distal end and facing the radial direction. In addition, a plurality of connection terminals 25 of three different sizes are arranged on the end face 25 slightly recessed of the distal end insertion portion 16. The connection terminal 25 is set to an arrangement and connection structure conforming to the standard, and includes a power terminal for supplying power and other terminals for electrical connection.

  The main body portion 20 of the charging connector 12 has a substantially cylindrical shape having a larger diameter than the distal end insertion portion 16, and a plurality of light emitting portions 26 are arranged on a step portion 18 formed in an annular shape at a boundary portion with the distal end insertion portion 16. ing. The light emitting unit 26 is preferably configured by a light emitting element such as a white LED or a lamp, for example, and emits light toward the charging port 14 when the charging connector 12 is inserted.

  As shown in FIG. 2, in the charging connector 12 of this embodiment, the three light emission parts 26 are provided. Specifically, they are a left upper side light emitting unit 26a, an upper right side light emitting unit 26b, and a lower side light emitting unit 26c as viewed from the user side holding the charging connector 12 by hand. The upper left side light emitting portion 26 a and the upper right side light emitting portion 26 b are disposed at symmetrical positions with respect to the upper engaging protrusion 24 of the tip insertion portion 16, and the lower light emission portion 26 c is engaged below the tip insertion portion 16. It is arranged at a position corresponding to the protrusion 24. Furthermore, each light emission part 26a, 26b, 26c is set so that light may be irradiated with a predetermined irradiation angle. This irradiation angle is optimally set in relation to a light receiving unit and the like which will be described later.

  In the present embodiment, the three light emitting units 26a, 26b, and 26c are provided, but the number of the light emitting units may be two or four or more.

  The handle 22 of the charging connector 12 is formed as a frame having a rounded cross-sectional shape so that the user can easily grip it, and one end of the power cord 23 is connected to the lower end of the frame. The other end of the power cord 23 is connected to an external power source (not shown), for example, a household electrical outlet, a charging device main body installed in a commercial facility, or the like.

  The power cord 23 connected to the handle portion 22 as described above is electrically connected to the connection terminal 25 via a power transmission path provided inside each of the handle portion 22, the main body portion 20, and the tip insertion portion 16. ing.

  Referring again to FIG. 1, the charging port 14 is fixed to the bottom of a charging port housing 30 that is provided in a concave shape at the front, rear, or side of the vehicle body 28. The power cord 32 connected to the charging port 14 in the vehicle is a power storage device (for example, a secondary battery such as a nickel metal hydride battery or a lithium ion battery, a capacitor without chemical reaction, etc.) via a power converter (not shown). Is electrically connected.

  As shown in FIGS. 1 and 3, the charging port 14 has a substantially cylindrical shape, and is recessed from the outer cylindrical portion 34 into which the distal end insertion portion 16 of the charging connector 12 is inserted, and the opening end portion of the outer cylindrical portion 34. And a bottom portion 36 located at the bottom. A plurality of connection terminals (not shown) are arranged on the bottom portion 36 of the charging port 14 corresponding to the connection terminals 25 of the charging connector 12. Among these connection terminals, the power terminal is configured as a male connection terminal or a connection pin with respect to the female power terminal 25 of the charging connector 12. However, the male-female relationship of these connection terminals may be reversed.

  As shown in FIG. 3, a pair of guide grooves 39 are formed on the inner surface of the outer cylinder portion 34 of the charging port 14 so as to extend in the axial direction at positions opposed to each other in the radial direction. In the positional relationship in which the engaging protrusions 24 of the charging connector 12 are engaged and inserted into the guide grooves 39, the tip insertion portion 16 of the charging connector 12 can be inserted into the charging port 14, and this positional relationship. Thus, the operation of electrically connecting the charging connector 12 to the charging port 14 is completed by firmly pushing the charging connector 12 to the innermost part.

  A plurality of light receiving portions 40 are arranged around the charging port 14 at the bottom 38 of the charging port accommodating unit 30. The light receiving unit 40 is configured by a light receiving sensor, and has a function of receiving light emitted from the light emitting unit 26 of the charging connector 12 and detecting the light amount or illuminance. Specifically, the light receiving unit 40 includes three parts, a left upper light receiving unit 40a, an upper right light receiving unit 40b, and a lower light receiving unit 40c, at positions corresponding to the light emitting units 26a, 26b, and 26c of the charging connector 12. That is, the left upper light receiving portion 40a and the upper right light receiving portion 40b are arranged at symmetrical positions with respect to the upper guide groove 39 of the charging port 14, and the lower light receiving portion 40c is located at a position corresponding to the lower guide groove portion 38. Has been placed.

  A speaker 42 is installed on the bottom 38 of the charging port housing 30. The speaker 42 is a part of an informing unit that informs the user of information regarding the position of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14 when the user tries to insert the charging connector 12 into the charging port 14. Configure.

  A charging port door 31 that is hingedly connected to the vehicle body 28 is provided at the opening edge of the charging port housing 30. The charging port door 31 is opened when charging the vehicle and allows the charging connector 12 to be inserted into the charging port 14, and is otherwise closed and locked by an electromagnetic or mechanical lock mechanism (not shown). ing.

  A display unit 44 made of, for example, a liquid crystal display (LED) is installed on the inner surface of the charging port door 31 in a state where the charging port housing unit 30 is closed. When the user tries to insert the charging connector 12 into the charging port 14, the display unit 44 displays information regarding the position of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14 so as to be visible to the user. Part of the part.

  When the charging port door 31 is closed, the speaker 42 and the display unit 44 are provided at positions hidden by the charging port door 31, so that the appearance of the vehicle is not disturbed.

  As shown in FIG. 4, the charging system 10 of the present embodiment includes a charging connector position information determination unit 46 provided on the vehicle side. The charging connector position information determination unit 46 includes, for example, a CPU, a memory, and the like, and may be configured as part of an ECU (Electronic Control Unit) for vehicle control.

  When the charging connector 12 is about to be inserted into the charging port 14, the light receiving amount or illuminance of light emitted from the light emitting units 26 a, 26 b, and 26 c of the charging connector 12 by the light receiving units 40 a, 40 b, and 40 c around the charging port 14 The detection result is input to the charging connector position information determination unit 46. In response to the input, the charging connector position information determination unit 46 has a function of determining information related to the position of the tip insertion portion 16 of the charging connector 12 with respect to the charging port 14 (hereinafter referred to as “tip insertion portion position information”). . This tip insertion portion position information is obtained, for example, by calculation using a predetermined coefficient or mathematical expression, referring to a table stored in the memory, specifying a light receiving area on the light receiving sensor, or the like.

  Based on the tip insertion portion position information thus obtained, the display portion 44 displays guide information for guiding the user to correct the position of the tip insertion portion 16 of the charging connector 12. At the same time or instead of this, the guide information is emitted as sound from the speaker 42.

Then, with reference to FIGS. 5-9, operation | movement of the charging system 10 which consists of the said structure when a user tries to insert the charging connector 12 in the charging port 14 is demonstrated.
As shown in FIGS. 5 and 6, the tip insertion portion position information includes information on the distance L between the charging port 14 and the tip insertion portion 16 of the charging connector 12, and the charging connector in the direction of the axis C of the charging port 14. 12, information on the vertical angle position V of the 12 tip insertion portions 16 and information on the horizontal angle position H of the tip insertion portion 16 of the charging connector 12 in the direction of the axis C of the charging port 14 are included. The tip insertion portion position information further includes information on the twist direction angular position R of the tip insertion portion 16 of the charging connector 12 on a plane perpendicular to the axis C direction of the charging connector 12.

  When the user inserts the charging connector 12 into the charging port 14 in a state where the charging port 14 can be directly viewed, the user grasps the handle portion 22 of the charging connector 12 with one hand, and the charging port door 31 opens the tip insertion portion 16. Turn to the exposed charging port 14. As a result, the charging port 14 is illuminated by light from the light emitting portions 26a, 26b, and 26c provided in the charging connector 12, so that the connection work of the charging connector 12 in a dark place is facilitated.

  The user then superimposes the three spots formed around the charging port 14 on the light receiving portions 40a, 40b, and 40c by the light emitted from the light emitting portions 26a, 26b, and 26c of the charging connector 12, respectively. 12 is brought close to the charging port 14. At this time, since the light from the light emitting units 26a, 26b, and 26c is irradiated at a predetermined irradiation angle, the diameter is reduced so that the spot is narrowed as the charging connector 12 approaches. In this way, by inserting the charging connector 12 close to the charging port 14 so that each spot having a smaller diameter matches the outer shape of each light receiving portion 40a, 40b, 40c, the tip of the charging connector 12 is inserted. The part 16 can be accurately and easily inserted into the charging port 14.

  Next, connection of the charging connector 12 under a situation where the user cannot directly view the charging port 14 will be described.

  The user grasps the handle portion 22 of the charging connector 12 with one hand and brings the distal end insertion portion 16 toward the charging port 14. At this time, since the user cannot visually confirm the positional relationship of the distal end insertion portion 16 with respect to the charging port 14, the user holds the charging connector 12 at a position or orientation where it can be inserted with a sense other than his own visual inspection.

  As described above, the charging connector position information determination unit 46 of the charging system 10 detects the illuminance of light emitted from the light emitting units 26a, 26b, and 26c of the charging connector 12 by the light receiving units 40a, 40b, and 40c, respectively. Based on the information on the position of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14, specifically, the distance L to the charging port 14, the vertical angle position V, the horizontal angle position H, and the twist. Information on each of the angular positions R is determined.

  The distance L from the distal end insertion portion 16 of the charging connector 12 to the charging port 14 is obtained by referring to a table or the like stored in advance in the memory based on the illuminance detected by the light receiving portions 40a, 40b, and 40c. . Then, the information of the obtained distance L is displayed on the display unit 44 as characters such as “distance L: 3 cm” to notify the approaching state of the charging connector 12 to the charging port 14.

  In addition, the charging connector position information determination unit 46 determines information related to the vertical angle position V. For example, if the illuminance detected by the left upper light receiving unit 40a and the upper right light receiving unit 40b is larger than the illuminance detected by the lower light receiving unit 40c, the left upper light emitting unit 26a and the upper right light emitting unit 26b of the charging connector 12 are used. Is closer to the lower light emitting portion 26c, that is, it is determined that the vertical angle position V of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14 is too downward, as shown in FIG. As shown above, the display unit 44 displays an upward arrow 50 together with the rear image of the charging connector 12 and a message 52 such as “Please turn the charging connector slightly upward”, so that the vertical direction of the distal end insertion unit 16 is displayed to the user. Guide to correct the deviation of the angular position V. At this time, an announcement having the same content as the message 52 may be generated from the speaker 42.

  Further, the charging connector position information determination unit 46 determines information related to the horizontal direction angular position H. For example, if the illuminance detected by the upper right light receiving unit 40b is larger than the illuminance detected by the upper left light receiving unit 40b, the upper right light emitting unit 26b of the charging connector 12 is closer to the upper left light emitting unit 26a. That is, it is determined that the horizontal angle position H of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14 is excessively directed to the left, and as shown in FIG. A right-pointing arrow 54 and a text message 56 such as “Please turn the charging connector slightly to the right” are displayed together with the rear image 48 to correct the deviation of the horizontal angular position H of the distal end insertion portion 16 with respect to the user. To guide. At this time, an announcement having the same content as the message 56 may be generated from the speaker 42.

  Furthermore, the charging connector position information determination unit 46 determines information regarding the twist direction angular position R. For example, as shown in FIG. 8, the light receiving areas on the light receiving portions 40a, 40b, and 40c are shifted counterclockwise with respect to the spots S formed by the light from the light emitting portions 26a, 26b, and 26c of the charging connector 12. Is detected, the twist direction angle R of the distal end insertion portion 16 of the charging connector 12 with respect to the charging port 14 is determined to be excessively counterclockwise, and as shown in FIG. In addition to the rear image 48 of the charging connector 12, a clockwise arrow 58 and a text message 60 such as “Please twist the charging connector a little clockwise” are displayed so that the user can twist the tip insertion portion 16. Guide to correct the deviation of the angular position H. At this time, an announcement having the same content as the message 60 may be generated from the speaker 42.

  As described above, according to the charging system 10 of the present embodiment, the vehicle is stopped in the dark place by illuminating the charging port 14 with the light from the light emitting portions 26a, 26b, and 26c of the charging connector 12. Even in this case, the user can easily insert and connect the charging connector 12 with accurate positioning with respect to the charging port 14. Even in a situation where the user cannot directly view the charging port 14, the user can correct the angular position and orientation of the charging connector 12 held by the hand based on the position information of the distal end insertion portion obtained from the display unit 44 or the speaker 42. Thus, the charging connector 12 can be easily inserted into the charging port 14.

  In addition, the user corrects the angular position and orientation of the charging connector 12 held by the hand based on the position information on the distal end insertion portion of the charging connector 12 obtained while listening to the voice announcement from the speaker 42, thereby The charging connector can be easily inserted into the battery, and in particular, notification by voice announcement is beneficial for a user who has a slight visual impairment.

  The vehicle charging system according to the present invention is not limited to the configuration of the charging system 10 described above, and various changes and improvements can be made.

  For example, in the charging system 10 described above, the information notified to the user via the display unit 44 and the speaker 42 is information that prompts correction of the position of the distal end insertion unit 16 of the charging connector 12, but is not limited thereto. Instead, the fact that the position of the distal end insertion portion is shifted in each angular direction may be displayed or announced.

  Moreover, the method of displaying the distal end insertion portion position information of the charging connector 12 on the display unit 44 is not limited to that illustrated in FIG. 7. For example, by changing the display color, the distance L and each angular direction V, H, R displacement may be displayed. For example, a circle 62 that emits white light is displayed on the display unit 44, and the white light emission degree of the circle 62 becomes brighter as the distance L becomes smaller. The upper (or lower) arcuate region 64 that expands toward the center of the circle according to the degree of deviation is displayed with red light emission, and the distal end insertion portion 16 is directed too far to the left (or right). In some cases, the right (or left) arcuate region 66 that expands toward the center of the circle according to the degree of deviation is displayed with green light emission, and the distal end insertion portion 16 faces in the counterclockwise direction (or clockwise direction). If it has passed, the central sector area 70 expands in the counterclockwise direction (or clockwise direction) in the circumferential direction in the small-diameter circle 68 concentric with the circle 62 according to the degree of deviation. It may be displayed by the blue light.

  DESCRIPTION OF SYMBOLS 10 Vehicle charging system, 12 Charging connector, 14 Charging port, 16 Tip insertion part, 20 Main body part, 22 Handle part, 24 Engagement protrusion, 26, 26a, 26b, 26c Light emission part, 28 Vehicle body, 30 Charging port accommodation Unit, 31 charging port door, 39 guide groove, 40, 40a, 40b, 40c light receiving unit, 42 speaker, 44 display unit, 46 charging connector position information determination unit.

Claims (4)

A charging connector connected to an external power source;
A charging port provided in a vehicle and into which a tip insertion portion of the charging connector is inserted;
A plurality of light emitting units arranged around the tip insertion portion of the charging connector and emitting light toward the charging port; a plurality of light receiving units arranged corresponding to the light emitting units around the charging port;
A charging connector position determination unit that determines information on a position of a tip insertion portion of the charging connector with respect to the charging port based on light from the light emitting unit received by the light receiving unit;
A vehicle charging system comprising: a notification unit that notifies a user of information related to the position of the distal end insertion portion of the charging connector determined by the connector position determination unit. The vehicle charging system according to claim 1,
The vehicle is characterized in that the notification unit is configured to include at least one of a display unit that displays information related to the position of the tip insertion portion of the charging connector so as to be visible to a user and a voice generation unit that notifies the user by voice. Charging system. The vehicle charging system according to claim 2,
The vehicle charging system, wherein the display unit and the sound generation unit are installed at a position hidden by a power supply port door that closes the power supply port at times other than charging. The vehicle charging system according to claim 1,
The vehicle charging system, wherein the information related to the position of the leading end insertion portion of the charging connector includes guide information for guiding the user to correct the position of the leading end insertion portion of the charging connector.

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