JP5848188B2 - Power receiving device - Google Patents

Description

  The present invention relates to a power receiving device into which a power supply plug is inserted.

  In recent years, with the growing awareness of environmental issues, hybrid vehicles and electric vehicles are becoming popular. In such a vehicle, a motor that is a power source for traveling is driven using the electric power of the battery. Therefore, a power receiving device is mounted on the vehicle, and charging of the battery is enabled by inserting a power supply plug on the charging facility side into the power receiving device (see, for example, Patent Document 1).

  The power receiving apparatus includes, for example, a box attached to the vehicle body and a body attached to the box. The former box accommodates an inlet to which the power plug is connected, and the latter body does not come out of the power plug. Integrated cable lock.

JP-A-9-161898

  By the way, it is desired that the power receiving apparatus itself has a lighting function in preparation for a charging opportunity at night or in a dark place. For example, this illumination function can be achieved by accommodating the illumination module surrounding the inlet in the box, pulling out the wire harness from the illumination module, and fitting the connector at the end of the harness to the mating connector facing the box from the body. Realized.

However, in the illumination function with this configuration, since the wire harness straddles the box, the seal structure for ensuring the waterproofness of the wiring portion by the harness is likely to be complicated.
The present invention has been made paying attention to such problems, and an object thereof is to provide a power receiving device capable of simplifying a seal structure.

In order to achieve the above object, according to the first aspect of the present invention, in the power receiving device into which the power plug is inserted, a box in which an inlet to which the power plug is connected is accommodated, and a body attached to the box, the provided as receiving portions separate from each other, in the body, together with a light source for the inlet illumination is accommodated, the light guide portion for guiding the light to the box side receives light emitted from the light source is the A light that is interposed between the body and the box, and further receives light guided by the light guide unit and guides the light around the inlet while irradiating the light toward the inlet. guide is housed, the light guide section that adopts a waterproof structure for both of the said body box by a seal member as its gist There.

According to the configuration, among the light source, the light guide unit, and the light guide for realizing the illumination function, the light guide housed in the box does not need a wire harness. That is, since the wire harness does not straddle the box, there is no need to provide a seal structure for ensuring the waterproofness of the wiring portion by the harness. Therefore, the seal structure can be simplified.
In order to achieve the above object, according to a second aspect of the present invention, in the power receiving device into which the power supply plug is inserted, a box in which an inlet to which the power supply plug is connected is accommodated, and a body attached to the box, The body includes a light source for the inlet illumination, and a light guide unit that receives light emitted from the light source and guides the light to the box side is provided between the body and the box. In addition, the box contains a light guide that receives the light guided by the light guide unit and guides the light around the inlet while irradiating the light toward the inlet. The light guide is disposed so as to surround the inlet, and receives the light guided by the light guide unit while the light guide itself emits light. And as its gist that emits light toward the inlet.
According to the configuration, among the light source, the light guide unit, and the light guide for realizing the illumination function, the light guide housed in the box does not need a wire harness. That is, since the wire harness does not straddle the box, there is no need to provide a seal structure for ensuring the waterproofness of the wiring portion by the harness. Therefore, the seal structure can be simplified.

According to a third aspect of the present invention, in the power receiving device according to the first or second aspect , the body includes a second light source for displaying a charge level in a stepwise manner, and the second power source. A second light guide part that receives light emitted from the light source and guides the light to the box side is interposed between the body and the box, and further, the box has a second light guide part. The gist is that a second light guide that receives the guided light and displays the charge level while guiding the light to the display portion of the charge level is housed.

  According to this configuration, among the second light source, the second light guide unit, and the second light guide for realizing the charge level display function, the second light guide housed in the box, in particular, has the wire harness. do not need. That is, since the wire harness does not straddle the box, there is no need to provide a seal structure for ensuring the waterproofness of the wiring portion by the harness. Therefore, the seal structure can be simplified.

According to a fourth aspect of the present invention, in the power receiving device according to any one of the first to third aspects, the body contains a third light source for displaying a charging state by turning on, blinking, and turning off. In addition, a third light guide part that receives light emitted from the third light source and guides the light to the box side is interposed between the body and the box, and the box further includes: The gist is that a third light guide that receives the light guided by the third light guide unit and displays the charged state while guiding the light to the display portion of the charged state is housed.

  According to this configuration, among the third light source, the third light guide unit, and the third light guide for realizing the charging state display function, the third light guide housed in the box, in particular, has the wire harness. do not need. That is, since the wire harness does not straddle the box, there is no need to provide a seal structure for ensuring the waterproofness of the wiring portion by the harness. Therefore, the seal structure can be simplified.

  According to the present invention, the seal structure can be simplified.

Sectional drawing which shows the structure for implement | achieving the illumination function of an inlet_port | entrance, and the perspective view of a light guide about the power receiving apparatus by 1st Embodiment. Sectional drawing which shows the structure for implement | achieving the display function of a charge level and the display function of a charge state about the power receiving apparatus by 2nd Embodiment, and the front view which looked at the design member from the vehicle outer side.

  Hereinafter, an embodiment in which the present invention is embodied in a power receiving device mounted in a plug-in hybrid vehicle will be described. The plug-in hybrid vehicle refers to a vehicle that can directly charge a battery using a power supply plug on the charging facility side among hybrid vehicles that use an engine and a motor as a driving power source. In such a vehicle, when the electric key authentication is performed between the vehicle key possessed by the vehicle owner and the security device on the vehicle side, and it is determined that there is a proper vehicle key suitable for this vehicle, Locking and unlocking of the door lock and starting of the engine are allowed, and the locked state of a member called a lid that covers the power receiving device from the outside of the vehicle can be released.

(First embodiment)
As shown in FIG. 1, the power receiving device 1 includes a box 2 attached to the vehicle body and a body 3 attached to the box 2. The former box 2 has an inlet (not shown) as a connection destination of a power supply plug. The latter body 3 is integrated with a cable lock (not shown) that prevents the power plug from being pulled out. A seal member 4 is interposed between the box 2 and the body 3 to prevent water from entering from the outside of the vehicle to the inside of the vehicle. Moreover, the power receiving apparatus 1 has an inlet illumination function in preparation for a charging opportunity at night or in a dark place.

  In order to realize the illumination function, the body 3 accommodates a substrate 30 on which an LED (Light Emitting Diode) 31 serving as a light source for inlet illumination is mounted, and the body 3 is irradiated from the LED 31. A light guide 3 a that receives the received light and guides the light toward the box 2 is provided so as to face the inside of the box 2. The body 3 is formed into a required shape by two-color molding using a transparent resin such as an acrylic resin and another resin, and at least the light guide portion 3a is formed of a transparent resin.

  On the other hand, a light guide 20 having a thin ring shape surrounding the inlet is disposed in the box 2. The light guide 20 is made of a transparent resin such as an acrylic resin. The light guide 20 is formed with a frame-shaped introduction portion 21 that serves as an entrance for the light guided by the light guide portion 3a, and the introduction portion 21 is fitted to the light guide portion 3a to a predetermined depth. Between the introduction part 21 and the light guide part 3a, a sealing material 22 for preventing entry of dust and dirt is interposed. The light guide 20 receives a light guided by the light guide portion 3a inside the introduction portion 21 and performs fine uneven processing so that the light can be emitted toward the inlet while guiding the light around the inlet. Has been. That is, the light emitted from the LED 31 is guided to the light guide 20 through the light guide portion 3a, and finally receives the control by the uneven processing inside the light guide 20, and finally the inner peripheral surface 20a (FIG. 1). To the left). As a result, light is irradiated from the inner peripheral surface 20a toward the inlet, and thereby the inlet is illuminated brightly. Note that, on the right side of FIG. 1, for the sake of convenience of explanation, the principle that light is irradiated from a part of the outer surface of the light guide 20 is shown. Incidentally, the surface is provided with a coating 23 that prevents light from leaking from other than the target irradiated portion.

Next, the operation of the power receiving device 1 will be described.
The body 3 is attached to the box 2 attached to the vehicle body with the seal member 4 interposed from the inside of the vehicle. At this time, the light guide 3 a of the body 3 faces the inside of the box 2. In the body 3, the substrate 30 on which the LEDs 31 are mounted is accommodated in advance while being positioned. And while attaching the sealing material 22 to the light guide part 3a from the vehicle outer side, the light guide 20 is accommodated in the box 2, fitting the introduction part 21 in the part.

  When the LED 31 is controlled to be turned on and light is emitted from the LED 31, the light is guided by the light guide 3a and further by the light guide 20, and finally emitted from the inner peripheral surface 20a toward the inlet. . As a result, the illumination function is exhibited at the charging opportunity at night or in a dark place, and the charging work can be suitably performed.

As described above, according to the present embodiment, the following effects can be obtained.
(1) Of the LEDs 31, the light guide 3a, and the light guide 20 for realizing the illumination function, the light guide 20 accommodated in the box 2 in particular does not require a wire harness. That is, since the wire harness does not straddle the box 2, there is no need to provide a seal structure for ensuring the waterproofness of the wiring portion by the harness. Therefore, the seal structure can be simplified.

  (2) Since there is no electrical element in the coupling portion between the light guide portion 3a and the introduction portion 21, a sealing material for ensuring the waterproofness of this portion can be omitted. For example, it is not necessary to provide a sealing material such as an O-ring along the outer edge of the light guide 20. Therefore, the seal structure can be simplified.

(3) By providing the sealing material 22 at the coupling portion between the light guide portion 3a and the introducing portion 21, it is possible to prevent dust and dust from entering.
(4) By interposing the seal member 4 between the box 2 and the body 3, it is possible to prevent water from entering the vehicle.

(5) Since there are no electrical elements in the light guide portion 3a and the light guide 20, it is possible to reduce the substrate.
(6) Since the connection work of the connector by the wire harness can be omitted, the number of assembling steps can be reduced.

(7) With the reduction of connectors, wires, and boards, the number of parts can be reduced.
(8) Cost related to the illumination function can be reduced.

(9) Unlike the configuration in which the LED 31 is provided in the box 2, the LED 31 is provided in the body 3, so that the waterproof structure for the box 2 can be simplified.
(10) Since an empty space is created in the box 2 for reasons such as simplifying the seal structure, it is possible to increase added value by installing new parts there. Moreover, if the empty space is filled, it is possible to reduce the size and weight.

  (11) The body 3 is formed by two-color molding using a transparent resin and another resin, and the light guide portion 3a made of the transparent resin is integrated with the body 3 by two-color molding. Thus, the light irradiated from LED31 can be guide | induced to the light guide 20 by forming the light guide part 3a with transparent resin among two types of resin used for two-color molding.

(Second Embodiment)
The power receiving device of the present embodiment has a charge level display function in order to notify the remaining battery level. In addition, the power receiving device has a charge state display function in order to notify whether the battery is currently being charged or has been charged. The power receiving device 1 according to the first embodiment also has an inlet illumination function as described above. Therefore, here, the display function of the charge level and the display function of the state of charge will be described.

  As shown in FIG. 2, the board 30 accommodated in the body 3 is mounted with three LEDs 32 to 34 serving as a light source for charging level display and an LED 35 serving as a light source for displaying a charge state. And the light guide part 3b which receives the light irradiated from LED32-35 and guides the light to the box 2 side is protruded in the body 3 so that the inside of the box 2 may be faced. Among the light guide portions 3b, a light transmitting portion 32a that receives light from the LED 32, a light transmitting portion 33a that receives light from the LED 33, a light transmitting portion 34a that receives light from the LED 34, and a light transmitting portion 35a that receives light from the LED 35. Are formed of a transparent resin such as acrylic. And between two adjacent translucent parts is the light-shielding part by other resin. That is, the body 3 is formed in a required shape by two-color molding.

  On the other hand, the box 2 has a light guide 50 corresponding to the light transmitting portion 32a, a light guide 60 corresponding to the light transmitting portion 33a, and a light guide 70 corresponding to the light transmitting portion 34a. Finally, light guides 80 are provided corresponding to the translucent portions 35a. Each light guide 50-80 consists of transparent resin, such as an acrylic resin, and the edge part of the entrance side of the light guide | induced by corresponding translucent part 32a-35a is fitted by the said corresponding translucent part 32a-35a. In addition, the end portion on the light exit side is integrated with the design member 25, and the design member 25 is accommodated in the box 2. The end face on the light exit side is visible from the outside of the vehicle while being provided on the window of the design member 25.

Next, the operation of the power receiving device 1 will be described.
In the EMPTY state where the remaining battery level is the smallest, the LEDs 32 to 34 are controlled to be turned off, and as the remaining battery level increases, the lighting control of the LEDs 32 and the lighting control of the LEDs 32 to 33 are performed. The lighting control 34 is performed. During charging, the LED 35 is controlled to be turned on, and when charging is completed, the LED 35 is controlled to be turned off. When a charging error occurs, the LED 35 is controlled to blink.

  And if this is received and light is irradiated, for example from LED32 and 35, the light will be guide | induced by the translucent parts 32a and 35a and also the light guides 50 and 80, and this light will be visible from the vehicle outer side. That is, it is informed that the battery is currently being charged and the charge level is still low.

As described above, according to the present embodiment, in addition to the effects (1) to (11) according to the first embodiment, the following effects can be achieved.
(12) With respect to the display function of the charge level, each effect according to the illumination function of the inlet according to the first embodiment is exhibited.

(13) With respect to the display function of the state of charge, each effect according to the illumination function of the inlet according to the first embodiment is exhibited.
It should be noted that each of the above embodiments can be modified and embodied as follows.

  The light guides 3a and 3b for guiding the light from the LEDs 31 to 35 to the light guides 20 and 50 to 80 are replaced with the configuration in which the light guides 3a and 3b are integrated into the body 3 by two-color molding, and the light from the LEDs 31 to 35 is guided to the light guide 20 , 50 to 80 may be provided on the box 2 side. In this case, the light guide provided on the box 2 side is accommodated in the box 2 while facing the body 3 from the outside of the vehicle.

  -About the body 3, the light guide parts 3a and 3b by transparent resins, such as an acrylic resin, and the part by other resin may be divided | segmented into 2 or more types beforehand, and the structure which assembles them may be employ | adopted.

  -About the light guide 20 of 1st Embodiment, you may comprise by two-color molding by transparent resins, such as an acrylic resin, and other resin. In this case, the other resin has a light-shielding property, thereby replacing the coating 23 of the first embodiment.

  -About the light guide 20 of 1st Embodiment, the molded object by transparent resins, such as an acrylic resin, and the molded object by the other resin which has light-shielding property are divided-molded, and the structure which assembles them is employ | adopted. Also good.

  -About the design member 25 of 2nd Embodiment, you may comprise by two-color molding by transparent resin, such as an acrylic resin, and other resin which has light-shielding property. In this case, a transparent resin such as an acrylic resin is an alternative to the light guides 50 to 80 of the second embodiment.

  -About the material used for the light guide part 3a, 3b of the body 3, and the light guide 20, 50-80, it does not necessarily need to be transparent on the condition that it has translucency, and is colored in the range which lets light pass. Also good. Moreover, the body 3 may be comprised with another translucent resin other than an acrylic resin.

-A light source is not limited to LED. For example, a light bulb or an EL (electroluminescence) panel may be used as the light source.
・ The lighting function may be used as a welcome function. For example, the LED 31 is turned on when the presence of a regular vehicle key is affirmed after key authentication. In this case, the position of the power receiving device 1 can be specified through the lid by irradiating light from the inner peripheral surface 20a of the light guide 20.

One of the charge level display function and the charge state display function may be used together with the inlet illumination function.
The present invention may be applied to a power receiving device for an electric vehicle.

Next, a technical idea that can be grasped from the above embodiment and another example will be described.
(B) In the power receiving device, the body is formed by two-color molding of a transparent resin and other resins, that the light guide portion by a transparent resin is integrated in the body by two-color molding. According to the same structure, the light irradiated from the light source can be guided to the light guide by forming the light guide portion with the transparent resin among the two kinds of resins used for the two-color molding.

In (b) the power receiving device, the body is formed by two-color molding of a transparent resin and other resins, that the second light guide section by the transparent resin is integrated in the body by two-color molding. According to the same configuration, the light emitted from the second light source is guided to the second light guide by forming the second light guide portion with a transparent resin out of two kinds of resins used for two-color molding. Can do.

(C) In the power receiving device, the body is formed by two-color molding of a transparent resin and other resins, that said third light guiding portion by the transparent resin is integrated in the body by two-color molding. According to the same configuration, the light emitted from the third light source is guided to the third light guide by forming the third light guide portion from the transparent resin of the two kinds of resins used for the two-color molding. Can do.

DESCRIPTION OF SYMBOLS 1 ... Power receiving apparatus, 2 ... Box, 3 ... Body, 3a ... Light guide part, 4 ... Sealing member, 20 ... Light guide, 31 ... LED (light source), 32-34 ... LED (2nd light source), 32a- 34a: Translucent part (second light guide part), 35 ... LED (third light source), 35a ... Translucent part (third light guide part), 50 to 70 ... Light guide (second light guide) ), 80... Light guide (third light guide).

Claims (4)

In the power receiving device into which the power plug is inserted,
A box in which an inlet that is a connection destination of the power supply plug is accommodated and a body that is attached to the box are provided as separate accommodating portions ,
The body includes a light source for the inlet illumination, and a light guide unit that receives light emitted from the light source and guides the light to the box side is interposed between the body and the box. Further, the box contains a light guide that receives the light guided by the light guide and guides the light around the inlet while irradiating the light toward the inlet .
The power receiving device according to claim 1, wherein the light guide portion has a waterproof structure for both the body and the box by a seal member . In the power receiving device into which the power plug is inserted,
A box that accommodates an inlet to which the power plug is connected; and a body that is attached to the box.
The body includes a light source for the inlet illumination, and a light guide unit that receives light emitted from the light source and guides the light to the box side is interposed between the body and the box. Further, the box contains a light guide that receives the light guided by the light guide and guides the light around the inlet while irradiating the light toward the inlet .
The light guide is disposed so as to surround the inlet, receives light guided by the light guide unit, and emits light toward the inlet while the light guide emits light. . The power receiving device according to claim 1 or 2 ,
The body contains a second light source for displaying the charge level in stages, and receives a light emitted from the second light source and guides the light to the box side. A light unit is interposed between the body and the box, and the box receives the light guided by the second light guide unit and guides the light to a charge level display location. A power receiving device, wherein a second light guide for displaying is accommodated. The power receiving device according to any one of claims 1 to 3 ,
The body contains a third light source for displaying the state of charge by turning on, blinking, and turning off, and receives light emitted from the third light source and guides the light to the box side. 3 is interposed between the body and the box, and further, the box receives light guided by the third light guide and guides the light to the display portion of the charged state. A power receiving device characterized in that a third light guide for displaying a state of charge is accommodated.