JP2014151693A - Charging portion structure of electric vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a charging portion structure of an electric vehicle which is provided with a charging opening portion at an opening/closing member while ensuring the stiffness of the opening/closing member, and provided with a charging port at the charging opening portion.SOLUTION: An outer panel 24 is provided with a rectangular charging opening portion 34 which is opened/closed by a lid 36. A charging port 16 is attached to a hood 14 through a supporting member 40. The supporting member 40 includes a body portion 44 for supporting the charging port 16, and a frame member 42 provided with an opening portion 43 coupled to the body portion 44 and fitted with the charging opening portion 34 inside. The supporting member 40 is disposed on an inner panel 26 by inserting the body portion 44 into between a pair of bone portions 52, and superimposing and attaching opposite parts of the frame member 42 on the pair of the bone portions 52.

Description

  The present invention relates to a charging unit structure for an electric vehicle.

An electric vehicle equipped with an electric motor driven by electric power supplied from a battery is provided with a charging unit structure for charging the battery with electric power.
In Patent Literature 1, a notch is provided in a front edge of a hood, and a concave housing in which a charging port for charging power to the battery is accommodated, and a lid that opens and closes the opening of the housing. There has been proposed a charging part structure in which a part is located in a notch and is provided on an upper part of a bumper at the front of a vehicle body.

JP 2010-288363 A

However, in the above prior art, when the charging unit structure is applied to an existing vehicle body, the design of the vehicle body front part including the hood and the bumper needs to be significantly changed, which increases the design cost.
Since the lid is provided over the hood and the bumper, the lid, the bumper, and the hood are assembled to the vehicle body while accurately maintaining the positional relationship between the lid and the hood and the positional relationship between the lid and the bumper. As it is necessary, the assemblability is reduced.
In view of this, the present applicant has developed a technique for providing a charging opening, a lid for opening and closing the charging opening, and a charging port on an opening / closing member that opens and closes the opening of the vehicle body such as a hood or a trunk lid. is suggesting.
According to such a technique, when the charging unit structure is applied to an existing vehicle body, it is sufficient to change the design of the opening / closing member, so that the design change of the vehicle body is minimal, and thus the design cost is suppressed. In addition, the charging opening, the charging port, and the lid can be easily and accurately aligned, which is advantageous in improving the assembling property of the charging unit structure.

By the way, opening and closing members such as a hood and a trunk lid include an outer panel that forms an exterior surface of a vehicle body, and an inner panel that is disposed inside the outer panel and reinforces the outer panel.
Therefore, when the opening / closing member is provided with the charging opening and the charging port, it is extremely important to secure the rigidity of the opening / closing member by providing the charging port while preventing the rigidity of the outer panel and the inner panel from being lowered.
The present invention has been made in view of such circumstances, and an object thereof is to provide an electric motor in which a charging port opening is provided in the opening / closing member and a charging port is provided in the charging port opening while ensuring the rigidity of the opening / closing member. The object is to provide a vehicle charging unit structure.

  In order to achieve the above-described object, the present invention provides a charging unit for an electric vehicle including an opening / closing member that opens and closes an opening of a vehicle body, a battery that supplies electric power to a traveling motor, and a charging port that charges the battery. The opening / closing member has an outer panel that forms an exterior surface of a vehicle body, and a pair of bone portions that are disposed inside the outer panel and have an elongated shape and extend parallel to each other. An outer panel that reinforces the outer panel, the outer panel is provided with a charging opening, and the charging opening is provided with a frame member that supports the charging port, the frame member being the frame member The portions facing each other are attached to the pair of bone portions and arranged on the inner panel.

According to the first aspect of the present invention, since the opposing portions of the frame member of the charging port are attached to the pair of bone portions of the inner panel of the opening / closing member, the vehicle body can be changed while ensuring the rigidity of the opening / closing member. Minimized and is advantageous in reducing design costs.
According to the second aspect of the present invention, a rectangular frame-shaped member can be used as the frame member, and the pair of bone portions can be reinforced by the frame member.
According to the third aspect of the present invention, since the pair of opposite ends are provided at the longitudinal intermediate portions of the pair of bone portions, and the opposite portions of the frame member are attached to these ends, the opening / closing member This is advantageous in preventing a decrease in rigidity.

It is the perspective view seen from the front of the electric vehicle 10 provided with the food | hood 14 with which the charging part structure 32 of 1st Embodiment was applied. It is a disassembled perspective view of the food | hood 14 with which the charging part structure 32 of 1st Embodiment was applied. It is a perspective view of the charge part structure 32 of 1st Embodiment. It is a perspective view which shows the state in which the frame member 42 was attached to the bone part 52 in 1st Embodiment. It is a perspective view which shows the state which decomposed | disassembled the frame member 42 and the bone part 52 in 1st Embodiment. It is the perspective view seen from the front of the electric vehicle 10 provided with the food | hood 14 with which the charging part structure 32 of 2nd Embodiment was applied. It is the schematic diagram which looked at the state by which the frame member 42 was attached to a pair of bone part 52 in 2nd Embodiment from upper direction. It is a perspective view which shows the state in which the frame member 42 was attached to the bone part 52 in 3rd Embodiment. It is a perspective view which shows the state which decomposed | disassembled the frame member 42 and the bone part 52 in 3rd Embodiment. It is the schematic diagram which looked at the state by which the frame member 42 was attached to a pair of bone part 52 in 4th Embodiment from upper direction. 10 is a perspective view showing a modification in which the charging unit structure 32 is applied to the trunk lid 92. FIG.

(First embodiment)
Next, an embodiment in which the charging unit structure of the electric vehicle of the present invention is applied to a hood will be described.
In the present invention, the electric vehicle 10 includes an electric vehicle or a plug-in hybrid vehicle that travels by driving a traveling motor with electric power supplied from a battery.
As shown in FIGS. 1, 2, and 3, the electric vehicle 10 includes a vehicle body 12, a hood 14, a battery (not shown) that supplies power to the traveling motor, and a charging unit structure 32. .

As shown in FIG. 1, the hood 14 opens and closes an upper end opening 22 opened above a front space 20 partitioned in front of the dash panel. The hood 14 is centered on a rear part of the vehicle body. It can swing. In the present embodiment, the hood 14 corresponds to an opening / closing member, and the upper end opening 22 corresponds to an opening of the vehicle body 12.
As shown in FIG. 2, the hood 14 includes an outer panel 24 that constitutes an exterior surface, and an inner panel 26 that is disposed inside the outer panel 24 and is integrally attached to the outer panel 24. The panels 24 and 26 are made of metal.

  A rectangular charging opening 34 that is opened and closed by a lid 36 is provided at the front of the outer panel 24.

The inner panel 26 reinforces the outer panel 24, and includes a plurality of openings 2602 for reducing the weight, and a plurality of bone portions 52 that are elongated and linearly extend and cross the inside of the openings 2602. These bone portions 52 are for ensuring the strength and rigidity of the inner panel 26.
As shown in FIG. 3, in the present embodiment, a pair of bone portions 52 extending in a straight line parallel to each other are positioned in the charging opening 34, and the pair of bone portions 52 are arranged on the upper surface. A portion 5202 and a pair of side surface portions 5204 extending downward from both sides of the upper surface portion 5202.

  As shown in FIGS. 1, 2, and 3, the charging unit structure 32 includes a charging opening 34, a charging port 16, a lid 36, and a lid locking means 38.

As shown in FIG. 3, the charging port 16 is disposed in the charging opening 34.
Specifically, the charging port 16 is disposed so as to be located inside the charging opening 34 or is disposed at a position that can be visually recognized through the charging opening 34, and a charging gun can be connected through the charging opening 34. It is arranged at the place.
In the present embodiment, the charging port 16 is attached to the hood 14 via the support member 40, and thus the charging port 16 is attached to the hood 14.
The charging port 16 includes two charging ports 16 for normal charging and charging port 16 for quick charging.
The charging port 16 is connected to a charging gun so that it can be inserted and removed, and is used to charge the battery. More specifically, the charging port 16 is connected to a charger via a charging cable, and the charger charges the battery with electric power supplied from the charging port 16 via the charging cable. In the present embodiment, the charger is disposed in the front space 20, the charging cable is routed to the rear end of the inner panel 26 along the inner panel 26, and the front space 20 is passed from the rear end of the inner panel 26. Connected to the street charger.

The support member 40 includes a main body portion 44 that supports the charging port 16, and a frame member 42 that is connected to the main body portion 44 and has a rectangular opening 43 that is fitted to the charging opening.
The main body 44 is made of metal or synthetic resin, and the frame member 42 is made of metal.

As shown in FIG. 3, the main body 44 has a rectangular bottom wall 4402 and side walls 4404 that rise from four sides of the bottom wall 4402 and are connected to the frame member 42.
The charging port 16 is attached to the bottom wall of the main body 44.

The frame member 42 is configured by a plate material extending in a rectangular frame shape so that an opening 43 fitted to the charging opening 34 is provided inside thereof, and has two pairs of sides facing each other. One pair of sides 42A is opposed in the vehicle width direction, and the other pair of sides 42B is opposed in the front-rear direction of the vehicle body.
The frame member 42 is formed with sufficient strength to support the lid 36 and support the charging port 16 together with the main body 44.
In the present embodiment, the charging port 16 is supported by the frame member 42 via the main body 44.
The frame member 42 includes a rectangular frame-shaped bottom wall 4202, four side walls 4204 erected from the outer edge of the bottom wall 4202, and a rectangular frame-shaped flange 4206 provided at the upper end of each side wall 4204.

As shown in FIGS. 4 and 5, the support member 40 is configured such that the main body portion 44 is inserted between the pair of bone portions 52 and the opposing portions of the frame member 42 are attached to the pair of bone portions 52. Arranged on the inner panel 26.
Specifically, as indicated by a symbol W in FIG. 3, the spot welded portion is a flange 4206 spaced in the longitudinal direction of a pair of sides 42B facing each other in the front-rear direction of the vehicle body 12 of the frame member 42. Three places and three places of the upper surface part 5202 of the bone part 52 are attached by spot welding.
Further, three locations of the side wall 4204 spaced in the longitudinal direction of the pair of sides 42B facing each other in the front-rear direction of the vehicle body 12 of the frame member 42 and three locations of the side surface portion 5204 of the bone portion 52 are spot-welded. It is attached by.
Accordingly, one pair of the sides 42 </ b> B attached to the pair of bone parts 52 is overlapped with the pair of bone parts 52 and extends along the bone part 52.
In addition, instead of spot welding, those portions may be attached by bolts and nuts. However, using spot welding is advantageous in that they can be easily attached while accurately positioning. Become.

The lid 36 opens and closes the charging opening 34.
The rear end of the lid 36 is attached to the frame member 42 via the hinge 46, and thus the lid 36 is attached to the hood 14.
The lid 36 is provided to swing through a hinge 46 between a closed position where the charging opening 34 is closed and an open position where the charging opening 34 is opened.
A striker 48 extending in the longitudinal direction of the vehicle body is provided at the center of the lower surface of the front portion of the lid 36 in the vehicle width direction, and the striker 48 is formed of a rod material.
Further, rubber cushion members 50 that contact the bottom wall 4202 of the frame member 42 are provided on the lower surfaces of both sides of the front portion of the lid 36 in the vehicle width direction at the closed position where the lid 36 closes the charging opening 34. ing.

The hinge 46 includes a first spring plate 4602 attached to a side wall 4204 extending in the vehicle width direction on the rear side of the frame member 42, and a second spring attached to the rear end of the lower surface of the lid 36. It comprises a plate 4604, a pin 4606 that pivotally couples the spring plates 4602, 4604 with the axial center in the vehicle width direction, and a third spring plate 4608 attached to the first spring plate 4602. ing.
At the closed position of the lid 36, the tip of the third spring plate 4608 engages with the concave portion of the second spring plate 4604, and the lid 36 is biased to the closed position by the elastic force of the third spring plate 4608. .
When the lid 36 is opened from the closed position to the open position and exceeds a predetermined angle, the third spring plate 4608 biases the lid 36 toward the open position, and the tip of the third spring plate 4608 is the second portion. The lid 36 is in the open position in a state where it rides on the convex portion of the spring plate 4604.
When the lid 36 is closed from the open position to the closed position and exceeds a predetermined angle, the third spring plate 4608 biases the lid 36 toward the closed position, and the third spring plate 4608 is biased at the closed position of the lid 36. Is engaged with the recess of the second spring plate 4604, and the lid 36 is kept in the closed position.
In addition, the structure of the hinge 46 is not limited to the above-mentioned structure, Various conventionally well-known structures are employable.

The lid lock means 38 locks and unlocks the state where the charging opening 34 is closed by the lid 36.
The lid lock means 38 includes a striker 48 and a lock mechanism 57 that includes two swing levers 54 and 56 disposed on the inner front portion of the frame member 42 and locks the striker 48.
When the operating lever for opening the lid is operated from the passenger compartment, the lock mechanism 57 pushes up the striker 48 and the lid 36 is in a half-open state, thereby forming a gap for a finger to enter below the front portion of the lid 36.
Here, by putting a finger below the front portion of the lid 36 and lifting the lid 36, the lid 36 becomes an open position, and the open position of the lid 36 is held by the elastic force of the third spring plate 4608 of the hinge 46, The battery can be charged via the charging port 16 by the charging gun.
When the lid 36 is swung from the open position to the closed position after charging the battery, the striker 48 is locked by the lock mechanism 57, and the closed state of the lid is locked.
The configuration of the lid lock means 38 is not limited to the above-described configuration, and various conventionally known structures can be employed.

According to the present embodiment, the opposing portions of the frame member 42 that supports the charging port 16 are attached to the pair of bone portions 52 of the inner panel 26, so that the charging opening 34 is interposed via the frame member 42. Since the charging port 16 is disposed, it is advantageous in providing the charging opening 34 in the hood 14 and providing the charging port 16 in the charging opening 34 while ensuring the rigidity of the hood 14.
In addition, when the charging unit structure 32 is applied to the existing vehicle body 12, it is sufficient to attach the opposing portions of the frame member 42 to the pair of bone portions 52 of the inner panel 26, so that the design of the vehicle body front portion is changed. Is minimal, which is advantageous in reducing design costs.
Further, since the charging opening 34 is provided in the hood 14 and the lid 36 for opening and closing the charging opening 34 is provided in the hood 14, the charging opening 34 and the lid 36 can be easily and accurately aligned. This is advantageous in improving the assembly of the charging unit structure 32.
Further, since the charging port 16 is provided in the hood 14 in addition to the charging opening 34 and the lid 36, the lid 36 and the charging 36 are charged while accurately maintaining the positional relationship among the charging opening 34, the lid 36 and the charging port 16. What is necessary is just to assemble | attach two members of the opening | mouth 16 to the food | hood 14, and becomes more advantageous when aiming at the improvement of the assembly property of the charging part structure 32. FIG.

Further, in the present embodiment, the frame member 42 is configured such that the charging port 16 is inserted between the pair of bone parts 52 and the opposing portions of the frame member 42 are attached to the pair of bone parts 52. 26.
Therefore, when the charging unit structure 32 is applied to the existing hood 14, the charging panel 34 is provided in the outer panel 24, and the opposing portions of the frame member 42 are formed on the pair of bone parts 52 constituting the inner panel 26. Since the charging unit structure 32 can be arranged by attaching, the change of the hood 14 is minimal, and any member dedicated to support the frame member 42 and the main body 44 is provided on the inner panel 26 side. This is not necessary and is advantageous in reducing the design cost.

In addition, according to the present embodiment, the mutually opposing portions of the frame member 42 are overlapped with the pair of bone portions 52, so that the section modulus of the bone portion 52 where the charging port 16 is disposed has a sectional modulus. growing.
Therefore, it becomes possible to attach the charging port 16 to the inner panel 26 while reinforcing the bone portion 52, and by providing the charging portion structure 32 in the hood 14, the inner panel 26 can be reinforced, and the rigidity of the hood 14 is increased. This is advantageous when the charging opening 34 is provided in the hood 14 and the charging port 16 is provided in the charging opening 34 while ensuring.
In addition, if the pair of bone parts 52 is arranged at an interval at which the charging port 16 can be inserted, the charging part structure 32 of the present embodiment is applicable, and has a size corresponding to the interval between the pair of bone parts 52, A support member 40 including a frame member 42 and a main body 44 is provided.

(Second Embodiment)
Next, a second embodiment will be described with reference to FIGS. In the following embodiments, the same parts and members as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
In the second embodiment, the charging opening 34 and the lid 36 are circular, the frame member 42 has a circular frame shape, and the support member 40 has a shape corresponding to the frame member 42. Since this embodiment is different from the first embodiment and the other points are the same as those of the first embodiment, the description thereof is omitted.
In the second embodiment, the mutually opposing portions of the frame member 42 are overlapped with the pair of bone portions 52 and attached by spot welding.
The effect similar to 1st Embodiment is show | played also by such 2nd Embodiment.

(Third embodiment)
Next, a third embodiment will be described with reference to FIGS.
The third embodiment is a modification of the first embodiment. As shown in FIG. 8, the width L1 of the pair of bone portions 52 extending in parallel to each other constitutes the frame member 42. Since it is larger than the width L2 of the plate material, a pair of end portions 5208 facing each other is formed in the pair of bone portions 52 by providing a notch portion 5206 in the middle portion in the longitudinal direction.
The bone portion 52 includes a bottom surface portion 5210, a pair of side surface portions 5212 standing from both sides in the width direction of the bottom surface portion 5210, and an upper surface portion 5214 extending from the upper end of each side surface portion 5212 in a direction away from the bottom surface portion 5210. doing.
Then, attachment of the opposing portions of the frame member 42 to the pair of bone portions 52 is performed by spot welding with the opposing portions of the frame member 42 in the vehicle width direction on the pair of end portions 5208 of the pair of bone portions 52, respectively. It has been broken.
Specifically, as indicated by the symbol W in FIG. 9, the spot welded portion is indicated by the symbol W, and the two ends of the flange 4206 of the pair of sides 42A facing each other in the vehicle width direction of the frame member 42 and the end portion 5208. The upper surface portions 5214 on both sides are attached by spot welding.
Moreover, the edge part of the bottom wall 4202 of a pair of side 42A and the bottom face part 5210 in the edge part 5208 are attached by spot welding.
In addition, instead of spot welding, those portions may be attached by bolts and nuts. However, using spot welding is advantageous in that they can be easily attached while accurately positioning. Become.
In FIG. 9, reference numeral 4208 denotes a concave portion provided at the front portion of the flange 4206 located in front of the vehicle body 12, which makes it easy to put a finger under the front portion of the lid 36 when the lid 36 is half open. is there.

Also in the third embodiment, as in the first embodiment, the frame member 42 that supports the charging port 16 is attached to the pair of bone portions 52 of the inner panel 26 by attaching the opposing portions to the frame 52. Since the charging port 16 is disposed in the charging opening 34 via the member 42, the charging opening 34 is provided in the hood 14 and the charging port 16 is provided in the charging opening 34 while ensuring the rigidity of the hood 14. This is advantageous.
Further, the opposing portions of the frame member 42 are attached to the pair of end portions 5208 facing each other to the pair of bone portions 52 that extend in parallel to each other constituting the inner panel 26.
Therefore, when the charging unit structure 32 is applied to the existing hood 14, the charging opening 34 is provided in the outer panel, and the notch 5206 is provided in the pair of bone parts 52 constituting the inner panel 26. Since the charging portion structure 32 can be arranged, the change of the hood 14 can be minimized, and there is no need to provide any dedicated member for supporting the frame member 42 or the main body 44 on the inner panel 26 side. It is advantageous in suppressing the above.

(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIGS.
In the fourth embodiment, the charging opening 34 and the lid 36 are circular, the frame member 42 has a circular frame shape, and the support member 40 has a shape corresponding to the frame member 42. Since the third embodiment is different from the third embodiment and the other points are the same as those of the third embodiment, the description thereof is omitted.
That is, as shown in FIGS. 6 and 10, the charging opening 34 and the lid 36 are circular.
The frame member 42 has a circular frame shape, and a circular opening 43 that is fitted to the circular charging opening 34 is provided inside the frame member 42.
And the mutually opposing part of the frame member 42 is attached to the pair of end portions 5208 of the pair of bone portions 52, respectively.
The effect similar to that of the third embodiment can be obtained by the fourth embodiment.

The charging unit structure 36 of the present invention can also be applied to the trunk lid 36 that opens and closes the cargo entry / exit.
That is, as shown in FIG. 11, the opening of the vehicle body 12 may be a luggage entry / exit 90 of the luggage storage room, and the opening / closing member may be a trunk lid 92 for opening / closing the luggage entry / exit 90. The same effects as those of the embodiment are achieved.

DESCRIPTION OF SYMBOLS 10 ... Electric vehicle, 12 ... Vehicle body, 14 ... Hood, 16 ... Charging port, 32 ... Charging part structure, 34 ... Charging opening, 36 ... Lid, 40 ... Support member, 42 ... ... frame member, 42B ... one pair of sides, 43 ... opening, 44 ... main body, 52 ... bone, 5208 ... end, 92 ... trunk lid.

Claims (3)

A charging part structure of an electric vehicle comprising an opening / closing member that opens and closes an opening of a vehicle body, a battery that supplies electric power to a traveling motor, and a charging port that charges the battery,
The opening / closing member includes an outer panel that forms an exterior surface of a vehicle body, and a pair of bone portions that are disposed inside the outer panel and extend in parallel with each other to reinforce the outer panel. With an inner panel,
The outer panel is provided with a charging opening,
A frame member that supports the charging port is provided in the charging opening,
The said frame member is arrange | positioned at the said inner panel by attaching the part which the said frame member opposes to a pair of said bone part. The charging part structure of the electric vehicle characterized by the above-mentioned. The frame member has a rectangular frame shape, and has two pairs of sides facing each other,
Attachment of the opposing portions of the frame member to the pair of bone portions is performed in a state in which one pair of sides of the two pairs of sides overlaps the pair of bone portions. ,
The charging unit structure for an electric vehicle according to claim 1, wherein the pair of one side that is attached to the pair of bones extends along the bone. A pair of end portions facing each other are provided in the middle portion in the longitudinal direction of the pair of bone portions,
Attachment of the opposing portions of the frame member to the pair of bone portions is performed by attaching the opposing portions of the frame member to the pair of end portions of the pair of bone portions, respectively. The charging unit structure for an electric vehicle according to claim 1 or 2, characterized in that:

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