JP2013241142A - Electric truck - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve durability of a charging gun, a connector and a connecting part.SOLUTION: A moving frame 40 is moved toward an abutting position from an opposing position while sandwiching the moving frame 40, a ratchet claw 44 is engaged with ratchet teeth 70 by releasing a hand from the moving frame 40, and the a state that the moving frame 40 is positioned in the abutting position is held. Here, a charging gun 2 is inserted into a charging port 16 being a connecting part, and a battery is charged. Even if a side flap 14 falls down during charging, the moving frame 40 receives the side flap 14. Accordingly, unreasonable forces can be prevented from being applied to the charging gun 2 and the charging port 16 by the side flap 14, and there takes place an advantage for improving the durability of the charging gun 2 and the charging port 16.

Description

  The present invention relates to an electric truck in which a load is provided on a cargo bed.

In order to facilitate the work of loading and unloading cargo on a truck equipped with a platform, the platform is provided so that it can rotate between an upright position that stands on the platform and a suspended position that is suspended from the platform. It has been.
And when arrange | positioning a vehicle-mounted auxiliary machine under a loading platform, it is trying to protect a vehicle-mounted auxiliary machine using a protection frame (refer patent document 1).
2. Description of the Related Art In recent years, electric trucks such as electric trucks or hybrid trucks that run by driving electric motors for running with electric power supplied from batteries have been provided as trucks.
In general, an electric vehicle (including an electric truck) or a plug-in hybrid vehicle (including a plug-in hybrid truck) receives power from an external device to charge a battery, or outputs power from the battery to the external device. The battery is charged by connecting the charging gun to the connection part of the power input / output device, and the power of the battery mounted on the vehicle is Supplied to the device.
In the case of an electric truck having a loading platform provided with a tilt, it is conceivable to arrange the power input / output device below the loading platform.
In this case, it is conceivable to provide a frame for protecting the power input / output device below the loading platform when another vehicle collides.

JP 2002-19646 A

On the other hand, when the power input / output device is placed below the loading platform, the tilting is accidentally suspended from the upright position for loading and unloading the load during charging with the charging gun connected to the connection or during power feeding with the connector connected to the connection. There is a concern that the tilting will interfere with the charging gun and the connector and an excessive force will be applied to the charging gun, the connector and the connecting part when turning to the lowered position, so that the durability of the charging gun, the connector and the connecting part can be improved. Is disadvantageous.
The present invention has been made in view of the above circumstances, and an object thereof is to provide an electric truck that is advantageous in improving the durability of a charging gun, a connector, and a connecting portion.

  In order to achieve the above-described object, the present invention provides a traveling electric motor, a truck provided with a tilt that is movable between a standing position standing from a loading platform and a hanging position suspended from the loading platform. A battery for supplying power to the electric motor for traveling; and a battery connected to a first external device to receive power from the first external device to charge the battery or connected to a second external device In the electric truck provided with a connecting portion for supplying power of the battery to a second external device, the connecting portion is disposed below the loading platform, and is opposed to the connecting portion, and the connecting portion. A moving frame is provided so as to be movable between a contact position where it can be contacted with the tilt above and the removably coupled to the moving frame at the contact position. Holding mechanism for moving non held, characterized in that is provided.

According to the first aspect of the present invention, by moving the moving frame from the facing position to the abutting position, the moving frame can come into contact with the cage, and the movement of the cage from the standing position to the hanging position is prevented. . As a result, it is possible to prevent the tilt from falling during charging or power feeding, interfering with the charging gun or connector, and applying excessive force to the charging gun, connector, or connection part, and improving the durability of the charging gun, connector, or connection part. This is advantageous in achieving this.
In addition, since the moving frame that protects the connecting portion can be used to prevent the movement of the tilting from the standing position to the hanging position, there is no need to provide any special member, so that the configuration can be simplified and the cost can be reduced. Is advantageous. In addition, since the collision with the charging gun, which is a simple operation of moving the moving frame from the facing position to the contact position, can be prevented, it is advantageous for improving the operability.
According to invention of Claim 2, when the cover plate which covers a connection part is provided, the movement of the cover plate to the direction which exposes a connection part can be prevented using the moving frame which protects a connection part.
According to invention of Claim 3, when the board member which covers the upper part of a connection part is provided, when charging and electric power feeding outdoors in rainy weather, a board member and a plate are in a connection part and a connection part. Since it is located above the connected charging gun and connector portion, it is advantageous for charging and feeding power by preventing the rainwater from entering the connecting portion.
According to the fourth aspect of the invention, since the plate is inclined, it is possible to guide rainwater onto the plate material, which is advantageous in preventing the rainwater from entering the connecting portion more reliably.
According to the fifth aspect of the present invention, since rainwater is guided on both sides of the plate member in the width direction on the plate member, it is advantageous for more reliably preventing the rainwater from entering the connecting portion.
According to the sixth aspect of the present invention, since rainwater is guided on both sides of the plate in the width direction on the plate, it is advantageous for more reliably preventing the rainwater from entering the connecting portion.
According to the seventh aspect of the present invention, even if rainwater is applied to the second inclined portion of the charging gun, the rainwater is guided to the side away from the connecting portion by the inclination of the second inclined portion. This is advantageous in preventing entry into the section more reliably.

It is sectional drawing which shows the state in which the moving frame 40 was located in the opposing position in 1st Embodiment. It is sectional drawing which shows the state in which the moving frame 40 was located in the contact position in 1st Embodiment. It is a front view which shows the state by which the opening part 32 of the power input / output device 18 was open | released in the state in which the moving frame 40 was located in the contact position in 1st Embodiment. 3 is a cross-sectional front view showing the configuration of a ratchet pawl 44 and a ratchet tooth portion 70 constituting the holding mechanism 22. FIG. FIG. 4 is a cross-sectional side view showing the configuration of a ratchet pawl 44 and a ratchet tooth portion 70 that constitute the holding mechanism 22. It is explanatory drawing which shows the state by which the opposing position of the movement frame 40 was hold | maintained by the hook member. It is a perspective view in the state where the movement frame 40 was located in the opposing position in 1st Embodiment. It is a perspective view in the state where movable frame 40 was located in the contact position in a 1st embodiment. It is sectional drawing which shows the state in which the moving frame 40 was located in the opposing position in 2nd Embodiment. It is sectional drawing which shows the state in which the moving frame 40 was located in the contact position in 2nd Embodiment. It is a perspective view in the state where the movement frame 40 was located in the opposing position in 2nd Embodiment. It is a perspective view in the state where the movement frame 40 was located in the contact position in 2nd Embodiment. It is a perspective view in the state where moving frame 40 was located in the contact position in a 3rd embodiment.

(First embodiment)
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First, an electric truck to which the present embodiment is applied will be described.
As shown in FIGS. 1 to 3, the electric truck 10 includes a loading platform 12, a side tilt 14, a power input / output device 18, a moving frame 40, and a holding mechanism 22.
The electric truck 10 is a truck having a loading platform 12, and includes an electric truck or a plug-in hybrid truck that travels by driving a traveling electric motor with electric power supplied from a battery.
As shown in FIG. 1, the loading platform 12 includes a floor panel 24 on which loads are placed.
A plurality of floor panels 24 are arranged at intervals in the front-rear direction of the electric truck 10 and are supported by cross members 26 extending in the vehicle width direction. The cross members 26 are spaced in the vehicle width direction of the electric truck 10. Are supported by a pair of side members 28 extending in the front-rear direction of the electric truck 10.

The side tilts 14 are provided on both sides of the floor panel 24 in the vehicle width direction.
As shown in FIG. 1, the side tilt 14 is attached to a vertical plate portion 2402 of the floor panel 24 via hinges 30 at a plurality of locations spaced in the front-rear direction of the electric truck 10. The side tilt 14 is hung from the side of the loading platform 12 through the hinge 30 as shown in the imaginary line in FIG. It is provided so as to be rotatable between the suspended positions.
In the standing position of the side tilt 14, the front and rear ends of the side tilt 14 are detachably coupled to a torii (not shown) and a rear tilt.

As shown in FIG. 1, the power input / output device 18 includes a charging port 16 that is a connection portion, and the power input / output device 18 is provided below the side portion of the loading platform 12. It is provided in the location inside a vehicle width direction rather than the side part position 14 located in.
As shown in FIG. 2, the charging port 16 is connected to the charging gun 2 so as to be detachable, and is used to charge the battery by receiving power from the first external device as an external power source. The connector of the power supply cable is connected, and the power of the battery is supplied to a power supply device, an electric device, or a second external device including another vehicle.
In the present embodiment, as shown in FIG. 3, the charging port 16 is provided with two charging ports 16, a charging port 16 </ b> A for normal charging and a charging port 16 </ b> B for fast charging. The charging port 16B for high-speed charging is configured so that a connector of a power feeding cable can be connected, so that the power of the battery can be supplied from the charging port 16B to a power supply device, an electric device, or a second external device including another vehicle. It is configured.
The power input / output device 18 includes a housing 34 supported on the vehicle body side of the electric truck 10, and a lid plate 36 that opens and closes an opening 32 of the housing 34, and the charging port 16 is accommodated inside the housing 34. .
As shown in FIG. 3, the housing 34 includes an upper plate 3402 that covers the upper side of the charging port 16, a bottom plate 3404 that covers the lower side of the charging port 16, and a pair of side plates 3406 and 3406 that cover both sides of the charging port 16. The lid plate 36 is provided at the tip of the bottom plate 3404 via a hinge 3602.

As shown in FIGS. 1 and 7, the lid plate 36 closes the opening 32 in a standing state, that is, a closed position covering the charging port 16, and is suspended as shown in FIGS. 3 and 8. In this state, the opening 32 is opened, that is, the charging port 16 is exposed.
In the present embodiment, the lid plate 36 can be locked in a state where the opening portion 32 is closed by the lid plate 36, that is, in a state where the charging port 16 is covered, by the key operation, and the opening portion 32 can be opened. In other words, there is provided a locking mechanism that selectively forms the unlocked state in which the charging port 16 can be exposed.

  As shown in FIGS. 1 and 2, the protective frame 20 that protects the power input / output device 18 is protruded from a side member 28 on the vehicle body side, and is rotatable (movable) to the support frame 38. And a movable frame 40 supported on the movable frame 40.

The support frame 38 includes an upper frame 38A that protrudes above and behind the power input / output device 18 in the front-rear direction of the vehicle, and a lower frame 38B that protrudes below the front and rear of the power input / output device 18 in the vehicle front-rear direction. It has.
As shown in FIG. 4, a large-diameter cylindrical portion 42 is provided at the tip of each upper frame 38A.
As shown in FIGS. 1, 2, and 4, each large-diameter cylindrical portion 42 is provided with a ratchet pawl 44 urged by a torsion spring 4402 so as to be swingable via a support shaft 4602 of the bracket 46. It has been. As shown in FIG. 5, the ratchet pawls 44 provided on the large-diameter cylindrical portion 42 of each upper frame 38A are connected by a rod 48 that extends in the front-rear direction of the vehicle.
Further, as shown in FIG. 6, an elastic material 50 for shock absorption is attached to the tip of each lower frame 38B, and a hook member 54 is provided on the lower surface of each lower frame 38B via a bracket 52. The hook member 54 provided on the frame 38B is connected by a rod 56 so as to swing integrally.
Each hook member 54 is swingable about a support shaft 5402 and is urged by a torsion spring 58 so that the hook portion 5404 at the tip is positioned on the front side of the power input / output device 18. The initial position is maintained by stopping.

As shown in FIGS. 1 and 7, the moving frame 40 faces the power input / output device 18 including the charging port 16 and protects the power input / output device 18, and is shown in FIGS. 2, 3, and 8. As described above, the contact position that is located above the power input / output device 18 including the charging port 16 and can be contacted with the side-side tilt 14 and that opens the portion facing the power input / output device 18 including the charging port 16 is opened. It is provided so that it can be rotated between.
As shown in FIG. 7, the moving frame 40 includes a leg portion 62 that extends downward from the tip of each upper frame 38 </ b> A, a lateral portion 64 that connects between the lower ends of the leg portions 62, A lid opening preventing member 66 for connecting a portion near the lower end of the leg portion 62 to prevent the lid plate 36 from being opened, and a support shaft portion 68 for connecting the upper end of each leg portion 62 are provided.
As shown in FIG. 1, at the facing position, the leg portion 62 and the lateral portion 64 are located at a location facing the power input / output device 18 so as to protect the charging port 16 in a side collision.

As shown in FIGS. 4 and 5, both ends of the support shaft portion 68 protrude to the outside of each leg portion 62, and the end portion of the support shaft portion 68 protruding from the leg portion 62 can be rotated by the large-diameter cylindrical portion 42. In addition, a ratchet tooth portion 70 that can mesh with the ratchet pawl 44 is provided at an end portion of the support shaft portion 68 so as to rotate integrally with the support shaft portion 68.
Further, as shown in FIG. 6, a rod 72 that can be locked to the hook portion 5404 is provided below each leg portion 62, and the hook portion 5404 is locked to the rod 72 so Is retained.
Therefore, as shown by an imaginary line in FIG. 6, when one of the hook members 54 is swung in a direction in which the hook portion 5404 is separated from the rod 72, the moving frame 40 is gripped and the moving frame 40 is rotated upward. As shown in FIG. 5, the ratchet tooth portion 70 rotates while pushing up the ratchet pawl 44. When the hand is released from the moving frame 40 at the contact position, the ratchet pawl 44 meshes with the ratchet tooth portion 70, and the state where the moving frame 40 is positioned at the contact position is maintained. It cannot be turned.
Further, when one of the ratchet pawls 44 is tilted toward the vehicle body as shown by an imaginary line in FIG. 5, the meshing between the ratchet tooth portion 70 and the ratchet pawl 44 is released, and the moving frame 40 The moving frame 40 returns to the facing position due to its own weight, and the hook member 54 engages with the rod 72 and the facing position of the moving frame 40 is held as shown in FIGS.
In the present embodiment, the ratchet pawl 44 and the ratchet tooth portion 70 constitute the holding mechanism 22 that is detachably coupled to the moving frame 40 at the contact position and holds the moving frame 40 in a non-rotatable manner.
The structure of the holding mechanism 22 is not limited to the ratchet pawl 44 and the ratchet tooth portion 70, and various conventionally known structures such as a cam mechanism and a link mechanism can be employed.

Next, the function and effect will be described.
It is assumed that the lid plate 36 is locked in advance by the locking mechanism in the closed position, and the moving frame 40 is in the facing position.
When charging the battery of the electric truck 10, the hook portion 5404 of the hook member 54 is disengaged from the rod 72, the moving frame 40 is gripped, and the moving frame 40 is directed from the facing position to the contact position. To move.
When the moving frame 40 is positioned at the contact position and released, the holding mechanism 22 holds the state where the moving frame 40 is positioned at the contact position.
Next, the locking mechanism 46 is operated from the locked state to the unlocked state by a key operation, and the opening portion 32 is opened with the lid 44 from the closed position to the open position.
Here, the charging gun 2 is inserted into the charging port 16 to charge the battery.

When the charging of the battery is completed, the charging gun 2 is removed from the charging port 16, the lid plate 36 is rotated from the open position to the closed position, and the closed state of the lid plate 36 is locked by key operation.
Next, when the ratchet pawl 44 is tilted to the vehicle body side to release the holding of the moving frame 40 by the holding mechanism 22 and the moving frame 40 is returned to the opposite position by its own weight, the hook member 54 is engaged with the rod 48. Thus, the facing position of the moving frame 40 is maintained.
The above operation of the moving frame 40 is performed by connecting the connector of the power feeding cable to the charging port 16B for high-speed charging, and supplying the power of the battery to the power supply device, the electric device, or the second external device including other vehicles. The same applies to the case.

Therefore, according to this Embodiment, the charging port 16 can be protected by the moving frame 40 from the collision of other vehicles, etc. by making the moving frame 40 into an opposing position.
The moving frame 40 is moved from the facing position to the abutting position, the lid 44 is changed from the closed position to the open position, and the charging frame 2 is charged to the battery inserted into the charging port 16. 22 is held at the contact position.
Therefore, even if the side tilt 14 falls during charging or power feeding, the side tilt 14 is received by the moving frame 40 held in the contact position, and the side tilt 14 interferes with the charging gun 2 and the connector. Can be prevented from being applied to the charging gun 2, the connector and the charging port 16, which is advantageous in improving the durability of the charging gun 2, the connector and the charging port 16.
For example, since a driver or a worker mistakenly loads or unloads a load during charging or power feeding, even if the engagement between the torii gate, the rear wing and the side wing 14 is released and the side wing 14 is tilted, The rotation of the partial tilt 14 to the hanging position is prevented by the moving frame 40 located at the opposing position. Therefore, it is possible to prevent an excessive force from being applied to the charging gun 2, the connector, and the charging port 16, which is advantageous in improving the durability of the charging gun 2, the connector, and the charging port 16.
Further, since the side frame 14 can be prevented from rotating from the standing position to the suspended position by using the moving frame 40 that protects the charging port 16, the collision of the side group 14 with the charging gun 2 and the connector is prevented. There is no need to provide any special member for this purpose. Therefore, it is possible to simplify the configuration for preventing the side tilt 14 from colliding with the charging gun 2 and the connector, which is advantageous in reducing the cost. Moreover, since the collision of the side wing 14 with the charging gun 2 and the connector can be prevented by a simple operation of rotating the moving frame 40 from the facing position to the contact position, it is advantageous for improving operability.
Further, a lid opening prevention member 66 is provided on the moving frame 40 to prevent the movement of the lid plate 36 in the direction of opening the opening 32 using the moving frame 40 (movement of the lid plate 36 exposing the charging port 16). Therefore, it is not necessary to provide a special mechanism or member for preventing the movement of the cover plate 36 in the direction of opening the opening 32, and for preventing the movement of the cover plate 36 with a simple configuration. It will be advantageous.

(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, as shown in FIG. 10, the moving frame 40 is continuously contacted with the upper plate 3402 at the contact position, and covers the upper portion of the portion facing the power input / output device 18, that is, the charging port. 16 is provided with a rain-preventing plate (plate) 74 that covers the upper portion of the space facing 16. In other words, at the abutting position, the end portion on the vehicle body side of the rain plate 74 is located inside the vehicle body from the end portion on the side away from the vehicle body side of the upper plate 3402 of the housing 34.
The rain plate 74 is provided over the leg parts 62 on both sides.
In the present embodiment, as shown in FIG. 10, the rain prevention plate 74 is inclined so that the portion located on the vehicle body side is lower than the portion located on the side away from the vehicle body.
The rain plate 74 functions as a lid opening prevention member for preventing the lid plate 36 from being opened, as in the first embodiment.
As shown in FIG. 10, the charging gun 2 is connected to the charging port 16, and is positioned on the charging port 16 side and is inclined downward as approaching the charging port 16 (first inclined portion) 2 </ b> A. And a rear portion (second inclined portion) 2B that is connected to the front portion 2A and is inclined downward as it is farther from the charging port 16, and an upwardly convex bent portion 2C that connects the front portion 2A and the rear portion 2B. ing.
As shown in FIG. 10, the rain plate 74 is located at the contact position, and the end of the rain plate 74 on the side away from the vehicle body is a bent portion that is the boundary between the front portion 2A and the rear portion 2B. It is located at a location farther from the vehicle body than 2C.

According to the second embodiment, as shown in FIG. 10, when charging outdoors in the rain, the charging plate 2 in which the upper plate 3402 and the rain plate 74 are connected to the charging port 16 and the charging port 16. Therefore, it is advantageous to charge the battery while maintaining the state where the rainwater is prevented from entering the power input / output device 18 (housing 34).
Further, in this embodiment, since the rain plate 74 is provided to be inclined toward the vehicle body side, the rain water can be guided onto the upper plate 3402 of the housing 34 to prevent the rain water from entering the power input / output device 18. This is more advantageous for charging while maintaining the state.
The effect of preventing rainwater from entering the power input / output device 18 by the upper plate 3402 and the rain plate 74 is to connect a power cable connector to the charging port 16B for high-speed charging, and to reduce the battery power. This is similarly achieved when supplying power to a power supply device, an electric device, or a second external device including another vehicle.
Further, during charging, the rain plate 74 is located above the position farther from the vehicle body than the bent portion 2C of the charging gun 2, so that the state where the rain water is prevented from entering the power input / output device 18 is maintained. And more advantageous in charging. Even if rainwater is applied to the rear portion 2B of the charging gun 2, the rainwater is guided to the side away from the power input / output device 18 due to the inclination of the rear portion 2B, so that rainwater may enter the power input / output device 18. Be blocked.

(Third embodiment)
Next, a third embodiment will be described with reference to FIG.
The third embodiment is a modification of the second embodiment, in which the shape of the upper plate 3402 of the housing 34 and the shape of the rain guard plate 74 are different from those of the second embodiment.
That is, as shown in FIG. 13, the upper plate 3402 is formed by an inclined surface 3402 </ b> A that has the highest center in the width direction when viewed from the front of the opening 32, and the height decreases as the distance from the center increases. .
Further, as shown in FIG. 13, the center in the width direction is the highest when viewed from the front of the opening 32 in a state where the rain plate 74 is made to correspond to the upper plate 3402A and the moving frame 40 is located at the contact position. It is formed by an inclined surface 74A that decreases in height as it goes away from the center to both sides.
According to the third embodiment, as shown in FIG. 13, in addition to the effects of the second embodiment, when charging outdoors in the rain, rainwater flows on the upper plate 3402 and the rain plate 74. Since the upper plate 3402 and the rain plate 74 are guided in both widthwise directions and on the vehicle body side, it is advantageous in preventing the rainwater from entering the power input / output device 18 (housing 34) more reliably. Become.
Note that the third embodiment can be applied to the rain plate 74 extending in the horizontal plane at the contact position of the moving frame 40, and in this case, the rain water power input / output device 18 is also applied. This is advantageous in preventing the entry of the vehicle more reliably.
In addition, the effect of preventing rainwater from entering the power input / output device 18 by the upper plate 3402 and the rain plate 74 is to connect the connector of the power feeding cable to the charging port 16B for high-speed charging, and to reduce the power of the battery. This is similarly achieved when supplying power to a power supply device, an electric device, or a second external device including another vehicle.

In the first to third embodiments, the case where the power input / output device 18 is provided below the side of the loading platform 12 has been described. However, in the present invention, the power input / output device 18 includes the loading platform 12. Needless to say, the present invention can be applied to the case where it is provided below the rear portion, and in this case, the moving frame 40 prevents the rear tilting from turning to the hanging position.
Further, the charging port need not be accommodated in the box (housing 34) as long as some waterproofing measures are taken, and the charging port portion only needs to be covered with a cover plate.
Moreover, although this Embodiment demonstrated the case where a connection part was comprised with the charging port, the connection part may be equipped with the power feeding port to which the connector of a power feeding cable is connected in addition to a charging port.
In this embodiment, the electric vehicle (including the electric truck) or the plug-in hybrid vehicle (including the plug-in hybrid truck) is charged with the battery mounted on the vehicle by supplying power from the external power source (first external device). However, instead of the charging port, the power supply port is used as a connection part, and the power of the battery mounted on the vehicle is supplied to the power supply device, the electric device, the battery of another vehicle, etc. (second external device) The present invention may be applied to an electric truck supplied to the vehicle.

  2 ... Charging gun 2, 10 ... Electric truck, 12 ... Loading platform, 14 ... Side side, 16 ... Charging port (connection part), 18 ... Housing part, 20 ... Protective frame, 22 ... Retaining mechanism, 24 ... floor panel, 2402 ... vertical plate, 26 ... cross member, 28 ... side member, 30 ... hinge, 32 ... opening, 34 ... housing, 3402 ... upper plate, 3402A: Inclined surface, 36: Cover plate, 38: Support frame, 38A: Upper frame, 38B ... Lower frame, 40 ... Moving frame, 42 ... Large diameter cylindrical portion, 44 ... Ratchet claw, 46 ....... Bracket, 48 .. Rod, 50 .. Elastic material, 52 ....... Bracket, 54... Hook member, 5404... Hook part, 56 .. Rod, 58 .. Torsion spring, 60. ... legs, 64 ... horizontal section, 66 ...... lid opening prevention member, 68 ...... spindle unit, 70 ...... ratchet teeth, 72 ...... rod, 74 ...... rain plate (Plate), 74A ...... inclined surface.

Claims (7)

To a truck provided with a tilt that is movable between a standing position rising from the loading platform and a hanging position suspended from the loading platform,
An electric motor for traveling;
A battery for supplying electric power to the electric motor for traveling;
A connection connected to a first external device to receive power from the first external device to charge the battery, or connected to a second external device to supply power from the battery to the second external device In the electric truck provided with
The connecting portion is disposed below the loading platform,
A moving frame is provided so as to be movable between a facing position facing the connecting portion and a contacting position where the connecting portion can come into contact with the tilt above the connecting portion,
A holding mechanism is provided that is detachably coupled to the moving frame at the contact position and holds the moving frame immovably.
An electric truck characterized by that. A lid plate provided movably between a closed position that covers the connecting portion and an open position that exposes the connecting portion;
The moving frame is provided with a lid opening preventing member that prevents the lid plate from moving to the open position at the facing position.
The electric truck according to claim 1. A plate member that covers the connection portion;
The moving frame is provided with a plate that covers the upper portion of the space facing the connection portion continuously to the plate member at the contact position.
The electric truck according to claim 1 or 2, characterized in that. The plate is inclined such that a portion located on the vehicle body side is lower than a portion located on the side away from the vehicle body in a state where the moving frame is located at the contact position.
The electric truck according to claim 3. The plate member is formed with an inclined surface whose center in the width direction is the highest when viewed from the facing position, and whose height decreases as the distance from the center increases.
The electric truck according to claim 3 or 4, characterized in that. The plate is formed so as to be inclined so that the center in the width direction is the highest when viewed from the facing position and the height decreases as it moves away from the center when the moving frame is located at the contact position. ing,
The electric truck according to any one of claims 3 to 5, wherein: The connecting portion is a charging port to which a charging gun is connected,
In a state where the charging gun is connected to the charging port, the charging gun is positioned on the charging port side and is inclined downward as approaching the charging port, and the first inclined portion. And a second inclined portion that is inclined downward as it is connected and away from the charging port,
In the state in which the moving frame is positioned at the contact position, the plate has an end portion on the side away from the vehicle body from a boundary portion between the first inclined portion and the second inclined portion. Is located away from the car body,
The electric truck according to any one of claims 3 to 6, wherein the electric truck is provided.

Images