Charging outlet holder

Abstract

A charging outlet holder for holding a charging outlet of a vehicle, according to an embodiment of the present invention, comprises: a housing providing an open holding space; and a switching unit installed on one side of the housing and operated in response to whether the charging outlet is held, wherein the switching unit includes: a circuit portion having an open circuit formed therein; a switch portion including a plurality of connection terminals connected to the circuit portion and a switch lever for changing a connection state of the connection terminals; and a contact lever disposed on one side of the switch portion and partially exposed to the holding space, and as the charging outlet is fixed in the holding space, the contact lever moves the switch lever to change the connection state of the circuit, thereby improving charging stability and product durability.

Description

Charging outlet stand

[0001] The present invention relates to a charging outlet holder, and more specifically, to a holder for mounting a charging outlet used for charging a vehicle.

[0002] Interest in eco-friendly vehicles has increased to address environmental issues through energy conservation and pollution prevention. Consequently, hydrogen fuel cell vehicles, biodiesel vehicles, and electric vehicles are garnering attention as alternatives to vehicles powered by conventional internal combustion engines.

[0003] Among these, the field of the most active technological development is the electric vehicle sector, which consists of vehicles that use electricity as their primary driving force. To this end, electric vehicles are equipped with a charging unit connected to a battery to receive energy from an external source.

[0004] Accordingly, a charging outlet is formed in the charger that supplies power to the electric vehicle, which is connected to the charging part while connected to an external power source, and a mounting bracket is formed in the charger to hold the charging outlet when the electric vehicle is not being charged.

[0005] At this time, a structure is formed in the mounting bracket that is complementarily coupled to the coupling part of the charging outlet, which is coupled to the charging part of the vehicle, in order to secure the charging outlet.

[0006] However, considering the usage conditions of the charger, which is repeatedly used by an unspecified number of people, the repeated detachment and reattachment of the charging outlet's connection part increases the likelihood of damage, leading to a problem of increased maintenance costs.

[0007] In addition, users must fix the connection part of the charging outlet to a specific position on the mount, and if damaged, charging the vehicle becomes impossible, resulting in a problem where user convenience is significantly reduced.

[0008] Furthermore, as the number of users leaving charging outlets on the floor after use increases, the possibility of damage such as breakage and disconnection of charging cables increases, and a problem has arisen where maintenance is difficult to perform quickly because the outlets cannot be recognized even when damaged.

[0009] One embodiment of the present invention has been devised to solve the above-mentioned problems and aims to provide a charging outlet stand capable of stably mounting a charging outlet while simultaneously enabling stable charging.

[0010] A charging outlet mounting bracket for mounting a charging outlet of a vehicle according to one embodiment of the present invention comprises: a housing providing an open mounting space; and a switching unit installed on one side of the housing and operating in response to whether the charging outlet is mounted. The switching unit is formed with a circuit unit having an open circuit, a plurality of connection terminals connected to the circuit unit, and a switch lever that varies the connection state of the connection terminals, and a contact lever disposed on one side of the switch unit, with a portion of which is exposed to the mounting space. As the charging outlet is fixed in the mounting space, the contact lever moves the switch lever to change the connection state of the circuit.

[0011] The above housing has a guide section formed so as to be inclined toward the insertion direction of the charging outlet at the position where the contact lever is exposed, so that the fixed position of the charging outlet in the mounting space can be adjusted so that the contact lever moves.

[0012] The above housing has an inclined extension end formed to extend outward along the circumference of an insertion opening that is open to one side of the mounting space, thereby guiding the insertion position of the charging outlet.

[0013] The above housing has a mounting portion formed by penetrating one side to allow the contact lever to be seated thereon, and the switching portion has a switching body further formed that closes the outer side of the mounting portion and provides an installation space on the inside for installing the circuit portion and the switch portion, and one side of the contact lever is fixed to the switching body, so that as the charging outlet is mounted in the mounting space, it rotates inwardly toward the installation space and can move the switch portion lever.

[0014] The above circuit is formed with a first circuit completed at the initial position of the switch lever and a second circuit completed at the moving position of the switch lever, and the switching part further has a return spring supported on the other side of the contact lever inside the installation space, so that when the charging outlet is detached from the mounting space, the contact lever is returned so that the first circuit can be reconnected.

[0015] The above contact lever is formed with a lever body having a pivot projection formed thereon that is seated on the above seating portion and connected to the switching body, a contact projection protruding from the lever body into the mounting space, and an interlocking projection extending from the lever body into the installation space and contacting the switch lever, so that when the charging outlet is seated in the mounting space, a pressure is applied to the contact projection, and the switch lever can be moved through the interlocking projection by rotating around the pivot projection.

[0016] The guide section is formed to be inclined in the opposite direction toward the inside of the mounting space from the end of the extension section, so that the fixing position can be adjusted so that one side of the charging outlet is in close contact with the guide section.

[0017] As examined above, various effects including the following can be expected according to the means for solving the problem of the present invention. However, the present invention is not required to exhibit all of the following effects to be valid.

[0018] The charging outlet holder of the present invention is equipped with a switching unit that operates in response to whether a charging outlet is mounted, thereby changing the connection state of the circuit according to the mounting state of the charging outlet, enabling more stable charging and rapid maintenance.

[0019] In addition, the housing on which the charging outlet is mounted has a mounting space open on one side, providing a structure that accommodates and mounts the entire housing of the charging outlet, thereby preventing damage to the connection part of the charging outlet.

[0020] Here, an inclined guide section is formed on one side of the mounting space to adjust the fixed position of the charging outlet, thereby ensuring that the switching unit is stably pressurized while mounted, and improving the reliability of the product.

[0021] At this time, the switching unit is connected to a charger that supplies external power to the charging outlet, and generates a signal to control power supply in response to whether the charging outlet is removed from the mounting space, thereby ensuring charging stability.

[0022] FIG. 1 is a perspective view of a charging outlet holder according to one embodiment of the present invention.

[0023] FIG. 2 is an exploded view of FIG. 1.

[0024] FIG. 3(a) is a perspective view of the switching unit of FIG. 2, and FIG. 3(b) is a perspective view of FIG. 3(a) in a different direction.

[0025] FIG. 4 is an exploded view of FIG. 3(a).

[0026] FIG. 5 is a cross-sectional perspective view in the V-V direction of FIG. 1.

[0027] FIGS. 6(a) to 6(c) are drawings illustrating a method of mounting a charging outlet in FIG. 5.

[0028] FIG. 7(a) is an enlarged view of part A of FIG. 6(b), FIG. 7(b) is an enlarged view of part B of FIG. 6(c).

[0029] Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, in order not to obscure the essence of the present invention, descriptions of known functions or configurations will be omitted.

[0030] For the convenience of explanation, the direction parallel to the direction in which the charging outlet is inserted into the mounting space is defined as the mounting direction, the direction parallel to the direction in which the switching part is pressurized is defined as the operating direction, and the direction perpendicularly intersecting the mounting direction and the operating direction simultaneously is defined as the intersecting direction.

[0031] In addition, among the mounting directions, the direction in which the charging outlet is inserted is referred to as the front of the mounting direction, the direction in which the charging outlet is removed is referred to as the rear of the mounting direction, the direction in which the contact lever is pressed is referred to as the upward direction of the operating direction, and the direction in which the contact lever returns is referred to as the downward direction of the operating direction.

[0032] However, the above definition of direction is for the purpose of explaining the invention, and "parallel" does not necessarily mean horizontal, but refers to a direction formed approximately parallel to the said direction.

[0033]

[0034] FIG. 1 is a perspective view of a charging outlet holder according to one embodiment of the present invention, FIG. 2 is an exploded perspective view of FIG. 1, FIG. 3(a) is a perspective view of a switching part of FIG. 2, FIG. 3(b) is a perspective view of FIG. 3(a) in a different direction, FIG. 4 is an exploded perspective view of FIG. 3(a), FIG. 5 is a cross-sectional perspective view in the V-V direction of FIG. 1, FIG. 6(a) to FIG. 6(c) are drawings illustrating a method of mounting a charging outlet on FIG. 5, FIG. 7(a) is an enlarged view of part A of FIG. 6(b), and FIG. 7(c) is an enlarged view of part B of FIG. 6(b).

[0035] Referring to FIGS. 1 to 7, a charging outlet mounting bracket (10) for mounting a charging outlet (20) of a vehicle according to one embodiment of the present invention comprises a housing (100) providing an open mounting space (120); The device comprises a switching unit (200) installed on one side of the housing (100) and operating in response to whether the charging outlet (20) is mounted, wherein the switching unit (200) is formed with a circuit unit (220) having an open circuit, a plurality of connection terminals (232) connected to the circuit unit (220), a switch lever (230) that varies the connection state of the connection terminals (232), and a contact lever (240) positioned on one side of the switch unit, with a portion exposed to the mounting space (120), so that when the charging outlet (20) is fixed to the mounting space (120), the contact lever (240) moves the switch lever (230) to change the connection state of the circuit.

[0036] A charging outlet mount (10) is a device on which a charging outlet (20) that supplies external power for charging a vehicle is mounted. To this end, the charging outlet mount (10) is formed with a housing (100) that accommodates the body (21) of the charging outlet and a switching unit (200) that operates in response to whether the body (21) of the charging outlet is mounted in the housing (100).

[0037] Accordingly, the charging outlet stand (10) of the present invention allows the connection state of the circuit connected to the circuit part (220) to vary between the state where the charging outlet (20) is mounted on the housing (100) and the state where the charging outlet (20) is detached from the housing (100), i.e., not mounted, thereby enabling various additional functions.

[0038] Specifically, the housing (100) is formed with a housing body (110) that forms the exterior and a mounting space (120) that is open in the insertion direction into the housing body (110), thereby providing a structure in which the charging outlet (20) is mounted by accommodating the entire body (21) of the charging outlet.

[0039] At this time, the mounting space (120) has an insertion opening (121) formed on one side into which the charging outlet (20) is inserted. Accordingly, the mounting space (120) has at least one side open to form the insertion opening (121) so that the charging outlet (20) can be inserted and fixed.

[0040] Accordingly, the housing body (110) is formed with an extension section (112) that extends outward along the circumference of the insertion opening (121) to the mounting space (120), and a guide section (113) that protrudes inward from the end of the extension section (112) to the mounting space (120), thereby preventing interference with the charging outlet (20) and simultaneously adjusting the fixed position of the charging outlet (20).

[0041] Specifically, the extension section (112) is formed with an angle such that the opening area gradually decreases from the insertion opening (121) toward the inner side of the mounting space (120), that is, toward the front of the mounting space (120), thereby minimizing interference when the charging outlet (20) is inserted into the mounting space and guiding it toward the fixed space.

[0042] Additionally, at the end of the extension section (112), a guide section (113) is formed by extending forward in the mounting direction, and the guide section (113) is formed at an angle opposite to the extension section (112) so as to adjust the fixed position while the charging outlet (20) is fully inserted into the mounting space (120) along the extension section (112).

[0043] In other words, the body (21) of the charging outlet is inserted into the mounting space (120) along the extension section (112), and when the user places the charging outlet (20) while it is fully inserted, the body of the charging outlet (20) rotates within a predetermined range around the part where the extension section (112) and the guide section (113) are connected, that is, the most protruding part.

[0044] Accordingly, one side of the charging outlet (20) body comes into contact with the inner surface of the guide section (113), and presses the contact lever (240) protruding into the mounting space (120).

[0045] Accordingly, the extension section (112) and the guide section (113) guide the position where the charging outlet (20) is inserted into the mounting space (120), and at the same time, in the fully inserted state, adjust the fixed position of the body (21) of the charging outlet so that it comes into contact with the guide section (113) and the mounting state of the charging outlet (20) is recognized by the circuit section (220).

[0046] Here, the state in which the charging outlet (20) is fully inserted into the mounting space (120) does not mean that the body (21) of the charging outlet is fully received into the inner side of the mounting space (120), but rather means that a part of the body (21) of the charging outlet, that is, a pre-set part, is received.

[0047] Therefore, the fully inserted state is a state in which, even when the user inserts a part of the body (21) of the charging outlet into the mounting space (120) of the charging outlet holder (10) and places the charging outlet (20), the inner surface of the housing body (110) and the body (21) of the charging outlet can be caught and fixed.

[0048] Additionally, a mounting portion (114) is formed on one side of the housing body (110) so that a switching portion (200) is positioned inside the mounting space (120) to determine whether the charging outlet (20) is mounted. To this end, the mounting portion (114) is formed with an open hole (1141) penetrating one side of the housing body (110) and a mounting end (1142) extending outward from the open hole (1141).

[0049] At this time, a settling packing (1143) is formed along the outer circumference of the settling section (1142) to prevent foreign substances from entering the switching section (200).

[0050] Specifically, the opening hole (1141) is formed by penetrating the housing body (110) so that the contact projection (242) can be exposed to the mounting space (120) while the lever body (241) is seated on the seating portion (1142), and the switch body (210) is installed along the seating packing (1143) to provide a closed installation space (211).

[0051] Accordingly, the housing (100) of the present invention accommodates the body (21) of the charging outlet and fixes it in the mounting space (120). At this time, no structure is required to be coupled with the coupling part (22) of the charging outlet that is in direct contact with the charging part of the vehicle.

[0052] Accordingly, damage such as breakage that may occur when mounting on the connecting part (22) of the charging outlet is minimized, and at the same time, the user can easily mount the charging outlet (20) by inserting only the body (21) of the charging outlet into the mounting space (120), thereby significantly improving user convenience.

[0053] In addition, an extension section (112) is formed along the circumference of the insertion opening (121) into which the charging outlet (20) is inserted to guide the insertion position, thereby minimizing interference with the body (21) of the charging outlet while simultaneously increasing the effect of improving user convenience.

[0054] At this time, a guide section (113) for adjusting the fixed position of the charging outlet (20) is formed at the end of the extension section (112), so that the switching section (200) is accurately pressed while the charging outlet (20) is mounted, thereby forming a circuit corresponding to whether it is mounted or not.

[0055] A switching unit (200) is installed on one side of the housing (100) to enable various necessary functions to operate in response to whether the charging outlet (20) is mounted. To this end, the switching unit (200) is formed with a switch body (210) that provides an installation space (211), a circuit unit (220) in which an open circuit is formed, a switch unit that varies the connection state of the circuit unit (220), and a contact lever (240) that links the switch unit.

[0056] Accordingly, as the charging outlet (20) is mounted in the mounting space (120), the switching unit (200) directly presses the contact lever (240) to actuate the switch lever (230), and accordingly, the connection state of the circuit of the circuit unit (220) is varied by the connection terminal (232) formed in the switch unit.

[0057] Additionally, the switching unit (200) further includes a return spring (250) that returns the contact lever (240), a cable holder (260) that guides the connecting cable (222), and a spring holder (270) that supports one side of the return spring (250), so that each component can be installed more stably in the installation space (211).

[0058] Specifically, the switch body (210) has an installation space (211) formed on the inside, and one side of the installation space (211) is open and connected to the housing body (110) so as to communicate with the mounting section (1142). At this time, a body cover (212) is further formed to close the side that is open in the direction of extension of the connecting cable (222) so that the connecting cable (222) connected to the circuit board (221) can be connected to an external device.

[0059] Additionally, a pivot projection (213) is further formed so that the contact lever (240) can rotate in the direction in which the seating portion (1142) is formed on one side of the open installation space (211).

[0060] Accordingly, the contact lever (240) is formed on the seating portion (114) while connected to the switch body (210) and moves in the operating direction in response to whether the charging outlet (20) is mounted.

[0061] Additionally, the circuit section (220) is formed with a circuit board (221) having an open circuit formed thereon, and a connecting cable (222) that extends outwardly and is connected to one side of the circuit and connected to an external device.

[0062] The switch lever (230) is formed with a switch lever body (231), a connection terminal (232) formed on one side of the switch lever body (231) and electrically connected to a circuit, and an interlocking body (233) formed on one side of the switch lever body (231) and interlocked with a contact lever (240).

[0063] In summary, a plurality of circuits are formed on the circuit board (221) that are open to the inside, and a plurality of connection terminals (232) are connected between the open circuits to complete the circuits, thereby completing a plurality of circuits.

[0064] Here, each connection terminal (232) is formed to form a different circuit depending on the position of the interlocking body (233), that is, depending on the position of the interlocking body (233), that is, whether the charging outlet (20) is mounted.

[0065] Accordingly, a plurality of connecting cables (222) connected to the circuit board (221) transmit different electrical signals to an external device by a circuit that is completed depending on whether the charging outlet (20) is mounted among the plurality of circuits.

[0066] For example, the circuit of the circuit board (221) is formed with a first circuit that is completed at the initial position of the switch lever (230) and a second circuit that is completed at the moving position of the switch lever (230), and the external device performs different functions depending on the connection state of the first and second circuits.

[0067] Specifically, in the case where the first circuit is completed, that is, when the charging outlet (20) is detached from the mounting space (120), the circuit transmits a trigger signal capable of performing the function of turning on the light inside the mounting space (120) and the function of supplying high-voltage power to the charging outlet (20), thereby allowing the user to charge the vehicle more conveniently.

[0068] In addition, when the second circuit is completed, that is, when the charging outlet (20) is mounted in the mounting space (120), a trigger signal is transmitted to perform the function of turning off the light in the mounting space (120) and the function of cutting off the high-voltage power to the charging outlet (20), thereby enabling the user to immediately recognize the mounting state of the charging outlet (20) while ensuring high safety.

[0069] Furthermore, if the first circuit is in a completed state, that is, if a trigger signal capable of performing the function of supplying power is generated, and a certain amount of time elapses, or if power supply does not proceed, it is determined through an external device that there is a problem with the mounting of the charging outlet (20) or a disconnection of the charging cable, and such information can be provided to the manager.

[0070] At this time, additionally, when the external device recognizes that external power is supplied while the second circuit is completed, that is, when a trigger signal capable of performing the function of cutting off high-voltage power is generated, that is, when the external device recognizes that external power is supplied, it can also quickly self-diagnose whether the charging outlet (20) is malfunctioning, thereby providing the effect of improving safety and product reliability.

[0071] In summary, the circuit transmits an electrical signal corresponding to whether the charging outlet is placed to an external device, and enables the external device to utilize this as a trigger signal to determine power supply, malfunction, or damage.

[0072] However, the above-described function performed by completing the circuit is merely an example, and additional functions can be designed by configuring the circuit in various ways according to the needs of the administrator and user, thereby providing enhanced user convenience and safety.

[0073] To this end, a structure is formed in the switch lever body (231) that can change the connection state between the connection terminal (232) and the switch lever body (231). The structure for changing the connection state is connected to the interlocking body (233) and forms a circuit by changing the connection state of the connection terminal (232) to a preset position corresponding to the position of the interlocking body (233).

[0074] The contact lever (240) is positioned on one side of the switch portion and is formed so that a portion of it is exposed to the mounting space (120) through the open hole (1141), and is pressed to move the switch portion as the charging outlet (20) is mounted.

[0075] Here, a return spring (250) is installed on one side of the contact lever (240) so that the contact lever (240), which has moved as the charging outlet (20) is mounted, returns to its initial position when the charging outlet (20) is detached, thereby maximizing user convenience.

[0076] To this end, the contact lever (240) is formed with a lever body (241) that is seated on a seating portion (1142), a contact projection (242) that protrudes from the lever body (241) and is positioned in a mounting space (120) through an open hole (1141), and an interlocking projection (243) that protrudes from the lever body (241) and is formed in an installation space (211).

[0077] At this time, on one side of the lever body (241), a pivot projection (244) connected to the pivot shaft projection (213) and a seating projection (254) on which one end of the return spring (250) is seated are further formed.

[0078] Accordingly, the contact lever (240) has a contact projection (242) formed on one side of the lever body (241), that is, protruding downward in the cross direction and exposed to the mounting space (120), so that when the charging outlet (20) is inserted into the mounting space (120) and fixed, it receives pressure from one side of the body (21) of the charging outlet.

[0079] In addition, on the other side of the lever body (241), that is, upward in the cross direction, an interlocking projection (243) is formed corresponding to the position of the interlocking body (233), and a seating projection (245) is formed on one side of the interlocking projection (243) on which one end of the return spring (250) is seated.

[0080] Accordingly, when pressure is applied to the contact projection (242) and the contact lever (240) moves upward in the cross direction, the interlocking projection (243) comes into contact with the interlocking body (233) and moves upward in the cross direction, and the interlocking body (233) moves to the moving position.

[0081] Accordingly, the circuit completed by the connection terminal (232) is modified, and the function of the second circuit is performed.

[0082] At this time, the rotational projection (244) is formed at one end of the lever body (241) and connected to the rotational shaft projection (213) so that the lever body (241) rotates within a certain range by the applied pressure, and the seating projection (245) is formed at the other end of the lever body (241) and is compressed according to the rotation of the lever body (241).

[0083] Accordingly, when the charging outlet (20) is detached again from the mounting space (120), the contact lever (240) and the interlocking body (233) return to their initial positions by the extension force of the return spring (250), thereby completing the first circuit and performing other functions accordingly.

[0084] The cable holder (260) is installed in the installation space (211) to guide the extension direction of the connecting cable (222) connected to the circuit board (221) to minimize damage, and the spring holder (270) is installed in the installation space (211) opposite to the seating projection (245) to support the other end of the return spring (250).

[0085] Accordingly, each element constituting the switching unit (200) is stably fixed in a pre-designed position, so that the interlocking body (233), which varies the connection state of the connection terminal (232) depending on whether the charging outlet (20) is mounted, can be positioned in an accurate position.

[0086] In addition, it is desirable that the cable holder (260) be formed of an elastic material to guide the cable (222) and additionally seal the installation space (211) to ensure electrical connection stability.

[0087] Accordingly, the charging outlet stand (10) of the present invention is fixed in a structure that accommodates the body (21) of the charging outlet, thereby fundamentally preventing damage to the connecting part (22) of the charging outlet and improving the durability of the product.

[0088] In addition, the body (21) of the charging outlet forms an extension section (112) and a guide section (113) along the inner circumference of the insertion opening (121) into which the charging outlet is initially inserted, thereby facilitating the user's mounting of the charging outlet (20) and simultaneously adjusting the fixed position of the charging outlet (20) to a position where the contact lever (240) is pressed.

[0089] In addition, the switching unit (200) is formed with a circuit in which the connection state varies in response to whether the charging outlet (20) is mounted, thereby enabling various optimized functions to be performed, and thus providing the effect of significantly improving user convenience.

[0090] Although preferred embodiments of the present invention have been described illustratively above, the scope of the present invention is not limited to such specific embodiments, and any modifications that are appropriately possible within the scope described in the claims fall within the scope of protection of the present invention.

Claims

1. In a charging outlet holder for mounting a vehicle's charging outlet, Housing providing an open mounting space; and A switching unit installed on one side of the above housing and operating in response to whether the charging outlet is mounted; is included. The above switching unit A circuit section in which an open circuit is formed, and A switch unit formed with a plurality of connection terminals connected to the above circuit unit and a switch lever that varies the connection state of the connection terminals, and Formed as a contact lever positioned on one side of the above switch part, with a portion exposed to the mounting space, A charging outlet stand characterized by the fact that, as the charging outlet is fixed in the mounting space, the contact lever moves the switch lever to change the connection state of the circuit.

2. In Paragraph 1, The above housing is A guide section is formed at the exposed position of the above contact lever so as to be inclined toward the insertion direction of the charging outlet, A charging outlet holder characterized by the fixed position of the charging outlet in the mounting space being adjusted so that the contact lever is moved.

3. In Paragraph 2, The above housing is A charging outlet holder characterized by having an inclined extension end formed to extend outward along the circumference of an insertion opening open on one side of the mounting space, thereby guiding the insertion position of the charging outlet.

4. In Paragraph 1, The above housing is A seating portion is formed that penetrates one side and is seated on the contact lever, and The above switching unit A switching body is further formed that closes the outer side of the above-mentioned mounting portion and provides an installation space on the inner side for installing the circuit portion and the switch portion, and A charging outlet holder characterized by having one side of the contact lever fixed to the switching body, and rotating inwardly toward the installation space and moving the switch lever as the charging outlet is mounted in the mounting space.

5. In Paragraph 4, The above circuit is It is formed by a first circuit completed at the initial position of the switch lever and a second circuit completed at the moving position of the switch lever, and The above switching unit A return spring is further formed that is supported on the other side of the contact lever inside the above installation space, A charging outlet holder characterized by the contact lever being returned to reconnect the first circuit when the charging outlet is detached from the mounting space.

6. In Paragraph 4, The above contact lever is A lever body formed with a pivot projection that is seated on the above-mentioned seating portion and connected to the switching body, a contact projection protruding from the lever body into the mounting space, and an interlocking projection extending from the lever body into the installation space and contacting the switch lever, A charging outlet holder characterized by generating a pressure force through the contact projection as the charging outlet is mounted in the mounting space, rotating around the pivot projection, and moving the switch lever through the interlocking projection.

7. In Paragraph 3, The above guide section It is formed so as to be inclined in the opposite direction toward the inside of the mounting space from the end of the above extension section, A charging outlet holder characterized by having a fixed position adjusted so that one side of the charging outlet is in close contact with the guide section.

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