CN218862212U - Charging square cabin - Google Patents

Abstract

This application is applicable to battery charging outfit technical field, provides a square cabin charges, and the square cabin that charges includes: the charging device comprises a main body, a power supply part and a charging assembly, wherein the main body comprises an installation bin and a storage bin positioned at the bottom of the installation bin; the power supply part comprises a power generation device which is arranged in the storage bin; the storage bin comprises a bin body, a first door body and a storage box, wherein a first opening is formed in the side part of the bin body, and the first door body is arranged at the first opening and used for opening and closing the first opening; the storage box is slidably arranged in the bin body and can be pulled out from the first opening; the storage bin comprises a bin body and a power generation device, wherein a first opening is formed in one side, opposite to the first opening, of the bin body, the storage bin further comprises a first door body, the first door body is arranged at the first opening and used for opening and closing the first opening, the power generation device is slidably mounted in the bin body and can be pulled out from the first opening. The square cabin that charges that this application provided can make maintainer can be more convenient overhauls power generation facility.

Description

Charging square cabin

Technical Field

The application belongs to the technical field of charging equipment, and more specifically relates to a charging shelter.

Background

When industrial and civil buildings are in a fire emergency state, in order to ensure the success of fire fighting work, the independent power supply responsible for supplying power to the fire-fighting electric equipment is called an emergency power supply. The emergency power supply consists of charger, inverter, accumulator, isolating transformer, change-over switch and other devices. The types of common emergency power supplies comprise an EPS emergency power supply, a UPS uninterrupted power supply, a self-contained emergency diesel generator set, a special feed line which is provided with an automatic input device and is independent of a normal power supply, a self-contained emergency gas turbine generator set and the like. In order to provide emergency charging service for electronic and electric products when power supply fails or is insufficient due to reasons such as power supply failure, power limitation and the like on an emergency site, part of emergency power supplies in the market at present appear in the form of charging square cabins.

However, the charging square cabin on the market at present is provided with the self-generating equipment which is fixedly arranged inside the square cabin, so that the maintenance is quite inconvenient in the process.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a charging shelter, aims at solving the technical problem that the fixed setting of self-generating equipment of the charging shelter among the prior art is not convenient for overhaul inside the shelter.

To achieve the above object, according to one aspect of the present application, there is provided a charging shelter comprising: the charging device comprises a main body, a power supply part and a charging assembly, wherein the main body comprises an installation bin and a storage bin positioned at the bottom of the installation bin; the power supply part comprises a power generation device which is arranged in the storage bin; the charging assembly is arranged on the first side of the mounting bin, the charging assembly is electrically connected with the power generation device, and at least one charging socket is arranged on the charging assembly; the storage bin comprises a bin body, a first door body and a storage box, wherein a first opening is formed in the side part of the bin body, and the first door body is arranged at the first opening and used for opening and closing the first opening; the storage box is slidably arranged in the bin body and can be pulled out from the first opening; the storage bin comprises a bin body and a power generation device, wherein a first opening is formed in one side, opposite to the first opening, of the bin body, the storage bin further comprises a first door body, the first door body is arranged at the first opening and used for opening and closing the first opening, the power generation device is slidably mounted in the bin body and can be pulled out from the first opening.

Optionally, a first slide rail group is arranged in the bin body, the first slide rail group extends along a direction towards the first opening, and the storage box is mounted on the first slide rail group; the bin body is internally provided with a second slide rail group, the second slide rail group extends along the direction towards the second opening, and the power generation device is arranged on the second slide rail group.

Optionally, the power supply portion further comprises a storage battery, the storage battery is electrically connected with the power generation device, a battery fixing frame is arranged in the bin body, and the storage battery is installed in the bin body and fixed by the battery fixing frame.

Optionally, a first sealing strip is arranged on the side periphery of the first door body, and the first sealing strip seals a gap between the first door body and the first opening when the first door body closes the first opening; and a second sealing strip is arranged on the side periphery of the second door body, and the second sealing strip seals a gap between the second door body and the second opening under the condition that the second door body closes the second opening.

Optionally, the charging shelter further comprises a plurality of folding chairs stored within the storage bin.

Optionally, the square cabin that charges still includes a plurality of wheelsets, and a plurality of wheelsets are all installed in the bottom in storing storehouse.

Optionally, a plurality of wheelsets all can overturn and install in the bottom in storing storehouse, and the lateral part of the storehouse body is provided with a plurality of holding tanks, and the position of a plurality of wheelsets and the position one-to-one in a plurality of holding tanks, wheelset have hold the hidden position in the holding tank, and the operating position of upset to the storehouse body bottom in order to support the storehouse body.

Optionally, the charging shelter further comprises a self-loading and unloading part, the self-loading and unloading part is electrically connected with the power generation device, the self-loading and unloading part comprises a plurality of lifting support leg mechanisms, and the lifting support leg mechanisms are arranged on the side part of the mounting bin at intervals along the peripheral side of the mounting bin so as to support the main body; the plurality of lifting support leg mechanisms can be extended to suspend the bottom of the main body.

Optionally, the self-loading and unloading part further comprises a plurality of expansion devices, the expansion devices are arranged in one-to-one correspondence with the lifting support leg mechanisms, and the expansion devices are arranged between the lifting support leg mechanisms and the installation bin and used for enabling the lifting support leg mechanisms to be unfolded or folded towards the side part of the main body; one end of the telescopic device is connected with the mounting bin, and the other end of the telescopic device is hinged with the lifting support leg mechanism; the telescopic device comprises a fixed column fixedly connected with the mounting bin, a top telescopic main rod hinged with the top of the fixed column, a bottom telescopic main rod hinged with the bottom of the fixed column, and a top telescopic auxiliary rod hinged with the top telescopic main rod, and the lifting support leg mechanism comprises a lifting fixed rod, a lifting moving rod arranged in the lifting fixed rod and a lifting power device for providing lifting power for the lifting moving rod; the other ends of the top telescopic main rod, the bottom telescopic main rod and the top telescopic auxiliary rod are respectively hinged with the lifting fixed rod; the telescopic device also comprises a telescopic power device which can be unfolded or folded; the installation bin is a rectangular frame body, when the four groups of the telescopic devices and the lifting supporting leg mechanisms are arranged, the four groups of the telescopic devices and the lifting supporting leg mechanisms are respectively arranged at the edges of the long square frame extending in the four height directions, the expanding width of the two groups of the telescopic devices is larger than the width of a carriage of a transport vehicle for transporting the charging square cabin, and the rising height of the lifting supporting leg mechanisms is the height which enables the bottom of the main body to be higher than the carriage of the transport vehicle.

Optionally, the power generation device is a generator, a wire hub fixing frame is further arranged in the cabin body, and the charging shelter further comprises a wire hub which is mounted in the cabin body and fixed by the wire hub fixing frame.

The application provides a shelter that charges's beneficial effect lies in: compared with the prior art, the charging shelter that this application provided is through setting up the subassembly that charges on the first side in installation storehouse, set up power generation facility in the storing storehouse, and make power generation facility and the subassembly electricity that charges be connected, make the square cabin that charges that this application provided can export the electric energy that the subassembly produced to the outside through the socket that charges on the subassembly that charges, meanwhile, through installing power generation facility slidable that this application provided in the storehouse body, and make it pull out from the second opening, make the square cabin that charges that this application provided when needing to overhaul power generation facility, can pull out power generation facility from the second opening, thereby make maintainer can be more convenient overhaul power generation facility.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a charging shelter provided in an embodiment of the present application;

fig. 2 is a schematic structural view of a charging shelter with parts removed according to an embodiment of the present application;

fig. 3 is a cross-sectional view of a charging shelter provided in an embodiment of the present application;

FIG. 4 is a schematic structural view of a storage compartment provided in an embodiment of the present application;

fig. 5 is a schematic structural view of a storage compartment at another viewing angle according to the embodiment of the present disclosure;

FIG. 6 is a schematic structural view of a storage compartment with parts removed according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of a storage compartment with parts removed from the storage compartment from another perspective according to an embodiment of the present disclosure;

reference is now made to the following figures, in which:

10. a main body; 11. installing a bin; 12. a storage bin; 121. a bin body; 1211. a first slide rail set; 1212. a second slide rail set; 1213. a wire hub fixing frame; 1214. accommodating grooves; 122. a first door body; 1221. a first seal strip; 123. a second door body; 1231. a second seal strip; 124. a storage box;

20. a power supply unit; 21. a power generation device; 22. a battery;

30. a charging assembly; 31. a charging socket;

40. a wheel set;

50. a self-loading/unloading part; 51. a lifting support leg mechanism; 511. a lifting fixing rod; 512. a lifting moving rod; 513. a lifting power device; 52. a telescopic device.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

As noted in the background, currently, when industrial and residential buildings are in a fire emergency, in order to ensure the success of fire suppression, the independent power source responsible for supplying power to the fire-fighting electrical equipment is called an emergency power source. The emergency power supply consists of charger, inverter, accumulator, isolating transformer, change-over switch and other devices. The types of common emergency power supplies comprise an EPS emergency power supply, a UPS uninterrupted power supply, a self-contained emergency diesel generator set, a special feed line which is provided with an automatic input device and is independent of a normal power supply, a self-contained emergency gas turbine generator set and the like. In order to provide emergency charging service for electronic and electric products when power supply fails or is insufficient due to reasons such as power supply failure, power limitation and the like on an emergency site, part of emergency power supplies in the market at present appear in the form of charging square cabins. However, the charging square cabin on the market at present is provided with the self-generating equipment which is fixedly arranged inside the square cabin, so that the maintenance is quite inconvenient in the process.

Referring to fig. 1 to 7, in order to solve the above-mentioned problems, according to an aspect of the present application, an embodiment of the present application provides a charging shelter including: the charging device comprises a main body 10, a power supply part 20 and a charging assembly 30, wherein the main body 10 comprises an installation bin 11 and a storage bin 12 positioned at the bottom of the installation bin 11; the power supply part 20 comprises a power generation device 21, and the power generation device 21 is arranged in the storage bin 12; the charging assembly 30 is arranged at the first side of the installation bin 11, the charging assembly 30 is electrically connected with the power generation device 21, and at least one charging socket 31 is arranged on the charging assembly 30; the storage bin 12 comprises a bin body 121, a first door body 122 and a storage box 124, wherein a first opening is formed in the side part of the bin body 121, and the first door body 122 is arranged at the first opening and used for opening and closing the first opening; the storage box 124 is slidably mounted in the bin body 121 and can be pulled out from the first opening; the side of the bin body 121 opposite to the first opening is provided with a second opening, the storage bin 12 further comprises a second door body 123, the second door body 123 is arranged at the second opening and used for opening and closing the second opening, and the power generation device 21 is slidably mounted in the bin body 121 and can be pulled out from the second opening. The charging shelter provided by the embodiment is provided with the charging assembly 30 on the first side of the installation cabin 11, the power generation device 21 is arranged in the storage cabin 12, and the power generation device 21 is electrically connected with the charging assembly 30, so that the charging shelter provided by the embodiment can output electric energy generated by the power generation assembly to the outside through the charging socket 31 on the charging assembly 30, meanwhile, the power generation device 21 provided by the embodiment can be slidably installed in the cabin body 121 and can be pulled out from the second opening, so that the power generation device 21 can be pulled out from the second opening when the power generation device 21 needs to be overhauled, and thus, an overhaul worker can overhaul the power generation device 21 more conveniently.

In a specific embodiment, by slidably installing the storage box 124 provided in this embodiment in the bin body 121 and enabling the storage box to be pulled out from the first opening, when the storage box 124 needs to be stored, the charging shelter provided in this embodiment can place the articles to be stored in the storage box 124 by pulling the storage box 124 out from the first opening.

Referring to fig. 6 and 7, in order to enable the storage box 124 and the power generation device 21 provided in this embodiment to be pulled out from the first opening and the second opening, respectively, a first sliding rail set 1211 is disposed in the bin body 121 in this embodiment, the first sliding rail set 1211 extends in a direction toward the first opening, and the storage box 124 is mounted on the first sliding rail set 1211; a second sliding rail set 1212 is disposed in the bin body 121, the second sliding rail set 1212 extends along a direction toward the second opening, and the power generation device 21 is mounted on the second sliding rail set 1212. By arranging the first slide rail set 1211 in the cabin body 121 provided in this embodiment and extending the first slide rail set 1211 in a direction toward the first opening, the storage box 124 mounted on the first slide rail set 1211 can be pulled out from the first opening through the first slide rail set 1211; meanwhile, by disposing the second set of slide rails 1212 in the cabin body 121 provided in this embodiment and extending the second set of slide rails 1212 in a direction toward the second opening, the power generation device 21 mounted on the second set of slide rails 1212 can be pulled out from the second opening through the second set of slide rails 1212.

In a preferred embodiment, the first slide rail set 1211 and the second slide rail set 1212 provided in this embodiment are all multi-section stainless steel slide rails.

In a specific embodiment, the first rail set 1211 and the second rail set 1212 provided in this embodiment are both three-section stainless steel rails.

Referring to fig. 4, in order to store the electric energy generated by the power generation device 21 provided in this embodiment, the power supply portion 20 in this embodiment further includes a storage battery 22, the storage battery 22 is electrically connected to the power generation device 21, a battery holder is disposed in the bin body 121, and the storage battery 22 is mounted in the bin body 121 and fixed by the battery holder. Through set up battery 22 in the storehouse body 121 that this embodiment provided to fix battery 22 through the battery mount in the storehouse body 121, make battery 22 and power generation facility 21 electricity be connected simultaneously, alright in the middle of the electric energy storage to battery 22 that power generation facility 21 sent, thereby the effectual electric energy capacity that improves the square cabin that charges that this embodiment provided.

Referring to fig. 3, in order to prevent impurities in the external environment from entering the storage bin 12 through a gap between the first door 122 and the first opening, a first sealing strip 1221 is disposed on a lateral periphery of the first door 122 in this embodiment, and when the first door 122 closes the first opening, the first sealing strip 1221 seals the gap between the first door 122 and the first opening; through set up first sealing strip 1221 in the side periphery of the first door body 122 that this embodiment provided, make first door body 122 close first open-ended circumstances, can seal the gap between first door body 122 and the first opening through first sealing strip 1221 to effectual debris in having avoided the external environment enter into storing storehouse 12 through the gap between first door body 122 and the first opening in, make the equipment in the storing storehouse 12 can normal go on working.

Referring to fig. 3, in order to prevent foreign matters in the external environment from entering the storage compartment 12 through a gap between the second door body 123 and the second opening, a second sealing strip 1231 is disposed on a side circumference of the second door body 123, and when the second door body 123 closes the second opening, the second sealing strip 1231 seals the gap between the second door body 123 and the second opening. Through set up second sealing strip 1231 in the side circumference of the second door body 123 that this embodiment provided, make the second door body 123 close the second open-ended circumstances, can seal the gap between the second door body 123 and the second open-ended through second sealing strip 1231 to effectual debris in having avoided the external environment enters into the storing storehouse 12 through the gap between the second door body 123 and the second open-ended, make the equipment in the storing storehouse 12 can normally work.

In a preferred embodiment, the charging shelter of the present embodiment further comprises a plurality of folding chairs stored in the storage box 124.

Referring to fig. 1 to 3, in order to facilitate the movement of the charging shelter provided in the present embodiment, the charging shelter further includes a plurality of wheel sets 40, and the plurality of wheel sets 40 are all installed at the bottom of the storage bin 12. Through set up a plurality of wheelsets 40 in the bottom of the storing storehouse 12 that this embodiment provided, can effectual reduction this embodiment provide the square cabin bottom of charging's frictional force, make this embodiment provide the square cabin of charging can more light move.

Referring to fig. 1 to 3, in order to make the charging shelter provided in this embodiment stably place on the ground when it is not needed to move, and quickly move when it is needed to move, in this embodiment, a plurality of wheel sets 40 are installed at the bottom of the storage bin 12 in a reversible manner, a plurality of accommodating grooves 1214 are provided at the side of the cabin body 121, the positions of the plurality of wheel sets 40 correspond to the positions of the plurality of accommodating grooves 1214 one by one, the wheel sets 40 have hidden positions accommodated in the accommodating grooves 1214, and are turned to the bottom of the cabin body 121 to support the working position of the cabin body 121. Install in the bottom of storing storehouse 12 through all can overturning a plurality of wheelsets 40 that provide with this embodiment, and set up a plurality of holding tanks 1214 with the position one-to-one of a plurality of holding tanks 1214 at the lateral part of the storehouse body 121, when the shelter of charging that this embodiment provided is laid to needs, only need set up wheelset 40 to hide the position, alright make the shelter of charging obtain firm placing, when the shelter of charging that this embodiment provided is removed to needs, only need set up wheelset 40 to operating position, alright support the shelter of charging through wheelset 40, thereby make the shelter of charging that this embodiment provided can relax remove.

In a preferred embodiment, the bottom of the storage cabin 12 that this embodiment provided is provided with the pivot, and the wheelset 40 that this embodiment provided includes for casters and caster installation piece, and the casters fixed mounting that this embodiment provided is on caster installation piece, and the rotatable cover of caster installation piece is established on the pivot.

In a preferred embodiment, a plurality of locking holes are disposed on the caster mounting block provided in this embodiment, a locking assembly is disposed on the bottom of the storage bin 12 provided in this embodiment, the locking assembly is configured to lock the wheel set 40 on a rotating shaft, the locking assembly provided in this embodiment includes a locking main body 10, an elastic resetting piece, and a locking pin, the locking main body 10 provided in this embodiment is fixedly mounted on the rotating shaft, the locking pin is movably disposed on the locking main body 10, the locking pin can correspond to the locking holes in position, the locking pin has a locking state penetrating through the locking holes and an unlocking state not penetrating through the locking holes, the elastic resetting piece is sleeved on the rotating shaft, two ends of the elastic resetting piece are respectively abutted against the locking main body 10, and the elastic resetting piece is configured to apply an elastic force to the locking pin, so that the locking pin can be maintained in the locking state without an external force.

In a specific embodiment, when the locking pin is in the locked state, the wheel set 40 is in the hidden position or the working position, and the wheel set 40 cannot be turned, and when the locking pin is in the unlocked state, the wheel set 40 can be in any position, and the wheel set 40 can be turned.

Referring to fig. 1 to 3, in order to enable the charging shelter provided in the present embodiment to be self-detachable, the charging shelter in the present embodiment further includes a self-detaching part 50, the self-detaching part 50 is electrically connected to the power generation device 21, the self-detaching part 50 includes a plurality of elevating support leg mechanisms 51, the plurality of elevating support leg mechanisms 51 are installed at the side of the installation bin 11 at intervals along the circumferential side of the installation bin 11 to support the main body 10; the plurality of elevating support leg mechanisms 51 can be extended to suspend the bottom of the main body 10. By installing a plurality of lifting support leg mechanisms 51 provided by the present embodiment on the side portion of the installation bin 11 at intervals along the circumferential side of the installation bin 11, the charging shelter provided by the present embodiment can be supported by the plurality of lifting support leg mechanisms 51, and the bottom of the main body 10 is suspended, thereby realizing the rapid loading and unloading of the charging shelter.

Referring to fig. 1 to 3, in order to facilitate the lifting support leg mechanism 51 provided in this embodiment to be able to unfold or fold toward the side of the installation bin 11, the self-loading/unloading part 50 in this embodiment further includes a plurality of telescoping devices 52, the plurality of telescoping devices 52 are disposed in one-to-one correspondence with the plurality of lifting support leg mechanisms 51, and the telescoping devices 52 are disposed between the lifting support leg mechanism 51 and the installation bin 11 for unfolding or folding the lifting support leg mechanism 51 toward the side of the main body 10; by arranging the plurality of telescoping devices 52 provided in the present embodiment in one-to-one correspondence with the plurality of elevating support leg mechanisms 51 and arranging the telescoping devices 52 between the elevating support leg mechanisms 51 and the installation chamber 11, the elevating support leg mechanisms 51 can be unfolded or folded from the side of the main body 10 by the telescoping devices 52.

In a specific embodiment, one end of the telescopic device 52 is connected with the mounting bin 11, and the other end is hinged with the lifting support leg mechanism 51; the telescopic device 52 comprises a fixed column fixedly connected with the installation bin 11, a top telescopic main rod hinged with the top of the fixed column, a bottom telescopic main rod hinged with the bottom of the fixed column, and a top telescopic auxiliary rod hinged with the top telescopic main rod, and the lifting support leg mechanism 51 comprises a lifting fixed rod 511, a lifting moving rod 512 arranged in the lifting fixed rod 511, and a lifting power device 513 for providing lifting power for the lifting moving rod 512; the other ends of the top telescopic main rod, the bottom telescopic main rod and the top telescopic auxiliary rod are respectively hinged with a lifting fixed rod 511; through the fixed column that provides with this embodiment and 11 fixed connection in installation storehouse, the one end of the flexible mobile jib in top is articulated with the top of fixed column, end flexible mobile jib one end is articulated with the bottom of fixed column, the one end of the flexible auxiliary pole in top is articulated with the flexible mobile jib in top, end flexible mobile jib, and the other end of the flexible auxiliary pole in top is articulated with dead lever 511 respectively, alright make the lifting support leg mechanism 51 can expand or draw in from main part 10 lateral part, meanwhile, through moving pole 512 setting in dead lever 511 with the lift, make the lift pole 512 can be under the drive of lift power device 513 along the length direction of dead lever 511, stretch out or retract in dead lever 511 from.

In a preferred embodiment, the lifting power device 513 provided in this embodiment is an electric cylinder, but in other embodiments, the lifting power device 513 provided in this embodiment may also be a linear driving device such as an air cylinder or a hydraulic cylinder.

Referring to fig. 1 to 3, in order to enable the lifting support leg mechanism 51 provided in this embodiment to automatically unfold or fold from the side of the main body 10, the telescoping device 52 in this embodiment further includes a telescoping power device for unfolding or folding; by the telescopic power device provided by the embodiment, the telescopic device 52 can automatically drive the lifting support leg mechanism 51 to unfold or fold from the side of the main body 10.

In a preferred embodiment, the telescopic power device provided by this embodiment is a telescopic cylinder, a first end of the telescopic cylinder provided by this embodiment is hinged on the fixed column, a second end of the telescopic cylinder is hinged on the lifting fixing rod 511, and the lifting support leg mechanism 51 can be unfolded or folded from the side of the main body 10 by the telescopic cylinder. In other embodiments, the control can be performed in other manners, such as a chain and sprocket transmission mechanism, to achieve the unfolding or folding of the side portion.

Referring to fig. 1 to 3, in order to quickly assemble and disassemble the charging shelter provided in this embodiment on a transport vehicle, the installation cabin 11 in this embodiment is a rectangular frame, when the number of the telescopic devices 52 and the lifting support leg mechanisms 51 is four, the four groups are respectively arranged at the four height direction extending edges of the rectangular frame, the width of the two groups of the telescopic devices 52 is larger than the width of the carriage of the transport vehicle transporting the charging shelter, and the lifting support leg mechanisms 51 are lifted to a height that makes the bottom of the main body 10 higher than the height of the carriage of the transport vehicle. The width of the two sets of expansion devices 52 is set to be larger than the width of the carriage of the transport vehicle for transporting the charging shelter, and the height of the lifting support leg mechanisms 51 is set to be higher than the height of the carriage of the transport vehicle, so that the charging shelter provided by the embodiment can be quickly loaded and unloaded on the transport vehicle.

Referring to fig. 4, in order to increase the wiring area of the charging shelter provided in this embodiment, the power generation device 21 in this embodiment is a generator, a wire hub fixing frame 1213 is further disposed in the cabin body 121, and the charging shelter further includes a wire hub, which is mounted in the cabin body 121 and fixed by the wire hub fixing frame 1213. Through set up the line hub in the storehouse body 121 that this embodiment provided, make the square cabin that charges can improve the electric wire of winding on the line hub and carry out the wiring to the wiring area of the square cabin that charges that this embodiment provided is effectual increase.

In a preferred embodiment, the charging shelter further includes a generator-receiving sheet metal box, the generator-receiving sheet metal box provided in this embodiment is disposed on the first slide rail set 1211, and the power generation device 21 provided in this embodiment is installed in the generator-receiving sheet metal box.

In summary, the charging shelter provided in this embodiment has at least the following beneficial effects: the charging shelter provided by the embodiment is provided with the charging assembly 30 on the first side of the installation cabin 11, the power generation device 21 is arranged in the storage cabin 12, and the power generation device 21 is electrically connected with the charging assembly 30, so that the charging shelter provided by the embodiment can output electric energy generated by the power generation assembly to the outside through the charging socket 31 on the charging assembly 30, meanwhile, the power generation device 21 provided by the embodiment can be slidably installed in the cabin body 121 and can be pulled out from the second opening, so that the power generation device 21 can be rapidly pulled out from the second opening when the power generation device 21 needs to be overhauled, and thus, an overhaul worker can overhaul the power generation device 21 more conveniently.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (10)

1. A charging shelter, the charging shelter comprising:

the main body (10) comprises an installation bin (11) and a storage bin (12) positioned at the bottom of the installation bin (11);

a power supply portion (20), the power supply portion (20) comprising a power generation device (21), the power generation device (21) being mounted within the storage bin (12);

the charging assembly (30) is arranged on the first side of the mounting bin (11), the charging assembly (30) is electrically connected with the power generation device (21), and at least one charging socket (31) is arranged on the charging assembly (30);

the storage bin (12) comprises a bin body (121), a first door body (122) and a storage box (124), wherein a first opening is formed in the side part of the bin body (121), and the first door body (122) is arranged at the first opening and used for opening and closing the first opening; the storage box (124) is slidably mounted in the bin body (121) and can be pulled out from the first opening;

a second opening is formed in one side, opposite to the first opening, of the bin body (121), the storage bin (12) further comprises a second door body (123), the second door body (123) is arranged at the second opening and used for opening and closing the second opening, and the power generation device (21) is slidably mounted in the bin body (121) and can be pulled out from the second opening.

2. The charging shelter of claim 1 wherein said cabin body (121) has a first set of rails (1211) disposed therein, said first set of rails (1211) extending in a direction toward said first opening, said storage compartment (124) being mounted on said first set of rails (1211);

a second sliding rail set (1212) is arranged in the bin body (121), the second sliding rail set (1212) extends in the direction towards the second opening, and the power generation device (21) is mounted on the second sliding rail set (1212).

3. The charging shelter according to claim 1, wherein the power supply part (20) further comprises a storage battery (22), the storage battery (22) is electrically connected with the power generation device (21), a battery holder is arranged in the cabin body (121), and the storage battery (22) is installed in the cabin body (121) and is fixed by the battery holder.

4. The charging shelter of claim 1, wherein a first sealing strip (1221) is arranged on the side periphery of the first door body (122), and the first sealing strip (1221) seals a gap between the first door body (122) and the first opening when the first door body (122) closes the first opening; and a second sealing strip (1231) is arranged on the side periphery of the second door body (123), and under the condition that the second door body (123) closes the second opening, the second sealing strip (1231) seals a gap between the second door body (123) and the second opening.

5. The charging shelter of claim 1 further comprising a plurality of folding chairs stored within said storage compartment (124).

6. The charging shelter of claim 1 further comprising a plurality of wheel sets (40), each of the plurality of wheel sets (40) being mounted at a bottom of the stowage bin (12).

7. The charging shelter as claimed in claim 6, wherein a plurality of wheel sets (40) are all mounted on the bottom of the storage bin (12) in a reversible manner, a plurality of accommodating grooves (1214) are provided on the side of the bin body (121), the positions of the plurality of wheel sets (40) correspond to the positions of the plurality of accommodating grooves (1214) one by one, the wheel sets (40) have hidden positions accommodated in the accommodating grooves (1214) and working positions turned to the bottom of the bin body (121) to support the bin body (121).

8. The charging shelter of claim 1, further comprising a self-attaching and detaching part (50), wherein the self-attaching and detaching part (50) is electrically connected with the power generation device (21), the self-attaching and detaching part (50) comprises a plurality of elevating support leg mechanisms (51), and the elevating support leg mechanisms (51) are mounted on the side part of the installation cabin (11) at intervals along the circumferential side of the installation cabin (11) to support the main body (10); the plurality of lifting support leg mechanisms (51) can be extended to suspend the bottom of the main body (10).

9. The charging shelter of claim 8, wherein the self-loading and unloading part (50) further comprises a plurality of telescoping devices (52), the plurality of telescoping devices (52) are arranged in one-to-one correspondence with the plurality of lifting support leg mechanisms (51), and the telescoping devices (52) are arranged between the lifting support leg mechanisms (51) and the installation cabin (11) and used for expanding or contracting the lifting support leg mechanisms (51) towards the side part of the main body (10);

one end of the telescopic device (52) is connected with the mounting bin (11), and the other end of the telescopic device is hinged with the lifting support leg mechanism (51); the telescopic device (52) comprises a fixed column fixedly connected with the installation bin (11), a top telescopic main rod hinged with the top of the fixed column, a bottom telescopic main rod hinged with the bottom of the fixed column, and a top telescopic auxiliary rod hinged with the top telescopic main rod, and the lifting support leg mechanism (51) comprises a lifting fixed rod (511), a lifting moving rod (512) arranged in the lifting fixed rod (511), and a lifting power device (513) for providing lifting power for the lifting moving rod (512); the other ends of the top telescopic main rod, the bottom telescopic main rod and the top telescopic auxiliary rod are respectively hinged with the lifting fixed rod (511);

the telescopic device (52) also comprises a telescopic power device which can expand or contract the telescopic device;

the installation bin (11) is a rectangular frame body, when the telescopic devices (52) and the lifting support leg mechanisms (51) are four groups, the four groups are respectively arranged at the edges extending in the four height directions of the long square frame, the width of the two groups of telescopic devices (52) is greater than the width of a carriage of a transport vehicle for transporting the charging square cabin, and the lifting support leg mechanisms (51) are lifted to a height which enables the bottom of the main body (10) to be higher than the height of the carriage of the transport vehicle.

10. A charging shelter as claimed in any one of claims 1 to 9 wherein the power generation means (21) is a generator, the cabin body (121) further has a wire hub holder (1213) disposed therein, the charging shelter further comprising a wire hub mounted within the cabin body (121) and secured by the wire hub holder (1213).

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