CN216805170U - Extension storehouse and trade power station with room of charging - Google Patents
Extension storehouse and trade power station with room of charging Download PDFInfo
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- CN216805170U CN216805170U CN202023320372.2U CN202023320372U CN216805170U CN 216805170 U CN216805170 U CN 216805170U CN 202023320372 U CN202023320372 U CN 202023320372U CN 216805170 U CN216805170 U CN 216805170U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/7072—Electromobility specific charging systems or methods for batteries, ultracapacitors, supercapacitors or double-layer capacitors
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Abstract
The utility model discloses an expansion bin with a charging chamber and a battery replacement station, and belongs to a battery replacement system of an electric automobile. The expansion bin with the charging chambers is used for being installed above the battery replacement station from top to bottom and comprises a functional chamber, at least two charging chambers, a battery bearing mechanism, a lifting transfer mechanism and a charging mechanism. The two charging chambers are positioned on two sides of the functional chamber; the battery bearing mechanism is arranged in the charging chamber and is provided with a first side for the battery to enter and exit and a second side adjacent to or back to the first side; the lifting transfer mechanism is arranged in the charging chamber and is positioned on the first side of the battery bearing mechanism; the charging mechanism is arranged in the charging chamber and is positioned on the second side of the battery bearing mechanism. In the utility model, the extension bin is arranged from top to bottom, and the space for storing the battery and the space for charging the battery are extended by utilizing the extension bin; the expansion bin is additionally arranged above the expansion bin on the basis of the prior art, so that the expansion of the existing power conversion station is realized under the condition that the floor area of the power conversion station is not increased.
Description
Technical Field
The utility model relates to an electric automobile battery replacement system, in particular to an expansion bin with a charging chamber and a battery replacement station.
Background
At present, a battery replacement station is already widely used for replacing batteries of electric vehicles. The existing power station is arranged in a charging chamber by a plurality of devices except the device adopted in the power exchanging process, the space for storing the battery and the space for charging the battery are extruded, the occupied area of the power station is increased by transversely increasing the storage space of the battery when the capacity of the charging chamber is expanded, the cost for expanding the capacity is too high, and the capacity expansion cannot be realized by the power station even because the capacity expansion space is not reserved for the land for building the power station.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects in the prior art and provides an extension bin with a charging chamber and a power changing station.
The utility model solves the technical problems through the following technical scheme:
an extension bin having a charging chamber for mounting from top to bottom above a power conversion station, comprising:
at least one charging chamber;
the battery bearing mechanism is arranged in the charging chamber and is provided with a first side for the battery to enter and exit and a second side adjacent to or back to the first side;
the movement area for the lifting and transferring mechanism to operate is arranged in the charging chamber and is positioned on the first side of the battery bearing mechanism;
the charging mechanism is arranged in the charging chamber and positioned on the second side of the battery bearing mechanism, and the charging mechanism is also provided with a charging module which is used for charging the battery on the battery bearing mechanism.
In the scheme, the extension bin is arranged from top to bottom, and the space for storing the battery and the space for charging the battery are extended by utilizing the extension bin; the expansion bin is additionally arranged above the power conversion station on the basis of the prior art, so that the capacity expansion of the conventional power conversion station is realized under the condition that the occupied area of the power conversion station is not increased.
Preferably, the expansion chamber includes a functional chamber and two charging chambers, and the two charging chambers are located on both sides of the functional chamber.
In the scheme, the corresponding extension bin is provided for the battery changing station for double-side battery changing (one side is detached and one side is installed), the functional room corresponds to the battery changing room of the battery changing station below, and the charging rooms on two sides respectively correspond to the charging rooms of the battery changing station below.
Preferably, the extension cabin with the charging chamber further comprises a temperature adjusting mechanism, and the temperature adjusting mechanism is arranged in the functional chamber to adjust the temperature of the functional chamber and/or the charging chamber.
In this scheme, locate the function room with temperature adjustment mechanism, can not occupy the charge chamber space to can bear the dilatation of mechanism in order to deposit more batteries to the battery.
Preferably, the temperature adjustment mechanism comprises an air conditioner internal unit and an air conditioner external unit, the air conditioner internal unit is arranged inside the top surface of the function chamber, and the air conditioner external unit is arranged outside the top surface of the function chamber.
In this scheme, through setting up the outer machine of air conditioner in the function outdoor portion, can not occupy the function room space, and concrete thermal-insulated effect has avoided the direct heat exchange between the outer machine of air conditioner inner machine, has optimized the temperature environment when battery charge-discharge to improve the life of battery.
Preferably, the temperature adjustment mechanism still includes the wind channel subassembly, the wind channel subassembly include with the air-out of air conditioner indoor set holds the exhaust duct of intercommunication, and with the air inlet duct of air conditioner indoor set's air inlet end intercommunication, the exhaust duct set up in the top of charging chamber, the air inlet duct set up in the charging chamber with the side that the function room is adjacent, the air intake of air inlet duct is located charging chamber bottom just has the air intake intercommunication portion that trades the lower air inlet duct intercommunication in the station with the below.
In this scheme, through setting up air intake intercommunication portion, can trade the lower air inlet duct in the power station with the below and communicate fast for can trade the power station expand can with the expansion bin dock fast to the below when trading the power station and trade on the power station, can realize trading the power station and adjust the temperature of station simultaneously.
Preferably, the charging chamber is internally provided with two rows of the battery bearing mechanisms arranged in parallel, and the air outlet of the air outlet channel is arranged at the top between the two rows of the battery bearing mechanisms.
In this scheme, the air outlet of air outlet duct and the air intake of air inlet duct are kept away from, avoid the wind short circuit, have improved the homogeneity of control by temperature change.
Preferably, an exhaust pipe for the charging mechanism is arranged in the charging chamber, the charging mechanism is provided with a plurality of vertically arranged charger units, an air outlet of each charger unit is communicated with the exhaust pipe, the bottom of the exhaust pipe is communicated with a lower exhaust pipe in the battery replacement station below, and the top of the exhaust pipe is provided with an exhaust fan and an exhaust outlet communicated with the outside of the extension bin.
In this scheme, effectively dispel the heat to charging mechanism through setting up the exhaust pipe, and do not interfere other spare parts when guaranteeing the effect of airing exhaust.
Preferably, the exhaust duct and the charging mechanism are arranged on a second side of the battery carrying mechanism side by side, and the second side is adjacent to the first side.
In this scheme, the exhaust pipe is close to charging mechanism for compact structure, save space and improved the radiating efficiency.
Preferably, the charging chamber comprises two rows of charging mechanisms which are arranged oppositely, the air inlets of the charger units of the charging mechanisms are arranged oppositely, and an air inlet channel is formed between the charging mechanisms.
In this scheme, form inlet air channel between charging unit's relative air intake, be favorable to the air current to flow through and discharge from the exhaust pipe behind the charging unit, effectively take away the heat, promoted radiating homogeneity simultaneously.
Preferably, the bottom of the air inlet channel is provided with an air inlet channel communicating part communicated with a lower air inlet channel in the lower power exchanging station.
In this scheme, through setting up exhaust pipe intercommunication portion, can trade the interior lower exhaust pipe fast intercommunication of power station with the below for can be with the extension storehouse when trading the power station and dock fast to the below when trading the capacity and trade the power station on, form a holistic cooling system after exchanging the lower inlet air duct intercommunication of air intake passage and trade the power station lower part simultaneously, realize the regional heat dissipation of the charging mechanism of whole station and adjust the temperature, make the charging mechanism can move under the most suitable temperature environment.
Preferably, the extension bin with the charging chamber further comprises a moving space for accommodating a weight block matched with the lifting and transferring mechanism, the weight block moves on a third side of the battery carrying mechanism, the third side is located on the opposite surface of the second side, and the second side is the side adjacent to the first side.
In this scheme, the balancing weight sets up in the third side, does not interfere other spare parts.
Preferably, a connecting channel for communicating the charging chamber and the function chamber is arranged between the charging chamber and the function chamber, and the connecting channel is arranged near the second side and/or the third side of the battery bearing mechanism.
In the scheme, the connecting channel is arranged between the functional chamber and the charging chamber, so that the functional chamber and the charging chamber can conveniently pass in and out.
Preferably, the extension bin having the charging chamber includes a case body partitioned into the function chamber and the charging chamber.
In the scheme, the function chamber and the charging chamber are integrated in the same box body, and the structure is compact.
A power changing station comprises the expansion bin with the charging chamber, and further comprises at least one full-function bin, wherein the expansion bin is arranged above the full-function bin.
In this scheme, set up the extension storehouse in the top in full function storehouse, for the extension function module provides the space under the condition of not addding trade power station area, the effectual dilatation is carried out to trading the power station.
Preferably, the full-function cabin is provided with an electricity changing room below the function room corresponding to the extension cabin and a charging room below the charging room corresponding to the extension cabin, and the bottom space of the extension cabin is partially communicated with the top space of the full-function cabin, so that the lifting and transporting mechanism is lifted between the full-function cabin and the extension cabin, and/or the battery bearing mechanism in the charging room is butted with the battery bearing mechanism in the charging room.
In this scheme, extension storehouse and full function storehouse intercommunication are convenient for bear the weight of the dilatation of mechanism for the battery, and/or, provide sufficient operating space for lift transport mechanism.
Preferably, a separation surface is arranged between the function chamber and the battery changing room.
In the scheme, the separating surface is arranged, so that other equipment can be conveniently installed in the function room and/or the battery changing room to expand the function of the battery changing station, and the separating surface enables the equipment between the function room and the battery changing room to be relatively independent, so that mutual influence is avoided.
Preferably, the partition surface is provided with a staircase for accessing the functional compartment.
In the scheme, the stairway is arranged to provide convenience for traffic between the functional room and the battery changing room.
On the basis of the common knowledge in the field, the above preferred conditions can be combined randomly to obtain the preferred embodiments of the utility model.
The positive progress effects of the utility model are as follows:
according to the utility model, the expansion bin is arranged, and the space for storing the battery and the space for charging the battery are expanded by using the expansion bin, so that the capacity expansion effect of the power exchange station is realized under the condition of not increasing the floor area.
Drawings
FIG. 1 is a top view of an expansion bin according to one embodiment of the present invention;
fig. 2 is a partial sectional view of a swapping station according to an embodiment of the present invention;
fig. 3 is a schematic internal structure diagram of a swapping station according to an embodiment of the present invention.
Description of the reference numerals:
functional room 1
Charging chamber 2
Battery carrying mechanism 3
Lifting transfer mechanism 4
Charging mechanism 5
Temperature adjusting mechanism 6
Air conditioner indoor unit 601
Air intake communicating part 606
Counterweight block 7
Connecting channel 8
Full-function cabin 9
Battery changing room 10
Separating surface 12
Stairs 13
Exhaust duct 14
Detailed Description
The present invention is further illustrated by the following examples, but is not limited thereby in the scope of the examples described below.
Please refer to fig. 1 and 2 for understanding. The embodiment of the utility model provides an expansion bin with a charging chamber, which is used for being installed above a power exchanging station from top to bottom. The expansion bin comprises at least one charging chamber 2, a battery carrying mechanism 3, a movement area of a lifting transfer mechanism 4 and a charging mechanism 5.
The charging chamber 2 is used for storing and/or charging batteries.
The battery carrying mechanism 3 is used for carrying a battery, and the battery carrying mechanism 3 is disposed in the charging chamber 2 and has a first side 301 for the battery to enter and exit and a second side 302 adjacent to or opposite to the first side 301. The first side 301 may be the side of the battery carrier 3 facing toward or away from the functional compartment 1.
The lifting and transferring mechanism 4 is used for transferring the battery, the movement area of the lifting and transferring mechanism 4 is the space for the lifting and transferring mechanism 4 to move in the extension bin, the movement area of the lifting and transferring mechanism 4 is arranged in the charging chamber 2 and is positioned on the first side 301 of the battery bearing mechanism 3, and therefore the lifting and transferring mechanism 4 is convenient to convey the battery to the battery bearing mechanism 3, or the battery is taken out from the battery bearing mechanism 3.
Charging mechanism 5 is used for charging for the battery, and charging mechanism 5 locates in charging chamber 2 to be located the second side 302 of battery bearing mechanism 3, and charging mechanism 5 and lift transport mechanism 4 distribute in the different sides of battery bearing mechanism 3, have avoided mutual influence.
According to the utility model, the expansion bin is arranged, and the space for storing the battery and the space for charging the battery are expanded by using the expansion bin, so that the capacity expansion effect of the power exchange station is realized under the condition of not increasing the floor area.
In the embodiment of the utility model, the expansion bin further comprises a function chamber 1, and two charging chambers 2 are positioned on two sides of the function chamber 1. In this embodiment, a corresponding extension bin is provided for a power exchanging station for exchanging power on two sides (one side is detached and the other side is installed), the functional room 1 corresponds to a power exchanging room of a lower power exchanging station, and the charging rooms 2 on two sides correspond to charging rooms of the lower power exchanging station respectively.
In the embodiment of the utility model, the extension cabin with the charging chamber further comprises a temperature adjusting mechanism 6, and the temperature adjusting mechanism 6 is arranged in the functional chamber 1 to adjust the temperature of the functional chamber 1 and/or the charging chamber 2. In this embodiment, the temperature adjustment mechanism 6 is disposed in the functional chamber 1, so that the space of the charging chamber 2 is not occupied, and the capacity expansion of the battery carrying mechanism 3 is facilitated.
In the embodiment of the present invention, the temperature adjustment mechanism 6 is implemented based on an air conditioning technology, the temperature adjustment mechanism 6 includes an air conditioner internal unit 601 and an air conditioner external unit 602, the air conditioner internal unit 601 is disposed inside the top surface of the function chamber 1, that is, an accommodating space for accommodating the air conditioner internal unit 601 is disposed on the upper portion of the function chamber 1, and the air conditioner external unit 602 is disposed outside the top surface of the function chamber 1. In this embodiment, the air conditioner external unit 602 is disposed outside the function room 1, so that the space of the function room 1 is not occupied, and a heat insulation effect is achieved, and it is not necessary to dispose a heat insulation member in the expansion cabin or the battery replacement station to distinguish a heat insulation region from a non-heat insulation region in order to isolate the air conditioner internal unit 601 from the air conditioner external unit 602, thereby reducing the construction cost.
In the embodiment of the utility model, the temperature adjusting mechanism 6 further comprises an air duct component 603, the air duct component 603 comprises an air outlet duct 604 communicated with an air outlet end of the air conditioner internal unit 601 and an air inlet duct 605 communicated with an air inlet end of the air conditioner internal unit 601, the air inlet duct 605 and the air outlet duct 604 are both arranged inside the power exchanging station, an air outlet of the air outlet duct 604 is arranged at the top of the charging chamber 2 and used for transmitting air flow output by the air conditioner internal unit 601 into a space of the power exchanging station, and the air inlet duct 605 is arranged on a side surface of the charging chamber 2 adjacent to the function chamber 1 and used for sending indoor air in the power exchanging station back into the air conditioner internal unit 601.
In the embodiment of the utility model, the air inlet of the air inlet duct 605 is positioned at the bottom of the charging room 2 and is provided with the air inlet communicating part 606 communicated with the lower air inlet duct 605 in the lower power exchanging station, so that the air inlet communicating part is conveniently communicated with the lower air inlet duct 605, indoor air is absorbed from the lower end of the power exchanging station and is sent into the air conditioner internal unit 601, the temperature of the power exchanging station is adjusted, the air duct assembly 603 accelerates the air convection in the power exchanging station, and the temperature of the indoor air is more uniform. Indeed, in other embodiments, as an alternative, the air inlet connection 606 may also be open to the outside, and the air in the lower portion of the expansion bin enters the air inlet duct 605 through the air inlet connection 606 and further enters the air conditioner internal unit 601.
In the embodiment of the present invention, two rows of the battery support mechanisms 3 are provided in the charging chamber 2, one of the two rows of the battery support mechanisms 3 is provided adjacent to the side wall of the charging chamber 2 adjacent to the function chamber 1, and the other row is provided adjacent to the side wall of the charging chamber 2 opposite to the function chamber 1. The lifting transfer mechanism 4 is arranged between the two battery bearing mechanisms 3, and the two battery bearing mechanisms 3 share one lifting transfer device. The air outlet of the air outlet duct 604 is arranged at the top between the two rows of the battery carrying mechanisms 3, so that the air outlet of the air outlet duct 604 is far away from the air inlet of the air inlet duct 605, and the air short circuit is avoided.
In the embodiment of the present invention, an exhaust duct 14 for the charging mechanism 5 is provided in the charging chamber 2, and is used for dissipating heat from the charging mechanism 5. Charging mechanism 5 has the machine unit that charges of a plurality of vertical arrangements, the air outlet of machine unit that charges communicates with each other with exhaust pipe 14, exhaust pipe 14 bottom and below trade the interior lower tuber pipe intercommunication of power station, exhaust pipe 14 top have the fan of airing exhaust and with the air exit of extension storehouse outside intercommunication, the fan of airing exhaust provides the power of airing exhaust, discharge the air current in the air exhaust outside via the air exit, thereby effectively dispel the heat to charging mechanism 5, and do not interfere other spare parts when guaranteeing the effect of airing exhaust.
In the embodiment of the present invention, the exhaust duct 14 and the charging mechanism 5 are arranged side by side on the second side 302 of the battery carrying mechanism 3, and the second side 302 is a side adjacent to the first side 301. By arranging the exhaust duct at a position close to the charging mechanism 5, space is saved and heat dissipation efficiency is improved.
In the embodiment of the utility model, the charging chamber 2 comprises two rows of charging mechanisms 5 which are arranged oppositely, the air inlets of the charger units of the charging mechanisms 5 are arranged oppositely, and an air inlet channel is formed between the charging mechanisms, so that the heat dissipation uniformity is improved, and the compactness of the structure of the battery replacement station is improved.
In the embodiment of the utility model, the bottom of the air inlet channel is provided with the air inlet channel communicating part communicated with the lower air inlet channel in the lower power exchanging station, so that the air inlet component in the expansion bin and the air inlet component at the lower part of the power exchanging station are realized by using one air inlet system, the structure of the whole power exchanging station is more compact, the air speed is reduced, the heat exchange of different air flows is facilitated, and the uniformity of heat dissipation is improved.
In the embodiment of the present invention, the extension bin with the charging chamber further includes a moving space for accommodating the weight block 7 engaged with the elevating and transferring mechanism 4, the weight block 7 moves on a third side 303 of the battery carrying mechanism 3, the third side 303 is located opposite to the second side 302, and the second side 302 is a side adjacent to the first side 301. The weight 7 is arranged on the third side 303, close to the side wall of the charging chamber 2, without interfering with other components.
In the embodiment of the present invention, the charging chamber 2 and the functional chamber 1 have a connection channel 8 therebetween, and the connection channel 8 is disposed near the second side 302 and/or the third side 303 of the battery carrier 3. The connection passage 8 may be a member for operating a person and/or equipment, and may be a space for communicating the charging chamber 2 and the function chamber 1. By providing the connection passage 8 at the side, the entrance and exit between the function compartment 1 and the charging compartment 2 are facilitated.
In the embodiment of the utility model, the extension cabin with the charging chamber comprises a box body, and the box body is separated into a functional chamber 1 and a charging chamber 2. The members for isolating the box body can adopt plates, beams or other types of members. The functional chamber 1 and the charging chamber 2 are integrated in one box body, so that the structure is compact, and the box body has a protective effect on each device in the functional chamber 1 and the charging chamber 2.
Please refer to fig. 1-3 for understanding. The embodiment of the utility model also provides a power changing station which comprises the extension bin with the charging chamber as set forth in any one of the above, the power changing station further comprises at least one full-function bin 9, and the extension bin is installed above the full-function bin 9. The battery replacement operation of the electric vehicle is performed in the full-function cabin 9. By arranging the extension bin above the full-function bin 9, space is provided for the extension function module under the condition that the occupied area of the power station is not additionally arranged.
In the embodiment of the utility model, the full-function cabin 9 is provided with a battery replacing room 10 below the function room 1 corresponding to the extension cabin and a charging room 11 below the charging room 2 corresponding to the extension cabin, and the bottom space of the extension cabin is partially communicated with the top space of the full-function cabin 9, so that the lifting and transferring mechanism 4 can lift and fall between the full-function cabin 9 and the extension cabin, and/or the battery bearing mechanism 3 in the charging room 2 is butted with the battery bearing mechanism 3 in the charging room 11. Through setting up extension storehouse and full function storehouse 9 to the structure that is linked together, for the battery bears the weight of mechanism 3 dilatation, and/or for lifting transport mechanism 4 provides sufficient operating space.
In the embodiment of the utility model, a separation surface 12 is arranged between the functional chamber 1 and the battery changing room 10. The separating plane 12 separates the functional chamber 1 from the battery changing station 10. The partition surface 12 may partially partition the battery changing room 10 from the functional room 1, or may completely partition the battery changing room from the functional room. The partition 12 may be embodied as a surface of a plate-like structure, or may be embodied as a surface of another hardware member. The arrangement of the separating plane 12 facilitates installation of other devices in the functional room 1 and/or the battery changing room 10 to expand the functions of the battery changing station, the separating plane 12 enables the devices between the functional room 1 and the battery changing room 10 to be relatively independent, mutual influence of the devices in the two spaces is avoided, installation of other functional modules of the battery changing station is facilitated, and meanwhile, the visual effect in the battery changing room 10 is improved. Thus, in an embodiment of the utility model, the partition surface 12 is provided with a staircase 13 for access to the functional compartment 1. The stairway 13 is arranged to provide convenience for traffic between the functional room 1 and the battery replacement room 10.
While specific embodiments of the utility model have been described above, it will be appreciated by those skilled in the art that this is by way of example only, and that the scope of the utility model is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and scope of the utility model, and these changes and modifications are within the scope of the utility model.
Claims (17)
1. An extension bin with a charging chamber for mounting from top to bottom above a power conversion station, comprising:
at least one charging chamber;
the battery bearing mechanism is arranged in the charging chamber and is provided with a first side for the battery to enter and exit and a second side adjacent to or back to the first side;
the movement area for the operation of the lifting transfer mechanism is arranged in the charging chamber and is positioned on the first side of the battery bearing mechanism;
the charging mechanism is arranged in the charging chamber and positioned on the second side of the battery bearing mechanism, and the charging mechanism is also provided with a charging module which is used for charging the battery on the battery bearing mechanism.
2. The expansion bin of claim 1, wherein the expansion bin comprises a functional compartment and two charging compartments, the two charging compartments being located on either side of the functional compartment.
3. The extension bin with the charging chamber as claimed in claim 2, further comprising a temperature adjusting mechanism, wherein the temperature adjusting mechanism is arranged in the functional chamber to adjust the temperature of the functional chamber and/or the charging chamber.
4. The extension bin with a charging chamber of claim 3, wherein the temperature adjustment mechanism comprises an air conditioner indoor unit disposed inside the top surface of the functional chamber and an air conditioner outdoor unit disposed outside the top surface of the functional chamber.
5. The extension bin with a charging chamber as claimed in claim 4, wherein the temperature adjustment mechanism further comprises an air duct assembly, the air duct assembly comprises an air outlet duct communicated with an air outlet end of the indoor unit of the air conditioner and an air inlet duct communicated with an air inlet end of the indoor unit of the air conditioner, the air outlet duct is arranged at the top of the charging chamber, the air inlet duct is arranged at the side of the charging chamber adjacent to the functional chamber, and an air inlet of the air inlet duct is arranged at the bottom of the charging chamber and has an air inlet communication portion communicated with a lower air inlet duct in a lower charging station.
6. The extension bin with a charging chamber according to claim 5, wherein two rows of said battery carrying mechanisms are arranged in parallel in said charging chamber, and said air outlet of said air outlet duct is arranged at the top between said two rows of said battery carrying mechanisms.
7. The extension bin with the charging chamber as claimed in claim 1, wherein an exhaust duct for the charging mechanism is arranged in the charging chamber, the charging mechanism has a plurality of vertically arranged charger units, an air outlet of the charger units is communicated with the exhaust duct, a bottom of the exhaust duct is communicated with a lower exhaust duct in a lower charging station, and an exhaust fan and an exhaust outlet communicated with an outside of the extension bin are arranged at a top of the exhaust duct.
8. The extension bin with a charging chamber of claim 7, wherein the exhaust duct is juxtaposed to the charging mechanism on a second side of the battery carrying mechanism, the second side being adjacent to the first side.
9. The extension bin with a charging chamber as claimed in claim 7, wherein the charging chamber comprises two rows of said charging mechanisms disposed opposite to each other, and the air inlets of the respective charger units of said charging mechanisms are disposed opposite to each other, and an air inlet channel is formed therebetween.
10. The extension bin with the charging chamber as claimed in claim 9, wherein the bottom of the air intake channel is provided with an air intake channel communicating part communicated with a lower air intake channel in a lower power exchanging station.
11. The extension bin with a charging chamber of claim 1, further comprising a moving space for accommodating a weight block engaged with the elevating transfer mechanism, the weight block moving on a third side of the battery carrying mechanism, the third side being opposite to the second side, the second side being a side adjacent to the first side.
12. The expansion bin having a charging chamber according to claim 11, wherein the expansion bin comprises a functional chamber, and a connection channel is provided between the charging chamber and the functional chamber, wherein the connection channel is provided near the second side and/or the third side of the battery carrier.
13. The extension bin with a charging chamber of claim 2, further comprising a box body that is partitioned into the functional chamber and the charging chamber.
14. A charging station comprising an expansion bin with a charging chamber as claimed in any one of claims 1 to 13, wherein the charging station further comprises at least one full-function bin, the expansion bin being mounted above the full-function bin.
15. The battery replacing station according to claim 14, wherein the full-function compartment has a battery replacing room below the function room corresponding to the extension compartment and a charging room below the charging room corresponding to the extension compartment, and a bottom space of the extension compartment is partially communicated with a top space of the full-function compartment, so that the lifting and transporting mechanism is lifted and lowered between the full-function compartment and the extension compartment, and/or the battery bearing mechanism in the charging room is butted with the battery bearing mechanism in the charging room.
16. The swapping station of claim 15, wherein a separation plane is disposed between the functional compartment and the swapping bay.
17. The station of claim 16, wherein the partition is provided with a staircase for accessing the functional compartment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023320372.2U CN216805170U (en) | 2020-12-31 | 2020-12-31 | Extension storehouse and trade power station with room of charging |
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CN202023320372.2U CN216805170U (en) | 2020-12-31 | 2020-12-31 | Extension storehouse and trade power station with room of charging |
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CN216805170U true CN216805170U (en) | 2022-06-24 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114683946A (en) * | 2020-12-31 | 2022-07-01 | 奥动新能源汽车科技有限公司 | Extension storehouse and trade power station with room of charging |
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2020
- 2020-12-31 CN CN202023320372.2U patent/CN216805170U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114683946A (en) * | 2020-12-31 | 2022-07-01 | 奥动新能源汽车科技有限公司 | Extension storehouse and trade power station with room of charging |
CN114683946B (en) * | 2020-12-31 | 2023-12-29 | 奥动新能源汽车科技有限公司 | Expansion bin with charging chamber and power exchange station |
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