CN214123063U - Photovoltaic sharing power conversion cabinet system - Google Patents
Photovoltaic sharing power conversion cabinet system Download PDFInfo
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- CN214123063U CN214123063U CN202120178640.7U CN202120178640U CN214123063U CN 214123063 U CN214123063 U CN 214123063U CN 202120178640 U CN202120178640 U CN 202120178640U CN 214123063 U CN214123063 U CN 214123063U
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
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Abstract
The utility model belongs to the technical field of photovoltaic direct current charging, in particular to a photovoltaic sharing electricity changing cabinet system, which comprises a photovoltaic sharing electricity changing cabinet management platform, a cloud platform, a solar cell component, a photovoltaic sharing electricity changing cabinet APP and a small program, wherein an electric vehicle storage battery stored in the photovoltaic sharing electricity changing cabinet is electrically connected with an alternating current auxiliary module, and is also electrically connected with the solar cell component through a direct current bus and a photovoltaic charging controller, the solar cell component is fixedly arranged at the top of a structure of an urban bus stop, a electricity changing cabinet display screen and an electricity quantity display lamp are fixedly arranged on the cabinet body of the photovoltaic sharing electricity changing cabinet, a system two-dimensional code is printed on the surface of the cabinet body of the photovoltaic sharing electricity changing cabinet, the solar cell component is arranged in the urban bus stop, the urban public space is effectively utilized, and the utilization rate of photovoltaic power generation in the city is increased, the energy supply cost of the storage battery of the electric vehicle is reduced, and the application of a shared battery replacement mode in cities is promoted.
Description
Technical Field
The utility model belongs to the technical field of the photovoltaic direct current charges, concretely relates to photovoltaic sharing trades electric cabinet system.
Background
With the continuous development of science and technology, the form of takeout distribution is more and more common in our lives, the utilization rate of takeout distributors to electric vehicles is very high, the average mileage of each takeout distributor using the electric vehicle every day is between 100 kilometers and 150 kilometers, so that the shared electric vehicle battery is generated at the right moment, and the electric vehicle battery renting and changing cabinet begins to appear at the street of a city. With the new proposal of the state, the light weight of the battery car is the future trend, the sharing and changing forms are infinite, the company hao proposes the sharing and changing cabinet of the electric bicycle, and the car in the sky proposes the car battery leasing mode. In the near future, no matter the electric automobile or the electric bicycle is, the sharing battery replacement mode is a good method for reducing the load of the automobile and increasing the endurance of the automobile.
The photovoltaic power generation is direct current electric energy, and if the photovoltaic power generation and the sharing power conversion mode are combined, the utilization efficiency of the photovoltaic power generation can be greatly improved. However, the urban area lacks of places where large-area photovoltaic panels can be placed for centralized power generation, which is also a pain point that photovoltaic panels are difficult to popularize in the urban area. Therefore, whether can consider the idle space of the urban bus stop who utilizes public nature in the city like the bus stop ceiling, bicycle parking shed ceiling, car parking shed ceiling, subway station mouth ceiling etc. under the condition that does not influence original space use, set up solar module, store photovoltaic power generation in the battery, lease the use for urban residents, can enough carry out reutilization with the idle space of urban bus stop, can solve photovoltaic again and utilize the improvement problem of utilization ratio in the city, can also increase the sharing and trade the setting scene of electricity, promote the continuation of the journey mileage that urban residents used storage battery car to go on a journey.
SUMMERY OF THE UTILITY MODEL
To solve the problems set forth in the background art described above. The utility model provides a photovoltaic sharing trades electric cabinet system installs solar module in city bus stop, effectively utilizes city public space, increases photovoltaic power generation's utilization ratio in the city, reduces the energy supply cost of electric motor car accumulator jar, impels the sharing to trade the application of electric mode in the city.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a photovoltaic sharing trades electric cabinet system, trades electric cabinet management platform, cloud platform, solar module, photovoltaic sharing and trades electric cabinet APP and applet including the photovoltaic sharing, electric motor car accumulator jar electric connection alternating current auxiliary module of depositing in the photovoltaic sharing trades the electric cabinet is through direct current generating line, photovoltaic charge controller electric connection solar module simultaneously, solar module fixed mounting is at the structure top of city bus stop, fixed mounting has trades electric cabinet display screen, quantity display lamp on the cabinet body of photovoltaic sharing trades the electric cabinet, the cabinet body surface printing of photovoltaic sharing trades the electric cabinet has the system two-dimensional code.
Preferably, the urban bus stop comprises a bus stop, a subway station, a bicycle parking shed, an automobile parking shed, a gas station and a charging station, and at least one photovoltaic sharing power exchange cabinet is installed in each stop of the urban bus stop provided with the solar cell module; through installing solar module in city bus stop, the effectual idle space who utilizes city bus stop promotes city space utilization and economic value, has solved and has lacked the position of concentrating large tracts of land arrangement solar photovoltaic board in the city and lead to the lower problem of city photovoltaic utilization ratio.
Preferably, the solar panel in the solar cell module is a single/polycrystalline silicon solar panel/thin film solar panel; the solar cell module can supply energy to the storage battery of the electric vehicle through photovoltaic power generation without inversion grid connection, so that energy consumption is reduced, and equipment and power generation cost are saved.
Preferably, the storage battery of the electric vehicle is a 48V/16Ah battery pack, a 48V/20Ah battery pack or a 48V/24Ah battery pack which is formed by connecting a plurality of polymer lithium batteries in series; the storage battery of the electric vehicle can be effectively suitable for a mainstream electric vehicle, the cruising mileage of the electric vehicle can be effectively improved through sharing and battery replacement, and the application of a sharing and battery replacement mode in a city is promoted.
Preferably, the number of the electric vehicle storage batteries stored in the photovoltaic sharing power exchange cabinet is multiple, and the electric vehicle storage batteries are electrically connected with the electric quantity display lamp; when the electric motor car accumulator jar is charging, show the yellow light, when the electric motor car accumulator jar is full of electricity, show green light to the electric motor car accumulator jar that full of electricity was held in the use is received through using photovoltaic sharing cabinet APP and the little program scanning system two-dimensional code to convenience of customers.
Preferably, the photovoltaic shared battery replacement cabinet is remotely and wirelessly connected with a photovoltaic shared battery replacement cabinet management platform and a cloud platform, and the cloud platform provides computing, network and storage capabilities for the photovoltaic shared battery replacement cabinet management platform and performs data monitoring and operation maintenance on the photovoltaic shared battery replacement cabinet; photovoltaic sharing trades electric cabinet management platform accessible cloud platform and trades electric cabinet APP and applet to photovoltaic sharing and carry out data monitoring and operation maintenance, including storage battery lease situation, each trade electric cabinet storage battery quantity, storage battery operation conditions etc. to make things convenient for the management of this system to maintain.
Preferably, the direct-current bus and the photovoltaic charge controller are both installed inside a photovoltaic shared power exchange cabinet, and the photovoltaic shared power exchange cabinet is an insulating cabinet body; the photovoltaic charging controller can adjust the input power of the solar battery assembly to achieve proper output power, select and allocate the charging sequence of the storage battery of the electric vehicle which is being charged in the photovoltaic sharing power conversion cabinet, and fill one module first and then charge the second in a stepped charging mode.
Preferably, the alternating current auxiliary module is electrically connected with an urban power supply system; when the demand is great or solar energy supply is unsatisfied, alternating current auxiliary module can automatic identification and open alternating current auxiliary switch, and the auxiliary electric motor car accumulator jar carries out photovoltaic charging and alternating current simultaneously and charges to satisfy website power consumption demand.
Compared with the prior art, the beneficial effects of the utility model are that: the solar cell module is installed in the urban bus stop, so that the idle space of the urban bus stop is effectively utilized, the urban space utilization rate and the economic value are improved, and the problem of low urban photovoltaic utilization rate caused by lack of the position for arranging the solar photovoltaic panels in a centralized large area in the city is solved; the solar cell module can supply energy to the storage battery of the electric vehicle through photovoltaic power generation without inversion grid connection, so that the energy consumption is reduced, and the equipment and power generation cost is saved; the storage battery of the electric vehicle can be effectively suitable for a mainstream electric vehicle, the cruising mileage of the electric vehicle can be effectively improved by sharing and replacing the battery, and the application of a sharing and replacing mode in cities is promoted; when the storage battery of the electric vehicle is charged, a yellow light is displayed, and when the storage battery of the electric vehicle is fully charged, a green light is displayed, so that the electric storage capacity of the storage battery of the electric vehicle is visually displayed, and a user can conveniently get to use the storage battery of the electric vehicle which is fully charged by using the photovoltaic sharing power exchange cabinet APP and the small program scanning system two-dimensional code; the photovoltaic sharing power exchange cabinet management platform can perform data monitoring and operation maintenance on the photovoltaic sharing power exchange cabinet, the photovoltaic sharing power exchange cabinet APP and the small programs through the cloud platform, wherein the data monitoring and operation maintenance comprises battery rental conditions, the number of batteries of each power exchange cabinet, battery running conditions and the like, so that the management and maintenance of the system are facilitated; the photovoltaic charging controller can adjust the input power of the solar battery assembly to achieve proper output power, select and allocate the charging sequence of the storage battery of the electric vehicle which is being charged in the photovoltaic sharing power conversion cabinet, and firstly fill one module and then charge the second module in a stepped charging mode; when the demand is great or solar energy supply is unsatisfied, alternating current auxiliary module can automatic identification and open alternating current auxiliary switch, and the auxiliary electric motor car accumulator jar carries out photovoltaic charging and alternating current simultaneously and charges to satisfy website power consumption demand.
The parts of the device not involved are the same as or can be implemented using prior art.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic diagram of the operation of the system of the present invention;
fig. 2 is a schematic structural view of the photovoltaic sharing power exchange cabinet of the present invention;
fig. 3 is a schematic view of the installation of the photovoltaic sharing power exchange cabinet and the solar cell module in the urban bus stop of the utility model;
in the figure: 1. a photovoltaic sharing battery replacement cabinet management platform; 2. a cloud platform; 3. a solar cell module; 4. a photovoltaic sharing power exchange cabinet; 5. photovoltaic sharing power exchange cabinets APP and small programs; 6. an alternating current auxiliary module; 7. a photovoltaic charge controller; 8. a direct current bus; 9. an accumulator jar of the electric vehicle; 10. a system two-dimensional code; 11. a display screen of the power exchange cabinet; 12. an electric quantity display lamp; 13. urban bus stop.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1
Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides a photovoltaic sharing trades electric cabinet system, trades electric cabinet management platform 1, cloud platform 2, solar module 3, photovoltaic sharing cabinet 4, photovoltaic sharing cabinet APP and little procedure 5 of trading including the photovoltaic sharing, 9 electric connection alternating current auxiliary module 6 of electric motor car accumulator jar deposited in the photovoltaic sharing cabinet 4 cabinet, simultaneously through direct current bus 8, 7 electric connection solar module 3 of photovoltaic charge controller, 3 fixed mounting of solar module is at the structure top of city bus stop 13, fixed mounting has cabinet display screen 11, electric quantity display lamp 12 of trading on the cabinet body of photovoltaic sharing cabinet 4, the cabinet body surface printing of photovoltaic sharing cabinet 4 of trading has system two-dimensional code 10.
Specifically, the urban bus stop 13 comprises a bus stop, a subway station, a bicycle parking shed, a car parking shed, a gas station and a charging station, and at least one photovoltaic sharing power exchange cabinet 4 is installed in each stop of the urban bus stop 13 provided with the solar cell module 3; through installing solar module 3 in city bus stop 13, the effectual idle space who utilizes city bus stop promotes city space utilization and economic value, has solved and has lacked the position of concentrating large tracts of land arrangement solar photovoltaic board in the city and lead to the lower problem of city photovoltaic utilization ratio.
Specifically, the solar panel in the solar cell module 3 is a single/polycrystalline silicon solar panel/thin film solar panel; the solar cell module 3 can supply energy to the storage battery 9 of the electric vehicle through photovoltaic power generation without inversion grid connection, so that energy consumption is reduced, and equipment and power generation cost are saved.
Specifically, the storage battery 9 of the electric vehicle is a 48V/16Ah battery pack, a 48V/20Ah battery pack and a 48V/24Ah battery pack which are formed by connecting a plurality of polymer lithium batteries in series; the storage battery 9 of the electric vehicle can be effectively suitable for a mainstream electric vehicle, the cruising mileage of the electric vehicle can be effectively improved through sharing and replacing the battery, and the application of a sharing and replacing mode in a city is promoted.
Specifically, the number of the electric vehicle storage batteries 9 stored in the photovoltaic shared power exchange cabinet 4 is multiple, and the electric vehicle storage batteries 9 are electrically connected with the electric quantity display lamp 12; when electric motor car accumulator jar 9 is charging, show the yellow light, when electric motor car accumulator jar 9 is full of electricity, show green light to audio-visual show electric motor car accumulator jar 9's electric storage capacity, convenience of customers draws the electric motor car accumulator jar 9 that uses to hold full electricity through using photovoltaic sharing to trade electric cabinet APP and little 5 scanning system two-dimensional code 10.
Specifically, the photovoltaic shared power conversion cabinet 4 is remotely and wirelessly connected with a photovoltaic shared power conversion cabinet management platform 1 and a cloud platform 2, and the cloud platform 2 provides computing, network and storage capabilities for the photovoltaic shared power conversion cabinet management platform 1 and performs data monitoring and operation maintenance on the photovoltaic shared power conversion cabinet 4; photovoltaic sharing trades electric cabinet management platform 1 accessible cloud platform 2 and trades electric cabinet 4 and photovoltaic sharing and trades electric cabinet APP and applet 5 to photovoltaic sharing and carry out data monitoring and operation maintenance, including storage battery lease situation, each trade electric cabinet storage battery quantity, storage battery operation conditions etc. to make things convenient for the management of this system to maintain.
Specifically, the direct current bus 8 and the photovoltaic charge controller 7 are both installed inside the photovoltaic shared power conversion cabinet 4, and the photovoltaic shared power conversion cabinet 4 is an insulating cabinet body; the photovoltaic charging controller 7 can adjust the input power of the solar cell module 3 to achieve a proper output power, select and allocate the charging sequence of the storage battery 9 of the electric vehicle which is being charged in the photovoltaic sharing power exchange cabinet 4, and fill one module first and then charge the second one in a stepped charging mode.
Specifically, the alternating current auxiliary module 6 is electrically connected with an urban power supply system; when the demand is large or the solar energy supply is not satisfied, the alternating current auxiliary module 6 can automatically identify and turn on the alternating current auxiliary switch, and the storage battery 9 of the auxiliary electric vehicle is charged with photovoltaic and alternating current simultaneously to satisfy the power consumption demand of a station.
The utility model discloses a theory of operation and use flow: the solar battery assembly 3 is installed on the ceiling of a city bus station 13, converts solar energy into electric energy, performs power regulation through the photovoltaic charging controller 7, and performs stepped charging on a plurality of storage batteries 9 of the electric vehicles in the photovoltaic sharing power conversion cabinet 4, the electric quantity display lamp 12 displays a yellow lamp in the charging process, and the electric quantity display lamp 12 displays a green lamp after the electric vehicles are fully charged; if the solar radiation quantity is insufficient, so that the voltage generated by the solar cell module 3 is smaller than a set threshold value, the alternating current auxiliary module 6 starts an auxiliary charging mode to simultaneously carry out photovoltaic charging and alternating current charging on the storage battery 9 of the electric vehicle so as to meet the power consumption requirement of a station; a user can enter the photovoltaic sharing power exchange cabinet APP and lease or return the electric vehicle storage battery 9 with the small program 5 through the scanning system two-dimensional code 10; the conditions of all components in the photovoltaic sharing power conversion cabinet 4 and the data conditions of the storage battery 9 of the electric vehicle are remotely and wirelessly uploaded to the cloud platform 2, and the photovoltaic sharing power conversion cabinet management platform 1 monitors, operates and maintains all data.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. The utility model provides a photovoltaic sharing trades electric cabinet system which characterized in that: trade cabinet management platform (1), cloud platform (2), solar module (3), photovoltaic sharing and trade electric cabinet (4), photovoltaic sharing and trade electric cabinet APP and applet (5) including the photovoltaic sharing, electric motor car battery jar (9) electric connection alternating current auxiliary module (6) of depositing in photovoltaic sharing trades electric cabinet (4) cabinet is through direct current bus (8), photovoltaic charge controller (7) electric connection solar module (3) simultaneously, solar module (3) fixed mounting is at the structure top of city bus stop (13), fixed mounting trades electric cabinet display screen (11), electric quantity display lamp (12) on the cabinet body of photovoltaic sharing trades electric cabinet (4), the cabinet body surface printing of photovoltaic sharing trades electric cabinet (4) has system two-dimensional code (10).
2. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the urban bus station (13) comprises a bus station, a subway station, a bicycle parking shed, an automobile parking shed, a gas station and charging stations, wherein each station is provided with at least one photovoltaic sharing power exchange cabinet (4) which is arranged in the station of the urban bus station (13) of the solar cell component (3).
3. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the solar panel in the solar cell module (3) is a single/polycrystalline silicon solar panel/thin film solar panel.
4. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the storage battery (9) of the electric vehicle is a 48V/16Ah battery pack, a 48V/20Ah battery pack and a 48V/24Ah battery pack which are formed by connecting a plurality of polymer lithium batteries in series.
5. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the photovoltaic sharing power conversion cabinet (4) is characterized in that the number of electric vehicle storage batteries (9) stored in the cabinet is multiple, and the electric vehicle storage batteries (9) are electrically connected with an electric quantity display lamp (12).
6. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the photovoltaic sharing power transformation cabinet management platform is characterized in that the photovoltaic sharing power transformation cabinet (4) is remotely and wirelessly connected with the photovoltaic sharing power transformation cabinet management platform (1) and the cloud platform (2), the cloud platform (2) provides calculation, network and storage capacity for the photovoltaic sharing power transformation cabinet management platform (1), and the photovoltaic sharing power transformation cabinet (4) is subjected to data monitoring and operation maintenance.
7. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: the photovoltaic power generation and conversion integrated circuit is characterized in that the direct current bus (8) and the photovoltaic charge controller (7) are both installed inside the photovoltaic sharing power conversion cabinet (4), and the photovoltaic sharing power conversion cabinet (4) is an insulating cabinet body.
8. The photovoltaic sharing battery replacement cabinet system according to claim 1, wherein: and the alternating current auxiliary module (6) is electrically connected with an urban power supply system.
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CN202120178640.7U CN214123063U (en) | 2021-01-22 | 2021-01-22 | Photovoltaic sharing power conversion cabinet system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114379412A (en) * | 2021-12-15 | 2022-04-22 | 上海交大高新技术股份有限公司 | New energy battery replacement and public transportation integrated system |
CN116512968A (en) * | 2023-07-04 | 2023-08-01 | 深圳市菲尼基科技有限公司 | Charging power distribution method, device and equipment based on battery changing cabinet and storage medium |
-
2021
- 2021-01-22 CN CN202120178640.7U patent/CN214123063U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114379412A (en) * | 2021-12-15 | 2022-04-22 | 上海交大高新技术股份有限公司 | New energy battery replacement and public transportation integrated system |
CN116512968A (en) * | 2023-07-04 | 2023-08-01 | 深圳市菲尼基科技有限公司 | Charging power distribution method, device and equipment based on battery changing cabinet and storage medium |
CN116512968B (en) * | 2023-07-04 | 2023-09-08 | 深圳市菲尼基科技有限公司 | Charging power distribution method, device and equipment based on battery changing cabinet and storage medium |
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