CN218997711U - Energy storage equipment rents and sells device - Google Patents

Abstract

The utility model provides an energy storage equipment renting and selling device, which relates to the technical field of energy renting and selling, and comprises: an electric control cabinet; the energy storage device is arranged in the electric control cabinet and internally provided with an energy storage battery; the inverter is arranged in the electric control cabinet and is arranged on one side of the energy storage equipment; the electric control cabinet is used for controlling renting and selling of the energy storage equipment and the inverter; the user realizes the purpose of supplying power to the electric vehicles and the electric equipment by renting and selling the energy storage equipment and the inverter or renting and selling the energy storage equipment, so that the use diversity of the energy storage equipment is increased.

Description

Energy storage equipment rents and sells device

Technical Field

The utility model relates to the technical field of energy renting and selling, in particular to an energy storage equipment renting and selling device.

Background

At present, most electric vehicles adopt a fixed-place charging mode, a charger is required to be carried, the electric vehicles are ridden to a charging position for charging under the condition of need, and the electric vehicles are placed in the fixed place for continuous charging, so that the charging time is long, and the use of the electric vehicles is influenced; to this end, the prior art provides a battery-powered device, by replacing the battery with a deficient battery, the battery with sufficient electric quantity is taken out from the battery-powered device for replacement, and the replaced battery with insufficient electric quantity is put into the battery-powered device for charging.

However, the current battery for replacement is single in purpose, can only be applied to electric vehicle power supply, and cannot be applied to more outdoor electric equipment.

Disclosure of Invention

The utility model aims to provide an energy storage equipment renting and selling device, and provides energy storage equipment and an inverter with various purposes, which can supply power to an electric vehicle and enable a power supply of the energy storage equipment to be converted through the inverter so as to meet the power supply requirements of other electrical equipment.

The technical scheme adopted by the utility model for realizing the purposes is as follows: an energy storage device vending apparatus, comprising: an electric control cabinet; the energy storage device is arranged in the electric control cabinet and comprises a shell and a built-in energy storage battery; at least a first DC output port and a second DC output port are arranged on the shell, and the first DC output port is provided with a positive terminal and a negative terminal; the energy storage battery at least has a positive electrode output and a negative electrode output, and is suitable for outputting DC current; the positive terminal is coupled to the positive output and the negative terminal is coupled to the negative output; the inverters are arranged in the electric control cabinet and are arranged on one side of the energy storage equipment; the inverter is provided with at least a DC input end and an AC output end, wherein the DC input end can be matched with the second DC output port, and the AC output end can be matched with AC electrical equipment and is suitable for outputting AC current; the electric control cabinet is used for controlling renting and selling of each energy storage device and each inverter; a user rents the energy storage device and the inverter to be suitable for electric vehicle power supply at least through the positive terminal and the negative terminal; or adapted to power a DC electrical device through said second DC outlet; or the DC input end of the inverter is matched with the second DC output port, and the AC output end is used for supplying power to the AC electrical equipment.

Compared with the prior art, the technical effect that this embodiment can reach is: the user can rent or purchase the energy storage equipment and the inverter in the electric control cabinet through the electric control cabinet, install the energy storage equipment in an electric travel tool, such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, the energy storage equipment can also convert the direct current power supply of the first DC output port into alternating current power supply of other electrical equipment which is required by outdoor electricity, such as electric cooker, electric kettle and other electrical equipment which need the AC power supply, through the rented inverter; and the second DC output port is directly connected with the DC electrical equipment in a butt joint mode to supply power to the DC electrical equipment, so that the use diversity of the energy storage equipment is increased.

In an alternative embodiment, the housing has dimensions suitable for mounting to a battery configuration space of the power travel tool such that the energy storage device forms a direct replacement for an existing battery of the power travel tool.

It can be understood that the size of the shell of the energy storage device is set to be the size for setting the configuration space of the battery of the electric traveling tool, so that the battery of the electric traveling tool can be directly replaced, and the universality of the energy storage device is improved.

In an alternative embodiment, a communication terminal suitable for external contact is also arranged on the shell, and the communication terminal is suitable for communication identification with the electric control cabinet or the electric travel tool.

It can be understood that the communication terminal is arranged on the energy storage equipment to be communicated with the electric control cabinet or the electric travel tool for identification, so that the charge and discharge of the energy storage equipment can be controlled conveniently, and the safety coefficient of the charge and discharge can be improved.

In an alternative embodiment, the communication terminal is adjacent to the positive terminal and the negative terminal.

It can be understood that the positive terminal and the negative terminal are used as two-way interfaces for charging and discharging, the communication terminal is arranged adjacent to the positive terminal and the negative terminal, so that when the energy storage device is installed on the electric travel tool through the positive terminal and the negative terminal, the energy storage device is conveniently in identification communication with the electric travel tool through the communication terminal, the safety of discharging of the energy storage device is ensured, and the situation that the energy storage device is not matched with the power supply voltage required by the electric travel tool, so that the electric travel tool is damaged is avoided; simultaneously, also be convenient for when energy storage equipment installs in automatically controlled cabinet through anodal terminal and negative pole terminal, carry out communication identification to energy storage equipment through communication terminal, guarantee that energy storage equipment correctly returns, guarantee the security that automatically controlled cabinet charges to energy storage equipment then.

In an alternative embodiment, the communication terminal and the electric travel tool identify that communication is successful, and the energy storage device discharges.

It can be understood that the electric travel tool is subjected to identification communication through the communication terminal, so that the discharging safety of the energy storage device is ensured, the electric travel tool is prevented from being damaged due to the fact that the electric travel tool is not matched with the power supply voltage required by the electric travel tool, and the using safety of the energy storage device is improved.

In an alternative embodiment, the communication terminal and the electric control cabinet are in identification communication success, and the electric control cabinet charges the energy storage equipment.

It can be understood that the energy storage equipment is identified through communication through the communication terminal, so that the energy storage equipment is guaranteed to return correctly, and then the safety of the electric control cabinet for charging the energy storage equipment is guaranteed.

In an alternative embodiment, the second DC output port is a USB interface.

It can be understood that when the USB interface is arranged to be convenient for outdoors, a user takes down the energy storage equipment on the electric travel tool, and supplies power for DC electrical equipment such as a mobile phone and the like through the USB interface.

In an alternative embodiment, the energy storage device and the inverter are adapted to be controlled by the electric control cabinet for release under the effect of a release instruction.

In an alternative embodiment, under the action of a release instruction, the electric control cabinet controls the energy storage equipment and the inverter to be released synchronously; or controlling the energy storage equipment and the inverter to be released in sequence.

In an alternative embodiment, the method further comprises: the cabinet control system is arranged in the electric control cabinet, is electrically connected with the energy storage equipment and is used for controlling renting and selling of the energy storage equipment.

It can be appreciated that the intelligent control system is electrically connected with the energy storage equipment through the built-in cabinet control system so as to accurately control the corresponding energy storage equipment to rent and sell, and improve the intelligent control level.

In an alternative embodiment, the method further comprises: the power supply system is arranged in the electric control cabinet and is electrically connected with the cabinet control system and the energy storage equipment; and supplying power to the energy storage equipment and the cabinet control system.

It will be appreciated that the power system is provided to provide power to the control system and the energy storage device.

In an alternative embodiment, the inverter and the energy storage device are respectively provided with a plurality of inverters and are configured in a one-to-one correspondence manner.

The inverters and the energy storage equipment which are configured in one-to-one correspondence are arranged, so that the renting and selling requirements of users are met.

In an alternative embodiment, the electric control cabinet includes: the first accommodating area is positioned on the surface of the electric control cabinet; the first accommodating cavities are arranged in the first accommodating area at intervals and are used for accommodating the energy storage equipment; the first cabinet doors are arranged on the electric control cabinet in one-to-one correspondence with the first accommodating cavities, so that each first accommodating cavity forms a closed storage space; the cabinet control system is electrically connected with each first cabinet door and used for opening or locking the first cabinet doors.

As can be appreciated, the plurality of first receiving cavities are provided to facilitate storage of the energy storage device; the cabinet control system is electrically connected with each first cabinet door to open and lock the first cabinet doors so as to realize the antitheft effect, and meanwhile, the first cabinet doors are convenient to take; the first storage cavity and the first cabinet door form a closed storage space so as to achieve the effects of water resistance and moisture resistance and avoid damage caused by long-time contact of the energy storage equipment with moist air.

In an alternative embodiment, each of the first accommodation cavities includes: the first matching part is arranged on one side of the first accommodating cavity away from the first cabinet door, and is internally provided with a current output end of the power supply system; wherein the first fitting portion is fitted with the positive electrode terminal and the negative electrode terminal; when the first matching part is matched with the positive terminal and the negative terminal, the power supply system charges the energy storage device through the positive terminal and the negative terminal.

It can be appreciated that through setting up the positive terminal and the negative terminal on the energy storage device and mutually supporting with first cooperation portion, when being convenient for the energy storage device to place in first holding the chamber, can also be through the mutually supporting of positive terminal and negative terminal and first cooperation portion for electrical power generating system can charge to energy storage device.

In an alternative embodiment, the method further comprises: and the operation interface is arranged on the surface of the electric control cabinet and is configured to allow a user to select the quantity of the energy storage equipment and the inverters to be rented and sold from the electric control cabinet.

It can be understood that an operation interface is arranged on the surface of the electric control cabinet, so that a man-machine interaction function is conveniently realized, and a user can realize leasing and purchasing requirements on the energy storage equipment and the inverter in a touch or voice input mode.

In an alternative embodiment, the electric control cabinet further includes: and the controller is used for receiving the lease information sent by the terminal and allocating and selling the corresponding energy storage equipment and the inverter according to the lease information.

It can be understood that the setting controller can open the corresponding first cabinet door through the cabinet control system according to the leasing or purchasing information sent by the terminal, so that a user can conveniently take the corresponding energy storage equipment. It should be noted that the terminal may be remotely controlled or reserved for renting and purchasing through a mobile phone or an electric kettle, and send corresponding information to the controller, and the controller receives and reacts to the corresponding information; of course, before the user arrives at the energy storage equipment renting and selling device, the information of renting or purchasing the energy storage equipment can be issued through the operation interface, so that renting or purchasing of the energy storage equipment can be realized.

In an alternative embodiment, the method further comprises: the LED display strips are arranged in one-to-one correspondence with the energy storage equipment, and each LED display strip is connected with the controller respectively.

It can be understood that the controller displays the service life condition of the corresponding energy storage device through the LED display strip, so that the user can purchase according to the requirement, and the purchase selectivity of the user is improved.

In an alternative embodiment, the energy storage device comprises: at least one mobile power supply detachably mounted on the energy storage device; when the energy storage equipment is installed in the electric control cabinet, the electric control cabinet can charge each mobile power supply.

It can be understood that through setting up detachable portable power source on energy storage equipment, the user of being convenient for when renting energy storage equipment and supplying power for the electric motor car, can also take off portable power source from energy storage equipment and charge for electrical equipment such as user's cell-phone, tablet, increased energy storage equipment's application.

In an alternative embodiment, the mobile power supply includes: the lock catch is arranged on one side of the mobile power supply and used for fixing the mobile power supply at a specified position.

It can be understood that the lock catch is arranged on the mobile power supply, so that when a user charges a mobile phone or the like through the mobile power supply, the mobile power supply can be fixed at a designated position through the lock catch, and convenience is improved.

The utility model also provides an energy storage equipment renting and selling device, which comprises: an electric control cabinet; the energy storage device is adapted to the electric control cabinet and comprises a shell and a built-in energy storage battery; the shell is at least provided with a first DC output port and a second DC output port, and the first DC output port is provided with a positive terminal and a negative terminal; the energy storage battery at least has a positive electrode output and a negative electrode output, and is suitable for outputting DC current; the positive terminal is coupled to the positive output and the negative terminal is coupled to the negative output; the inverter is arranged in the electric control cabinet and is arranged at one side of the energy storage equipment; the inverter is provided with at least a DC input end and an AC output end, wherein the DC input end can be matched with the second DC output port, and the AC output end can be matched with AC electrical equipment and is suitable for outputting AC current; the electric control cabinet is used for controlling renting and selling of the energy storage equipment; a user rents the energy storage device to be suitable for power supply of the electric travel tool at least through the positive terminal and the negative terminal; or through said second DC output port is adapted for supplying DC electrical equipment.

Compared with the prior art, the technical effect that this embodiment can reach is: the user can independently rent or purchase the energy storage equipment through the electric control cabinet, install the energy storage equipment in an electric travel tool such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, the energy storage equipment can also be directly connected with the DC electrical equipment in a butt joint mode through the second DC output port to supply power for the DC electrical equipment, and the use diversity of the energy storage equipment is increased.

The utility model also provides an energy storage equipment renting and selling device, which comprises: an electric control cabinet; the energy storage device is adapted to the electric control cabinet and comprises a shell and a built-in energy storage battery; the shell is at least provided with a positive terminal and a negative terminal which are suitable for external contact; the energy storage battery has at least a positive output and a negative output, adapted to output a DC current, the positive terminal coupled to the positive output and the negative terminal coupled to the negative output; the inverter is adapted to the electric control cabinet and is arranged on one side of the energy storage equipment; the inverter has at least a DC input and an AC output; wherein the energy storage device and the inverter are adapted to be released under the influence of a rental release order to supply AC electrical equipment by electrically coupling a DC input of the inverter to the positive terminal and the negative terminal and outputting AC current via the AC output; or the positive terminal and the negative terminal are suitable for power supply of the electric travel tool.

Compared with the prior art, the technical effect that this embodiment can reach is: the user can rent or purchase the energy storage equipment and the inverter through the electric control cabinet at the same time, the energy storage equipment is installed in an electric travel tool, such as an electric vehicle, and electric power is output through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, no additional connecting wire is needed to be added between the inverter and the energy storage equipment, and the energy storage equipment can be directly coupled with the positive terminal and the negative terminal through the DC input end of the inverter and output AC current from the AC output end of the inverter so as to supply power to the AC electrical equipment.

In an alternative embodiment, the method further comprises: and the second DC output port is provided with the shell, the input end of the second DC output port is communicated with the positive electrode output and the negative electrode output of the energy storage battery, and the output end of the second DC output port is matched with external DC electrical equipment and is used for supplying power to the DC electrical equipment.

It can be appreciated that the second DC output port is provided on the housing, so that the second DC output port is adapted to an external DC electrical device for supplying power to the DC electrical device, and the functional diversity of the energy storage device is improved.

The utility model also provides an energy storage equipment renting and selling device, which comprises: an electric control cabinet; the energy storage device is adapted to the electric control cabinet and comprises a shell and a built-in energy storage battery; the shell is at least provided with a positive terminal and a negative terminal which are suitable for external contact; the energy storage battery has at least a positive output and a negative output, adapted to output a DC current, the positive terminal coupled to the positive output and the negative terminal coupled to the negative output; the inverter is adapted to the electric control cabinet and is arranged on one side of the energy storage equipment; the inverter has at least a DC input and an AC output; wherein the energy storage device and the inverter are adapted to be released under the action of a rental release instruction and only the energy storage device is released to be suitable for power supply of an electric travel tool through the positive terminal and the negative terminal.

Compared with the prior art, the technical effect that this embodiment can reach is: the user can rent or purchase energy storage equipment alone through automatically controlled cabinet, installs this energy storage equipment in electric trip instrument, for example in the electric motor car to through positive terminal and negative terminal output power, for electric motor car power supply that goes, in order to satisfy the user and only need the energy storage equipment to the demand of electric trip instrument power supply, practice thrift the user and rent and sell the cost.

The utility model also provides an energy storage equipment renting and selling device, which comprises: an electric control cabinet; the energy storage equipment is adapted to the electric control cabinet and comprises a shell and a built-in energy storage battery; the shell is at least provided with a positive terminal, a negative terminal and a second DC output port, wherein the positive terminal and the negative terminal are suitable for external contact; the energy storage battery has at least a positive output and a negative output, adapted to output a DC current, the positive terminal coupled to the positive output and the negative terminal coupled to the negative output; the second DC output port is coupled to the positive electrode output and the negative electrode output through at least one voltage reduction circuit and is suitable for outputting DC current; the inverter is adapted to the electric control cabinet and is arranged on one side of the energy storage equipment; the inverter has at least a DC input and an AC output; wherein the energy storage device and the inverter are adapted to be released under the effect of a rental release order and only the energy storage device is released to be adapted to power an electric travel tool at least through the positive and negative terminals or to power a DC electrical device through the second DC outlet.

Compared with the prior art, the technical effect that this embodiment can reach is: the user can independently rent or purchase the energy storage equipment through the electric control cabinet, install the energy storage equipment in an electric travel tool such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, the energy storage equipment can also be directly connected with the DC electrical equipment in a butt joint mode through the second DC output port to supply power for the DC electrical equipment, and the use diversity of the energy storage equipment is increased.

The utility model has the following beneficial effects:

1) The user can rent or purchase the energy storage equipment and the inverter in the electric control cabinet through the electric control cabinet, install the energy storage equipment in an electric travel tool, such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, the energy storage equipment can also convert the direct current power supply of the first DC output port into alternating current power supply of other electrical equipment which is required by outdoor electricity, such as electric cooker, electric kettle and other electrical equipment which need the AC power supply, through the rented inverter; and the second DC output port is directly connected with the DC electrical equipment in a butt joint way to supply power for the DC electrical equipment, so that the use diversity of the energy storage equipment is increased;

2) The communication terminal is arranged on the energy storage equipment to carry out communication identification with the electric control cabinet or the electric travel tool, so that the charge and discharge of the energy storage equipment are conveniently controlled, and the safety coefficient of the charge and discharge is improved;

3) The shell of the energy storage device is set to be the size for setting the configuration space of the battery of the electric travel tool, so that the battery of the electric travel tool can be directly replaced, and the universality of the energy storage device is improved;

4) The user can independently rent or purchase the energy storage equipment through the electric control cabinet, install the energy storage equipment in an electric travel tool such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, the energy storage equipment can also be directly connected with the DC electrical equipment in a butt joint mode through the second DC output port to supply power for the DC electrical equipment, and the use diversity of the energy storage equipment is increased.

Drawings

Fig. 1 is a schematic structural diagram of an energy storage device vending apparatus 100 according to the present utility model;

FIG. 2 is a schematic diagram of the connection between a control system 180 and a power system 190 according to the present utility model;

fig. 3 is a detailed schematic structure diagram of the energy storage device vending apparatus 100 of the present utility model;

fig. 4 is a schematic structural diagram of the energy storage device 120 in fig. 3;

fig. 5 is a schematic diagram of the structure of the mobile power supply 121 in fig. 4;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

fig. 7 is a schematic diagram of the inverter 194 of fig. 3;

FIG. 8 is a schematic diagram of a scenario application of the energy storage device 120;

fig. 9 is a schematic diagram of another scenario application of the energy storage device 120;

fig. 10 is a schematic diagram of another scenario application of the energy storage device 120;

fig. 11 is another schematic structure of the inverter 194;

FIG. 12 is a rear view of FIG. 11;

fig. 13 is an assembly schematic diagram of the inverter 194 and the energy storage device 120 of fig. 11.

Reference numerals illustrate:

100-renting and selling devices of energy storage equipment; 110-an electric control cabinet; 111-slots; 120-an energy storage device; 121-a mobile power supply; 122-locking; 123-grooves; 124-positive terminal; 125-an energy storage cell; 126-a second DC outlet; 127-guide groove; 128-communication terminals; 129-negative terminal; 130-a first receiving area; 131-a first accommodation chamber; 132-a first cabinet door; 140-an operator interface; 141-a display screen; 142-manipulating the device; 143-voice input and output devices; 150-fool fire extinguisher; 160-a camera; 170-an LED display bar; 180-a cabinet control system; 181-a controller; 182-test plate; 190-a power supply system; 191-a second containment region; 192-a second receiving cavity; 193-a second cabinet door; 194-an inverter; 1941-DC input; 1942-AC output; 1943-plug-in groove.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Example 1

Referring to fig. 1, the present embodiment provides an energy storage device renting and selling apparatus 100, including: an electrical cabinet 110, an energy storage device 120, and an inverter 194.

Specifically, referring to fig. 3 and 4, the energy storage device 120 is disposed in the electronic control cabinet 110, and the energy storage device 120 includes a housing and a built-in energy storage battery; at least a first DC output port and a second DC output port 126 are adapted on the housing, the first DC output port being provided with a positive terminal 124 and a negative terminal 129; the energy storage battery is provided with at least a positive electrode output and a negative electrode output and is suitable for outputting DC current; positive terminal 124 is coupled to the positive output and negative terminal 129 is coupled to the negative output; the inverter 194 is arranged in the electric control cabinet 110 and is arranged at one side of the energy storage device 120; referring to fig. 7, inverter 194 has at least a DC input 1941 and an AC output 1942, DC input 1941 being adaptable to second DC output 126, AC output 1942 being adaptable to an AC electrical device, adapted to output an AC current; wherein, the electric control cabinet 110 is used for controlling the renting and selling of each energy storage device 120 and each inverter 194; a user sells the energy storage device 120 and the inverter 194 to adapt the electric vehicle power supply at least through the positive terminal 124 and the negative terminal 129; or adapted to power DC electrical devices through the second DC output 126; or cooperate with the second DC output 126 via the DC input 1941 of the inverter 194 to power the AC electrical device via the AC output 1942.

Referring to fig. 8, a user may rent or purchase the energy storage device 120 and the inverter 194 in the electric control through the electric control cabinet 110, and install the energy storage device 120 in the electric vehicle, so as to supply power for the running of the electric vehicle; meanwhile, the energy storage device 120 can also convert the DC power of the second DC output port 126 into the AC power required by other electrical devices through the leased inverter 194, for example, as shown in fig. 9, the second DC output port 126 through which the energy storage device 120 passes is connected with the DC input end 1941 of the inverter 194, the power plug of the television is connected with the AC output end 1942 of the inverter 194, so as to supply power to the television of the AC power device, and the DC electrical devices are directly docked through the second DC output port 126, see fig. 10, the energy storage device 120 supplies power to DC electrical devices such as a mobile phone through the second DC output port 126, so that the usage diversity of the energy storage device 120 is increased.

Preferably, a plurality of inverters 194 are provided with the energy storage device 120, and the inverters 194 are provided in one-to-one correspondence with the energy storage device 120.

Further, the housing has a size suitable for installation in the battery configuration space of the power travel tool such that the energy storage device 120 forms a direct replacement for the battery of the existing power travel tool.

Through setting the shell size of the energy storage device 120 to be the size of the battery configuration space of the power traveling tool, direct replacement of the battery of the power traveling tool is facilitated, so that the universality of the energy storage device 120 is improved.

For example, the housing may be designed into any form of a column, a sphere, and a cone; preferably in the shape of a cube.

The electric travel tool comprises travel tools such as a battery car and an electric bicycle which are driven by a battery module.

Further, referring to fig. 4, a communication terminal 128 adapted to be in contact with the outside is further configured on the housing of the energy storage device 120, and the communication terminal 128 is adapted to be identified by communication with the electric control cabinet 110 or the electric travel tool.

By arranging the communication terminal 128 on the energy storage device 120, communication identification is performed with the electric control cabinet 110 or the electric travel tool, so that the charge and discharge of the energy storage device 120 can be controlled conveniently, and the safety coefficient of charge and discharge is improved.

Further, a communication terminal 128 is provided adjacent to the positive terminal 124 and the negative terminal 129.

It should be noted that, the positive terminal 124 and the negative terminal 129 serve as a bidirectional interface for charging and discharging, and the electric travel tool may be connected through the positive terminal 124 and the negative terminal 129, so that the energy storage device 120 serves as a battery to provide power for the electric travel tool; the electric cabinet 110 may also be connected through the positive terminal 124 and the negative terminal 129, and the energy storage device 120 may be charged through the electric cabinet 110.

Through setting up communication terminal 128 adjacent positive terminal 124 and negative terminal 129, be convenient for energy storage device 120 when installing in electric trip tool through positive terminal 124 and negative terminal 129, carry out discernment communication with electric trip tool through communication terminal 128 to guarantee the security that energy storage device 120 discharged, avoid appearing with the required power supply voltage mismatch of electric trip tool, lead to electric trip tool damage.

For example, if the voltage of the energy storage device 120 obtained by rental does not match the power supply voltage required by the electric vehicle, when the energy storage device 120 is mounted on the electric vehicle, the communication terminal 128 of the energy storage device 120 will perform traffic identification with the circuit control board in the electric vehicle, and the voltage of the two is not matched, so that the energy storage device 120 does not supply power to the electric vehicle.

Meanwhile, when the energy storage device 120 is installed in the electric control cabinet 110 through the positive electrode terminal 124 and the negative electrode terminal 129, communication recognition is carried out on the energy storage device 120 through the communication terminal 128, so that the energy storage device 120 is guaranteed to return correctly, and the safety of the electric control cabinet 110 for charging the energy storage device 120 is guaranteed.

For example, when the user performs a return operation and the user puts the energy storage device 120 into the electronic control cabinet 110, the energy storage device 120 sends a return request to the electronic control cabinet 110 through the communication terminal 128;

The electronic control cabinet 110 can determine whether a return request of the communication terminal 128 is acquired;

if not, indicating that the energy storage device 120 is not put into the electric control cabinet 110 or not put into the electric control cabinet 110 accurately, and the electric control cabinet 110 sends out a prompt tone to remind a user;

if yes, the electric control cabinet 110 acquires a return request of the communication terminal 128 and judges whether the energy storage device 120 placed in the electric control cabinet 110 is matched with the power supply voltage provided by the electric control cabinet 110;

if so, charging the energy storage device 120, and feeding back information of successful return to the user;

if not, the energy storage device 120 is not charged, and information of failure in return is fed back to the user.

Further, the second DC output 126 is a USB interface.

The energy storage device 120 on the electric travel tool is taken down by a user through the USB interface when the electric travel tool is outdoors, and power is supplied to DC electrical equipment such as a mobile phone through the USB interface.

Further, the energy storage device 120 and the inverter 194 are adapted to be released under the control of the electronic control cabinet 110 under the action of the release command.

Further, under the action of the release instruction, the electric control cabinet 110 controls the energy storage device 120 and the inverter 194 to release synchronously; or to control the energy storage device 120 and the inverter 194 to be released sequentially.

Further, referring to fig. 2, further includes: the cabinet control system 180 is disposed in the electronic control cabinet 110 and electrically connected to the energy storage device 120, and is used for controlling the vending of the energy storage device 120.

The intelligent control system 180 is electrically connected with the energy storage devices 120 so as to accurately control the corresponding energy storage devices 120 to be rented and sold, and the intelligent control level is improved.

Further, the method further comprises the following steps: the power supply system 190 is arranged in the electric control cabinet 110 and electrically connects the cabinet control system 180 and the energy storage device 120; power is supplied to the energy storage device 120 and the control system 180.

By providing a power supply system 190 to provide power to the cabinet control system 180 and the energy storage device 120.

Further, referring to fig. 2 and 3, the electronic control cabinet 110 includes: a first receiving area 130, a plurality of first receiving cavities 131 and a plurality of first cabinet doors 132.

Specifically, the first accommodating area 130 is located at a side of the electric control cabinet 110 facing the user; the plurality of first accommodating chambers 131 are disposed at intervals in the first accommodating area 130, and are used for accommodating the energy storage devices 120; the plurality of first cabinet doors 132 are arranged on the electric control cabinet 110 in one-to-one correspondence with the first accommodating cavities 131, so that each first accommodating cavity 131 forms a closed storage space; the cabinet control system 180 is electrically connected to each first cabinet door 132, and is used for opening or locking the first cabinet doors 132.

Through the plurality of first accommodating chambers 131, the storage of the energy storage device 120 is facilitated; the cabinet control system 180 is electrically connected with each first cabinet door 132 to open and lock the first cabinet doors 132 so as to realize an anti-theft effect, and meanwhile, the first cabinet doors 132 are convenient to take; the first accommodating cavity 131 and the first cabinet door 132 form a closed storage space, so as to achieve the waterproof and moistureproof effects and avoid damage to the energy storage device 120 caused by long-time contact with humid air.

Further, the cabinet control system 180 includes: a controller 181 and a plurality of sensing plates 182.

Specifically, the controller 181 is in communication connection with each detection plate 182, each first accommodating cavity 131 is internally provided with a detection plate 182, the detection plates 182 are connected with the energy storage battery 125 equipment, and the controller 181 is in electric control connection with each first cabinet door 132 and is used for opening or locking the first cabinet door 132; wherein, the detection board 182 is used for detecting relevant parameter information in each first accommodating cavity 131, for example: temperature, humidity, smoke concentration, state of charge of the energy storage device 120, etc.; and feeds back relevant parameters to the controller 181 for intelligent diagnosis and control.

Meanwhile, the controller 181 is further configured to receive the rental information sent by the terminal, and allocate and sell the corresponding energy storage device 120 according to the rental information.

The controller 181 is configured to open the corresponding first cabinet door 132 through the cabinet control system 180 according to the lease or purchase information sent by the terminal, so that the user can conveniently take the corresponding energy storage device 120. It should be noted that, the above terminal may be remotely controlled or reserved for renting or purchasing by a mobile phone or an electric kettle, and send corresponding information to the controller 181, and the controller 181 receives and reacts to realize renting or purchasing of the energy storage device 120.

Preferably, the sealing member is further provided on the first cabinet door 132 and/or the electric control cabinet 110, and is located on the contact surface between the first cabinet door 132 and the electric control cabinet 110. When the first cabinet door 132 covers the first accommodating cavity 131, the sealing member plays a role in sealing and isolating, and further improves the sealing and dampproof effect in the first accommodating cavity 131.

For example, the seal may be an elastic member such as rubber, or a water absorbing member such as absorbent cotton, silicone, sponge, or the like.

Further, each first receiving cavity 131 includes a first mating portion, and each energy storage device 120 includes a second mating portion.

Specifically, the first matching portion is disposed at a side of the first accommodating cavity 131 away from the first cabinet door 132; the second matching part is matched with the first matching part; wherein, when the first mating portion and the second mating portion are mated and installed, the power system 190 is electrically connected with the energy storage device 120.

Through set up first cooperation portion and the second cooperation portion that mutually support and set up respectively on holding chamber 131 and energy storage device 120, when being convenient for energy storage device 120 place in first holding chamber 131, can also mutually support through first cooperation portion and second cooperation portion for electrical power generating system 190 can charge energy storage device 120.

Further, the electronic control cabinet 110 further includes: a second receiving area 191, a plurality of second receiving cavities 192, and a plurality of second cabinet doors 193.

Specifically, the second accommodating area 191 is located in the electronic control cabinet 110 and is located at one side of the first accommodating area 130; a plurality of second accommodating chambers 192 are provided at intervals in the second accommodating region 191 for accommodating the inverter 194; the plurality of second cabinet doors 193 are arranged on the electric control cabinet 110 in a one-to-one correspondence with the second accommodating cavities 192, so that each second accommodating cavity 192 forms a closed storage space; wherein the controller 181 is electrically connected to each second cabinet door 193 for opening or locking the second cabinet door 193.

The controller 181 is configured to open the corresponding second door 193 through the cabinet control system 180 according to the lease or purchase information sent from the terminal, so that the user can conveniently take the corresponding inverter 194. It should be noted that, the above terminal may be remotely controlled or reserved for renting or purchasing through a mobile phone or an electric kettle, and send corresponding information to the controller 181, and the controller 181 receives and reacts to realize renting or purchasing of the inverter 194.

Preferably, when a user rents and sells the energy storage device 120, the corresponding inverter 194 is automatically matched for renting and selling;

for example: the user sends the lease or purchase information of the energy storage device 120 through the terminal, and the controller 181 controls the cabinet control system 180 to open the corresponding first cabinet door 132 and automatically open the matched second cabinet door 193 according to the lease or purchase information sent by the terminal, so that the user can conveniently take the energy storage device 120 and the corresponding inverter 194.

Of course, the user may also choose to rent and sell energy storage devices 120 individually.

Further, referring to fig. 3 and 4, the first mating portion is a slot 111, and a surface of the slot 111 protrudes from an inner wall of the first accommodating cavity 131; the slot 111 houses the current output of the power system 190;

specifically, a guide slot 127 is provided on one side of the energy storage device 120, and the positive terminal 124 and the negative terminal 129 are located in the guide slot 127.

By providing the guide groove 127, the slot 111 is convenient to be quickly connected with the positive terminal 124 and the negative terminal 129 through the guide groove 127, and the matching efficiency of the positive terminal and the negative terminal is improved.

Further, referring to fig. 3, further includes: the operation interface 140 is arranged on the surface of the electric control cabinet 110 and is connected with the cabinet control system 180 and the electric control system; the operator interface 140 is configured to allow a user to select the number of energy storage devices 120 and inverters 194 to rent from the electronic control cabinet 110.

By arranging the operation interface 140 on the surface of the electric control cabinet 110, the human-computer interaction function is conveniently realized, so that a user can realize the leasing and purchasing requirements of the energy storage device 120 and the inverter 194 in a touch or voice input mode.

Further, the operation interface 140 includes: a display 141, a manipulation device 142, and a voice input and output device 143.

The display screen 141 is connected with the cabinet control system 180, and the display screen 141 is controlled by the cabinet control system 180 to be used for displaying information such as information of the energy storage equipment 120 and the inverter 194 in the current energy storage equipment renting and selling device 100, order payment information and the like to a user; the control device 142 is convenient for the user to carry out renting and selling operation and order payment according to the related prompts; the voice input and output device 143 facilitates the rental and sales operation by voice intercom for special users, such as people with a low cultural level.

For example, the display screen 141 may be a touch screen, and the rental and payment are realized through corresponding options displayed on the touch screen display screen 141.

Further, an alarm is built in the voice input and output device 143 and is connected with the cabinet control system 180, and the dangerous situation alarm is performed according to the information of the electric control cabinet 110 collected by the cabinet control system 180.

For example, the energy storage device 120 is short-circuited due to aging, causing a fire, and the cabinet control system 180 controls the alarm to alarm by recognizing the temperature in the electronic control cabinet 110 and according to the state of the energy storage device 120 in the first accommodating chamber 131; meanwhile, information is sent to the background server, and the master console receives the information of the background server and notifies relevant engineers to the appointed place for corresponding processing.

Meanwhile, the fool fire extinguisher 150 is fixedly arranged in the first accommodating cavity 131, when the energy storage equipment 120 in the corresponding first accommodating cavity 131 is short-circuited to generate fire, the fire information is sent by the cabinet control system 180, and meanwhile, the fire extinguisher 150 can control and extinguish the fire in the first accommodating cavity 131 at the first time, so that the loss is reduced at the first time, and the maintenance difficulty of engineers is reduced.

Further, the method further comprises the following steps: the camera 160 is disposed at a side of the electronic control cabinet 110 facing the user, and is used for recognizing the face and voice of the renting and selling user to complete the payment of the order. For example, after a person of low cultural level places an order by voice to order the leased energy storage device 120 and the inverter 194, the camera 160 synchronizes face recognition to complete confirmation payment.

Further, the method further comprises the following steps: the LED display strips 170 are arranged in one-to-one correspondence with the energy storage devices 120, and each LED display strip 170 is respectively connected with the controller 181; the detection board 182 acquires the capacity condition of the energy storage battery 125 in the energy storage device 120 and feeds back to the controller 181, and the controller 181 displays the service life condition of the corresponding energy storage device 120 through the LED display bar 170 so as to facilitate the purchase and selection of the user.

As is well known, the energy storage battery 125 and the like are consumable products, and as time goes on and the frequency of use increases, the service life is gradually shortened, and the battery capacity is reduced; the background controller 181 analyzes and evaluates the loss condition of the energy storage battery 125 to convert the corresponding price for the user to select to purchase, so that the user can purchase according to the requirement, and the purchase selectivity of the user is improved.

For example: the LED display strip 170 may display, for example, by color: red, yellow, green to respectively indicate low, medium, and high capacities of the energy storage batteries 125 of the corresponding energy storage devices 120; or [30%,50%, [50%,70%, [70%,100% ].

Of course, the capacitance of the energy storage cell 125 of the corresponding energy storage device 120 may also be directly indicated by a digital display.

Further, referring to fig. 4, the energy storage device 120 includes: at least one mobile power source 121 detachably mounted to the energy storage device 120; when the energy storage device 120 is installed in the electric control cabinet 110, the electric control cabinet 110 can charge each mobile power supply 121.

Through setting up detachable portable power source 121 on energy storage device 120, the user of being convenient for when renting energy storage device 120 and supplying power for the electric motor car, can also take off portable power source 121 from energy storage device 120 and charge for electrical equipment such as user's cell-phone, tablet, has increased the application of energy storage device 120.

Further, referring to fig. 5 and 6, a latch 122 is provided on a side of at least one of the mobile power sources 121 for fixing the mobile power source 121 at a designated position. So that when the user charges the mobile phone and the like through the mobile power supply 121, the mobile power supply 121 can be fixed at a designated position through the lock catch 122, and convenience is improved.

For example, when it is desired to charge the phone while riding, the power source may be secured to the vehicle by the latch 122.

Further, the mobile power supply 121 further includes: groove 123.

Specifically, the groove 123 is disposed on one side of the mobile power source 121, and one end of the lock catch 122 is rotatably connected to the groove 123, for accommodating the lock catch 122.

Referring to fig. 5, by providing a recess 123 for accommodating the latch 122 on one side of the mobile power supply 121, when the latch 122 is not used, one end of the latch 122 is rotated relative to the recess 123, so that the latch 122 is placed in the recess 123, and storage is facilitated; on the contrary, referring to fig. 6, when the electric vehicle needs to be used, one end of the lock catch 122 is rotated relative to the groove 123, so that a gap is formed between the other end of the lock catch 122 and the mobile power source 121, a user can conveniently pass through the gap, and the fixing point of the electric vehicle is clamped between the groove 123 and the lock catch 122 through the gap, so that the mobile power source 121 is fixed.

Example two

The embodiment also provides an energy storage device renting and selling device 100, which includes: an electrical cabinet 110 and an energy storage device 120.

Specifically, the energy storage device 120 is adapted to the electronic control cabinet 110, and the energy storage device 120 includes a housing and a built-in energy storage battery 125; at least a first DC output port and a second DC output port 126 are adapted on the housing, the first DC output port being provided with a positive terminal 124 and a negative terminal 129; the energy storage battery 125 has at least a positive output and a negative output, adapted to output a DC current; positive terminal 124 is coupled to the positive output and negative terminal 129 is coupled to the negative output; the inverter 194 is arranged in the electric control cabinet 110 and is arranged at one side of the energy storage device 120; inverter 194 has at least a DC input 1941 and an AC output 1942, DC input 1941 being adaptable to second DC output 126, AC output 1942 being adaptable to an AC electrical device, adapted to output an AC current; the electric control cabinet 110 is used for controlling renting and selling of the energy storage equipment 120; a user may sell energy storage device 120 to adapt the power to the power travel tool at least through positive terminal 124 and negative terminal 129; or through a second DC outlet 126 for supplying DC electrical equipment.

The user can independently rent or purchase the energy storage device 120 through the electric control cabinet 110, install the energy storage device 120 in an electric travel tool, such as an electric vehicle, and output power through the positive terminal 124 and the negative terminal 129 to supply power for the running of the electric vehicle; meanwhile, the energy storage device 120 can also directly dock with the DC electrical device through the second DC output port 126 to supply power to the DC electrical device, thereby increasing the variety of uses of the energy storage device 120.

Example III

The present utility model also provides an energy storage device renting and selling apparatus 100, including: an electrical cabinet 110 and an energy storage device 120.

Specifically, the energy storage device 120 is adapted to the electronic control cabinet 110, and the energy storage device 120 includes a housing and a built-in energy storage battery 125; the housing is provided with at least a positive terminal 124 and a negative terminal 129 adapted for external contact; the energy storage battery 125 has at least a positive output and a negative output, adapted to output a DC current, a positive terminal 124 coupled to the positive output and a negative terminal 129 coupled to the negative output; an inverter 194, adapted within the electronic control cabinet 110, the inverter 194 having at least a DC input 1941 and an AC output 1942; wherein energy storage device 120 and inverter 194 are adapted to be released under the influence of a rental release order to supply AC electrical devices by electrically coupling DC input 1941 of inverter 194 to positive terminal 124 and negative terminal 129 and outputting AC current via AC output 1942.

The user can rent or purchase the energy storage device 120 and the inverter 194 through the electric control cabinet 110 at the same time, install the energy storage device 120 in an electric travel tool, such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle; meanwhile, referring to fig. 11, 12 and 13, without adding an additional connection line between the inverter 194 and the energy storage device 120, the energy storage device 120 can also be directly coupled with the positive and negative terminals through the DC input 1941 of the inverter and output AC current from the AC output 1942 of the inverter 194 to supply power to the AC electrical device.

Specifically, the DC input end 1941 protrudes from the surface of the inverter 194, and one end far away from the inverter 194 is provided with a socket 1943, and the inner surface of the socket is provided with a conductive part electrically connected with the inside of the inverter 194; the insertion groove 1943 is provided in cooperation with the positive electrode terminal 124 and the negative electrode terminal 129, and the positive electrode terminal 124 and the negative electrode terminal 129 are inserted into the insertion groove 1943 respectively, thereby completing the cooperation installation of the inverter 194 and the energy storage device 120.

Further, the method further comprises the following steps: a second DC outlet 126, provided with a housing, has an input communicating with the positive and negative outputs of the energy storage battery 125, and an output adapted to an external DC electrical device for powering the DC electrical device.

Through setting up second DC delivery outlet 126 on the shell, be convenient for through second DC delivery outlet 126 and outside DC electrical equipment adaptation for the power supply of DC electrical equipment promotes the functional diversity of energy storage device 120.

Example IV

The present utility model also provides an energy storage device renting and selling apparatus 100, including: an electric control cabinet 110; the energy storage device 120, which is adapted to the electronic control cabinet 110, includes a housing and a built-in energy storage battery 125; the housing is provided with at least a positive terminal 124 and a negative terminal 129 adapted for external contact; the energy storage battery 125 has at least a positive output and a negative output, adapted to output a DC current, a positive terminal 124 coupled to the positive output and a negative terminal 129 coupled to the negative output; an inverter 194, adapted within the electronic control cabinet 110, the inverter 194 having at least a DC input 1941 and an AC output 1942; wherein the energy storage device 120 and the inverter 194 are adapted to be released under the rental release instruction and only the energy storage device 120 is released to be adapted to power the electric travel tool through the positive terminal 124 and the negative terminal 129.

The user can independently rent or purchase the energy storage device 120 through the electric control cabinet 110, install the energy storage device 120 in an electric travel tool, such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for running of the electric vehicle, so that the requirement that the user only needs the energy storage device 120 to supply power for the electric travel tool is met, and the renting and selling cost of the user is saved.

Example five

The utility model also provides an energy storage equipment renting and selling device, which comprises: an electric control cabinet 110; an energy storage device 120, adapted to the electronic control cabinet 110, comprising a housing and a built-in energy storage battery 125; the housing is provided with at least a positive terminal 124 and a negative terminal 129 adapted for external contact, and a second DC outlet 126; the energy storage battery 125 has at least a positive output and a negative output, adapted to output a DC current, a positive terminal 124 coupled to the positive output and a negative terminal 129 coupled to the negative output; the second DC output 126 is coupled to the positive and negative outputs through at least one voltage step-down circuit, and is adapted to output a DC current; an inverter 194, adapted within the electronic control cabinet 110, the inverter 194 having at least a DC input 1941 and an AC output 1942; wherein the energy storage device 120 and the inverter 194 are adapted to be released under the rental release order and only the energy storage device 120 is released to be adapted to power the electric travel tool at least through the positive terminal 124 and the negative terminal 129 or to power the DC electrical device through the second DC outlet 126.

The user can independently rent or purchase the energy storage device 120 through the electric control cabinet 110, install the energy storage device 120 in an electric travel tool, such as an electric vehicle, and output power through the positive terminal and the negative terminal to supply power for the running of the electric vehicle; meanwhile, the energy storage device 120 can also directly dock with the DC electrical device through the second DC output port 126 to supply power to the DC electrical device, thereby increasing the variety of uses of the energy storage device 120.

The specific application scene of the utility model is as follows:

scene one:

taking take-out small brother as an example, the riding time of the electric vehicle is long, and in order to save the waiting time of charging, the electric power source is usually required to be replaced midway to continue riding.

When the takeaway small-brother finds that the electric quantity of the electric vehicle is used up quickly, the takeaway small-brother can search the corresponding energy storage equipment renting and selling device 100 and the inverter 194 nearby; for example, the mobile phone searches the placement place of the nearby energy storage equipment renting and selling device 100, guides the take-out small-brother to ride to the nearest placement place, rents the energy storage equipment 120 to replace the electric vehicle battery through the mobile phone code scanning or the control selection or the voice dialogue on the display screen 141, namely the energy storage equipment 120 is matched with the electric vehicle, when the electric quantity of the energy storage equipment 120 is used up, another energy storage equipment 120 can be rented from the nearby energy storage equipment renting and selling device 100, and the energy storage equipment 120 with the electric quantity being used up is returned to the energy storage equipment renting and selling device 100 to complete renting; the electric vehicle which takes away the small brother can obtain a new power supply;

meanwhile, the mobile power supply 121 can be taken down from the energy storage device 120 to provide power for the mobile phone, so that a fully charged charger baby is not required to be carried with a take-away small brother;

and the online booking and renting is supported, and the energy storage equipment 120 can be locked and reserved for the user to take after the energy storage equipment renting and selling device 100 at the appointed point position is selected on the mobile phone to order for booking and renting.

Scene II:

when the take-out small-brother outdoor riding vehicle is used for outing to a destination, the energy storage device 120 can be taken out to convert the direct-current power supply of the energy storage device 120 into alternating-current power supply through the inverter 194, and power is provided for electric devices such as an outdoor electric cooker and an electric kettle, so that the application scene of the energy storage device 120 is greatly increased.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other manners as well. The above-described embodiments of the apparatus are merely illustrative, and, for example, functional modules in various embodiments of the present utility model may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer-readable storage medium. Based on this understanding, the technical solution of the present utility model may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present utility model. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Although the present utility model is disclosed above, the present utility model is not limited thereto. Various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the utility model, and the scope of the utility model should be assessed accordingly to that of the appended claims.

Claims (24)

1. An energy storage device renting and selling apparatus, comprising:

an electric control cabinet (110);

an energy storage device (120) adapted within the electronic control cabinet (110) comprising a housing and a built-in energy storage battery (125);

at least a first DC output port and a second DC output port (126) are arranged on the shell, and the first DC output port is provided with a positive electrode terminal (124) and a negative electrode terminal (129);

the energy storage battery (125) has at least a positive output and a negative output, adapted to output a DC current; the positive terminal (124) is coupled to the positive output and the negative terminal (129) is coupled to the negative output;

the inverter (194) is arranged in the electric control cabinet (110) and is arranged on one side of the energy storage equipment (120); the inverter (194) has at least a DC input (1941) and an AC output (1942), the DC input (1941) being adaptable to the second DC output (126), the AC output (1942) being adaptable to an AC electrical device, adapted to output an AC current;

Wherein the electric control cabinet (110) is used for controlling the renting and selling of the energy storage equipment (120) and the inverter (194); -a user is adapted to power an electric travel tool by renting said energy storage device (120) and said inverter (194) at least through said positive terminal (124) and negative terminal (129); or adapted to power DC electrical devices through said second DC output (126); or cooperate with the second DC output (126) via a DC input (1941) of the inverter (194), and power AC electrical equipment via an AC output (1942).

2. The energy storage device vending apparatus of claim 1, wherein the housing has dimensions suitable for mounting to a battery configuration space of the power travel tool such that the energy storage device (120) forms a direct replacement for a battery of an existing power travel tool.

3. The energy storage device vending apparatus of claim 1, wherein the housing is further configured with a communication terminal (128) adapted for external contact, the communication terminal (128) being adapted for communication identification with the electric control cabinet or the electric travel tool.

4. The energy storage device vending apparatus of claim 3, wherein the communication terminal (128) is adjacent to the positive terminal (124) and the negative terminal (129).

5. The energy storage device vending apparatus of claim 3 wherein said communication terminal (128) communicates successfully with said electric travel tool identification, said energy storage device (120) discharging.

6. The energy storage device vending apparatus of claim 3 wherein said communication terminal (128) is in identifying communication with said electronic control cabinet (110), said electronic control cabinet (110) charging said energy storage device (120).

7. The energy storage device vending apparatus of claim 1, wherein the energy storage device (120) and the inverter (194) are adapted to be controlled for release by the electronic control cabinet (110) under a release command.

8. The energy storage device vending apparatus of claim 7, wherein under the action of a release instruction, the electronic control cabinet (110) controls the energy storage device (120) and the inverter (194) to release synchronously; or controlling the energy storage device (120) and the inverter (194) to be released sequentially.

9. The energy storage device vending apparatus of claim 1, further comprising:

the cabinet control system (180) is arranged in the electric control cabinet (110) and is electrically connected with the energy storage equipment (120) and used for controlling the renting and selling of the energy storage equipment (120).

10. The energy storage device vending apparatus of claim 9, further comprising:

the power supply system (190) is arranged in the electric control cabinet (110) and is electrically connected with the cabinet control system (180) and the energy storage equipment (120); -powering the energy storage device (120) and the control system (180).

11. The energy storage device vending apparatus of claim 9, wherein the inverter (194) and the energy storage device (120) are respectively provided in a plurality and one-to-one correspondence.

12. The energy storage device vending apparatus of claim 10, wherein the electronic control cabinet (110) comprises:

a first receiving area (130) located within the electronic control cabinet (110);

a plurality of first accommodating chambers (131) arranged at intervals in the first accommodating area (130) for accommodating the energy storage device (120);

the first cabinet doors (132) are arranged on the electric control cabinet (110) in one-to-one correspondence with the first accommodating cavities (131) so that each first accommodating cavity (131) forms a closed storage space;

the cabinet control system (180) is electrically connected with each first cabinet door (132) and is used for opening or locking the first cabinet doors (132).

13. The energy storage device vending apparatus of claim 12, wherein,

Each of the first accommodation chambers (131) includes:

the first matching part is arranged on one side of the first accommodating cavity (131) away from the first cabinet door (132), and is internally provided with a current output end of the power supply system (190);

wherein the first fitting portion is provided to be fitted to the positive electrode terminal (124) and the negative electrode terminal (129); when the first matching part is matched with the positive electrode terminal (124) and the negative electrode terminal (129), the power supply system (190) charges the energy storage device (120) through the positive electrode terminal (124) and the negative electrode terminal (129).

14. The energy storage device vending apparatus of claim 12, wherein the electronic control cabinet (110) further comprises:

a second accommodation area (191) located within the electronic control cabinet (110) and located on one side of the first accommodation area (130);

a plurality of second accommodation chambers (192) provided at intervals in the second accommodation region (191) for accommodating the inverter (194);

the second cabinet doors (193) are arranged on the electric control cabinet (110) in one-to-one correspondence with the second accommodating cavities (192) so that each second accommodating cavity (192) forms a closed storage space;

wherein, the cabinet control system (180) is electrically connected with each second cabinet door (193) and is used for opening or locking the second cabinet doors (193).

15. The energy storage device vending apparatus of claim 1, further comprising:

and the operation interface (140) is arranged on the surface of the electric control cabinet (110), and the operation interface (140) is configured to allow a user to select the quantity of the energy storage equipment (120) and the inverters (194) to be rented and sold from the electric control cabinet (110).

16. The energy storage device vending apparatus of claim 1, wherein the electronic control cabinet (110) further comprises:

and the controller (181) is used for receiving the renting and selling information sent by the terminal, and allocating the corresponding energy storage equipment (120) and the inverter (194) according to the renting and selling information.

17. The energy storage device vending apparatus of claim 16, further comprising:

the LED display strips (170) are arranged in one-to-one correspondence with the energy storage devices (120), and each LED display strip (170) is respectively connected with the controller (181).

18. The energy storage device vending apparatus of any of claims 1-17, wherein the energy storage device (120) comprises:

at least one mobile power supply (121) detachably mounted to the energy storage device (120);

when the energy storage device (120) is installed in the electric control cabinet (110), the electric control cabinet (110) can charge each mobile power supply (121).

19. The energy storage device vending apparatus of claim 18, wherein the mobile power source (121) comprises:

and the lock catch (122) is arranged on one side of the mobile power supply (121) and used for fixing the mobile power supply (121) at a specified position.

20. An energy storage device renting and selling apparatus, comprising:

an electric control cabinet (110);

an energy storage device (120) adapted within the electronic control cabinet (110) comprising a housing and a built-in energy storage battery (125);

at least a first DC output port and a second DC output port (126) are matched on the shell, and the first DC output port is provided with a positive terminal (124) and a negative terminal (129);

the energy storage battery (125) has at least a positive output and a negative output, adapted to output a DC current; the positive terminal (124) is coupled to the positive output and the negative terminal (129) is coupled to the negative output;

the inverter (194) is arranged in the electric control cabinet (110) and is arranged on one side of the energy storage equipment (120); the inverter (194) has at least a DC input (1941) and an AC output (1942), the DC input (1941) being adaptable to the second DC output (126), the AC output (1942) being adaptable to an AC electrical device, adapted to output an AC current;

Wherein the electric control cabinet (110) is used for controlling renting and selling of the energy storage equipment (120); a user is adapted to power an electric travel tool by renting the energy storage device (120) at least through the positive terminal (124) and the negative terminal (129); or adapted to power DC electrical devices through said second DC output (126).

21. An energy storage device renting and selling apparatus, comprising:

an electric control cabinet (110);

an energy storage device (120) adapted within the electronic control cabinet (110) comprising a housing and a built-in energy storage battery (125);

the shell is at least provided with a positive terminal (124) and a negative terminal (129) which are suitable for external contact;

-the energy storage battery (125) has at least a positive output and a negative output, adapted to output a DC current, the positive terminal (124) being coupled to the positive output, the negative terminal (129) being coupled to the negative output;

the inverter (194) is adapted to the electric control cabinet (110) and is arranged on one side of the energy storage equipment (120); the inverter (194) has at least a DC input (1941) and an AC output (1942);

wherein the energy storage device (120) and the inverter (194) are adapted to be released under a rental release order to power an AC electrical device by electrically coupling a DC input (1941) of the inverter (194) to the positive terminal (124) and the negative terminal (129) and outputting an AC current via the AC output (1942); or by means of said positive (124) and negative (129) terminals.

22. The energy storage device vending apparatus of claim 21, further comprising:

and a second DC output port (126) provided with the housing and having an input end in communication with the positive and negative outputs of the energy storage battery (125), and an output end adapted to an external DC electrical device for powering the DC electrical device.

23. An energy storage device renting and selling apparatus, comprising:

an electric control cabinet (110);

an energy storage device (120) adapted within the electronic control cabinet (110) comprising a housing and a built-in energy storage battery (125);

the shell is at least provided with a positive terminal (124) and a negative terminal (129) which are suitable for external contact;

-the energy storage battery (125) has at least a positive output and a negative output, adapted to output a DC current, the positive terminal (124) being coupled to the positive output, the negative terminal (129) being coupled to the negative output;

the inverter (194) is adapted to the electric control cabinet (110) and is arranged on one side of the energy storage equipment (120); the inverter (194) has at least a DC input (1941) and an AC output (1942);

wherein the energy storage device (120) and the inverter (194) are adapted to be released under the action of a rental release instruction and only the energy storage device (120) is released to be adapted to power an electric travel tool through the positive terminal (124) and the negative terminal (129).

24. An energy storage device renting and selling apparatus, comprising:

an electric control cabinet (110);

-an energy storage device (120) adapted to the electric control cabinet (110) comprising a housing and a built-in energy storage battery (125);

the housing is provided with at least a positive terminal (124) and a negative terminal (129) adapted for external contact, and a second DC output port (126);

-the energy storage battery (125) has at least a positive output and a negative output, adapted to output a DC current, the positive terminal (124) being coupled to the positive output, the negative terminal (129) being coupled to the negative output;

the second DC output (126) is coupled to the positive output and the negative output through at least one buck circuit, adapted to output a DC current;

the inverter (194) is adapted to the electric control cabinet (110) and is arranged on one side of the energy storage equipment (120); the inverter (194) has at least a DC input (1941) and an AC output (1942);

wherein the energy storage device (120) and the inverter (194) are adapted to be released under the effect of a rental release order and only the energy storage device (120) is released to be adapted to power an electric travel tool at least via the positive terminal (124) and the negative terminal (129) or to power a DC electrical device via the second DC outlet (126).

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