CN107085897B - Portable power source renting cabinet and portable power source renting method - Google Patents

Abstract

The invention provides a portable power source renting cabinet and a portable power source renting method, wherein the renting cabinet comprises: the intelligent cabinet comprises a cabinet body, a main control module and a plurality of mobile power supply storage bins; each portable power source storage compartment all includes: the bin gate, hold the groove rail, initiative atress wheel, first synchronous drive mechanism, second synchronous drive mechanism, first driving motor and second driving motor and the control circuit board of being connected with host system. In the embodiment of the invention, the two synchronous transmission mechanisms are arranged at the same side in the mobile power supply storage bin, the first synchronous transmission mechanism is positioned above the second synchronous transmission mechanism, and the two driving motors are arranged at the rear end in the mobile power supply storage bin, so that the structures among all the parts are compact, the overall space utilization rate is improved, and under the condition of containing the same number of mobile power supplies, the cabinet body has smaller volume and smaller floor area, thereby widening the application scene of the mobile power supply rental cabinet and improving the flexibility of the placement position of the mobile power supply rental cabinet.

Description

Portable power source renting cabinet and portable power source renting method

Technical Field

The invention relates to the technical field of public leasing equipment, in particular to a portable power supply leasing cabinet and a portable power supply leasing method.

Background

At present, with the rapid development of mobile devices, mobile electronic products such as mobile phones and tablet computers become indispensable components in the life of people, and meanwhile, with the increasing diversification of the functions of mobile electronic products, different requirements of different users can be better met, but the battery endurance of mobile electronic products cannot be better improved all the time, and because the screens of mobile electronic products are larger and more, the functions are more and more, and the electric quantity is reduced more quickly, the electric quantity of mobile electronic products is often insufficient at the critical moment, so that the situation of automatic shutdown occurs, when a user is going out to work, the mobile electronic products cannot be directly connected to a power supply to charge, so that inconvenience is brought to people, in order to solve the problem, the product of mobile power supplies such as charge pal and the like is produced, and is widely applied to mobile phones, The mobile electronic products such as the tablet personal computer and the like can solve the problem that the mobile electronic products are automatically shut down due to insufficient electric quantity to a certain extent;

however, as mobile electronic products are widely used and the demand for electric quantity is increasing day by day, although the appearance of mobile power supplies such as a charger in the market can make up for some shortage of electric quantity, the demand of people cannot be met, on one hand, the electric quantity storage capacity of the charger is relatively limited, and if the charger is in an idle state for a long time, the electric quantity storage capacity of the charger is also reduced, on the other hand, people may forget to carry the charger before going out, at this time, in some public places or places with large traffic of people such as roadside, a mobile power supply renting device is installed, users can conveniently rent or return the mobile power supply through the mobile power supply renting device, and then use the mobile power supply to charge their mobile electronic products at any time and any place, rent the mobile power supply when needed, and automatically return the mobile power supply after use, the mobile power supply sharing method has the advantages that convenience is provided for the next user, each mobile power supply can be effectively utilized, the idle time of the mobile power supply is shortened, the utilization rate of the mobile power supply is improved, and the concept of mobile power supply sharing is realized.

Currently, a portable power source renting cabinet is provided in the related art, wherein the renting cabinet includes: instruction input device, portable power source borrow and borrow device, control center, and this instruction input device and this portable power source borrow and borrow the device and all be connected with control center, and wherein, portable power source borrow and borrow the device and include: the door motor, a first motor, the power moving mechanism who is connected with this first motor, this door motor sets up on the lateral wall of borrowing and lending the device, this portable power source moving mechanism includes one-level roller bearing subassembly and second grade roller bearing subassembly, and first belt transmission and second belt transmission, one-level roller bearing subassembly and second grade roller bearing subassembly include two roller bearings of establishing from top to bottom respectively, first belt transmission and second belt transmission set up in the both sides of the lateral wall of borrowing and lending the device, portable power source centre gripping is between two pairs of roller bearings of establishing from top to bottom, first belt transmission and second belt transmission link and drive two pairs of roller bearings of establishing from top to bottom roll, realize portable power source's input and output action.

In the process of implementing the invention, the inventor finds that at least the following problems exist in the related art: in the portable power source renting cabinet in the prior art, all parts are sparsely arranged, and the width and the thickness of each portable power source borrowing device are large, so that the portable power source renting cabinet has the problems of large volume, large occupied area and low space utilization rate.

Disclosure of Invention

In view of this, an object of the embodiments of the present invention is to provide a portable power supply renting cabinet and a portable power supply renting method, so as to improve the overall space utilization rate of the renting cabinet, and under the condition of accommodating the same number of portable power supplies, the cabinet body has a smaller volume and a smaller floor area, thereby widening the application scenarios of the portable power supply renting cabinet and improving the flexibility of the placement position of the portable power supply renting cabinet.

In a first aspect, an embodiment of the present invention provides a portable power source renting cabinet, where the renting cabinet includes: the mobile power supply comprises a cabinet body, a main control module and a plurality of mobile power supply storage bins, wherein the main control module and the plurality of mobile power supply storage bins are arranged in the cabinet body; wherein:

each portable power source storage compartment all includes: the device comprises a control circuit board, a bin door, an accommodating groove track, a driving stress wheel, a first synchronous transmission mechanism, a second synchronous transmission mechanism, a first driving motor and a second driving motor;

the first synchronous transmission mechanism and the second synchronous transmission mechanism are positioned on the same side in the mobile power storage bin, and the first synchronous transmission mechanism is positioned above the second synchronous transmission mechanism; the first driving motor and the second driving motor are both positioned at the rear end in the mobile power supply storage bin, the first driving motor is respectively connected with the control circuit board and the first synchronous transmission mechanism, and the second driving motor is respectively connected with the control circuit board and the second synchronous transmission mechanism;

the main control module is connected with the control circuit board of each mobile power supply storage bin and used for sending a first control instruction to the control circuit board matched with the operation instruction after receiving the operation instruction of a user, wherein the operation instruction comprises a power supply leasing instruction;

and the control circuit board is used for controlling the first driving motor to drive the first synchronous transmission mechanism to drive the bin gate to be opened and controlling the second driving motor to drive the second synchronous transmission mechanism to drive the driving stress wheel to rotate after receiving the first control instruction, so that the mobile power supply in the cavity of the mobile power supply storage bin is output to the bin gate of the mobile power supply storage bin along the accommodating groove track.

In a second aspect, an embodiment of the present invention further provides a method for leasing a mobile power supply by using the portable power supply leasing cabinet in the first aspect, where the method includes:

the portable power source renting cabinet sends an operation instruction input by a user to a cloud server, and the operation instruction comprises: a lease instruction or a return instruction;

receiving indication information generated by the cloud server according to the operation instruction and the storage state of the mobile power supply in each mobile power supply storage bin, wherein the indication information comprises a storage bin identifier to be controlled;

and controlling the mobile power supply storage bin corresponding to the storage bin identification to input or output the mobile power supply.

In a third aspect, an embodiment of the present invention further provides a method for leasing a mobile power supply by using the portable power supply leasing cabinet in the first aspect, where the method includes:

the cloud server receives an operation instruction sent by the renting cabinet or the user terminal, wherein the operation instruction comprises the following steps: a lease instruction or a return instruction;

generating indication information according to the stored storage state of the mobile power supply in each mobile power supply storage bin reported by the lease cabinet and the operation instruction, wherein the indication information comprises a storage bin identifier to be controlled;

sending the indication information to a corresponding portable power supply renting cabinet so that the renting cabinet controls the portable power supply storage bin corresponding to the storage bin identification to input or output the portable power supply;

and receiving lease finishing information returned by the lease cabinet, and controlling the lease cabinet and the user terminal to synchronously display the lease finishing information.

In the portable power source lease cabinet and the portable power source lease method provided by the embodiment of the invention, the lease cabinet comprises: the intelligent cabinet comprises a cabinet body, a main control module and a plurality of mobile power supply storage bins, wherein the main control module and the plurality of mobile power supply storage bins are arranged in the cabinet body; each portable power source storage compartment all includes: the bin gate, hold the groove rail, initiative atress wheel, first synchronous drive mechanism, second synchronous drive mechanism, first driving motor and second driving motor and the control circuit board of being connected with host system. In the embodiment of the invention, the two synchronous transmission mechanisms are arranged at the same side in the mobile power supply storage bin, the first synchronous transmission mechanism is positioned above the second synchronous transmission mechanism, and the two driving motors are arranged at the rear end in the mobile power supply storage bin, so that the structures among all the parts are compact, the overall space utilization rate is improved, and under the condition of containing the same number of mobile power supplies, the cabinet body has smaller volume and smaller floor area, thereby widening the application scene of the mobile power supply rental cabinet and improving the flexibility of the placement position of the mobile power supply rental cabinet.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1a is an exploded view of a first overall structure of a portable power supply rental cabinet provided by an embodiment of the invention;

fig. 1b is an exploded view of a first overall structure of a mobile power storage compartment provided in an embodiment of the invention;

fig. 2 is a schematic diagram illustrating a first appearance structure of a portable power supply renting cabinet according to an embodiment of the invention;

fig. 3a is an exploded view of a second overall structure of a mobile power storage compartment provided in the embodiment of the invention;

fig. 3b is a schematic diagram illustrating a first appearance structure of the mobile power supply provided by the embodiment of the invention;

fig. 3c is an exploded view of a first overall structure of the mobile power supply provided by the embodiment of the invention;

fig. 3d is a schematic structural diagram illustrating a housing of the mobile power supply and a power output end of a charging wire according to an embodiment of the present invention;

fig. 3e is an exploded view of a housing of the mobile power supply and a power input end of a charging wire according to the embodiment of the present invention;

fig. 4a is an exploded view of a third overall structure of a mobile power storage compartment provided in the embodiment of the present invention;

fig. 4b is an exploded view of a fourth overall structure of a mobile power storage compartment according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram illustrating a compartment door of a mobile power storage compartment according to an embodiment of the present invention;

fig. 6a is a schematic diagram illustrating a second appearance structure of a portable power supply renting cabinet according to an embodiment of the invention;

fig. 6b is a schematic diagram illustrating a compartment door of the mobile power storage compartment provided in the embodiment of the invention in an open state;

fig. 6c is a schematic diagram illustrating a door of the mobile power storage compartment in a closed state according to the embodiment of the present invention;

fig. 7 is a schematic diagram illustrating a third appearance structure of the portable power supply renting cabinet according to the embodiment of the invention;

fig. 8 is an exploded view of a second overall structure of a portable power supply rental cabinet provided by the embodiment of the invention;

fig. 9 is an exploded view of a third overall structure of a portable power supply rental cabinet according to an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

In consideration of the fact that the layout of all parts in the portable power supply lending cabinet in the related technology is sparse, and the width and the thickness of each portable power supply lending device are large, the portable power supply lending cabinet has the problems of large volume, large occupied area and low space utilization rate. Based on this, the embodiment of the invention provides a portable power supply renting cabinet and a portable power supply renting method, which are described below through embodiments.

As shown in fig. 1a, the overall structure of the portable power supply renting cabinet is an exploded view, and the portable power supply renting cabinet includes: the intelligent cabinet comprises a cabinet body 101, a main control module 102 and a plurality of mobile power supply storage bins 103, wherein the main control module 102 and the mobile power supply storage bins 103 are arranged in the cabinet body 101;

as shown in fig. 1b, an exploded view of an overall structure of the mobile power storage compartments 103, each of the mobile power storage compartments 103 includes: a control circuit board 1031, a bin gate 1032, a receiving groove track 1033, a driving force receiving wheel 1034, a first synchronous transmission mechanism 1035, a second synchronous transmission mechanism 1036, a first driving motor 1037 and a second driving motor 1038;

the first synchronous transmission mechanism 1035 and the second synchronous transmission mechanism 1036 are located on the same side in the mobile power storage 103, and the first synchronous transmission mechanism 1035 is located above the second synchronous transmission mechanism 1036; the first driving motor 1037 and the second driving motor 1038 are both located at the rear end of the mobile power storage compartment 103, and the first driving motor 1037 is connected to the control circuit board 1031 and the first synchronous transmission mechanism 1035, respectively, and the second driving motor 1038 is connected to the control circuit board 1031 and the second synchronous transmission mechanism 1036, respectively;

the main control module 102 is connected to the control circuit board 1031 of each of the portable power storage bins 103, and configured to send a first control instruction to the control circuit board 1031 matched with the operation instruction after receiving an operation instruction of a user, where the operation instruction includes a power renting instruction;

the control circuit board 1031 is configured to, after receiving the first control instruction, control the first driving motor 1037 to drive the first synchronous transmission mechanism 1035 to drive the bin gate 1032 to open, and control the second driving motor 1038 to drive the second synchronous transmission mechanism 1036 to drive the driving force wheel 1034 to rotate, so as to output the mobile power located in the cavity of the mobile power storage bin 103 to the bin gate 1032 of the mobile power storage bin 103 along the accommodating slot track 1033.

Specifically, considering that the driving motors of the rental cabinets in the related art are arranged on the lateral surfaces outside the power storage bins, the distance between the two power storage bins is inevitably pulled open, so that the overall width dimension of the rental cabinet is increased, and considering that certain requirements are imposed on the thickness of the rental cabinet in order to ensure the stability of the rental cabinet, a certain space is reserved at the rear end of the rental cabinet, so that in the embodiment provided by the invention, the two driving motors are arranged at the rear end (namely, the end far away from the bin door 1032) in the mobile power storage bin 103, the reserved space at the rear end of the rental cabinet is fully utilized, so that the distance between the two adjacent mobile power storage bins 103 is reduced, and the overall width dimension of the rental cabinet is further reduced; meanwhile, a structure that two synchronous transmission mechanisms are arranged on the same side in the mobile power supply storage bin 103 is adopted, and the two synchronous transmission mechanisms are arranged up and down, so that the overall width size of the rental cabinet is further reduced, wherein because the central axis of the bin gate 1032 is positioned above the central axis of the driving stress wheel 1034, the first synchronous transmission mechanism 1035 is connected with the bin gate 1032 with the central axis being on the top, and the second synchronous transmission mechanism 1036 is connected with the driving stress wheel 1034 with the central axis being on the bottom, the two synchronous transmission mechanisms can be arranged on the same side in the mobile power supply storage bin 103 at this moment, and the first synchronous transmission mechanism 1035 is arranged above the second synchronous transmission mechanism 1036;

in addition, the accommodating groove tracks 1033 comprise a left accommodating groove track 1033 and a right accommodating groove track 1033, and no matter the track grooves of the left accommodating groove track 1033 and the right accommodating groove track 1033 are horn-shaped, namely the track grooves are gradually enlarged in the direction away from the door 1032, and the upper and lower sizes close to the rear end in the mobile power supply storage bin 103 are slightly larger than the actual thickness of the mobile power supply, so that the mobile power supply can be accurately input to the returning completion position, and the mobile power supply is ensured to be in good contact with the control circuit board 1031;

further, in order to ensure that the mobile power source stably moves on the accommodating groove rail 1033 and prevent the mobile power source from deviating from the accommodating groove rail 1033 up and down, so as to input or output the mobile power source storage compartment 103 under the driving of the active force receiving wheel 1034 (when the surface of the mobile power source contacts with the active force receiving wheel 1034, a friction force is formed between the surface of the mobile power source and the active force receiving wheel 1034 when rotating positively or negatively, so as to drive the mobile power source to input or output), each of the mobile power source storage compartments 103 further includes: the first auxiliary driven wheel and the second auxiliary driven wheel are fixed on the fixing part of the mobile power supply storage bin 103 (the first auxiliary driven wheel and the second auxiliary driven wheel do not need to be connected with a driving motor, and only when the mobile power supply moves on the surface of the first auxiliary driven wheel and the second auxiliary driven wheel rotate passively), when the mobile power supply is located in the cavity of the mobile power supply storage bin 103, the wheel surfaces of the first auxiliary driven wheel and the second auxiliary driven wheel are in contact with the upper surface and the lower surface of the mobile power supply, wherein the first auxiliary driven wheel and the second auxiliary driven wheel are only used for ensuring that the mobile power supply stably moves on the accommodating groove rail 1033, and do not have the function of actively driving the mobile power supply to input or output the mobile power supply storage bin 103, but drive the mobile power supply to input or output the mobile power supply storage bin 103 by controlling the forward rotation or reverse rotation of the driving force-receiving wheel 1034.

Specifically, the first driving motor 1037 and the second driving motor 1038 may be synchronous speed reduction motors, wherein, since the first driving motor 1037 has a speed reduction gear, when the speed reduction gear rotates to a position where the bin door 1032 is closed, the bin door 1032 cannot be forcibly opened by prying or waving the bin door 1032 of the power supply storage bin 103 on the outside of the cabinet 101;

the first synchronous drive mechanism 1035 includes: a first large timing pulley connected to a central shaft of the first driving motor 1037, a driving belt, and a first small timing pulley connected to a central shaft of the gate 1032;

the second synchronous drive mechanism 1036 includes: a second large synchronous pulley connected with the central shaft of the second drive motor 1038, a transmission belt, and a second small synchronous pulley connected with the central shaft of the driving force-receiving wheel 1034;

in the embodiment provided by the invention, two synchronous transmission mechanisms are arranged at the same side in the mobile power supply storage bin 103, the first synchronous transmission mechanism 1035 is arranged above the second synchronous transmission mechanism 1036, and two driving motors are arranged at the rear end in the mobile power supply storage bin 103, so that the structures among all the components are compact, the overall space utilization rate is improved, and under the condition of accommodating the same number of mobile power supplies, the cabinet body 101 has smaller volume and smaller floor area, thereby widening the application scene of the mobile power supply rental cabinet and improving the flexibility of the placement position of the mobile power supply rental cabinet.

Further, considering that after the user takes away the mobile power discharged from the mobile power storage compartment 103, the door 1032 of the mobile power storage compartment 103 needs to be closed in time to prevent an illegal user from damaging the inside of the mobile power storage compartment, based on this, the control circuit board 1031 is further configured to control the first driving motor 1037 to drive the first synchronous transmission mechanism 1035 to drive the door 1032 to close if the mobile power is detected to be taken away after the mobile power is output to the door 1032 of the door.

Specifically, after a power supply leasing instruction of a user is received, firstly, the power supply leasing cabinet sends the power supply leasing instruction to a cloud server through a communication module, the cloud server selects a target power supply storage bin which stores a mobile power supply and has the same charging line model as that selected by the user from a plurality of mobile power supply storage bins 103 in the leasing cabinet to generate corresponding indication information, the power supply leasing instruction carries a leasing cabinet identifier and a user identifier, and the indication information comprises a storage bin identifier to be controlled;

after the rental cabinet receives the indication information, the portable power storage bin 103 corresponding to the storage bin identifier is controlled to output the portable power stored in the cavity of the portable power storage bin, so that a user can take the portable power for use;

when the rental cabinet detects that the mobile power supply is taken away, the bin door 1032 of the mobile power supply storage bin 103 is automatically closed.

Further, in consideration of the fact that after the portable power source rented by the user is used, the portable power source needs to be returned to the rental cabinet or another rental cabinet convenient for the user to return, so that the portable power source is rented by the next user, and the charging service is continuously provided for the next user, based on this, the operation instruction further includes: a power return instruction;

the main control module 102 is further configured to send a second control instruction to the control circuit board 1031 matched with the power return instruction after receiving the power return instruction;

the control circuit board 1031 is further configured to, after receiving the second control instruction, control the first driving motor 1037 to drive the first synchronous transmission mechanism 1035 to drive the door 1032 to open, control the second driving motor 1038 to drive the second synchronous transmission mechanism 1036 to drive the driving force wheel 1034 to rotate, so as to input the mobile power at the door 1032 of the mobile power storage bin 103 into the cavity of the mobile power storage bin 103 along the accommodating slot track 1033, and control the first driving motor 1037 to drive the first synchronous transmission mechanism 1035 to drive the door 1032 to close.

Specifically, after a power supply return instruction of a user is received, firstly, a portable power supply renting cabinet sends the power supply return instruction to a cloud server through a communication module, the cloud server selects a target power supply storage bin which is not stored with a portable power supply from a plurality of portable power supply storage bins 103 in the renting cabinet to generate corresponding indication information, the power supply return instruction also carries a renting cabinet identifier and a user identifier, and the indication information comprises a storage bin identifier to be controlled;

after the rental cabinet receives the indication information, the door 1032 of the mobile power supply storage bin 103 corresponding to the storage bin identification is controlled to be opened, so that a user can place the used mobile power supply at the door of the door 1032;

when the rental cabinet detects that a returned mobile power supply exists at the doorway of the door 1032, the mobile power supply is automatically input into the cavity of the mobile power supply storage bin 103, specifically, since the doorway of the door 1032 is provided with a sensor (e.g., a photoelectric sensor), the sensor transmits a detection signal to the control circuit board 1031 when detecting that a mobile power supply is placed at the doorway of the door 1032 of the mobile power supply storage bin 103 by a user, and the control circuit board 1031 determines whether to control the second driving motor 1038 to drive the second synchronous transmission mechanism 1036 to drive the active force receiving wheel 1034 to rotate according to the detection signal, so as to input the mobile power supply placed at the doorway 1032 of the mobile power supply storage bin 103 into the cavity of the mobile power supply storage bin 103 along the accommodating groove track 1033;

when the rental cabinet determines that the mobile power supply is returned to the position, the bin door 1032 of the mobile power supply storage bin 103 is automatically closed.

Further, in order to enable friendly human-computer interaction between the portable power supply renting cabinet and the user, as shown in fig. 2, the renting cabinet further includes: a touch display screen 104 disposed on the cabinet 101 and connected to the main control module 102;

the touch display screen 104 is configured to receive an operation instruction input by a user, and transmit the operation instruction to the main control module 102; and/or the presence of a gas in the gas,

the touch display screen 104 is further configured to receive and display an advertisement push message sent by the cloud server.

Specifically, the touch display screen 104 can also display advertisement push information issued by the cloud server, so that the advertisement information to be pushed can be pushed to a user using the rental cabinet, and in addition, when the touch display screen 104 is provided with a voice player, the advertisement push information issued by the cloud server can also be played, so that the advertisement information to be pushed can also be pushed to the user approaching the rental cabinet, and therefore a merchant can push advertisement service for potential users by means of the mobile power supply rental cabinet which is widely arranged in public places with large traffic of people.

Considering that a user is not used to carrying a charging wire or forgets to carry the charging wire when going out, on one hand, in order to solve the problem that the user needs to buy the charging wire separately after renting the mobile power supply, unnecessary consumption is avoided being brought to the user, and therefore a better renting service is provided for the user, on the other hand, the charging wire vending device does not need to be arranged on a rented cabinet, so that the rented cabinet is more miniaturized to a certain extent, and on the basis of the above, a plurality of mobile power supplies carrying the charging wire are stored in the rented cabinet, and as shown in fig. 3a, each mobile power supply 201 is stored in one mobile power supply storage bin 103;

when the mobile power source 201 is stored in the mobile power source storage bin 103, the charging wire 2011 is a U-shaped handle and is located at the rear end of the mobile power source storage bin 103 (i.e., at a position away from the bin gate 1032), wherein one end of the U-shaped handle is an electric quantity output end of the charging wire 2011, the other end of the U-shaped handle is an electric quantity input end of the charging wire 2011, and the electric quantity input end is inserted into the shell of the mobile power source 201 and connected with the internal circuit board (the electric quantity input end of the U-shaped handle is inserted into the shell of the mobile power source 201, and the core-spun wire at the tail end is welded on the internal circuit board.

Specifically, the mobile power supply 201 is a power bank, the charging wire 2011 is a soft rubber wire, when a user rents the mobile power supply 201 to charge a mobile device (such as a mobile phone, an ipad, and the like), the charging wire 2011 is unfolded, and the electric quantity output end of the charging wire is inserted into a charging port of the mobile device, at this time, the flow direction of the charging current is that a battery in the mobile power supply 201 flows to one end of a core-spun wire of the charging wire 2011 through a built-in circuit board and then flows to the electric quantity output end of the charging wire 2011, so that the mobile device of the user is charged;

in addition, since the cored wire in the power input end of the charging wire 2011 is directly welded on the built-in circuit board and cannot be taken down, only the power output end of the charging wire 2011 can be taken down and inserted into a charging port of the mobile device to be charged to charge the mobile device, the charging current flow direction is unidirectional, at this time, the user charges the mobile power supply 201 without normal line (that is, even if the user does not return the mobile power supply 201 after renting the mobile power supply 201, the user still cannot charge the mobile power supply 201 online after the mobile power supply 201 is not charged), the user needs to return the mobile power supply 201 to a rental cabinet renting the mobile power supply 201 or other rental cabinets convenient for the user to return, after the user returns the mobile power supply 201, the rental cabinet automatically charges the mobile power supply 201, on one hand, the situation that the user rents the mobile power supply 201 according to a normal program for the first time but does not return the mobile power supply after renting and privatizes the mobile power supply is not generated can be, therefore, the loss of the mobile power supply 201 is reduced, and on the other hand, the user can be prompted to return to the renting cabinet which rents the mobile power supply 201 or other renting cabinets which are convenient for the user to return as soon as possible after using the mobile power supply 201, the renting cabinet automatically charges the mobile power supply 201, and the next user is waited to rent the mobile power supply 201 after the charging is completed, so that the effect of sharing the mobile power supply 201 is really achieved.

The charging lines 2011 have the advantages that one end of each charging line is an electric quantity output end, namely the charging heads can be charging heads of different models, namely a certain number of mobile power supplies 201 stored in the renting cabinet are provided with the charging heads suitable for mobile equipment with an apple system, a certain number of mobile power supplies 201 are provided with the charging heads suitable for mobile equipment with an android system, and the like, and specific configuration conditions can be set according to actual requirements, so that when a user rents, a power supply renting request suitable for the mobile equipment can be input according to the actual requirements of the user, and the renting cabinet outputs the mobile power supply 201 carrying the charging line 2011 of the selected model for the user;

specifically, as shown in fig. 3b, the U-shaped handle may be of a symmetrical structure, and one end of the built-in circuit board is disposed in the housing of the mobile power supply 201, and the charging wire 2011 is located outside the housing and forms the U-shaped handle, because the thickness of the built-in circuit board is thinner than that of the battery in the mobile power supply 201, both ends of the charging wire 2011 can be sufficiently attached to the housing of the mobile power supply 201 better, and when the charging wire 2011 is a U-shaped handle, both ends of the charging wire 2011 do not protrude from the housing of the mobile power supply 201;

as shown in fig. 3c, an explosion diagram of the overall structure of the mobile power supply 201 is shown, where the mobile power supply 201 specifically includes: a case 2012, an internal circuit board 2013, a battery pack 2014 and a charging wire 2011, wherein the battery pack 2014 and the internal circuit board 2013 are located in the case 2012, the internal circuit board 2013 is located at an electrode end side of the battery pack 2014 and is electrically connected with the electrode end, non-electrode sides of adjacent batteries in the battery pack 2014 are in contact, and the mobile power supply 201 further comprises: a signal connector 2015, the signal connector 2015 being electrically connected with the built-in circuit board 2013, connection contacts on the signal connector 2015 being located on the surface of the case body 2012 and being used for being connected with the control circuit board 1031, so that the built-in circuit board 2013 is electrically connected with the control circuit board 1031 through the connection contacts, the built-in circuit board 2013 being further electrically connected with a battery, a charging wire 2011 being arranged at one end of the case body 2012 of the mobile power supply 201, the end having the connection contacts;

the charging wire 2011 includes: an electric quantity output terminal 20112 and an electric quantity input terminal 20111, wherein the electric quantity output terminal 20112 is used for being plugged in the shell body 2012 when the mobile power supply 201 is idle, and is plugged in a charged device when the mobile power supply 201 is used; this electric quantity input 20111 is electrically connected with battery pack 2014 through built-in circuit board 2013 for acquire the electric quantity of battery pack 2014 through built-in circuit board 2013, and supply power to electric quantity output 20112, wherein, electric quantity output 20112 and shell 2012 detachable connections, electric quantity input 20111 and shell 2012 fixed connection.

The battery pack 2014 includes at least: two batteries, which are 18650 lithium batteries, are described below in the embodiments of the present invention, in which the battery pack 2014 includes 2 batteries as an example; the battery pack 2014 and the built-in circuit board 2013 are both located in the shell 2012, and in order to reduce the volume of the whole mobile power supply 201, the adjacent batteries in the battery pack 2014 are arranged in parallel in a contact manner, so that the battery pack 2014 is compact in structure; the polarity of any one electrode side of the battery pack 2014 is the same, the built-in circuit board 2013 is disposed on any one electrode end side of the battery pack 2014, specifically, the built-in circuit board 2013 may be disposed in contact with a positive electrode end side of the battery pack 2014 or disposed in contact with a negative electrode end side of the battery pack 2014, and meanwhile, the built-in circuit board 2013 is further electrically connected to two electrode ends (i.e., a positive electrode end and a negative electrode end) of the battery pack 2014, so as to deliver the electric quantity of the battery pack 2014 to the charging wire 2011 or control the charging of the battery pack 2014.

In the embodiment provided by the invention, compared with the portable power source 201 in the related art that the portable power source 201 has poor portability, the power source has an excessively large width, the user has poor holding feeling and the portable power source is easy to drop off in the process of attaching and charging the electronic device, the charging wire 2011 is arranged outside the shell 2012 and is in a U-shaped handle, so that the user can conveniently hold the portable power source 201 on the premise of not increasing the size area of the width of the portable power source 201, the holding feeling of the user is improved, and meanwhile, the charging wire 2011 is arranged in a U-shaped handle shape, so that the user can conveniently carry the portable power source 201.

One end of the U-shaped handle formed by the charging wire 2011 is an electric quantity output end 20112 (i.e., a charging head), the charging head is magnetically connected with the housing 2012 of the mobile power supply 201, as shown in fig. 3d, for the housing 2012 of the mobile power supply 201, the first plane 20121 of the housing 2012 of the mobile power supply 201 is provided with an insertion groove 201211 and a first fastening assembly, and the electric quantity output end 20112 of the charging wire 2011 is specifically used for being inserted into the insertion groove 201211 when the mobile power supply 201 is idle; a first fastening member for fixing the power output 20112 inserted into the insertion groove 201211;

specifically, the first fastening member includes: a groove portion 201212 and a first magnetic element 201213 (e.g., an N-pole magnet);

wherein, to charging wire 2011, the electric quantity output 20112 of charging wire 2011 includes: a charging terminal 201121 and a connecting portion 201122, wherein the charging terminal 201121 is fixedly arranged on the connecting portion 201122, and the charging terminal 201121 is also used for being plugged in the plugging groove 201211;

specifically, the connecting portion 201122 is provided with a second fastening component, which is used to cooperate with the first fastening component to fix the charging terminal 201121 and the connecting portion 201122 inserted into the insertion groove 201211 on the housing case 2012;

the second fastening assembly comprises: a protrusion 201123 and a second magnetic element 201124 (such as an S-pole magnet), the protrusion 201123 is disposed on a side where the charging head is magnetically connected to the first plane 20121 of the housing case 2012 of the portable power source 201, the second magnetic element 201124 is opposite to the first magnetic element 201213 in magnetism, the protrusion 201123 is used for being connected to the groove 201212 in a matching manner, and the second magnetic element 201124 is used for being connected to the first magnetic element 201213 in a matching manner;

specifically, when the mobile power supply 201 is idle, the protruding portion 201123 on the second fastening component is fixed in the groove portion 201212 of the first fastening component, so as to fix the power output 20112 inserted into the insertion groove 201211; the S-pole magnet on the second fastening assembly and the N-pole magnet on the first fastening assembly are attracted and fixed to each other, so as to fix the connecting portion 201122 on the case casing 2012, that is, after the charging terminal 201121 on the charging wire 2011 is inserted into the inserting groove 201211 of the first plane 20121, the protrusion 201123 is just connected to the groove portion 201212, and the first magnetic element 201213 and the second magnetic element 201124 are just magnetically connected, so that the power output 20112 of the charging wire 2011 just does not protrude out of the first plane 20121 of the case casing 2012 of the mobile power supply 201, and the power output 20112 of the charging wire 2011 is stably attached to the first plane 20121 of the case casing 2012 of the mobile power supply 201 in a detachable manner;

the other end of the U-shaped handle formed by the charging wire 2011 is an electric quantity input end 20111, the electric quantity input end 20111 is inserted into the shell 2012 of the mobile power supply 201 and welded with the internal circuit board 2013, as shown in fig. 3e, for the shell 2012 of the mobile power supply 201, a jack 201221 is arranged on a second plane 20122 of the shell 2012 of the mobile power supply 201, the jack 201221 is used for inserting the electric quantity input end 20111 of the charging wire 2011, and the electric quantity input end 20111 is directly welded on the internal circuit board 2013 (the electric quantity input end 20111 is composed of cored wires);

for the charging wire 2011, after the power input terminal 20111 of the charging wire 2011 is inserted into the insertion hole 201221 of the second plane 20122, the charging wire does not protrude out of the second plane 20122 of the shell body 2012 of the mobile power supply 201.

The signal connector 2015 is electrically connected to the built-in circuit board 2013 and the battery pack 2014 in sequence, and is used for charging the battery pack 2014 through the built-in circuit board 2013 or communicating with an external device (a control circuit board 1031 in the mobile power storage 103 in the rental cabinet);

in the embodiment provided by the invention, the electric quantity input end 20111 on the charging wire 2011 is arranged in the shell 2012 of the mobile power supply 201, is vertically contacted with the built-in circuit board 2013, and is electrically connected with the battery pack 2014 through the built-in circuit board 2013, and the arrangement mode facilitates the wiring of the electric quantity input end 20111 and the built-in circuit board 2013; meanwhile, the structure also enables the structure design of the electric quantity input end 20111 and the built-in circuit board 2013 to be compact; the sum of the thicknesses of the electric quantity input end 20111, the electric quantity output end 20112 and the built-in circuit board 2013 is smaller than or equal to the thickness of the battery pack 2014, so that the electric quantity input end 20111, the electric quantity output end 20112, the built-in circuit board 2013 and the battery pack 2014 can be well packaged by the shell 2012 of the mobile power supply 201, the electric quantity input end 20111, the built-in circuit board 2013 and the battery pack 2014 are compact in structure, and the size of the whole mobile power supply 201 is reduced.

Specifically, the built-in circuit board 2013 specifically includes: the system comprises a microcontroller, a battery electric quantity detection circuit and a charging and discharging management circuit; the battery electric quantity detection circuit and the charging and discharging management circuit are respectively connected with the microcontroller;

the battery electric quantity detection circuit is used for detecting the electric quantity of the battery pack 2014 and sending the detected electric quantity value to the microcontroller;

the microcontroller is configured to determine whether the received electric quantity value meets a set electric quantity threshold, and control the charging and discharging management circuit to charge the battery pack 2014 when the electric quantity value is lower than the set electric quantity threshold; and when detecting that the electric quantity value is full, controlling the charge and discharge management circuit to stop charging the battery pack 2014.

In the embodiment provided by the present invention, the charging and discharging management circuit includes an electric quantity transmission channel for charging and discharging the battery pack 2014, and when detecting that the electric quantity value received by the microcontroller is lower than the set electric quantity threshold, the microcontroller controls the electric quantity transmission channel in the charging and discharging management circuit to be opened, and controls the battery pack 2014 to be charged through the electric quantity transmission channel; when detecting that the charged electric quantity value is full, the microcontroller controls an electric quantity transmission channel in the charge and discharge management circuit to be closed, and stops charging the battery pack 2014.

The set power threshold may be set as required, for example, 30%, 20%, 15%, or 10%, which is not specifically limited in this embodiment of the present invention.

Further, the built-in circuit board 2013 further includes: a protection circuit and a memory module; the protection circuit is connected with the microcontroller and is used for cutting off the switching power supply when the current value or the voltage value in the mobile power supply 201 is detected to be higher than a standard current threshold or a standard voltage threshold; the storage module is connected with the microcontroller and is used for storing the unique identifier of the mobile power supply 201.

In an embodiment of the present invention, the power output 20112 of the charging cable 2011 is provided with a connection portion 201122, and the connection portion 201122 can carry and match with several types of charging terminals 201121 popular in the market, so as to provide a charging head for charging various types of electronic devices (such as smart phones, tablet computers, and the like).

Wherein, be provided with plug socket 201211 and first fastening component on portable power source 201's shell casing 2012, when charging wire 2011 is the U type handle, plug socket 201211, first fastening component and connecting portion 201122 and the fixed method of charging terminal 201121 are as follows:

1. the charging terminal 201121 is inserted into the insertion groove 201211 and the second fastening component on the connecting portion 201122 is fixed to the first fastening component. The opening of the insertion groove 201211 is sized to allow insertion of the largest size of the plurality of types of commercially available charging terminals 201121 into the charging terminal 201121.

2. The recessed portion 201212 of the first fastening member is an upper recessed portion, and it is matched with the protruding portion 201123 of the second fastening member in a male-female shape, so that the position of the charging terminal 201121 is difficult to move horizontally after being plugged into the plugging groove 201211.

3. First fastening components and second fastening components include the polarity difference of magnet and two magnets respectively, and when the installation, two magnet binding surfaces are the positive and negative poles of each other's magnet, also are south pole north pole. With such a design, after the user plugs the charging terminal 201121 into the plug-in slot 201211, the charging terminal 201121 and the connecting portion 201122 can be perfectly attached to the casing 2012 of the portable power source 201 by the cooperation of the two magnets, and the fixed state of the charging terminal and the casing 2012 cannot be changed even if the charging terminal is severely shaken or pulled out with moderate force. The power input 20111 of the charging wire 2011 is fixed on the shell 2012 of the mobile power supply 201 through a fastener and connected with the built-in circuit board 2013.

In particular, the length of the mobile power supply 201 is greater than or equal to 8.0cm and less than or equal to 10.0cm, the width of the mobile power supply 201 is greater than or equal to 3.5cm and less than or equal to 5.5cm, and the thickness of the mobile power supply 201 is greater than or equal to 2.0 and less than or equal to 3.0 cm.

It should be noted that the length of the mobile power supply 201 is a length not counted into the charging wire 2011, wherein the length presented at the orthographic projection angle when the outward protruding charging wire 2011 is in a U-shaped handle is about greater than or equal to 3.5cm and less than or equal to 6.5cm, and the length of the outward protruding charging wire 2011 after being unfolded is about greater than or equal to 8.0cm and less than or equal to 15.0 cm.

Specifically, based on the specific size of the mobile power supply 201 used for storing in the mobile power supply storage compartment 103, the size of the mobile power supply storage compartment 103 provided in the embodiment of the present invention may be as follows: the length of the mobile power supply storage bin 103 is greater than or equal to 18.0cm and less than or equal to 22.0cm, the width of the mobile power supply storage bin 103 is greater than or equal to 5.0cm and less than or equal to 7.0cm, the height of the mobile power supply storage bin 103 is greater than or equal to 4.5 and less than or equal to 7.5cm, and the distance between two adjacent mobile power supply storage bins 103 is greater than or equal to 10.0mm and less than or equal to 20.0 mm.

In the embodiment provided by the present invention, when the mobile power supply 201 is stored in the cavity of the mobile power supply storage bin 103, one end of the mobile power supply 201 having the charging wire 2011 is located at the rear end of the cavity (i.e. a position far away from the bin gate 1032), at this time, the charging wire 2011 and the driving motor are both located at the rear end of the mobile power supply storage bin 103, and the first driving motor 1037 and the second driving motor 1038 are located at a gap between the charging wire 2011 and the side wall of the cavity, so that the structure is more compact, the size of the mobile power supply storage bin 103 cannot be increased due to the addition of the charging wire 2011, and further, under the condition that the size of the mobile power supply storage bin 103 is not increased, the charging wire 2011 can also be provided for the user, meanwhile, the charging wire 2011 does not occupy the space of the mobile power supply 201, so that the size of the mobile power supply 201 can be more miniaturized, on the one hand, the volume, on the other hand, for a user leasing the portable power source 201, the portable power source 201 is more portable due to its smaller volume.

Further, in order to facilitate connection between the control circuit board 1031 and each device, the space is saved more, and the main control module 102 is facilitated to charge the mobile power supply 201 returned to the mobile power supply storage compartment 103 through the control circuit board 1031, based on this, as shown in fig. 4a, the control circuit board 1031 includes a lower circuit board 10311 and a rear circuit board 10312 that are connected to each other; the lower circuit board 10311 is electrically connected to the main control module 102;

the lower circuit board 10311 is further connected to the first driving motor 1037 and the second driving motor 1038;

an opening is formed in the middle of the rear circuit board 10312, and when the portable power source 201 is stored in the portable power source storage bin 103, a charging wire 2011 of the portable power source 201 just passes through the opening;

the mobile power storage 103 further includes: a pin connector 1039, the pin connector 1039 being connected to the rear circuit board 10312; when the mobile power supply 201 returns to the proper position, the contact point on the thimble connector 1039 contacts with the connection contact point on the signal connector 2015 in the mobile power supply 201, so as to receive the electric quantity transmitted by the external power supply through the back circuit board 10312 and charge the mobile power supply 201, at this time, if the mobile power supply 201 needs to be charged, the electric quantity transmitted by the external power supply through the main control module 102 and the bottom circuit board 10311 from the back circuit board 10312 is automatically acquired, so as to charge the mobile power supply 201 (the specific charging process of the mobile power supply 201 is detailed in the following "automatic charging process of the mobile power supply 201 returned to the mobile power supply storage 103 by the mobile power supply rental cabinet").

Wherein, the built-in circuit board 2013 in the mobile power supply 201 is electrically connected with the signal connector 2015, and the built-in circuit board 2013 is electrically connected with the back circuit board 10312 through the connection contacts on the signal connector 2015 and the contact contacts on the pin connector 1039, (wherein, the connection contacts on the signal connector 2015 may be at least four contacts, two contacts are used for charging, two contacts are used for communication, correspondingly, the contact contacts on the pin connector 1039 may also be at least four contacts, two contacts are used for charging, two contacts are used for communication), when the mobile power supply 201 returns to the position, the connection contact points on the signal connector 2015 in the mobile power supply 201 contact with the contact contacts on the pin connector 1039, the mobile power supply 201 is connected with the rear circuit board 10312 through the pin connector 1039, therefore, the communication channel between the built-in circuit board 2013 in the mobile power supply 201 and the main control module 102 is: built-in circuit board 2013-connecting contacts on signal connector 2015 in shell body 2012 of mobile power supply 201-thimble connector 1039-rear circuit board 10312-lower circuit board 10311-main control module 102;

specifically, the built-in circuit board 2013 in the mobile power supply 201 is mainly used for charge and discharge management, lithium battery protection, lithium battery detection, LED lamp display on the shell 2012 of the mobile power supply 201, switching on and off of the mobile power supply 201, storage of SN codes of the mobile power supply 201, reception of a rental cabinet signal, processing of the rental cabinet signal, execution of a designated command, and the like;

wherein, portable power source rents the cabinet and returns the automatic process that charges of portable power source 201 in portable power source storage 103 for the user, and at this moment, portable power source rents the cabinet and can regard as portable power source 201's battery charging outfit, specifically is:

when the user returns the mobile power supply 201, the control circuit board 1031 controls the second driving motor 1038 to drive the second synchronous transmission mechanism 1036 to drive the driving force receiving wheel 1034 to rotate in the forward direction, the mobile power supply 201 is driven by the driving force receiving wheel 1034 to be input into the cavity of the mobile power supply storage bin 103 along the accommodating groove rail 1033 through the door opening 1032 of the mobile power supply storage bin 103, and when the mobile power supply 201 is input to the return completion position, the built-in circuit board 2013 in the mobile power supply 201 is connected with the rear circuit board 10312 through the connection contact on the signal connector 2015 in the shell 2012 of the mobile power supply 201 and the thimble connector 1039;

the lower circuit board 10311 receives the communication signal transmitted by the mobile power supply 201 through the rear circuit board 10312, determines whether the communication signal meets a preset condition, and if so, determines that the return of the mobile power supply 201 is completed (i.e., the mobile power supply 201 is input to a return completion position, and a connection contact on a signal connector 2015 in the mobile power supply 201 is in good contact with a contact on a thimble connector 1039), controls the second driving motor 1038 to stop driving the second synchronous transmission mechanism 1036 to drive the active stress wheel 1034 to rotate; if the detected signal is not satisfied, or the communication signal transmitted by the mobile power supply 201 is not received after the active stressed wheel 1034 rotates for the preset step length, it is determined that the return of the mobile power supply 201 is abnormal (for example, the mobile power supply 201 is inserted in the wrong direction, or is inserted into an unspecified and preset mobile power supply 201, or the mobile power supply 201 is damaged), and the second driving motor 1038 is controlled to drive the second synchronous transmission mechanism 1036 to drive the active stressed wheel 1034 to rotate reversely, so as to exit the mobile power supply 201.

When the mobile power supply 201 is input to the return completion position (i.e., the charging position), the built-in circuit board 2013 in the mobile power supply 201 collects an electrical signal (e.g., a voltage signal) of a battery in the mobile power supply 201;

the built-in circuit board 2013 judges whether the amplitude corresponding to the electric signal is smaller than a preset threshold value;

if the voltage is smaller than the predetermined value, the direct current voltage on the rear circuit board 10312 is transmitted to the battery in the mobile power supply 201 to charge the battery;

the built-in circuit board 2013 further judges whether the amplitude corresponding to the electrical signal meets a charging completion condition;

if so, the transmission of the dc voltage on the rear circuit board 10312 to the battery in the mobile power supply 201 is stopped to stop charging the battery.

In the embodiment provided by the invention, when the mobile power supply 201 is input to the return completion position, the built-in circuit board 2013 in the mobile power supply 201 automatically determines whether a battery connected with the mobile power supply 201 needs to be charged, if so, a direct current voltage is obtained from the post-circuit board 10312 to charge the battery, otherwise, the battery charging is stopped, so that the mobile power supply 201 stored in the mobile power supply storage bin 103 of the rental cabinet can automatically complete the charging, when a user rents the mobile power supply 201 through the mobile power supply rental cabinet, the rental cabinet outputs a mobile power supply 201 with the charging completed (the electric quantity meets the preset requirement) for the user, in addition, a mode that the charging process is automatically controlled by the built-in circuit board 2013 of the mobile power supply 201 is adopted, namely, a direct current voltage with a preset value exists on each post-circuit board 10312, and the mobile power supply 201 actively obtains the direct current voltage when the mobile power supply 201 needs to be charged, when charging is not needed, the direct current voltage is stopped being obtained, and therefore signal processing in the charging process of the mobile power supply 201 is distributed to the built-in circuit boards 2013, so that the signal processing amount of the main control circuit board can be reduced, and a battery in the mobile power supply 201 can be protected.

Wherein, considering that an illegal user may steal the mobile power supply 201 in the rental cabinet through an illegal process, on the basis of the situation that the mobile power supply 201 is used for free, the main control module 102 sends a first control instruction (the first control instruction includes a power output instruction and a power unlocking instruction) to the control circuit board 1031 matched with the operation instruction of the user, the control circuit board 1031 transmits the power unlocking instruction to the built-in circuit board 2013 in the mobile power supply 201, when the built-in circuit board 2013 receives the power unlocking instruction (that is, only when the main control module 102 determines that the mobile power supply 201 needs to be output, the main control module issues the unlocking instruction to the mobile power supply 201), automatically switching to an unlocking state (at this time, the electric quantity output end 20112 of the charging wire 2011 carried by the mobile power supply 201 outputs electric quantity, so as to charge the mobile device of the user connected to the electric quantity output end 20112);

the main control module 102 sends a second control command (the second control command includes a power input command and a power locking command) to the control circuit board 1031 matched with the operation command of the user, when the mobile power supply 201 is inputted to the return completion position (i.e. when the main control circuit board receives the communication signal transmitted by the mobile power supply 201), the control circuit board 1031 transmits the power locking instruction to the built-in circuit board 2013 in the mobile power supply 201, when the built-in circuit board 2013 receives the power locking instruction (that is, after the mobile power supply 201 returns to the proper position, the mobile power supply 201 is automatically controlled to be locked), the locking state is automatically switched to (at this time, the power output terminal 20112 of the charging wire 2011 carried by the mobile power supply 201 cannot output power, so that a user cannot charge the user mobile terminal connected to the power output terminal 20112 even when the user steals the charged mobile power supply 201 by an illegal means).

In the embodiment provided by the invention, the built-in circuit board 2013 automatically controls the mobile power supply 201 to be locked or unlocked, when the mobile power supply 201 is stored in the mobile power supply storage bin 103, the built-in circuit board 2013 in the mobile power supply 201 is in a locked state, only when a user rents the mobile power supply 201 according to a normal program, the built-in circuit board 2013 of the mobile power supply 201 automatically switches to an unlocked state, so that the user can use the mobile power supply 201 to charge the mobile device of the user and further provide a normal charging service for the user renting the mobile power supply 201, and when the user does not steal the mobile power supply 201 according to the normal program, the built-in circuit board 2013 is still in the locked state, at this time, the user cannot use the mobile power supply 201 to charge the mobile device of the user, thereby further preventing the user from stealing the mobile power supply 201 in the rental cabinet by adopting an illegal means, and a case where the portable power source 201 is used free of charge occurs;

further, considering that there may be a situation that when the user returns the mobile power supply 201, the mobile power supply 201 is put back, and thus the mobile power supply 201 is input to the return completion position, the connection contact on the signal connector 2015 in the mobile power supply 201 cannot be contacted with the contact on the pin connector 1039, so that the connection between the mobile power supply 201 and the rear circuit board 10312 cannot be realized, and further, the signal transmission with the lower circuit board 10311 cannot be performed, and the charging operation cannot be performed, as shown in fig. 4b, the pin connector 1039 includes: a first needle connection element 10391 and a second needle connection element 10392;

the first pin connecting element 10391 is disposed on the left side of the rear circuit board 10312 (the first pin connecting element 10391 is soldered on the left side of the rear circuit board 10312), and when the first plane 20121 of the portable power source 201 faces upward and is inputted to the return completion position, the contact point on the first pin connecting element 10391 is contacted with the connection contact point on the signal connector 2015 in the portable power source 201;

the second pin connecting element 10392 is disposed on the right side of the rear circuit board 10312 (the second pin connecting element 10392 is soldered on the right side of the rear circuit board 10312), and when the second plane 20122 of the portable power source 201 faces upward and is inputted to the return completion position, the contact point on the second pin connecting element 10392 contacts the connection contact point on the signal connector 2015 in the portable power source 201;

in the embodiment provided by the present invention, two left and right thimble connection elements for contacting with connection contacts on a signal connector 2015 in the mobile power supply 201 are arranged on the rear circuit board 10312, so that no matter a user puts the front side of the mobile power supply 201 upward into the door 1032 of the mobile power supply storage 103 or puts the back side of the mobile power supply 201 upward into the door 1032 of the mobile power supply storage 103, as long as the user inserts one end of the mobile power supply 201 carrying a charging wire 2011 into the cavity of the mobile power supply storage 103 and places the end in the door 1032 of the mobile power supply storage 103, when the mobile power supply 201 is input to the returning completion position, the connection contacts on the signal connector 2015 in the mobile power supply 201 can be connected with the contact contacts on the thimble connector 1039, so that the mobile power supply 201 is connected with the rear circuit board 10312, and further performs signal transmission with the lower circuit board 10311, and the charging operation is performed, so that the control circuit board 1031 recognizes that the return of the mobile power supply 201 is completed, the fool-proof effect is achieved, and the user experience is further improved.

Further, by controlling the movement door body to move up and down, when the movement door body is on the upper surface, the bin gate 1032 is at the opening position, and when the movement door body is on the lower surface, the bin gate 1032 is at the closing position, so that the input and output of the mobile power supply 201 are not in contact with the movement door body, and the charging wire 2011 of the mobile power supply 201 is prevented from being damaged due to the friction between the bin gate and the charging wire 2011, and on the basis, as shown in fig. 5, the bin gate 1032 includes: a moving door 10321 and a control worm 10322;

the control worm 10322 is connected to the first synchronous transmission mechanism 1035, and the moving door 10321 is engaged with the control worm 10322;

the control worm 10322 is driven by the first synchronous transmission mechanism 1035 to drive the moving door 10321 to move up and down along a direction perpendicular to the input and output movement of the mobile power supply 201, so that the moving door 10321 moves from a closed position to an open position or from the open position to the closed position.

As shown in fig. 6a, AA represents that an annular opening is formed in the body 101 of the rental cabinet and used for arranging the portable power supply storage bin 103, and a bin door 1032 of the portable power supply storage bin 103 arranged in the annular opening is in an open state, BB represents that an annular opening is formed in the body 101 of the rental cabinet and used for arranging the portable power supply storage bin 103, and a bin door 1032 of the portable power supply storage bin 103 arranged in the annular opening is in a closed state;

as shown in fig. 6b, a schematic diagram of the bin gate 1032 of the mobile power storage bin 103 being in an open state is shown, at this time, if the mobile power 201 is stored in the mobile power storage bin 103, the output of the mobile power 201 may be controlled, so that the user can take away the mobile power 201; if the mobile power supply 201 is not stored in the mobile power supply storage bin 103, the mobile power supply 201 placed at the doorway of the bin door 1032 by the user can be input into the mobile power supply storage bin 103, so that the user can finish returning operation of the mobile power supply 201; in addition, when the bin door 1032 of the mobile power supply storage bin 103 is in an open state, the user cannot see the bin door 1032 through the annular opening formed in the cabinet body 101 of the rental cabinet and used for arranging the mobile power supply storage bin 103, so that the overall appearance attractiveness is improved, and the user experience is also improved;

as shown in fig. 6c, a schematic diagram of the compartment door 1032 of the mobile power supply storage compartment 103 being in a closed state is shown, at this time, if the mobile power supply 201 is stored in the mobile power supply storage compartment 103, it is described that a certain user has returned the mobile power supply 201 rented by the certain user to the storage compartment, or a worker supplements a mobile power supply 201 to the storage compartment, so that the next user rents the mobile power supply 201; if the mobile power supply storage bin 103 does not store the mobile power supply 201, it indicates that a certain user rents the mobile power supply 201, at this time, it may wait for the next user to return the rented mobile power supply 201, or wait for a worker to supplement a mobile power supply 201 to the storage bin, so that the next user completes the return operation of the mobile power supply 201; in addition, when door 1032 of portable power source storage compartment 103 is in the closed condition, the annular trompil that is used for setting up portable power source storage compartment 103 that the user seted up on the cabinet body 101 through the lease cabinet can not see the storage compartment cavity completely, that is to say, door 1032 just shelters from the annular trompil that is used for setting up portable power source storage compartment 103 that sets up on the cabinet body 101 of lease cabinet, the seal of portable power source storage compartment 103 has been improved, the whole outward appearance aesthetic measure has been improved, user experience degree has still been improved, in addition, prevent that illegal personnel from prizing portable power source 201 in the portable power source storage compartment 103, the security of inside portable power source 201 has been guaranteed.

Further, in order to facilitate the user to more intuitively recognize the current state of each portable power source storage compartment 103 and to quickly locate the portable power source storage compartment 103 to be provided with the renting or returning function, as shown in fig. 7, annular LED indicator lamps 105 are provided at the borders of a plurality of annular openings 1011 formed in the cabinet body 101 and used for installing the portable power source storage compartment 103;

the LED indicator 105 is configured to indicate current status information of the mobile power storage compartment 103 under the control of the control circuit board 1031, where the current status information includes: whether portable power source 201 is stored, whether portable power source 201 is to be output, whether portable power source 201 is to be input, a charging state, and a state of charge.

Specifically, the annular LED indicator lamp 105 includes: the mobile power supply comprises a ring-shaped circuit board and LED lamp beads arranged on the ring-shaped circuit board, the ring-shaped circuit board is connected with a control circuit board 1031 of a mobile power supply storage bin 103, and when the control circuit board 1031 receives a color indication instruction sent by a main control module 102, the control circuit board 1031 controls to normally light or flash in a corresponding color according to the color indication instruction;

each color, combination of the color and the flashing state, or combination of the color and the normally-on state represents a current state of the mobile power supply storage bin 103, for example, the LED indicator 105 is in the green flashing state to indicate that the mobile power supply storage bin 103 is to output the mobile power supply 201, so that the user locks the storage bin position where the mobile power supply 201 is to be taken away and takes away the rented mobile power supply 201 in time, and for example, when the LED indicator 105 is in the red normally-on state, it indicates that the mobile power supply 201 in the mobile power supply storage bin 103 is low in electric quantity and is to be charged, and the like, the setting can be performed according to actual requirements, so that better human-computer interaction is formed between the rental cabinet and the user, and the experience of the user is improved.

Further, in consideration of the fact that a certain space is reserved at the lower part of the portable power supply renting cabinet in the related art for placing the main control device, the transformer and the like, which results in a large overall size of the portable power supply renting cabinet, in order to further reduce the overall size of the portable power supply renting cabinet, the portable power supply renting cabinet is more miniaturized, and based on this, as shown in fig. 8, the renting cabinet further includes: a power supply access module 106 and a voltage conditioning module 107; the voltage conditioning module 107 is respectively connected to the power access module 106 and the main control module 102;

the power access module 106 is disposed on the rear housing 1012 of the cabinet 101, and is configured to be electrically connected to an external power source and transmit electric energy to the voltage conditioning module 107, wherein the power access module 106 mainly functions as: the system performs leakage and short-circuit protection on the accessed mains supply and also has the function of a fuse;

the voltage conditioning module 107 is fixed on the support plate 108 of the mobile power supply storage bin 103, and is configured to convert the electric energy transmitted by the power supply access module 106 into electric energy with different voltage amplitudes (i.e., transform the mains supply or convert the ac power into dc power);

the main control module 102 is fixed on a support plate 108 of the portable power source storage compartment 103, and is configured to transmit electric energy with different voltage amplitudes to electric devices corresponding to the voltage amplitudes.

In the embodiment provided by the invention, in order to ensure the stability of the rental cabinet, a certain requirement is also considered for the thickness of the rental cabinet, and a certain space is reserved at the rear end of the rental cabinet, so that the power access module 106, the voltage conditioning module 107 and the main control module 102 are all arranged at the rear end of the rental cabinet, and the reserved space at the rear end of the rental cabinet is fully utilized, thereby further reducing the overall volume of the portable power supply rental cabinet, and enabling the portable power supply rental cabinet to be more miniaturized.

Further, considering that the ventilation and heat dissipation structure in the related art is also disposed in the reserved space at the lower portion of the portable power supply rental cabinet, in order to solve the problem of increasing the overall volume of the rental cabinet due to the addition of the ventilation structure, as shown in fig. 9, the base 1013 of the cabinet 101 has a lower air inlet 111, the rear housing 1012 of the cabinet 101 has a rear air outlet 112, and the rear air outlet 112 is provided with an exhaust fan 113.

The air outside the rental cabinet body 101 passes through the lower air inlet 111 on the base 1013, is extracted by the exhaust fan 113 through the portable power source storage bin 103, and is exhausted through the rear air outlet 112 to form an air flowing channel, so that the heat in the rental cabinet body 101 is taken away, namely, the ventilation and heat dissipation functions are realized through the lower air inlet 111, the portable power source storage bin 103 and the rear air outlet 112, so that the heat dissipation effect of the portable power source rental cabinet is achieved, and the normal operation of the portable power source rental cabinet is further ensured;

in the embodiment provided by the invention, in order to ensure the stability of the rental cabinet, the thickness of the rental cabinet is required, and a certain space is reserved at the rear end of the rental cabinet, so that the exhaust fan 113 is arranged on the rear shell 1012 of the rental cabinet, and the reserved space at the rear end of the rental cabinet is fully utilized, so that the ventilation and heat dissipation effects of the rental cabinet can be ensured, and the overall volume of the rental cabinet can be reduced;

specifically, based on the specific structures of the portable power supply renting cabinet, the portable power supply storage bin 103 and the portable power supply 201, the portable power supply renting cabinet provided in the embodiment of the present invention has the following overall dimensions: the height of the renting cabinet is more than or equal to 40cm and less than or equal to 50cm (including the base 1013), the width of the renting cabinet is more than or equal to 35cm and less than or equal to 45cm, and the thickness of the renting cabinet is more than or equal to 28 and less than or equal to 38cm, wherein the size of the renting cabinet can accommodate at least 20 mobile power supply storage bins 103, and particularly in the public places such as shops, stations, airports, tourist attractions and the like with the same size, the size of the renting cabinet is made to be small, so that the renting cabinet has great advantage.

Wherein, above-mentioned portable power source rents cabinet still includes: a wired or wireless communication module (e.g., wifi module, bluetooth module, NFC module, 2/3/4G network module, etc.), a storage module, etc. connected to the host module 102;

in the portable power source renting cabinet provided by the invention, the renting cabinet comprises: the intelligent cabinet comprises a cabinet body 101, a main control module 102 and a plurality of mobile power supply storage bins 103, wherein the main control module 102 and the mobile power supply storage bins 103 are arranged in the cabinet body 101; each mobile power source storage compartment 103 includes: the bin gate 1032, the receiving groove track 1033, the driving force receiving wheel 1034, the first synchronous transmission mechanism 1035, the second synchronous transmission mechanism 1036, the first driving motor 1037 and the second driving motor 1038, and the control circuit board 1031 connected to the main control module 102. In the embodiment of the present invention, two synchronous transmission mechanisms are disposed on the same side in the mobile power supply storage 103, the first synchronous transmission mechanism 1035 is disposed above the second synchronous transmission mechanism 1036, and the two driving motors are disposed at the rear end in the mobile power supply storage 103, so that the structures of the components are compact, the overall space utilization rate is improved, and the cabinet body 101 has a smaller volume and a smaller floor area under the condition of accommodating the same number of mobile power supplies 201, thereby widening the application scenarios of the mobile power supply renting cabinet and improving the flexibility of the placement position of the mobile power supply renting cabinet.

The embodiment of the invention also provides a method for leasing the mobile power supply 201 by using the mobile power supply leasing cabinet, wherein the execution main body of the method is the mobile power supply leasing cabinet, and the method comprises the following steps:

the portable power source renting cabinet sends an operation instruction input by a user to the cloud server, and the operation instruction comprises: a power supply leasing instruction or a power supply returning instruction, wherein the power supply leasing instruction and the power supply returning instruction both carry a leasing cabinet identifier and a user identifier;

receiving indication information generated by the cloud server according to the operation instruction and the stored storage state of the mobile power supply 201 in each mobile power supply storage bin 103, wherein the indication information comprises a storage bin identifier to be controlled;

and controlling the mobile power supply storage bin 103 corresponding to the storage bin identification to input or output the mobile power supply 201.

Further, in order to increase the function of the rental cabinet, the method can be used for pushing advertisements to the users who pass through the rental cabinet and use the rental cabinet, and the method further comprises the following steps:

and receiving the advertisement push message sent by the cloud server, and displaying the advertisement push message and playing the advertisement push message on the touch display screen 104.

In the method for leasing the mobile power supply 201 by using the mobile power supply leasing cabinet provided by the embodiment of the invention, the two synchronous transmission mechanisms are arranged on the same side in the mobile power supply storage bin 103, the first synchronous transmission mechanism 1035 is positioned above the second synchronous transmission mechanism 1036, and the two driving motors are arranged at the rear end in the mobile power supply storage bin 103, so that the structures of all the components are compact, the overall space utilization rate is improved, and under the condition of accommodating the same number of mobile power supplies 201, the cabinet body 101 has a smaller volume and a smaller floor area, so that the application scenes of the mobile power supply leasing cabinet are widened, and the flexibility of the placement positions of the mobile power supply leasing cabinet is improved.

The embodiment of the invention also provides a method for leasing the mobile power supply 201 by using the mobile power supply leasing cabinet, wherein the execution main body of the method is a cloud server, and the method comprises the following steps:

the cloud server receives an operation instruction sent by the lease cabinet or the user terminal, and the operation instruction comprises the following steps: a power supply leasing instruction or a power supply returning instruction, wherein the power supply leasing instruction and the power supply returning instruction both carry a leasing cabinet identifier and a user identifier;

generating indication information according to the stored storage state of the mobile power supply 201 in each mobile power supply storage bin 103 reported by the lease cabinet and the operation instruction, wherein the indication information comprises a storage bin identifier to be controlled;

sending the indication information to a corresponding portable power supply renting cabinet, so that the renting cabinet controls the portable power supply storage bin 103 corresponding to the storage bin identifier to input or output the portable power supply 201;

and receiving lease finishing information returned by the lease cabinet, and controlling the lease cabinet and the user terminal to synchronously display the lease finishing information.

In the method for leasing the mobile power supply 201 by using the mobile power supply leasing cabinet provided by the embodiment of the invention, the two synchronous transmission mechanisms are arranged on the same side in the mobile power supply storage bin 103, the first synchronous transmission mechanism 1035 is positioned above the second synchronous transmission mechanism 1036, and the two driving motors are arranged at the rear end in the mobile power supply storage bin 103, so that the structures of all the components are compact, the overall space utilization rate is improved, and under the condition of accommodating the same number of mobile power supplies 201, the cabinet body 101 has a smaller volume and a smaller floor area, so that the application scenes of the mobile power supply leasing cabinet are widened, and the flexibility of the placement positions of the mobile power supply leasing cabinet is improved.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the present invention in its spirit and scope. Are intended to be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (13)

1. A portable power source renting cabinet, characterized in that, the renting cabinet includes: the mobile power supply comprises a cabinet body, a main control module and a plurality of mobile power supply storage bins, wherein the main control module and the plurality of mobile power supply storage bins are arranged in the cabinet body; wherein:

each portable power source storage compartment all includes: the device comprises a control circuit board, a bin door, an accommodating groove track, a driving stress wheel, a first synchronous transmission mechanism, a second synchronous transmission mechanism, a first driving motor and a second driving motor;

the central shaft of the bin gate is positioned above the central shaft of the driving stress wheel, the first synchronous transmission mechanism is connected with the bin gate with the central shaft being positioned above the bin gate, and the second synchronous transmission mechanism is connected with the driving stress wheel with the central shaft being positioned below the bin gate;

the accommodating groove rails comprise a left accommodating groove rail and a right accommodating groove rail, the widths of the left accommodating groove rail and the right accommodating groove rail are gradually increased in the direction away from the bin door, and the vertical size of the left accommodating groove rail and the vertical size of the right accommodating groove rail at the rear end close to the interior of the mobile power supply storage bin is larger than the thickness of the mobile power supply;

the first synchronous transmission mechanism and the second synchronous transmission mechanism are positioned on the same side in the mobile power storage bin, and the first synchronous transmission mechanism is positioned above the second synchronous transmission mechanism; the first driving motor and the second driving motor are both positioned at the rear end in the mobile power supply storage bin, the first driving motor is respectively connected with the control circuit board and the first synchronous transmission mechanism, and the second driving motor is respectively connected with the control circuit board and the second synchronous transmission mechanism;

the main control module is connected with the control circuit board of each mobile power supply storage bin and used for sending a first control instruction to the control circuit board matched with the operation instruction after receiving the operation instruction of a user, wherein the operation instruction comprises a power supply leasing instruction;

and the control circuit board is used for controlling the first driving motor to drive the first synchronous transmission mechanism to drive the bin gate to be opened and controlling the second driving motor to drive the second synchronous transmission mechanism to drive the driving stress wheel to rotate after receiving the first control instruction, so that the mobile power supply in the cavity of the mobile power supply storage bin is output to the bin gate of the mobile power supply storage bin along the accommodating groove track.

2. The rental cabinet of claim 1, wherein the control circuit board is further configured to control the first driving motor to drive the first synchronous transmission mechanism to close the door if the removal of the mobile power supply is detected after the mobile power supply is output to the door opening.

3. The rental cabinet of claim 2, wherein the operating instructions further comprise: a power return instruction;

the main control module is further used for sending a second control instruction to the control circuit board matched with the power supply returning instruction after receiving the power supply returning instruction;

the control circuit board is further used for controlling the first driving motor to drive the first synchronous transmission mechanism to drive the bin gate to be opened and controlling the second driving motor to drive the second synchronous transmission mechanism to drive the driving stress wheel to rotate after the second control instruction is received, so that a mobile power supply placed at a bin gate opening of the mobile power supply storage bin is input into a cavity of the mobile power supply storage bin along the accommodating groove rail, and the first driving motor is controlled to drive the first synchronous transmission mechanism to drive the bin gate to be closed.

4. The rental cabinet of claim 1, wherein a plurality of mobile power supplies carrying charging wires are stored in the rental cabinet;

when portable power source deposit in when portable power source storage compartment, the charging wire is U type handle and is located rear end in the portable power source storage compartment, wherein, the one end of U type handle is the electric quantity output, and the other end is the electric quantity input, just the electric quantity input inserts portable power source's shell casing is connected rather than built-in circuit board.

5. The rental cabinet of claim 4, wherein the length of the mobile power source is greater than or equal to 8.0cm and less than or equal to 10.0cm, the width of the mobile power source is greater than or equal to 3.5cm and less than or equal to 5.5cm, and the thickness of the mobile power source is greater than or equal to 2.0 and less than or equal to 3.0 cm.

6. The rental cabinet of claim 1, wherein the control circuit board includes a lower circuit board and a rear circuit board connected to each other; the lower circuit board is electrically connected with the main control module;

the lower circuit board is also connected with the first driving motor and the second driving motor;

the middle of the rear circuit board is provided with an opening, and when the mobile power supply is stored in the mobile power supply storage bin, a charging wire of the mobile power supply just penetrates through the opening;

the portable power source storage compartment still includes: a pin connector connected with the rear circuit board; when the mobile power supply returns to the place, the contact point on the thimble connector contacts with the connection contact point on the signal connector in the mobile power supply, and the thimble connector is used for receiving the electric quantity transmitted by the external power supply through the rear circuit board and charging the mobile power supply.

7. The rental cabinet of claim 1, wherein the door comprises: a moving door body and a control worm;

the control worm is connected with the first synchronous transmission mechanism, and the motion door body is clamped on the control worm;

the control worm is used for driving the moving door body to move up and down along a direction perpendicular to the input and output movement of the mobile power supply under the driving of the first synchronous transmission mechanism, so that the moving door body moves from a closing position to an opening position or from the opening position to the closing position.

8. The rental cabinet of claim 1, wherein the cabinet body is provided with annular LED indicators at the borders of a plurality of annular openings for arranging the portable power storage bins;

the LED indicator light is used for indicating the current state information of the mobile power storage bin where the LED indicator light is under the control of the control circuit board, and the current state information comprises: whether or not a mobile power supply is stored, whether or not a mobile power supply is to be output, whether or not a mobile power supply is to be input, a charging state, and a power state.

9. The rental cabinet of claim 1, further comprising: the power supply access module and the voltage conditioning module; the voltage conditioning module is respectively connected with the power access module and the main control module;

the power supply access module is arranged on the rear shell of the cabinet body and used for being electrically connected with an external power supply and transmitting electric energy to the voltage conditioning module;

the voltage conditioning module is fixed on a support plate of the mobile power supply storage bin and used for converting the electric energy transmitted by the power supply access module into electric energy with different voltage amplitudes;

the main control module is fixed on a support plate of the mobile power supply storage bin and used for transmitting electric energy with different voltage amplitudes to electric devices corresponding to the voltage amplitudes.

10. The rental cabinet of claim 1, wherein the base of the cabinet body has a lower air inlet, the rear housing of the cabinet body has a rear air outlet, and the rear air outlet is provided with an exhaust fan.

11. A method for leasing a mobile power supply using the mobile power supply leasing cabinet of any one of claims 1 to 10, wherein the method comprises:

the portable power source renting cabinet sends an operation instruction input by a user to a cloud server, and the operation instruction comprises: a lease instruction or a return instruction;

receiving indication information generated by the cloud server according to the operation instruction and the storage state of the mobile power supply in each mobile power supply storage bin, wherein the indication information comprises a storage bin identifier to be controlled;

and controlling the mobile power supply storage bin corresponding to the storage bin identification to input or output the mobile power supply.

12. The method of claim 11, further comprising:

and receiving an advertisement push message issued by the cloud server, and displaying the advertisement push message and playing the advertisement push message on a touch display screen.

13. A method for leasing a mobile power supply using the mobile power supply leasing cabinet of any one of claims 1 to 10, wherein the method comprises:

the cloud server receives an operation instruction sent by the renting cabinet or the user terminal, wherein the operation instruction comprises the following steps: a lease instruction or a return instruction;

generating indication information according to the stored storage state of the mobile power supply in each mobile power supply storage bin reported by the lease cabinet and the operation instruction, wherein the indication information comprises a storage bin identifier to be controlled;

sending the indication information to a corresponding portable power supply renting cabinet so that the renting cabinet controls the portable power supply storage bin corresponding to the storage bin identification to input or output the portable power supply;

and receiving lease finishing information returned by the lease cabinet, and controlling the lease cabinet and the user terminal to synchronously display the lease finishing information.

Images