CN111311834A - Shared charger rental cabinet and disinfection method - Google Patents

Abstract

The application discloses sharing treasured lease cabinet that charges and disinfection method relates to sharing equipment field, and sharing treasured lease cabinet that charges includes: the storage bin is used for containing the shared charger baby; the main controller, the ultraviolet sterilizer, the clock circuit and the charger return circuit are positioned in the cabinet body; the main controller is connected with the ultraviolet sterilizer, the main controller is connected with the clock circuit, and the main controller is connected with the charge pal return circuit. The shared charger sterilization method comprises the following steps: the main controller receives a return signal, wherein the return signal is a circuit signal generated when the charge pal return circuit monitors that the shared charge pal is returned to the storage bin; the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal and controls the clock circuit to time; the main controller controls the ultraviolet sterilizer to stop emitting ultraviolet rays when the timing duration of the clock circuit reaches the sterilization duration.

Description

Shared charger rental cabinet and disinfection method

Technical Field

The application relates to the field of shared equipment, in particular to a shared charger rental cabinet and a disinfection method.

Background

With the development of mobile terminals such as smart phones and tablet computers, the demand of users for the power bank is increasing. The shared charger is a concept widely proposed in recent years, and is popular with the majority of users due to convenience and rapidness.

In the related art, the shared charger can become a virus carrier, and the virus is spread among different users.

Disclosure of Invention

The embodiment of the application provides a shared charge pal rental cabinet and a disinfection method, wherein the rental cabinet comprises an ultraviolet sterilizer, and the disinfection method can disinfect the shared charge pal by the ultraviolet sterilizer in the shared charge pal rental cabinet. The technical scheme is as follows:

according to an aspect of the application, a shared treasured that charges lease cabinet is provided, shared treasured that charges lease cabinet includes:

the storage bin is used for containing the shared charger baby;

the main controller, the ultraviolet sterilizer, the clock circuit and the charger return circuit are positioned in the cabinet body; the main controller is connected with the ultraviolet sterilizer, the main controller is connected with the clock circuit, and the main controller is connected with the charge pal return circuit.

According to one aspect of the application, a shared charger baby disinfection method is provided, and the method is applied to the shared charger baby rental cabinet, and the method comprises the following steps:

the main controller receives a return signal, wherein the return signal is a circuit signal generated when the charge pal return circuit monitors that the shared charge pal is returned to the storage bin;

the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal and controls the clock circuit to time;

and the main controller controls the ultraviolet sterilizer to stop transmitting the ultraviolet rays when the timing duration of the clock circuit reaches the disinfection duration.

The beneficial effects brought by the technical scheme provided by the embodiment of the application at least comprise:

through set up the ultraviolet sterilizer in the precious lease cabinet body that charges in the sharing, main control unit control ultraviolet sterilizer transmission ultraviolet ray and control timing circuit's timing is long when reaching the disinfection for get comprehensive disinfection after using at every turn to the precious sharing power supply, reduced the virus propagation.

Drawings

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

Fig. 1 is a block diagram illustrating a shared charger rental cabinet according to an exemplary embodiment of the present application;

fig. 2 shows a structure diagram of a shared electric charger rental cabinet according to an exemplary embodiment of the present application;

fig. 3 shows a structure diagram of a shared electric charger rental cabinet according to an exemplary embodiment of the present application;

fig. 4 shows a structure diagram of a shared electric charger rental cabinet according to an exemplary embodiment of the present application;

fig. 5 shows a structure diagram of a shared electric charger rental cabinet according to an exemplary embodiment of the present application;

fig. 6 shows a structure diagram of a shared electric charger rental cabinet according to an exemplary embodiment of the present application;

FIG. 7 illustrates a block diagram of a shared power bank decontamination method provided by an exemplary embodiment of the present application;

FIG. 8 illustrates a block diagram of a shared power bank decontamination method provided by an exemplary embodiment of the present application;

FIG. 9 illustrates a block diagram of a shared power bank decontamination method, provided by an exemplary embodiment of the present application;

FIG. 10 illustrates a block diagram of a shared power bank decontamination method provided by an exemplary embodiment of the present application;

FIG. 11 illustrates a block diagram of a shared power bank decontamination method, provided by an exemplary embodiment of the present application;

fig. 12 shows a block diagram of a disinfection method for a shared power bank according to an exemplary embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Fig. 1 shows a block diagram of a shared electric power bank rental cabinet according to an exemplary embodiment of the present application. The shared charger rental cabinet comprises a cabinet body 100, a main controller 110, a clock circuit 120, an ultraviolet sterilizer 130 and a charger return circuit 140.

The cabinet 100 includes a storage compartment for holding a shared power bank, as shown in fig. 2. Illustratively, the number of bins may be m, with m being a positive integer.

The main controller 110, the clock circuit 120, the ultraviolet sterilizer 130, and the charge pal return circuit 140 are all located in the cabinet 100.

The main controller 110 is connected to the clock circuit 120, the main controller 110 is connected to the uv sterilizer 130, and the main controller 110 is connected to the charge pal return circuit 140.

The ultraviolet sterilizer 130 comprises a control circuit and an ultraviolet lamp bead connected with the control circuit. The ultraviolet lamp beads comprise at least one of first ultraviolet lamp beads and second ultraviolet lamp beads. Illustratively, the first ultraviolet lamp bead is used for emitting ultraviolet rays with a wavelength of 185 nm. Illustratively, the second ultraviolet lamp bead is used for emitting ultraviolet rays with a wavelength of 254 nm.

First ultraviolet lamp pearl is through the ultraviolet ray of emission 185nm wavelength, can turn into ozone with oxygen, disinfects the sharing treasured that charges through ozone. First ultraviolet lamp is through the mode with oxygen transformation ozone for can be more comprehensive to the disinfection and sterilization of sharing treasured that charges.

The second ultraviolet lamp bead can directly damage the structure of partial bacteria by emitting ultraviolet rays with 254nm wavelength. The ultraviolet rays emitted by the second ultraviolet lamp beads can be disinfected and sterilized only in a linear mode.

The utility model discloses a lamp holder, including first ultraviolet lamp pearl and second ultraviolet lamp pearl, first ultraviolet lamp pearl can compensate the defect of second ultraviolet lamp pearl on disinfection for precious disinfection can be more comprehensive and effective to the sharing charge simultaneously. Illustratively, the number of the ultraviolet lamp beads is m or n, wherein m and n are positive integers.

And the clock circuit 120 is used for starting timing when the ultraviolet lamp beads in the ultraviolet sterilizer 130 emit ultraviolet rays.

Illustratively, the number of charge pal return circuits 140 is equal to the number of storage bins 102. There is a one-to-one correspondence between the charge pal return circuit 140 and the storage bins 102. A charge pal return circuit 140 is provided in each storage bin 102.

Illustratively, the bins 102 in the cabinet 100 have a fixed volume, and the volume of each bin 102 is the same. The storage bins 102 are rectangular parallelepipeds, and all the storage bins 102 have the same length, width and height corresponding to the rectangular parallelepipeds. The cross-section of the storage bins 102 is an ellipse, and the cross-section of all the storage bins 102 is the same for the corresponding ellipses. The cross-section of the storage bins 102 has a first shape, and the cross-section of all the storage bins 102 corresponds to the first shape. Alternatively, the volumes of the m bins 102 are different, but the shapes of the m bins 102 are similar. Alternatively, the volumes of the m bins 102 are different, and the shapes of the m bins 102 are also different.

Illustratively, the main controller 110 is configured to receive a return signal, where the return signal is a circuit signal generated when the charge pal return circuit 140 detects that the shared charge pal is returned to the storage bin 102; controlling the ultraviolet sterilizer 130 to emit ultraviolet rays according to the return signal, and controlling the clock circuit 120 to time; when the timing length of the clock circuit 120 reaches the sterilization length, the ultraviolet sterilizer 130 is controlled to stop emitting the ultraviolet rays.

Optionally, the other functional circuit 150 is a charge pal pop-up circuit, which is configured to respond to a request from a user to use a charge pal, and pop up a shared charge pal using the charge pal pop-up circuit.

Optionally, the other functional circuit 150 is a charger circuit, which is used to charge the shared charger that the user returns.

Illustratively, different types of shared power banks are arranged in the shared power bank rental cabinet, the capacity of the shared power banks is different, the types of the power banks supporting charging are different, and the production batches are different. Optionally, when the capacity of the charger is a milliampere, the displayed rental price is b; the capacity of the charger is c milliampere hours, and the lease price is d yuan/hour. a is greater than c and b is greater than d.

Illustratively, the sharing treasured that charges that is provided with the different grade type in the sharing treasured lease cabinet that charges, can be the sharing treasured shape that charges is different. Optionally, the main controller pops up the shared power bank in different shapes according to the difference of the age and gender information in the order information of the user. Optionally, the order information is a male with the age of 20, and the shared charging treasure rental cabinet pops up a shared charging treasure in the shape of a ironman. Optionally, the order information is about a 18-year-old female, and the shared charger rental cabinet pops up a shared charger in the shape of a sponge baby. Optionally, the order information is a male with age 40, and the shared charger baby rental cabinet pops up a common square shared charger baby. Optionally, the order information is about a 50-year-old female, and the shared charger rental cabinet pops up a flower-shaped shared charger.

In conclusion, in the embodiment described in the present application, through set up the ultraviolet disinfector in the cabinet body to set up corresponding control circuit and timing circuit, make and to disinfect the sharing treasured that charges through the ultraviolet disinfector, play certain sterile effect that disinfects, reduced the propagation of bacterium, disease etc. and ensured user's health and safety.

There are at least three different implementations of the uv disinfector 130 described above:

1. the number of the storage bins is m, the m storage bins have a public space in the cabinet body, and m is a positive integer. The ultraviolet sterilizer is arranged in the public space;

2. the storage bin and the ultraviolet sterilizer are m, and m is a positive integer. Wherein the ith ultraviolet sterilizer is arranged in the ith storage bin, and i is an integer not more than m;

3. the cabinet body comprises n returning bins for returning the shared charger, n ultraviolet disinfectors are arranged, and n is a positive integer. Wherein the ith ultraviolet sterilizer is arranged in the ith returning bin, and i is an integer not more than n.

For the first implementation:

fig. 3 is a schematic structural diagram of a shared electric power bank rental cabinet according to an exemplary embodiment of the present application. On the basis of fig. 1, the uv disinfectors 130 in the present embodiment are 1 group, and the uv disinfectors 130 are disposed in a common space of the shared charger rental cabinet, which is a common space that the m storage compartments 102 have within the cabinet 100.

Illustratively, the common space of the shared treasured rental cabinet is a regular cube that can accommodate a lower uv sterilizer.

Illustratively, the common space of the shared treasured rental cabinet is an irregular space that can accommodate the lower uv disinfector.

Illustratively, the number of charge pal return circuits 140 is equal to the number of storage bins 102. There is a one-to-one correspondence between the charge pal return circuit 140 and the storage bins 102. A charge pal return circuit 140 is provided in each storage bin 102. That is, each storage bin 102 has an independent shared charge pal return function, storage function, charging function, and ejection function.

The main controller 110 is configured to receive a return signal, where the return signal is a circuit signal generated when any one of the charge pal return circuits 140 monitors that the shared charge pal is returned to the storage bin 102; controlling the ultraviolet sterilizer 130 to emit ultraviolet rays according to the return signal, and controlling the clock circuit 120 to time; when the timing length of the clock circuit 120 reaches the sterilization length, the ultraviolet sterilizer 130 is controlled to stop emitting the ultraviolet rays.

In summary, in the rental cabinet for the shared charger baby provided in this embodiment, the same ultraviolet sterilizer 130 sterilizes all the storage bins 102, so that the structure is relatively simple, and the same shared charger baby may be sterilized many times during the charging and storing process, so that the sterilization effect is better.

For the second implementation manner:

fig. 4 is a schematic structural diagram of a shared electric power bank rental cabinet according to an exemplary embodiment of the present application. On the basis of fig. 1, the number of uv sterilizers 130 in this embodiment is m, and the number of uv sterilizers 130 is equal to the number of storage bins 102. Each uv sterilizer 130 is disposed in a different storage bin 102. The ith uv sterilizer 130 is disposed in the ith storage bin 102, and i is a positive integer no greater than m.

Illustratively, each (or at least one) uv disinfector 130 is/are designed as an integrated circuit board on which a control circuit and uv lamp beads connected to the control circuit are arranged. The integrated circuit board may be a customized PCB circuit board, thereby reducing the size and facilitating the arrangement in the storage bin 102.

Illustratively, the number of charge pal return circuits 140 is equal to the number of storage bins 102. There is a one-to-one correspondence between the charge pal return circuit 140 and the storage bins 102. A charge pal return circuit 140 is provided in each storage bin 102. That is, each storage bin 102 has an independent shared charge pal return function, storage function, charging function, and ejection function.

The main controller 110 is configured to receive a return signal, where the return signal is a circuit signal generated when the ith charge pal return circuit 140 monitors that the shared charge pal is returned to the ith storage bin 102; controlling the ith ultraviolet sterilizer 130 to emit ultraviolet rays according to the return signal so as to sterilize the shared charger baby in the ith storage bin 102 and control the clock circuit 120 to time; when the timing length of the clock circuit 120 reaches the sterilization length, the ith ultraviolet sterilizer 130 is controlled to stop emitting the ultraviolet rays.

In conclusion, in the shared treasured that charges lease cabinet that this embodiment provided, every storage storehouse all is provided with corresponding ultraviolet ray disinfection ware, and when the shared treasured that charges in the ith storage storehouse was returned, the ith ultraviolet ray disinfection ware that sets up in the control ith storage storehouse disinfected, because every storage storehouse can disinfect alone, therefore the energy that the disinfection consumed is less.

For the third implementation:

fig. 5 is a schematic structural diagram of a shared electric power bank rental cabinet according to an exemplary embodiment of the present application. As can be seen in fig. 6, the cabinet 100 includes a return bin 101 and a storage bin 102. The return bin 101 is a return bin for returning the shared power bank. The number of return bins 101 may be n, the number of storage bins 102 may be m, and n and m are positive integers.

Illustratively, the returning bins 101 are cuboids, and the lengths, widths and heights of all the returning bins 101 corresponding to the cuboids are the same. The cross section of the returning bin 101 is an ellipse, and the corresponding ellipses of the cross sections of all the returning bins 101 are the same. The cross-sections of the return bins 101 have a first shape, and the cross-sections of all the return bins 101 correspond to the first shape. The n return bins 101 are different in volume, but the n return bins 101 are similar in shape. The volumes of the n returning bins 101 are different from each other, and the shapes of the n returning bins 101 are also different.

Optionally, the other functional circuit 150 further comprises a charge pal carrying circuit for transporting the shared charge pal returned by the user from the return bin 101 to the storage bin 102, and corresponding mechanical components. Optionally, the shared power bank borrowed by the user is ejected from the storage bin 102.

Illustratively, each (or at least one) uv disinfector 130 is/are designed as an integrated circuit board on which a control circuit and uv lamp beads connected to the control circuit are arranged. The integrated circuit board may be a customized PCB circuit board, thereby reducing the size and facilitating the arrangement in the storage bin 102.

Illustratively, the number of charge pal return circuits 140 is equal to the number of return bins 101. There is a one-to-one correspondence between the charge pal return circuit 140 and the return bins 101. A charge pal return circuit 140 is provided in each return bin 101. That is, each of the return silos 101 has an independent shared charge pal return function, and each of the storage silos 102 has an independent storage function, a charging function, and an ejection function. The number of return bins 101 and storage bins 102 may be different, such as 2 for return bins 101 and 8 for storage bins 102.

The main controller 110 is configured to receive a return signal, where the return signal is a circuit signal generated when the i-th charge pal return circuit 140 monitors that the shared charge pal is returned to the i-th return bin 101; controlling the ith ultraviolet sterilizer 130 to emit ultraviolet rays according to the return signal so as to sterilize the shared charger baby in the ith return bin 101 and control the clock circuit 120 to time; when the timing length of the clock circuit 120 reaches the sterilization length, the ith ultraviolet sterilizer 130 is controlled to stop emitting the ultraviolet rays.

Alternatively, after the shared power bank is sterilized in the return bin 101, the main controller 110 controls the power bank carrying circuit and the corresponding mechanical components to transport the power bank from the return bin 101 to the vacant storage bin 102.

In summary, in the shared treasured that charges lease cabinet that this embodiment provided, every storehouse of returning all is provided with corresponding ultraviolet disinfector, and when the shared treasured that charges in the ith storehouse of returning was returned, the ith ultraviolet disinfector that sets up in the control ith storehouse of returning disinfected, because every storehouse of returning can disinfect alone and the quantity in storehouse of returning is less, consequently can realize the disinfection alone in every storehouse of returning under the condition that sets up less ultraviolet disinfector 130 to the energy that disinfection process consumed is less.

Fig. 7 shows a flowchart of a disinfection method for a shared charger baby according to an exemplary embodiment of the present application, which is exemplified by applying the method to the shared charger baby rental cabinet shown in fig. 1. The method comprises the following steps:

step 702, the main controller receives a return signal;

the return signal is a circuit signal generated when the charge pal return circuit monitors that the shared charge pal is returned to the storage bin.

Illustratively, after the user uses the shared power bank, the user returns the shared power bank to the storage bin (or return bin) of the rental cabinet of the shared power bank. When the charge pal return circuit monitors that the shared charge pal is returned to the storage bin (or the return bin), a circuit signal is generated.

Illustratively, the user returns the shared charging treasure to the shared charging treasure rental cabinet, and after the return operation is performed on the mobile phone, the main controller receives the return signal.

Step 704, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal and controls the clock circuit to time;

illustratively, the ultraviolet sterilizer may be placed in the common space of the cabinet. Illustratively, the ultraviolet sterilizer is disposed within a storage compartment within the cabinet. Illustratively, the ultraviolet sterilizer is placed in a return bin within the cabinet.

The number of the ultraviolet disinfectors can be 1, and can also be m or n, wherein m and n are positive integers.

Illustratively, the ultraviolet disinfector comprises a control circuit and an ultraviolet lamp bead. The ultraviolet lamp beads comprise at least one of first ultraviolet lamp beads and second ultraviolet lamp beads. Illustratively, the first ultraviolet lamp bead is used for emitting ultraviolet rays with a wavelength of 185 nm. Illustratively, the second ultraviolet lamp bead is used for emitting ultraviolet rays with a wavelength of 254 nm.

After the main controller receives the return signal, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal and controls the clock circuit to time.

The clock circuit is controlled to time, and at least two implementation modes exist: 1. the Clock circuit has a timing function, such as a Real Time Clock (RTC) circuit, the main controller controls the Clock circuit to Time for a Time length x, the Time length x is a disinfection Time length, and after the Time is over, the Clock circuit sends a timing end signal to the main controller; 2. the clock circuit does not have a timing function, the main controller obtains a clock signal from the clock circuit, and the main controller performs timing of the duration x according to the clock signal.

And step 706, the main controller controls the ultraviolet sterilizer to stop emitting ultraviolet rays when the timing duration of the clock circuit reaches the sterilization duration.

Ultraviolet lamp pearl in the ultraviolet disinfector has certain life, needs to control the time that ultraviolet lamp pearl launches the ultraviolet ray at every turn. But again, the time for which the uv light is emitted must not fall below the empirical threshold in order to more thoroughly disinfect the shared charge. Therefore, the timing length (i.e., the time for emitting the ultraviolet rays) needs to reach the sterilization length, the main controller controls the ultraviolet sterilizer to stop emitting the ultraviolet rays.

In an optional embodiment, after the disinfection is completed, the main controller further sends a disinfection notification to the target user account through a notification channel, where the notification channel includes: at least one of an applet, an application program, an audio component or a prompt light component on the shared charger rental cabinet, and a short message. The target user account includes: sharing the account number of the last lease user of the charge pal, and/or sharing the management account number of the lease cabinet of the charge pal.

Illustratively, the main controller sends a disinfection notification to the management account of the shared charging treasure rental cabinet by using the applet, and the disinfection notification includes the serial number and the disinfection duration of the disinfected shared charging treasure.

Illustratively, the main controller sends a disinfection notification to the account of the last renting user of the shared charging treasure by using a short message, wherein the disinfection notification includes the serial number and the disinfection duration of the disinfected shared charging treasure.

To sum up, in the embodiment of this application, main control unit receives the signal of returning, controls ultraviolet disinfector transmission ultraviolet ray, when the timing circuit calculates that ultraviolet disinfector transmission is ultraviolet for long time reaches disinfection duration, main control unit control ultraviolet disinfector stops transmitting ultraviolet ray for to the sharing precious disinfection of charging comparatively thoroughly, also can be relieved more when the user uses the treasured that charges.

Fig. 8 shows a flowchart of a disinfection method for a shared charger baby according to an exemplary embodiment of the present application, which is exemplified by applying the method to the shared charger baby rental cabinet shown in fig. 3. The method comprises the following steps:

step 802, the main controller receives a return signal;

step 804, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one storage bin;

the treasured that charges returns at the user, will charge behind the treasured puts back the storage storehouse, can trigger to charge precious return circuit and produce the signal of returning.

Illustratively, the storage storehouse of sharing treasured lease cabinet that charges is m, and m storage storehouses have in the internal public space that has of cabinet, and ultraviolet sterilizer sets up in public space, and m is the positive integer.

Illustratively, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one of the storage bins.

Step 806, the main controller determines the disinfection duration according to the order information of the shared charger;

the order signal comprises at least one of the use duration of the shared power bank, the user information of the shared power bank, the use place of the shared power bank and the use path of the shared power bank.

Illustratively, the main controller determines the disinfection duration according to the use duration of the shared power bank. The length of time for sterilization may be one tenth of the length of time for use.

Illustratively, the main controller determines the disinfection duration according to the use place of the shared charger baby. For example, the shared charger is used in places such as supermarkets, malls, amusement parks and the like where people are dense and air is not particularly circulated, and the disinfection time is A minutes. For example, the shared charger is used in parks, playgrounds and other places where personnel are few and air is circulated, and the disinfection time is B minutes. Wherein the value A is greater than the value B.

Illustratively, the main controller determines the disinfection duration according to the use path of the shared charge pal. For example, the route is always in a field ventilation place, and the disinfection time is C minutes. For example, the path is always indoors and the disinfection duration is D minutes. Wherein the value C is less than the value D.

Step 808, the master controller controls the clock circuit to time;

and step 810, the main controller controls the ultraviolet sterilizer to stop emitting ultraviolet rays when the timing duration of the clock circuit reaches the sterilization duration.

In summary, in the embodiments described in the present application, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one of the storage bins, and determines the sterilization duration according to the order information. The shared charging treasure rental cabinet has the advantages that different disinfection durations are set for different use conditions corresponding to different returned shared charging treasures, and a better choice can be made between the service life and the disinfection effect of the ultraviolet disinfector.

Fig. 9 shows a flowchart of a disinfection method for a shared charger baby according to an exemplary embodiment of the present application, which is exemplified by applying the method to the rental cabinet of the shared charger baby shown in fig. 4, and the method is as follows:

step 902, the main controller receives a return signal;

904, controlling the ith ultraviolet sterilizer to emit ultraviolet rays by the main controller according to the return signal corresponding to the ith storage bin;

the storage storehouse and the ultraviolet disinfector in the shared treasured that charges lease cabinet are m, and the ith ultraviolet disinfector sets up in the ith storage storehouse, and i is for the integer that is not more than m, and m is the positive integer. And controlling the ith ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to the ith storage bin.

Step 906, the main controller determines the disinfection duration according to the order information of the shared charger;

the order signal comprises at least one of the use duration of the shared power bank, the user information of the shared power bank, the use place of the shared power bank and the use path of the shared power bank.

Illustratively, the main controller determines the disinfection duration according to the use duration of the shared power bank. The length of time for sterilization may be one tenth of the length of time for use.

Illustratively, the main controller determines the disinfection duration according to the use place of the shared charger baby. For example, the shared charger is used in places such as supermarkets, malls, amusement parks and the like where people are dense and air is not particularly circulated, and the disinfection time is A minutes. For example, the shared charger is used in parks, playgrounds and other places where personnel are few and air is circulated, and the disinfection time is B minutes. Wherein the value A is greater than the value B.

Illustratively, the main controller determines the disinfection duration according to the use path of the shared charge pal. For example, the route is always in a field ventilation place, and the disinfection time is C minutes. For example, the path is always indoors and the disinfection duration is D minutes. Wherein the value C is less than the value D.

Step 908, the main controller controls the clock circuit to time;

in step 910, the main controller controls the ultraviolet sterilizer to stop emitting ultraviolet rays when the timing duration of the clock circuit reaches the sterilization duration.

In summary, in the embodiments described in the present application, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one of the storage bins, and determines the sterilization duration according to the order information. The shared charging treasure rental cabinet has the advantages that different disinfection durations are set for different use conditions corresponding to different returned shared charging treasures, and a better choice can be made between the service life and the disinfection effect of the ultraviolet disinfector. In addition, ultraviolet lamp beads are arranged in each storage bin, and the single bin can be disinfected, so that the shared charging treasure can be disinfected more thoroughly, propagation of bacterial diseases and the like is reduced, and a user can experience more safely and healthily.

Fig. 10 shows a flowchart of a disinfection method for a shared charger baby according to an exemplary embodiment of the present application, which is exemplified by applying the method to the rental cabinet of the shared charger baby shown in fig. 5, and the method is as follows:

step 1002, the main controller receives a return signal;

1004, controlling the ith ultraviolet sterilizer to emit ultraviolet rays by the main controller according to a return signal corresponding to the ith return bin;

a returning bin is arranged in the shared charger rental cabinet, the returning bin and the ultraviolet disinfectors are n, the ith ultraviolet disinfector is arranged in the ith returning bin, i is an integer not greater than n, and n is a positive integer; and controlling the ith ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to the ith return bin.

Optionally, the number of return bins is less than the number of storage bins.

Step 1006, the main controller determines the disinfection duration according to the order information of the shared charger;

the order signal comprises at least one of the use duration of the shared power bank, the user information of the shared power bank, the use place of the shared power bank and the use path of the shared power bank.

Illustratively, the main controller determines the disinfection duration according to the use duration of the shared power bank. The length of time for sterilization may be one tenth of the length of time for use.

Illustratively, the main controller determines the disinfection duration according to the use place of the shared charger baby. For example, the shared charger is used in places such as supermarkets, malls, amusement parks and the like where people are dense and air is not particularly circulated, and the disinfection time is A minutes. For example, the shared charger is used in parks, playgrounds and other places where personnel are few and air is circulated, and the disinfection time is B minutes. Wherein the value A is greater than the value B.

Illustratively, the main controller determines the disinfection duration according to the use path of the shared charge pal. For example, the route is always in a field ventilation place, and the disinfection time is C minutes. For example, the path is always indoors and the disinfection duration is D minutes. Wherein the value C is less than the value D.

Step 1008, the master controller controls the clock circuit to time;

step 1010, the main controller controls the ultraviolet sterilizer to stop emitting ultraviolet rays when the timing duration of the clock circuit reaches the sterilization duration.

In summary, in the embodiment described in the present application, the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one of the return bins, and determines the sterilization duration according to the order information. The shared charging treasure rental cabinet has the advantages that different disinfection durations are set for different use conditions corresponding to different returned shared charging treasures, and a better choice can be made between the service life and the disinfection effect of the ultraviolet disinfector. In addition, ultraviolet lamp beads are arranged in each returning bin, and single-bin disinfection is carried out, so that the shared charging treasure is disinfected more thoroughly, propagation of bacterial diseases and the like is reduced, and a user can experience more safely and healthily.

Fig. 11 shows a block diagram of a disinfection method for a shared power bank according to an exemplary embodiment of the present application. The method comprises the following steps:

step 1101, start;

step 1102, initializing software and hardware;

the precious lease equipment that charges accomplishes the initialization of software and hardware equipment, guarantees simultaneously that the software is in normal condition, and the precious that charges can borrow can still.

Step 1103, whether a charge pal is returned;

the main controller judges whether the charge pal is returned, and if the charge pal is returned, the step 1104 is executed. If no charger returns, no operation is executed.

Step 1104, turning on the ultraviolet lamp control circuit, controlling the ultraviolet lamp to be turned on, and starting sterilization;

the main controller controls the ultraviolet lamp beads of the ultraviolet sterilizer to emit ultraviolet rays.

Step 1105, start RTC timing;

the main controller controls the timing circuit to start timing when the ultraviolet lamp emits ultraviolet rays.

Step 1106, whether the disinfection time is up;

the main controller determines whether the time for the ultraviolet sterilizer to emit ultraviolet rays reaches a sterilization duration, and if the sterilization duration is reached, performs step 1107. And if the disinfection duration is not reached, controlling the ultraviolet sterilizer to emit ultraviolet rays.

The sterilization duration is determined according to the user information, the use duration, the use path, and the like in the order information.

Illustratively, the main controller determines the disinfection duration according to the use duration of the shared power bank. The length of time for sterilization may be one tenth of the length of time for use.

Illustratively, the main controller determines the disinfection duration according to the use place of the shared charger baby. For example, the shared charger is used in places such as supermarkets, malls, amusement parks and the like where people are dense and air is not particularly circulated, and the disinfection time is A minutes. For example, the shared charger is used in parks, playgrounds and other places where personnel are few and air is circulated, and the disinfection time is B minutes. The value a is greater than the value B.

Illustratively, the main controller determines the disinfection duration according to the use path of the shared charge pal. For example, the route is always in a field ventilation place, and the disinfection time is C minutes. For example, the path is always indoors and the disinfection duration is D minutes. The value C is smaller than the value D.

Step 1107, turn off the ultraviolet lamp.

The main controller controls the ultraviolet lamp bead in the ultraviolet sterilizer to stop emitting ultraviolet rays, and continues to execute step 1103.

In summary, in the embodiment described in the present application, the ultraviolet sterilizer is disposed in the public space of the shared charger rental cabinet, so as to sterilize the returned shared charger, and in a special period, the user can experience more safely and healthily, and the spread of bacterial diseases and the like is reduced.

Fig. 12 is a block diagram illustrating a disinfection method for a shared power bank according to an exemplary embodiment of the present application. The method comprises the following steps:

step 1201, start;

step 1202, initializing software and hardware;

step 1203, judging whether a charge pal returns;

the main controller judges whether the charge pal is returned, and if the charge pal is returned, the step 1204 is executed. If no charger returns, no operation is executed.

Step 1204, turning on an ultraviolet lamp control circuit, controlling an ultraviolet lamp to be turned on, and starting sterilization;

the main controller controls the ultraviolet lamp beads of the ultraviolet sterilizer to emit ultraviolet rays.

Optionally, the ultraviolet lamp bead in the ultraviolet sterilizer may also be a device, which may spray 84 a sterilizing liquid, and which also provides a drying function.

Optionally, ultraviolet lamp pearl among the ultraviolet disinfector can also be a device, and the device can spray alcohol disinfection liquid to the device still provides the stoving function. Illustratively, alcohol is medical alcohol at 75% concentration.

Optionally, ultraviolet lamp pearl among the ultraviolet disinfector can also be a device, and the device can improve the temperature of public space in the precious lease cabinet that charges of sharing, carries out high temperature disinfection to this temperature does not cause harmful effects to equipment and precious that charges.

Illustratively, storage storehouse and the ultraviolet sterilizer in the shared treasured lease cabinet that charges are m, and the ith ultraviolet sterilizer sets up in the ith storage storehouse, and i is the integer that is not more than m, and m is the positive integer. And controlling the ith ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to the ith storage bin.

Step 1205, starting RTC timing;

step 1206, whether the disinfection time is up;

the main controller determines whether the time that the uv sterilizer emits the uv rays reaches a sterilization duration, and if the sterilization duration is reached, performs step 1207. And if the disinfection duration is not reached, controlling the ultraviolet sterilizer to emit ultraviolet rays.

The main controller determines whether the time for the ultraviolet sterilizer to emit ultraviolet rays reaches a sterilization duration, and if the time reaches the sterilization duration, it performs step 907. And if the disinfection duration is not reached, controlling the ultraviolet sterilizer to emit ultraviolet rays.

The sterilization duration is determined according to the user information, the use duration, the use path, and the like in the order information.

Illustratively, the main controller determines the disinfection duration according to the use duration of the shared power bank. The length of time for sterilization may be one tenth of the length of time for use.

Illustratively, the main controller determines the disinfection duration according to the use place of the shared charger baby. For example, the shared charger is used in places such as supermarkets, malls, amusement parks and the like where people are dense and air is not particularly circulated, and the disinfection time is A minutes. For example, the shared charger is used in parks, playgrounds and other places where personnel are few and air is circulated, and the disinfection time is B minutes. The value a is greater than the value B.

Illustratively, the main controller determines the disinfection duration according to the use path of the shared charge pal. For example, the route is always in a field ventilation place, and the disinfection time is C minutes. For example, the path is always indoors and the disinfection duration is D minutes. The value C is smaller than the value D.

Step 1207, the ultraviolet lamp of the corresponding bin is closed.

Illustratively, the ultraviolet lamp pearl of main control unit control storage position of storehouse stops to emit the ultraviolet ray.

Illustratively, the main control unit controls the ultraviolet lamp beads of the returning bin to stop emitting ultraviolet rays.

After the main controller controls the ultraviolet lamp bead to stop emitting ultraviolet rays, step 1203 is continuously executed.

In conclusion, in the embodiment of this application, through set up ultraviolet disinfector in the storage storehouse of sharing treasured lease cabinet that charges or the storehouse of returning, the sharing treasured that returns carries out the disinfection in single storehouse, in the special period, can give the user experience safe and healthy more, reduce the propagation of bacterial disease etc..

It should be understood that reference to "a plurality" herein means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (14)

1. A shared treasured that charges leases cabinet, its characterized in that, shared treasured that charges leases cabinet includes:

the storage bin is used for containing the shared charger baby;

the main controller, the ultraviolet sterilizer, the clock circuit and the charger return circuit are positioned in the cabinet body; the main controller is connected with the ultraviolet sterilizer, the main controller is connected with the clock circuit, and the main controller is connected with the charge pal return circuit.

2. The shared treasures rental cabinet of claim 1, wherein the uv disinfector comprises: the control circuit is connected with the ultraviolet lamp beads, and the ultraviolet lamp beads comprise at least one of first ultraviolet lamp beads and second ultraviolet lamp beads;

the first ultraviolet lamp bead is used for emitting ultraviolet rays with 185nm wavelength;

the second ultraviolet lamp bead is used for emitting ultraviolet rays with 254nm wavelength.

3. The shared treasured rental cabinet of claim 1, wherein the storage bins are m, the m storage bins have a common space within the cabinet body, m is a positive integer;

the ultraviolet sterilizer is disposed in the common space.

4. The shared treasured rental cabinet of claim 1, wherein the storage bin and the uv disinfector are each m, m being a positive integer;

wherein the ith ultraviolet sterilizer is arranged in the ith storage bin, and i is an integer not more than m.

5. The shared treasured rental cabinet of claims 3 or 4, wherein the treasured return circuits are m, m being a positive integer;

the ith charge pal return circuit is arranged in the ith storage bin, and i is an integer not greater than m.

6. The shared charger baby rental cabinet of claim 1, wherein the cabinet body comprises n returning bins for returning the shared charger baby, the number of the ultraviolet ray disinfectors is n, and n is a positive integer;

wherein the ith ultraviolet sterilizer is arranged in the ith returning bin, and i is an integer not more than n.

7. The shared treasured rental cabinet of claim 6, wherein there are n treasured return circuits, n being a positive integer;

the ith charge pal return circuit is arranged in the ith return bin, and i is an integer not greater than n.

8. The shared treasures rental cabinet of claim 4 or 6, wherein the uv disinfector comprises: the integrated circuit board is provided with a control circuit and ultraviolet lamp beads connected with the control circuit.

9. A disinfection method for a shared charger baby, which is applied to the shared charger baby rental cabinet of claim 1, and comprises the following steps:

the main controller receives a return signal, wherein the return signal is a circuit signal generated when the charge pal return circuit monitors that the shared charge pal is returned to the storage bin;

the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal and controls the clock circuit to time;

and the main controller controls the ultraviolet sterilizer to stop transmitting the ultraviolet rays when the timing duration of the clock circuit reaches the disinfection duration.

10. The method of claim 9, wherein the number of the storage bins in the shared treasured rental cabinet is m, the m storage bins have a common space within the cabinet body, the uv disinfector is disposed within the common space, m is a positive integer;

the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal, and comprises:

and controlling the ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to any one storage bin.

11. The method of claim 9, wherein the storage bins and the uv disinfectors in the shared charger rental cabinet are m, an ith uv disinfector is disposed in the ith storage bin, i is an integer no greater than m, and m is a positive integer;

the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal, and comprises:

and controlling the ith ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to the ith storage bin.

12. The method of claim 9, wherein a return bin is provided in the shared charger rental cabinet, wherein the return bin and the uv disinfector are n, wherein the ith uv disinfector is provided in the ith return bin, i is an integer not greater than n, and n is a positive integer;

the main controller controls the ultraviolet sterilizer to emit ultraviolet rays according to the return signal, and comprises:

and controlling the ith ultraviolet sterilizer to emit ultraviolet rays according to the return signal corresponding to the ith return bin.

13. The method according to any one of claims 9 to 12, further comprising:

determining the disinfection duration according to the order information of the shared charger;

wherein the order information comprises: the service life of the shared charging pal is long, and the user information of the shared charging pal, the use place of the shared charging pal and the use path of the charging pal are at least one of long.

14. The method according to any one of claims 9 to 12, further comprising:

the main controller is used for sending a disinfection notice to a target user account by adopting a notice channel, and the notice channel comprises: at least one of an applet, an application program, an audio component or a prompt light component on the shared charger rental cabinet, and a short message;

wherein the target user account comprises: the account number of the last lease user of the shared charging treasure, and/or the management account number of the shared charging treasure lease cabinet.

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