CN111144869A - Electric appliance charging method and device - Google Patents

Abstract

The disclosure relates to the technical field of electric appliance control, in particular to an electric appliance charging method and device. By acquiring the service time and the occupied time of the target electric appliance by the target user and calculating the service cost of the target electric appliance according to the service time and the occupied time of the target electric appliance by the target user, the service cost of the target electric appliance can be calculated from multiple dimensions, so that the charging of the target electric appliance is more reasonable.

Description

Electric appliance charging method and device

Technical Field

The disclosure relates to the technical field of electric appliance control, in particular to an electric appliance charging method and device.

Background

At present, shared electric appliances such as a washing machine, an air conditioner or a microwave oven are generally arranged in public areas such as dormitories, public rental houses, hotels or office buildings. When users use the shared electrical appliances, charging is usually performed only according to single factors such as the number of times of use or the time of use of the users, which causes the problem of unreasonable charging and cannot be applied to differentiated application scenarios.

Disclosure of Invention

In order to provide a more reasonable charging mode for shared electric appliances, the present disclosure provides an electric appliance charging method and apparatus.

In one aspect, an embodiment of the present disclosure provides an electrical appliance charging method, where the method includes:

acquiring the use time and the occupied time of a target user on a target electrical appliance;

and calculating the use cost of the target electrical appliance according to the use time and the occupied time of the target electrical appliance by the target user.

Optionally, after obtaining the usage time and the occupation time of the target user on the target electrical appliance, the charging method includes:

summarizing the service time and the occupied time of a target user on the target electric appliance through a main control module in the target electric appliance;

the calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electrical appliance through a cost calculation module in the target electrical appliance.

Optionally, after obtaining the usage time and the occupation time of the target user on the target electrical appliance, the charging method includes:

sending the use time and the occupation time of the target electrical appliance by the target user to an external computing device;

the calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electric appliance through the external calculation device.

Optionally, before calculating the usage charge of the target appliance, the billing method includes:

obtaining rates corresponding to the use time and the occupation time of a target user on a target electric appliance respectively;

the method for calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use charge of the target electric appliance according to the rates corresponding to the use time and the occupation time of the target electric appliance by the target user and the use time and the occupation time of the target electric appliance by the target user respectively.

Optionally, the calculating the usage cost of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the rate corresponding to the usage time and the occupation time of the target electrical appliance by the target user respectively includes:

calculating the usage charge of the target electrical appliance according to the following formula

C＝K₁·T₁+K₂·T₂

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁And K₂And respectively providing the rates corresponding to the service time and the occupied time of the target electric appliance for the target user.

Optionally, before calculating the usage charge of the target appliance, the billing method includes:

obtaining a rate corresponding to the service time of the target electric appliance by the target user and a rate corresponding to the difference value of the occupied time of the target electric appliance by the target user and the service time;

the method for calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electric appliance according to the use time and the occupation time of the target electric appliance by the target user and the charge rate corresponding to the difference value between the use time and the occupation time of the target electric appliance by the target user and the use time.

Optionally, the calculating the usage cost of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the rate corresponding to the difference between the usage time and the occupation time of the target electrical appliance by the target user and the usage time includes:

calculating the usage charge of the target electrical appliance according to the following formula

C＝K₁·T₁+K₃·(T₂-T₁)

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁Rate corresponding to the time of use of the target appliance for the target user, K₃And the charge rate corresponding to the difference value of the occupation time and the use time of the target electric appliance for the target user.

On the other hand, the embodiment of the present disclosure provides an electric appliance charging device, which includes:

the first time acquisition module is configured to acquire the use time of a target user on a target electric appliance;

the second time acquisition module is configured to acquire the occupation time of the target user on the target electric appliance;

and the charge calculation module is configured to calculate the use charge of the target electric appliance according to the use time and the occupation time of the target electric appliance by the target user.

Optionally, the fee calculating module is located in the target electrical appliance, and the charging apparatus further includes:

the master control module is configured to summarize the use time and the occupation time of the target electrical appliance by the target user.

Optionally, the charging apparatus further includes:

the first rate acquisition module is configured to acquire rates corresponding to the use time and the occupation time of a target user on a target electric appliance respectively;

the charge calculation module is configured to calculate the use charge of the target electric appliance according to the use time and the occupation time of the target electric appliance by the target user and the charge rate corresponding to the use time and the occupation time of the target electric appliance by the target user respectively.

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

by acquiring the service time and the occupied time of the target electric appliance by the target user and calculating the service cost of the target electric appliance according to the service time and the occupied time of the target electric appliance by the target user, the service cost of the target electric appliance can be calculated from multiple dimensions, so that the charging of the target electric appliance is more reasonable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the disclosure and together with the description serve to explain the principles of the disclosure.

Fig. 1 is a flowchart of an appliance charging method according to a first embodiment of the present disclosure;

fig. 2 is a flowchart of an appliance charging method according to a second embodiment of the present disclosure;

fig. 3 is a schematic diagram of an appliance billing device according to a third embodiment of the present disclosure.

Detailed Description

The present disclosure will be described in further detail with reference to the drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the present disclosure. It should be further noted that, for the convenience of description, only the portions relevant to the present disclosure are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict. The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The first embodiment of the present disclosure provides an electric appliance charging method, which is applied to a shared electric appliance, that is, the shared electric appliance can be charged according to the method. As shown in fig. 1, the method includes:

step S101, obtaining the service time and the occupied time of a target user on a target electric appliance;

and step S102, calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user.

Optionally, after obtaining the usage time and the occupation time of the target user on the target electrical appliance, the charging method includes:

summarizing the service time and the occupied time of a target user on the target electric appliance through a main control module in the target electric appliance;

the calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electrical appliance through a cost calculation module in the target electrical appliance.

Optionally, after obtaining the usage time and the occupation time of the target user on the target electrical appliance, the charging method includes:

sending the use time and the occupation time of the target electrical appliance by the target user to an external computing device;

the calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electric appliance through the external calculation device.

Optionally, before calculating the usage charge of the target appliance, the billing method includes:

obtaining rates corresponding to the use time and the occupation time of a target user on a target electric appliance respectively;

the method for calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use charge of the target electric appliance according to the rates corresponding to the use time and the occupation time of the target electric appliance by the target user and the use time and the occupation time of the target electric appliance by the target user respectively.

Optionally, the calculating the usage cost of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the rate corresponding to the usage time and the occupation time of the target electrical appliance by the target user respectively includes:

calculating the usage charge of the target electrical appliance according to the following formula

C＝K₁·T₁+K₂·T₂

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁And K₂Respectively for the purpose ofAnd the use time and the occupation time of the user on the target electric appliance correspond to the charge rate.

Optionally, before calculating the usage charge of the target appliance, the billing method includes:

obtaining a rate corresponding to the service time of the target electric appliance by the target user and a rate corresponding to the difference value of the occupied time of the target electric appliance by the target user and the service time;

the method for calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user comprises the following steps:

and calculating the use cost of the target electric appliance according to the use time and the occupation time of the target electric appliance by the target user and the charge rate corresponding to the difference value between the use time and the occupation time of the target electric appliance by the target user and the use time.

Optionally, the calculating the usage cost of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the rate corresponding to the difference between the usage time and the occupation time of the target electrical appliance by the target user and the usage time includes:

calculating the usage charge of the target electrical appliance according to the following formula

C＝K₁·T₁+K₃·(T₂-T₁)

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁Rate corresponding to the time of use of the target appliance for the target user, K₃And the charge rate corresponding to the difference value of the occupation time and the use time of the target electric appliance for the target user.

In the embodiment, the service cost of the target electrical appliance can be calculated from multiple dimensions by acquiring the service time and the occupied time of the target electrical appliance by the target user and calculating the service cost of the target electrical appliance according to the service time and the occupied time of the target electrical appliance by the target user, so that the charging of the target electrical appliance is more reasonable.

The second embodiment of the present disclosure provides an electric appliance charging method, which is applied to a shared electric appliance, that is, the shared electric appliance can be charged according to the method. As shown in fig. 2, the method includes:

step S201, obtaining the service time and the occupied time of the target user to the target electric appliance.

At present, shared electric appliances such as a washing machine, an air conditioner or a microwave oven are generally arranged in public areas such as dormitories, public rental rooms or office buildings. Before using these shared appliances (target appliances), the target users can establish contact with the target appliances to charge the target users according to their usage of the target appliances. Wherein, the target user refers to a user who needs to use the target appliance. When establishing a contact between a target user and a target electric appliance, the target user can scan the two-dimensional code on the target electric appliance through the APP corresponding to the target electric appliance, so that a binding relationship between the target user and the target electric appliance is established. Alternatively, the target user may also sign a rental agreement at the owner of the target appliance to establish a binding relationship with the target appliance.

After the contact between the target user and the target electric appliance is established, the use time and the occupation time of the target user on the target electric appliance can be obtained through a time calculation module in the target electric appliance. The time of the target user for using the target electrical appliance refers to the time of starting and using the target electrical appliance, and the time of the target user for occupying the target electrical appliance refers to the time of the target user for sharing the target electrical appliance after the target user establishes contact with the target electrical appliance. In practical application, the service time of the target electric appliance by the target user can be acquired in real time after the target user establishes contact with the target electric appliance until the target user is disconnected from the target electric appliance, and the occupied time of the target user on the target electric appliance can be acquired after the target user is disconnected from the target electric appliance.

And step S202, calculating the use cost of the target electric appliance according to the use time and the occupied time of the target electric appliance by the target user.

In a possible implementation manner, after the time calculation module in the target electrical appliance obtains the use time and the occupation time of the target electrical appliance by the target user, the time calculation module may send the use time and the occupation time to the main control module in the target electrical appliance, so as to count and summarize the use time and the occupation time of the target electrical appliance by the target user. Or after the time calculation module in the target electrical appliance acquires the use time and the occupation time of the target electrical appliance by the target user, the use time and the occupation time can be sent to an external computing device (such as a cloud server) so as to count and summarize the use time and the occupation time of the target electrical appliance by the target user through the external computing device, and the use cost of the target electrical appliance is calculated through the external computing device. The master control module may be configured to send the collected usage time and occupation time to the external computing device after counting and collecting the usage time and occupation time of the target electrical appliance by the target user. Specifically, the time calculation module in the target electrical appliance may send the obtained usage time and occupation time of the target user on the target electrical appliance to the main control module or the external calculation device in real time, or send the obtained usage time and occupation time of the target user on the target electrical appliance to the main control module or the external calculation device after the target electrical appliance is disconnected from the target user. Similarly, the master control module can send the summarized use time and occupation time of the target electrical appliance by the target user to the external computing device in real time, and can also send the summarized use time and occupation time of the target electrical appliance by the target user to the external computing device after the target electrical appliance is disconnected from the target user.

In a possible implementation manner, if only the master control module of the target electrical appliance summarizes the usage time and the occupation time of the target electrical appliance by the target user, the usage cost of the target electrical appliance may be calculated through a cost calculation module in the target electrical appliance, that is, the master control module may send the summarized usage time and the occupation time of the target user on the target electrical appliance to the cost calculation module in the target electrical appliance. If the usage time and the occupation time of the target electrical appliance by the target user are sent to the external computing device, the usage cost of the target electrical appliance can be calculated through the external computing device, that is, the external computing device can also be provided with a cost calculating module. After the charge calculation module in the target electrical appliance calculates the use charge of the target electrical appliance, a bill about the use charge of the target electrical appliance can be sent to the APP on the target user terminal or displayed on the display screen of the target electrical appliance in the form of a cash register, so that the target user can pay the charge conveniently. After the external computing device calculates the usage cost of the target appliance, a bill about the usage cost of the target appliance can be sent to the APP on the terminal of the target user, or sent to the target appliance and displayed on the display screen of the target appliance in the form of a cash register, so that the target user can pay the cost conveniently.

In a possible implementation manner, after the target electrical appliance is disconnected from the target user, before the usage charge of the target electrical appliance is calculated, rates corresponding to the usage time and the occupation time of the target electrical appliance by the target user can be obtained, and then the usage charge of the target electrical appliance is calculated according to the usage time and the occupation time of the target electrical appliance by the target user and the rates corresponding to the usage time and the occupation time.

In a possible implementation manner, for a shared electric appliance (such as an air conditioner or a refrigerator) which is shared exclusively for a long time, the time occupied by a user on the electric appliance can be used as a main charging index, and the use time can be used as an auxiliary charging index, so that the effects of using more and using less for paying less can be achieved. The shared electrical appliance which is exclusively shared for a long time can be a shared electrical appliance which occupies time exceeding a first preset time threshold. Thus, for a shared appliance that is shared exclusively for a long period of time, the usage charge for the target appliance may be calculated according to the following equation:

C＝K₁·T₁+K₂·T₂

wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁And K₂And respectively providing the rates corresponding to the service time and the occupied time of the target electric appliance for the target user.

For example, a dormitory rents an air conditioner for a rental period of 4 years (4 years), the rate of the occupied time is 300 yuan/year, and the rate of the used time is 0.1 yuan/hour. If the dormitory is powered on for a month (30 days) in summer and the power-on time is 14 hours per day, the cost of the shared air conditioner used by the dormitory is 1368 yuan.

In a possible implementation manner, for a shared appliance (such as a washing machine or a microwave oven) which is shared only for a short time, the usage time of the appliance by a user can be used as a main charging index, and the occupied time can be used as an auxiliary charging index. Moreover, for the short-term exclusive shared electric appliance, the use cost of the shared electric appliance can be calculated according to the difference between the use time and the occupied time, and the charge rate corresponding to the difference between the occupied time and the use time can be higher than that corresponding to the use time, so that the problem of occupation is avoided. Wherein, the short-term exclusive shared electrical appliance may be a shared electrical appliance whose occupied time does not exceed the second preset time threshold. Thus, for a short-term exclusive shared appliance, the usage charge of the target appliance can be calculated according to the following formula:

C＝K₁·T₁+K₃·(T₂-T₁)

wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values, K, for the service time and the occupation time, respectively₁For the rate corresponding to the time of use, K₃And the charge rate corresponding to the difference value of the occupied time and the use time.

For example, a certain office building can rent a plurality of microwave ovens for employees, so that the employees can conveniently take meals. When the employee uses the microwave oven, the code scanning payment is needed, the rate corresponding to the use time of the employee to the microwave oven is 0.2 yuan/minute, and the rate corresponding to the difference value between the occupied time and the use time is 1 yuan/minute (no charge can be set for less than 1 minute, or the charge can be charged for less than 1 minute by less than 1 minute). If a employee occupies a microwave oven for 10 minutes, but the actual usage time is 5 minutes, the usage fee of the microwave oven for the employee is 6 yuan.

It should be noted that the rate corresponding to the usage time and the occupation time of the target electrical appliance by the target user and the rate corresponding to the difference between the occupation time and the usage time may be set in advance by the staff and stored in the target electrical appliance and the external computing device, and may be directly called when the corresponding rate needs to be obtained, and the specific value of each rate may be adjusted by the staff according to the actual environment condition. In addition, specific numerical values of the first preset time threshold and the second preset time threshold can be set by a worker according to actual conditions. For example, the first preset time threshold may be 1 year, 2 years, or the like, and the second preset time threshold may be 1 hour, 2 hours, or the like.

In the embodiment, the service cost of the target electrical appliance can be calculated from multiple dimensions by acquiring the service time and the occupied time of the target electrical appliance by the target user and calculating the service cost of the target electrical appliance according to the service time and the occupied time of the target electrical appliance by the target user, so that the charging of the target electrical appliance is more reasonable. In addition, the service time of the target user for the target electric appliance, the rate corresponding to the occupied time and the rate corresponding to the difference value of the occupied time and the service time are obtained, different charging modes are adopted according to the occupied time of the target user for the shared electric appliance, and the specific numerical value of each rate can be adjusted, so that the method and the device are suitable for different application scenes. Moreover, different rates are designed from multiple dimensions to realize reasonable charging, bad use behaviors of users can be restrained, and the call of national energy conservation and emission reduction can be responded.

A third embodiment of the present disclosure provides an apparatus for charging an electrical appliance, as shown in fig. 3, the apparatus including:

a first time obtaining module 301 configured to obtain the usage time of the target electrical appliance by the target user;

a second time obtaining module 302 configured to obtain the occupation time of the target electrical appliance by the target user;

a charge calculation module 303 configured to calculate a usage charge of the target appliance according to the usage time and the occupied time of the target appliance by the target user.

Optionally, the fee calculating module 303 is located in the target electrical appliance, and the charging apparatus further includes:

the master control module is configured to summarize the use time and the occupation time of the target electrical appliance by the target user.

Optionally, the charging apparatus further includes:

a communication module configured to transmit the usage time and the occupation time of the target appliance by the target user to an external computing device to calculate a usage charge of the target appliance through the external computing device, the external computing device including a charge calculation module 303.

Optionally, the charging apparatus further includes:

the first rate acquisition module is configured to acquire rates corresponding to the use time and the occupation time of a target user on a target electric appliance respectively;

the charge calculating module 303 is configured to calculate the usage charge of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the charge rate corresponding to the usage time and the occupation time of the target electrical appliance by the target user.

Optionally, the fee calculation module 303 is configured to calculate the usage fee of the target electrical appliance according to the following formula

C＝K₁·T₁+K₂·T₂

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁And K₂And respectively providing the rates corresponding to the service time and the occupied time of the target electric appliance for the target user.

Optionally, the charging apparatus further includes:

the second rate acquisition module is configured to acquire a rate corresponding to the service time of the target electric appliance by the target user and a rate corresponding to the difference value between the occupied time of the target electric appliance and the service time of the target user;

the charge calculating module 303 is configured to calculate the usage charge of the target electrical appliance according to the usage time and the occupation time of the target electrical appliance by the target user and the charge rates respectively corresponding to the difference between the usage time and the occupation time of the target electrical appliance by the target user and the usage time.

Optionally, the fee calculation module 303 is configured to calculate the usage fee of the target electrical appliance according to the following formula

C＝K₁·T₁+K₃·(T₂-T₁)

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values of the service time and the occupation time of the target electrical appliance, K, for the target user respectively₁Rate corresponding to the time of use of the target appliance for the target user, K₃And the charge rate corresponding to the difference value of the occupation time and the use time of the target electric appliance for the target user.

In the embodiment, the service cost of the target electrical appliance can be calculated from multiple dimensions by acquiring the service time and the occupied time of the target electrical appliance by the target user and calculating the service cost of the target electrical appliance according to the service time and the occupied time of the target electrical appliance by the target user, so that the charging of the target electrical appliance is more reasonable. In addition, the service time of the target user for the target electric appliance, the rate corresponding to the occupied time and the rate corresponding to the difference value of the occupied time and the service time are obtained, different charging modes are adopted according to the occupied time of the target user for the shared electric appliance, and the specific numerical value of each rate can be adjusted, so that the method and the device are suitable for different application scenes. Moreover, different rates are designed from multiple dimensions to realize reasonable charging, bad use behaviors of users can be restrained, and the call of national energy conservation and emission reduction can be responded.

It should be noted that, when the charging device for an electrical appliance provided in the foregoing embodiment is used to calculate the usage cost of a shared electrical appliance, only the division of the functional modules is used for illustration, and in practical applications, the above function distribution may be completed by different functional modules according to needs, that is, the internal structure or program of the device may be divided into different functional modules to complete all or part of the above described functions. In addition, the electric appliance charging device and the electric appliance charging method provided by the above embodiment belong to the same concept, and specific implementation processes thereof are detailed in the method embodiment and are not described herein again.

A fourth embodiment of the present disclosure provides an electric appliance charging apparatus, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to cause the appliance charging apparatus to perform the appliance charging method described in the above embodiments when executing the executable instructions.

A fifth embodiment of the present application provides a non-transitory computer-readable storage medium, which may be a computer-readable storage medium contained in the memory in the above-described embodiments; or it may be a separate computer-readable storage medium not incorporated in the terminal. The computer-readable storage medium has stored therein one or more computer-readable instructions (programs) that, when executed by a processor of an electronic device, cause the electronic device to perform the appliance billing method described in the above embodiments.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of illustration of the disclosure and are not intended to limit the scope of the disclosure. Other variations or modifications may occur to those skilled in the art, based on the foregoing disclosure, and are still within the scope of the present disclosure.

Claims (10)

1. An electric appliance charging method is characterized by comprising the following steps:

acquiring the use time and the occupied time of a target user on a target electrical appliance;

and calculating the use cost of the target electric appliance according to the use time and the occupied time.

2. The electric appliance charging method according to claim 1, wherein after the usage time and the occupation time are obtained, the charging method comprises:

summarizing the use time and the occupation time through a main control module in the target electrical appliance;

the calculating the usage charge of the target appliance according to the usage time and the occupation time comprises:

and calculating the use cost of the target electric appliance through a cost calculation module in the target electric appliance.

3. The electric appliance charging method according to claim 1, wherein after the usage time and the occupation time are obtained, the charging method comprises:

sending the usage time and the occupancy time to an external computing device;

the calculating the usage charge of the target appliance according to the usage time and the occupation time comprises:

calculating, by the external computing device, a usage charge for the target appliance.

4. The appliance billing method according to any one of claims 1 to 3, wherein before the calculating of the usage charge of the target appliance, the billing method comprises:

obtaining rates corresponding to the use time and the occupation time respectively;

the calculating the use charge of the target electric appliance according to the use time and the occupied time comprises the following steps:

and calculating the use charge of the target electric appliance according to the use time and the occupation time and the rates corresponding to the use time and the occupation time respectively.

5. The appliance charging method according to claim 4, wherein the calculating of the usage charge of the target appliance according to the usage time and the occupation time and the charge rates corresponding to the usage time and the occupation time respectively comprises:

calculating the usage charge of the target appliance according to the following formula

C＝K₁·T₁+K₂·T₂

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values, K, for the service time and the occupation time, respectively₁And K₂And respectively corresponding rates of the use time and the occupation time.

6. The appliance billing method according to any one of claims 1 to 3, wherein before the calculating of the usage charge of the target appliance, the billing method comprises:

obtaining a rate corresponding to the use time and a rate corresponding to a difference value of the occupation time and the use time;

the calculating the use charge of the target electric appliance according to the use time and the occupied time comprises the following steps:

and calculating the use charge of the target electric appliance according to the use time and the occupation time and the charge rates respectively corresponding to the difference values of the use time and the occupation time and the use time.

7. The appliance charging method according to claim 6, wherein the calculating of the usage charge of the target appliance according to the usage time and the occupation time and the charge rates corresponding to the difference between the usage time and the occupation time and the usage time respectively comprises:

calculating the usage charge of the target appliance according to the following formula

C＝K₁·T₁+K₃·(T₂-T₁)

Wherein C is the use cost of the target electrical appliance, T₁And T₂Specific values, K, for the service time and the occupation time, respectively₁For the rate corresponding to the time of use, K₃And the charge rate corresponding to the difference value of the occupied time and the use time.

8. An electric appliance charging apparatus, characterized in that the charging apparatus comprises:

a first time acquisition module configured to acquire a usage time of a target appliance by a target user;

a second time acquisition module configured to acquire an occupied time of the target user on the target appliance;

a fee calculation module configured to calculate a fee for use of the target appliance according to the time of use and the occupied time.

9. The appliance billing device of claim 8, wherein the charge calculation module is located in the target appliance, the billing device further comprising:

a master control module configured to aggregate the usage time and the occupancy time.

10. The appliance charging apparatus according to any one of claims 8 to 9, wherein the charging apparatus further comprises:

a first rate obtaining module configured to obtain rates corresponding to the usage time and the occupation time respectively;

the charge calculation module is configured to calculate the usage charge of the target electrical appliance according to the usage time and the occupation time and the charge rates corresponding to the usage time and the occupation time respectively.

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