CN111062763A

CN111062763A - Indoor multi-user power utilization sharing method based on intelligent power utilization manager

Info

Publication number: CN111062763A
Application number: CN201911399091.XA
Authority: CN
Inventors: 章晋涛; 梁毅; 吴川
Original assignee: Guangdong Biden Network Technology Co ltd
Current assignee: Guangdong Biden Network Technology Co ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-04-24
Anticipated expiration: 2039-12-27
Also published as: CN111062763B

Abstract

The invention relates to an indoor multi-user electricity sharing method based on an intelligent electricity manager, which comprises the following steps: step 1: one of the current indoor personnel sends the expense sharing confirmation information to all other resident personnel in a group mode, and the sending time of the expense sharing confirmation information is obtained; step 2: receiving a feedback condition of the expense allocation confirmation information in a preset time, and counting the number of the allocated people needing to allocate the public electric charge in a time period from the sending time to the current time based on the feedback condition; and step 3: obtaining the public electric charge sharing end information, and determining the public electric charge sharing end time according to the current position and the preset position range; and calculating the cost from the sending time to the public electricity charge sharing end time of the corresponding resident according to the corresponding formula. The invention accurately calculates the public shared electric charge of each resident in any time period, can effectively prevent the resident from evading the shared charge maliciously, prompts all the resident to save electricity and achieves the aim of saving energy.

Description

Indoor multi-user power utilization sharing method based on intelligent power utilization manager

Technical Field

The invention relates to the technical field of energy-saving power utilization and electric charge control, in particular to an indoor multi-user power utilization sharing method based on an intelligent power utilization manager.

Background

For a scene with multi-person indoor co-renting, such as a plurality of co-renting rooms, a dormitory and the like, the shared share of electricity and gas consumption (including electricity consumption and cold/warm air consumption) is a difficult point and a user pain point, and the shared share of the electricity and gas consumption is not sensitive to the electricity consumption due to the fact that the shared share of the electricity and the gas consumption is not accurate, unfair or unreasonable, so that the meaning of saving electricity is not achieved, electric energy is wasted additionally, and energy is not saved. For example, in a multi-tenant house with multiple tenants, the entrance and exit of people are not fixed, resulting in different time periods for using public electric appliances for each tenant. For example, taking 20:00-24:00 at night as an example, assuming that three tenants, namely, a tenant, and a tenant, are shared in the rental house, the first tenant is in the rental house and turns on an air conditioner (cooling or heating) in 4 hours of the time period, the second tenant enters the rental house at 21:00 and shares the air conditioner, the time for using the air conditioner by the second tenant can be considered as 3 hours, the third tenant enters the rental house at 23:00 and shares the air conditioner, and the time for using the air conditioner by the third tenant is only 1 hour. If the electricity consumption expense is apportioned according to the traditional method, the electricity consumption expense generated in 4 hours is directly averaged by three persons to serve as the shared electricity consumption expense of each person, the shared electricity consumption expense of each person is the same, and the shared electricity consumption expense is obviously unfair, so that the incoherence of each lessee of a closed house is caused, further, people have no meaning of saving electricity, further, the electricity consumption is not energy-saving, the experience of users is influenced, and particularly, in the shared house for combining the lessees among strangers, the electricity consumption expense apportionment mode is unreasonable.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide an indoor multi-user electricity utilization sharing method based on an intelligent electricity utilization manager, which can solve the problem that electricity utilization cost is not reasonable and unfair to cause that electricity utilization is not energy-saving as described in the background art.

The technical scheme for realizing the purpose of the invention is as follows: an indoor multi-user electricity sharing method based on an intelligent electricity utilization manager comprises the following steps:

step 1: one of the current indoor personnel distributes the confirmation information to all other resident personnel and obtains the sending costApportioning the sending time T of acknowledgement messages₀；

Step 2: receiving feedback conditions of the confirmation information of the expense sharing of all other residents in the preset time, and counting the sending time T based on the feedback conditions₀The number of the shared people who need to share the public electricity charge in the time period from the current time,

wherein, the other resident who the feedback condition satisfies condition one or condition two is the sharing personnel:

the first condition is as follows: other residents return confirmation information representing that the shared electric power charge is agreed to for the charge sharing confirmation information or do not perform any operation within the preset time without returning any information, wherein the preset time is from the sending time T₀To the current time;

case two: other residents return rejection information representing that the other residents do not agree to share the public electricity charge to the charge sharing confirmation information, and the current positions of the other residents are in a preset position range;

and step 3: obtaining the public electricity fee sharing end information sent by corresponding resident personnel, and if the current position of the corresponding resident personnel is in the preset position range when the public electricity fee sharing end information sent by the corresponding resident personnel is sent, sending the public electricity fee sharing end time to the corresponding resident personnel as the sending time of the public electricity fee sharing end information sent by the corresponding resident personnel; otherwise, until obtaining the sending time of sending the public electricity fee sharing end information within the preset position range of the current position of the corresponding resident, the sending time is used as the public electricity fee sharing end time of the corresponding resident;

the corresponding resident i goes from the sending time to the end time T of the share electric power rate_iCost S of_iComprises the following steps:

wherein, T_0,iIndicating the slave transmission time T of the corresponding resident i₀To the end time of its utility rate split.

Further, the transmission time T of the transmission cost apportionment acknowledgement information₀For the time of opening of the public appliance orLater than the time of the utility's activation.

Further, the step 3 is replaced by a step 4: obtaining the public electric charge sharing end information sent by the corresponding resident, obtaining the current corresponding position of the corresponding resident until the current corresponding position of the corresponding resident is in the preset position range, obtaining the public electric charge sharing end time of the corresponding resident in the preset position range, and obtaining the public sharing charge S from the sending time to the public electric charge sharing end time of the corresponding resident i_iComprises the following steps:

Further, in the second case, after the preset time, other residents return rejection information representing that the shared electric power rate is not agreed to be shared, the return time is recorded as T ', and if the current position of the corresponding resident at the return time T' is within the preset position range, the shared electric power rate sharing end time of the corresponding resident is the sending time until the corresponding resident sends the rejection information representing that the shared electric power rate is not agreed to be shared within the preset position range; and if the current position of the corresponding resident at the return time T 'is out of the preset position range, the public electricity fee sharing end time of the corresponding resident is the return time T'.

Further, the total shared amount of the electric power charge of each resident in a period of the electric power charge settlement statistics is the accumulation of the shared electric power charge corresponding to each time period T ', wherein the time period T' is the sending time T₀To the end time of its utility rate split.

Further, if there is another resident j who leaves from the sending time to the end time of the shared electric power rate sharing, the end time of the shared electric power rate sharing of the sending resident j after the resident j leaves is T_j(T_j<T_i) Then resident i sends timeT₀To end time T of public electric charge sharing_iTime of (1) public apportionment of cost S_iThe device comprises two parts: first part, time T₀To T_jThe generated public electricity charges, the apportioned number of people comprises resident persons j; second part, T_jTo T_iThe generated public electricity charges are shared and the number of people is eliminated.

Further, the transmission time of the public electricity rate sharing end information is the leaving time of the corresponding resident in the room, or is later than the leaving time of the corresponding resident in the room.

Further, if resident i is at the transmission time T₀Then the time T is up to the end of the sharing of the public electric charge_iBefore, the expense sharing confirmation information is received again, and the confirmation information representing that the sharing of the public electric charge is agreed is returned within the preset time, wherein the corresponding sending time of the expense sharing confirmation information is T₁And the end time T of the public electricity charge sharing of the resident i_iIs T₁。

Furthermore, if a plurality of expense sharing confirmation messages are received, a plurality of sending time T are corresponding₁If the first transmission time is used as the end time T of the public electricity charge sharing_i。

Further, said T_0,iThe public electricity fee generated in the time period is the total electricity fee generated indoors in the time period minus the individual electricity fee corresponding to each resident person, and the individual electricity fee is the electricity fee generated through the individual intelligent socket.

The invention has the beneficial effects that: the invention can accurately determine the public electric charge which is required to be shared by people in any time period and prevent resident personnel from evading the shared charge maliciously, can effectively promote each resident personnel to save energy and power based on the shared electric charge, can promote the resident personnel to close the electric appliance to save electric energy when leaving the room, and can operate the electric appliance in the most effective energy-saving and power-consuming mode, thereby achieving the purpose of saving energy.

Drawings

FIG. 1 is a schematic flow chart of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1, an indoor multi-user electricity sharing method based on an intelligent electricity manager includes the following steps:

step 1: after one of the current indoor personnel starts the indoor electrical equipment needing sharing the electric charge, sending the charge sharing confirmation information to all other indoor resident personnel in groups, and obtaining the sending time T of the charge sharing confirmation information₀. The current indoor personnel send the expense sharing confirmation information to all indoor resident personnel through the mobile terminal or other intelligent equipment terminals, and the expense sharing confirmation information is usually sent to all indoor resident personnel through APP operation on the mobile terminal or the intelligent equipment terminals. The current indoor personnel can start the electrical equipment through the mobile terminal or the intelligent equipment terminal, and the electrical equipment is started and the mass-sending expense sharing confirmation information to all other resident personnel is defaulted, so that the sending time T for sending the expense sharing confirmation information₀That is, the time for turning on the electric appliance, thereby ensuring that the time for turning on the electric appliance and sending the cost sharing confirmation information are synchronously performed. Of course, in actual operation, the electric equipment may be started first, and then the charge sharing confirmation information may be transmitted. For example, if it is recalled that the charge share confirmation information needs to be sent to other resident persons after a certain time (for example, 5 minutes) elapses after the current indoor person turns on the electric appliance, the sending time and the time of turning on the electric appliance are not the same time, and such an operation is also possible.

In this step, the electric appliances requiring the shared electric charge are public electric appliances, and the public electric appliances are all available to all indoor tenants, and are usually located in a public area such as a living room of a tenants room or a dormitory. Public appliances typically include air conditioners, lighting lamps, electric fans, televisions, etc. disposed in public areas (e.g., living rooms). The electric appliances are connected with the mobile terminal through a network, so that the public electric appliances are bound with the mobile terminal, and the public electric appliances can be controlled by the mobile terminal (such as APP on the mobile terminal)And starting the electrical equipment. The mobile terminal is operated to generate an electric appliance starting instruction, and the public electric appliance is started to enter a working state through the electric appliance starting instruction, so that public electric charges needing to be shared are generated. Of course, the electrical equipment can be started through manual operation or other controllers, and the instruction for starting the electrical equipment is sent to the bound mobile terminal immediately after the electrical equipment is started, so that the mobile terminal can obtain the sending time T through the instruction for starting the electrical equipment₀. For example, when the air conditioner is manually pressed to be started, the air conditioner starting instruction is simultaneously sent to the mobile terminal, and after the mobile terminal obtains the starting control instruction, the air conditioner is considered to be started, so that the group-sending expense allocation confirmation information is sent to all other residents, and the sending time T of the group-sending expense allocation confirmation information is recorded₀。

Usually, the command for starting the electrical equipment is that the first resident who enters the room is started, usually, only the first current indoor person who enters the room needs to start the electrical equipment, and the subsequent indoor person who enters the room does not need to start the electrical equipment again, so that the electrical equipment is usually started for the first indoor person who enters the room, and the sending time T is obtained while the electrical equipment is started₀. If the first person who enters the room is beneficial or does not enter the room and the public electric appliance is started, forgetting to send the group expense allocation confirmation information to all other resident persons. Until the third resident enters the room and more than two people send the group expense sharing confirmation information to all other resident after the third resident enters the room, the time for sending the expense sharing confirmation information at the earliest is taken as the sending time T₀. If the terminal for controlling the electric appliance to be turned on and the terminal for transmitting the charge share confirmation information are not the same terminal or are not simultaneously operated, the time T is transmitted₀The time is different from the time of turning on the electric appliance, and a time difference exists, and the electricity charge generated in the time difference can be only born by the first person entering the room alone. For example, by manually switching on the appliance, either immediately or at intervals, and sending a charge sharing confirmation message via the mobile phone, sending time T₀All the time when the mobile phone sends the expense sharing confirmation information.

Step 2: receiving feedback conditions of the confirmation information of the expense sharing of all other residents in the preset time, and counting the sending time T based on the feedback conditions₀The number of the shared persons who generate the public electricity fee to be shared. And the other resident persons with the feedback condition meeting the first condition or the second condition are the sharing persons needing sharing the public electric charge, the sharing persons number is added with one on the original sharing persons number base number, so that the total sharing persons number at the current time is obtained, otherwise, the other resident persons are regarded as the sharing persons not needing sharing the public electric charge.

case two: and returning rejection information representing that the shared electric power fee is not agreed to by other resident personnel to the fee sharing confirmation information, wherein the current positions of the other resident personnel are within the preset position range.

In the first case, the other resident receives the charge sharing confirmation information through the mobile terminal, and if the other resident reads the charge sharing confirmation information and clicks the confirmation button and returns confirmation information indicating that the sharing of the public electricity charge is agreed, the corresponding resident is counted as a sharing person needing sharing the public electricity charge, and the current total number of the shared persons is one more than the original number of the sharing persons. This is in accordance with the actual situation, when other residents read the expense sharing confirmation message, and the current position of the other residents is within the preset position range (for example, indoors), the residents need to share the public electric expense, and generally click the confirmation button and return the confirmation message. The preset position range is preferably an area range formed by a preset radius determined by taking the intelligent power utilization manager as a starting point, for example, a circular area range formed by taking the power utilization manager as a circle center and the preset radius is taken as the preset position range.

The other resident receives the charge share confirmation message through the mobile terminal, and the other resident may not notice the charge share confirmation messageAnd is not read, so that no operation is performed, whether intentionally or unintentionally, and no information is fed back within a preset time. The preset time can be set according to the actual situation, for example, the preset time is set to 1 minute, that is, the preset time T is set from the sending time₀Starting to count for 1 minute, and when no feedback information is received in the time before reaching 1 minute, the corresponding resident is regarded as a sharing person needing to share the public electricity fee, which is reasonable, and the result is caused by improper operation of the resident, and the corresponding resident should be born by the resident naturally. The resident can be effectively prevented from intentionally feeding back no information for a long time to avoid sharing the public electric charge through the preset time.

In case two, the other resident clicks the rejection information indicating that the sharing of the utility power rate is not approved intentionally or unintentionally (for example, by mistake) although reading the rate sharing confirmation information. If the corresponding resident is judged not to be required to share the public electric charge only according to the return information, the situation is unreasonable, for this reason, the current positions of other resident still need to be obtained through the mobile terminal, and if the current position is within the preset position range, the corresponding resident is forced to be counted as a sharing person required to share the public electric charge, and the sharing is increased by one, so that the malicious public electric charge sharing is prevented. That is, when any person in a multi-person dormitory opens the APP, the APP opens the public electricity utilization equipment (fluorescent lamps or air conditioners and the like) through the indoor intelligent electricity utilization manager, and simultaneously sends an allocation request to other persons, when some person in the other persons disagrees with allocation, the APP needs to display that the positioning of the APP is not within the allocation radius (namely a preset position range), and the public electricity charge does not need to be allocated, otherwise, the APP needs to be forcibly allocated; if someone does not disagree with APP and does not show it within the split radius, then forced no splitting is done, if it shows it at the split radius, then forced splitting is done.

Therefore, if other resident persons do not return confirmation information representing that the utility power rate is agreed to be shared, but return rejection information representing that the utility power rate is not agreed to be shared, the current positions of the other resident persons are obtained, and if the current positions are within the preset position range, the corresponding resident persons are counted as sharing persons needing sharing the utility power rate, and the number of the sharing persons is increased by one; if the current position exceeds the preset position range, namely is out of the preset position range, the corresponding resident personnel cannot be counted as sharing personnel needing to share the public electricity charge, and the number of the sharing personnel is kept unchanged. The preset position range can be set according to actual conditions, such as a residential room range or a building range in which the residential room is located.

And step 3: obtaining the public electricity charge sharing end instruction of the corresponding resident so as to obtain the public electricity charge sharing end time T of the corresponding resident_iWherein T is_iAnd the end time of the public electric charge sharing of the resident i is shown, and the number of the shared persons needing to share the public electric charge is counted. When the instruction for ending the sharing of the public electric charge is obtained, the fact that one resident does not need to share the public electric charge any more means that the number of the shared persons needing to share the public electric charge is reduced by one, and therefore the number of the shared persons needing to share the public electric charge at present is obtained in real time. And counting the slave sending time T of the resident i₀To end time T of public electric charge sharing_iThe time period is denoted as T_0,i，T_0,iThe apportioned cost in the time period is S_i，

Other residents who need to share the electric utility fee are also calculated in the same way, and only the corresponding electric utility fee sharing end time needs to be obtained.

In this step, the end time T of the shared electric charge sharing of the resident i_iIt is common that the resident i leaves the indoor time, which means that the shared electric power rate is not required to be shared, and the resident i operates on the mobile terminal and clicks the "end" shared electric power rate sharing button, thereby transmitting an end message to all other residents. When the resident i leaves the room but forgets to click the "end" shared electric power rate sharing button when leaving the room, the shared electric power rate sharing end time T of the resident i may be set_iThe time until the resident clicks the 'end' button is allocated for the utility power rate and the resident isAnd (3) clicking an 'end' shared electric charge button by the resident i to ensure that the current position is not within the preset position range or counting the electric charge end time. For example, the resident i leaves the room at 3:00 pm until 5:30 pm, remembers to click the "end" shared electric power rate button, and when the resident i clicks the "end" shared electric power rate button at 5:30 pm, the position is not within the preset position range, the shared electric power rate sharing end time T is determined_iIs 5: 30. If the resident i returns to the room again when clicking the 'end' shared electric charge sharing button at 5:30 PM, the time from the departure of the resident i from 3:00 PM to the return to the room at 5:30 PM can be counted as the time when the resident i needs to share the shared electric charge in the time, and T_iThe time when the resident i leaves next or the time until the end of the statistics. Or the resident i forgets to click the 'end' shared public electricity charge button all the time until the electricity charge counting end time, and the electricity charge counting end time is the end time of a counting period or the end time of the use of the public electricity charge without generating the public electricity charge. For example, the resident i leaves at 3:00 pm and forgets to click the "end" shared electric power rate button all the time, the last resident leaving the room is 7:30 pm and turns off the electric utility, i.e., means that no shared electric power rate is generated after 7:30 pm, and therefore, the statistical end time is 7:30 pm, i.e., the time when the resident i needs to share the shared electric power rate is from T₀Until 7:30 pm.

Of course, the current position of each resident can be obtained at intervals in real time, and if the current position of the corresponding resident exceeds the preset position range, the time corresponding to the current position is obtained as the time when the resident finishes sharing the utility power rate. This is also reasonable, but requires that the location information for the resident be obtained continuously in real time at intervals. That is, by positioning, once it is determined that the resident leaves the room without being within the preset position range, the utility power rate sharing of the corresponding resident is automatically ended, and the resident is no longer regarded as the sharing person.

Through the steps 1 to 3, the electric utility fee to be allocated to each resident in the corresponding time period can be calculated, so that the total amount of the electric utility fee to be allocated in a statistical period can be counted. The total amount of the utility power rate is the accumulation of the utility power rate corresponding to each time period that the resident needs to be shared. Generally, a statistical period is one month, that is, each month is required to count the total shared electric charge of each resident in the one month. The public electricity utilization cost of each time period can be calculated through the intelligent electricity utilization manager. The intelligent electricity utilization manager is bound with the mobile terminal of each resident person, so that the current position of any person can be obtained, and each time period for sharing the public electricity fee is counted. The intelligent power consumption manager can be directly connected to the city power grid, so that the power consumption can be directly calculated, the power consumption cost can be calculated, and the intelligent power consumption manager can be connected with the existing intelligent electric meter, so that the power consumption can be directly read out, and the power consumption cost can be calculated.

The intelligent power utilization manager has the main function of calculating the power consumption in any time period in real time. The intelligent power manager may be a product existing in the prior art or on the market, for example, a power collection module (actually, an intelligent power manager) in chinese patent with application number 2015100543587 may be used.

In this step, the intelligent power utilization manager is further integrated with a millimeter wave radar, and indoor current personnel can be detected through the millimeter wave radar, so that the participation rate of the number of people is prompted. For example, if the millimeter wave radar detects that 5 persons are currently present in the actuation room and only 4 persons participate in the split, the participation rate is only 80%, and does not reach 100%, that is, some persons do not participate, and the apportionment of the participation rate is prompted.

When the last resident leaves the room and the current position of the last resident is detected not to be within the range of the preset position, the intelligent electricity utilization manager automatically cuts off the power, so that all indoor electric appliances (public electric appliances and/or personal electric appliances) connected with the intelligent electricity utilization manager are cut off and cannot work, the public electricity fee cannot be generated naturally, and the sharing of the public electricity fee is automatically finished.

For indoor electricity utilization of a plurality of people, the indoor electricity utilization comprises public electricity utilization and personal electricity utilization parts, in order to distinguish that public electricity charges needing to be shared are electricity consumption of public electric appliances generated by the public electric appliances, a personal intelligent socket corresponding to each resident person is required to be equipped, the personal intelligent socket can only be connected with the personal electric appliances, and therefore personal electricity charges generated by the personal electric appliances are counted by the personal intelligent socket. Therefore, the utility power rate is the total power rate minus all the individual power rates. And the statistics of the personal electricity fee can be completed through the personal intelligent socket, which is not described herein.

In order to understand how to calculate the utility power rate to be shared by any resident in the corresponding time period, and calculate the total utility power rate in a statistical period, the following specific application examples are illustrated:

example 1: taking school dormitories as an example, suppose that a dormitory has 4 students (a, B, C, D). Starting from an initial state where the utility appliances are not used, or starting from the completion of the shared statistics of the utility electricity charges generated by the last use of the utility appliances. The first student A enters the dormitory, starts an air conditioner of one of the public electric appliances, sends the expense sharing confirmation information to the students (B, C and D) in groups while starting the air conditioner, and sends the sending time T of the expense sharing confirmation information₀9:00 (on a 24 hour clock). And receiving feedback of the students (B, C and D) to the expense allocation confirmation information within the preset time of 1 minute, and further counting the number of the allocated persons needing to allocate the public electric expense. Assuming that, after reading the charge sharing confirmation message, the student B returns confirmation information indicating that the sharing of the public electricity charge is agreed at 9:00:43 (i.e., within a preset time), the current number of the shared people is 2, that is, the student a and the student B. It is often the case that student B is also in the dormitory at the current time, e.g., entering the dormitory with student A. After reading the expense allocation confirmation information, the student C returns confirmation information indicating that the public electricity expense is allowed to be allocated at 9:00:45, the current allocated number is increased by one on the basis of the original allocated number, and the current allocated number is 3, namely, the student A, the student B and the student C. After student D reads the charge sharing confirmation information, at 900:55, returning rejection information representing that the sharing of the public electricity fee is rejected, and obtaining the position of the student D at the current time. The current position of the student D is obtained, the current position of the student D can be determined through a mobile terminal (such as a mobile phone) carried by the student D, if the current position is not within a preset position range, the student D is not counted as the number of allocated persons, the number of allocated persons is still 3, namely, only the student A, the student B and the student C are available; if the current position is within the preset position range, the student D is forced to count the number of the shared people although clicking the 'reject' button, and the number of the shared people is 4 currently, namely, the student A, the student B, the student C and the student D. Here, the preset position range is set as the living dormitory range thereof, that is, the current position of the student D is within the dormitory range, and then the student D is counted as the allocated number; otherwise, student D is not counted as the allocated number.

Assuming that the first student B leaves the dormitory at 10:30, namely the rest resident needing to share the electric utility fee in the dormitory is (A, C) or (A, C, D), and the student B operates on the mobile terminal while leaving the dormitory at 10:30, the student B sends end information representing the end of sharing the electric utility fee to the rest students (A, C, D), and the end of sending the end information shares the electric utility fee for T_iI.e. T_iIs 10: 30. Then student B is at 9:00 (i.e. T)₀) To 10:30 (i.e. T)_i) Time period T_0,BThe shared charge of the public electricity is S_B，

(for the case where student D is not in dormitory) or

(corresponding to the case where student D is in dormitory). And during the time period T of 9:00 to 10:30_0,BThe generated public electricity charges can be calculated and counted by the intelligent electricity manager, so that the public electricity charges which need to be shared in each time period of the student B in one month can be calculated by the intelligent electricity manager for the period of accounting the electricity charges in one month usually, and the distribution of the public electricity charges which need to be distributed in the month of the student B can be calculatedTotal shared electric charge. Similarly, the student A, C, D calculates the utility power rate to be allocated for each resident.

Example 2: the difference from example 1 is that student B leaves the dormitory first at 10:30, but does not send end information indicating end of sharing the utility power rate to the remaining students (a, C, D) at 10:30, but sends end information indicating end of sharing the utility power rate to the remaining students (a, C, D) at 11:00, and if the position of student B at 11:00 is not within the preset position range, the time for student B to send end information indicating end of sharing the utility power rate is T_iIs 11: 00. And assuming that no other resident people leave the dormitory in the period of 10:30-11:00, namely, the rest resident people in the dormitory are still (A, C) or (A, C, D). Then the shared utility rate of electricity charge for student B is 9:00 (i.e. T)₀) To 11:00 (i.e. T)_i) Time period T_0,BThe number of the shared people is the same as that of the shared people before the student B leaves the dormitory.

In this example, if the current position is 11:00, the student B returns to the dormitory, that is, the current position of the student B at 11:00 is within the preset position range. Although student B leaves the dormitory at 10:30-11:00, student B is still counted as an apportioner who should apportion the utility power rate from 9:00 to 11:00, and the number of apportioned persons remains unchanged from the above. This is also true because student B still counts as a contributor because it does not send a "finish" share utility button for personal reasons, and this consequence should be undertaken by student B himself. Therefore, each resident is facilitated to save electricity, each resident is prompted to remember to turn off the electric appliance and click the end information of ending the sharing of the public electricity charge when each resident leaves the dormitory (particularly the last resident to leave), electricity is saved, and the purpose of saving energy and electricity is achieved.

Example 3: the difference from example 2 is that student B leaves the dormitory first at 10:30, and transmits end information indicating that the apportionment of the utility power rate is ended at 11:00, and the current time is when student B is located outside the preset location range. Student C leaves the dormitory the second at 10:50 and sends end information indicating the end of the split utility charge at 10: 50. That is, there is a case where there is a departure of other resident (student C) during the period from the departure (10:30) of student B to the transmission of the end information (11: 00). In this case, the common electricity fee to be shared by student B over the period from 9:00 to 11:00 includes two parts: the first part is that the apportioned number of the public electricity charges generated in the time period of 9:00-10:50 includes the student C; the second part, the number of apportioned persons does not include student C from the utility power charge generated in the time period of 10:50 to 11: 00. And for student C, since student B is counted as the sharing person until 11:00, student C only needs to count the utility power rate generated in the time period of 9:00 to 10: 50.

Example 4: the difference from example 2 is that after student B leaves the dormitory at a ratio of 10:30, no operation is performed on the mobile terminal, that is, no end information indicating that the apportionment of the utility power rate is ended is sent to the remaining students. And student D leaves the dormitory for the last one, the time of leaving the dormitory is 15:00, and all public electric appliances are closed while leaving the dormitory. That is, the utility power rate is not generated any more from 15:00 to the next time of turning on the utility, and then the student B is counted as the sharing person who needs to share the utility power rate in the period of 9:00-15: 00.

Of course, in this example, if student D leaves the dormitory last but continues to generate the public electricity fee without turning off all the public electricity appliances, student B needs to continue the end time of sharing the public electricity fee until the next time of sharing the confirmation information. For example, student D still has public appliances working after leaving the dormitory at 15:00, and student C returns to the dormitory at 22:00 and distributes confirmation information to all other residents. The time for which the student B needs to share the utility power rate is 9:00 to 22: 00. And after 22:00, whether the utility power fee needs to be shared or not needs to be confirmed again according to the steps.

Example 5: the difference from example 2 is that after student B leaves the dormitory, student C leaves the dormitory at 10:40, and sends end information indicating that the sharing of the utility power rate is ended at 10: 40. Then, return to dormitory at 10: 50. After returning to the dormitory, the student A sees the student B to return, so that the student B is required to share the public electricity fee, so that the student A sends a fee sharing confirmation message to all other students (B, C and D), the student B receives the message, clicks the end message for representing the end of sharing the public electricity fee at 11:20, and the student B is not in the preset position range at 11: 20. Then the utility power charge that student B needs to be amortized from the 9:00-11:20 time period includes three parts: a first part: the shared number of the public electricity charges generated in the 9:00-10:40 time period comprises students C; a second part: the shared number of the public electricity charges generated in the time period of 10:40-10:50 does not contain the student C; and a third part: the shared number of the public electricity charges generated in the time period of 10:50-11:00 comprises students C.

The embodiments disclosed in this description are only an exemplification of the single-sided characteristics of the invention, and the scope of protection of the invention is not limited to these embodiments, and any other functionally equivalent embodiments fall within the scope of protection of the invention. Various other changes and modifications to the above-described embodiments and concepts will become apparent to those skilled in the art from the above description, and all such changes and modifications are intended to be included within the scope of the present invention as defined in the appended claims.

Claims

1. An indoor multi-user electricity sharing method based on an intelligent electricity utilization manager is characterized by comprising the following steps:

step 1: one of the current indoor personnel sends the group sending expense sharing confirmation information to all other resident personnel, and obtains the sending time T of the sending expense sharing confirmation information₀；

the first condition is as follows: other residents return confirmation information representing agreement to share the public electric charge to the charge sharing confirmation information or in the preset stateNo operation is carried out during the time and no information is returned, and the preset time is the time T from the sending₀To the current time;

wherein, T_0,iIndicating the slave transmission time T of the corresponding resident i₀To the end time T of the public electric charge sharing_iThe time period of (a).

2. The indoor multi-user electricity sharing method based on the intelligent electricity manager as claimed in claim 1, wherein the sending time T of the charge sharing confirmation message is sent₀The turn-on time of the public electric appliance is or is later than the turn-on time of the public electric appliance.

3. The indoor multi-person electricity distribution method based on the intelligent electricity utilization manager, according to claim 1, is characterized in that the step 3 is replaced by the step 4: obtaining the public electricity charge sharing end information sent by the corresponding resident, and then obtaining the current corresponding position of the corresponding resident until the current corresponding position of the corresponding resident is at the preset positionWithin the set range, the public electricity charge sharing end time of the corresponding resident is the obtaining time when the corresponding position before the public electricity charge sharing end time is in the preset position range, and the public sharing charge S from the sending time to the public electricity charge sharing end time of the corresponding resident i_iComprises the following steps:

4. The indoor multi-person electricity sharing method based on the intelligent electricity manager according to claim 1, wherein in the second case, other residents return rejection information indicating that the sharing of the utility electricity fee is not agreed to, after the preset time, and the return time is marked as T ', and if the current position of the corresponding resident at the return time T' is within the preset position range, the end time of sharing the utility electricity fee of the corresponding resident is the sending time until the corresponding resident sends the rejection information indicating that the sharing of the utility electricity fee is not agreed to, outside the preset position range; and if the current position of the corresponding resident at the return time T 'is out of the preset position range, the public electricity fee sharing end time of the corresponding resident is the return time T'.

5. The indoor multi-user electricity sharing method based on the intelligent electricity manager according to claim 1, wherein the total shared amount of the electric utility fees of each resident in a period of the electric utility fee settlement statistics is the accumulation of the shared fees of the electric utility fees corresponding to each time period T ", wherein the time period T" is the sending time T₀To the end time of its utility rate split.

6. The indoor multi-person electricity sharing method based on the intelligent electricity manager of claim 1, wherein if resident i leaves from the sending time to the end time of sharing the utility electricity fee, other resident j leaves,the end time of the public electricity charge sharing for sending the resident j after the resident j leaves is T_j(T_j<T_i) Then resident i sends time T₀To end time T of public electric charge sharing_iTime of (1) public apportionment of cost S_iThe device comprises two parts: first part, time T₀To T_jThe generated public electricity charges, the apportioned number of people comprises resident persons j; second part, T_jTo T_iThe generated public electricity charges are shared and the number of people is eliminated.

7. The indoor multi-person electricity sharing method based on the intelligent electricity manager according to claim 1, wherein the sending time of the public electricity rate sharing end information is the leaving time of the corresponding resident leaving the room or later than the leaving time of the corresponding resident leaving the room.

8. The indoor multi-user electricity sharing method based on the intelligent electricity manager as claimed in claim 1, wherein if resident i is at the sending time T₀Then the time T is up to the end of the sharing of the public electric charge_iBefore, the expense sharing confirmation information is received again, and the confirmation information representing that the sharing of the public electric charge is agreed is returned within the preset time, wherein the corresponding sending time of the expense sharing confirmation information is T₁And the end time T of the public electricity charge sharing of the resident i_iIs T₁。

9. The indoor multi-user electricity sharing method based on the intelligent electricity manager of claim 8, wherein if the plurality of charge sharing confirmation messages are received, a plurality of sending times T are provided₁If the first transmission time is used as the end time T of the public electricity charge sharing_i。

10. The indoor multi-person electricity sharing method based on the intelligent electricity manager according to claim 1, wherein the T is_0,iTime-based public electricity chargeIn the time period, the personal electricity fee corresponding to each resident is subtracted from the total electricity fee generated indoors, and the personal electricity fee is the electricity fee generated through the personal intelligent socket.