CN107798555A - Heat energy based on compound Internet of Things takes collection methods and Internet of things system - Google Patents

Abstract

The present invention relates to Internet of Things field, there is provided a kind of heat energy based on compound Internet of Things takes collection methods and Internet of things system.Internet of things system includes user platform, multiple services divide platform, multiple management divide platform, sensing network platform and multiple objects to divide platform.Thermal data is sent to management in predetermined time certainly by calorimeter and divides platform, after management divides the thermal data of multiple calorimeters of platform one cell of statistics or section, the thermal data total amount of the section and the heat factors that government services platform divides platform to provide to management are compared, and formulate toll project, the total heat energy expense of the section is generated, user platform can complete payment by supplementing platform with money.Pass through one cell of programming count or the total amount of the thermal data of section, and charged according to quantity based on heat factors, a cell or section saving heat energy can be preferably supervised, by being managed to the user platform of a cell or section, can preferably carry out and save the policies such as the energy.

Description

Heat energy based on compound Internet of Things takes collection methods and Internet of things system

Technical field

The present invention relates to Internet of Things field, takes collection methods in particular to a kind of heat energy based on compound Internet of Things And Internet of things system.

Background technology

With making rapid progress for technology of Internet of things, various instrument and meters also begin to the ranks into Internet of Things, such as heat Table.Northern China winter will heat, and in order to save the energy, reduce flue dust, most of areas pass through heat supply network central heating.With The generation of Internet of Things intelligent calorimeter, gradually substituted by way of being charged according to the usage amount of heat energy traditional by building The mode of area charge.In order to advocate saving heat energy and manufacture heat energy resource, it is necessary to government by heating company to every family The calorimeter and heat energy service condition of each household are managed, but because number of users is numerous, it is difficult to management and implementation.

The content of the invention

In view of this, it is an object of the invention to provide a kind of heat energy based on compound Internet of Things to take collection methods and Internet of Things Net system, to improve above mentioned problem.

In order to achieve the above object, the technical solution adopted by the present invention is as described below：

In a first aspect, the invention provides a kind of heat energy based on compound Internet of Things to take collection methods, methods described application In Internet of things system, the Internet of things system includes user platform, multiple services divide platform, multiple management divide platform, Sensor Network Network platform and multiple objects divide platform, and multiple services divide platform to include government services platform and supplement platform with money, multiple described Management divides multiple management servers that platform includes heating company, and multiple objects divide platform to include calorimeter, the side Method includes：Any one hair that multiple calorimeters are divided in platform in predetermined time by sensing network platform to multiple management Send thermal data；The management divides the total amount of the thermal data of the multiple calorimeters of platform statistics；The management divides platform will The heat factors that the total amount of the thermal data of multiple calorimeters is sent with the government services platform compare；The management Divide platform to formulate toll project according to comparing result, and the total heat energy expense of multiple calorimeters is obtained according to toll project；When The user platform by supplement with money platform pay the fees when, it is described management divide platform by the total heat energy expense send to it is described supplement with money it is flat Platform, the platform of supplementing with money collect the corresponding amount of money according to total heat energy expense from the user platform.

Further, multiple services divide platform also to include carrier service platform, and it is more that the management divides platform to obtain Also include after the total heat energy expense of the individual calorimeter：The management divides platform to pass through the total heat energy expense of multiple calorimeters Carrier service platform is sent to the user platform.

Further, the management divides platform to formulate toll project according to comparing result, and obtains according to toll project more The step of total heat energy expense of the individual calorimeter, specifically includes：If the total amount of the thermal data of multiple calorimeters is less than or waited In the heat factors, then the unit price that total heat energy is taken is according to benchmark fee；If the thermal data of multiple calorimeters Total amount is more than the heat factors, then calculates the total amount and the difference of the heat factors of the thermal data of multiple calorimeters Value；If the difference is less than first gradient value, the unit price of total heat energy expense is collected according to benchmark expense floating 10；If institute Difference is stated between first gradient value and the second Grad, then the unit price that total heat energy is taken is according to benchmark expense floating 20 percent Collect；If the difference is more than the second Grad, the unit price of total heat energy expense is collected according to benchmark expense floating 30 percent； Wherein, the first gradient value, second Grad and the benchmark expense preset value be in the government services platform, and Sent by the government services platform to the management and divide platform.

Further, a user platform corresponds to multiple calorimeters, and the user platform and multiple calorimeters Between it is interrelated.

Further, methods described also includes：The government services platform divides platform acquisition multiple described from the management The total heat energy of calorimeter is taken, and according to the relation that is mutually related between user platform and multiple calorimeters, obtains the user The heat energy service condition of platform, by the heat energy service condition of the user platform corresponding to the government services platform on website Displaying.

Further, the predetermined time is any one day of every month, and methods described also includes：The management divides platform The total amount of the monthly thermal data of multiple calorimeters is counted, calculates the total amount of the thermal data of annual multiple calorimeters Beyond the month number of heat factors；If the total amount of the thermal data of annual multiple calorimeters exceeds the month of heat factors Number is more than preset times, then heat energy of the user platform in next year corresponding to multiple calorimeters takes unit price increase.

Second aspect, the present invention also provide a kind of Internet of things system, including user platform, multiple services divide platform, multiple Management divides platform, sensing network platform and multiple objects to divide platform, multiple services divide platform include government services platform with Supplement platform with money, multiple management divide multiple management servers that platform includes heating company, and multiple objects divide platform equal Including calorimeter；The calorimeter be used for predetermined time by sensing network platform to it is multiple management divide it is any one in platform Individual transmission thermal data；The management divides platform to be used to count the total amount of the thermal data of multiple calorimeters and by multiple institutes The heat factors that the total amount of the thermal data of calorimeter is sent with the government services platform are stated to compare；And according to comparing result Toll project is formulated, the total heat energy expense of multiple calorimeters is obtained according to toll project；The management divides platform to be used to work as institute When stating user platform by supplementing platform payment with money, total heat energy expense is sent to described and supplements platform with money；It is described to supplement platform use with money The corresponding amount of money is collected in taking according to the total heat energy from the user platform.

Further, multiple services divide platform also to include carrier service platform, and the management divides platform to be additionally operable to The total heat energy of multiple calorimeters is taken and sent by carrier service platform to the user platform.

Further, the management divides platform to be specifically used for：If the total amount of the thermal data of multiple calorimeters is less than Or equal to the heat factors, then the unit price that total heat energy is taken is according to benchmark fee；If the heat number of multiple calorimeters According to total amount be more than the heat factors, then calculate total amount and the heat factors of the thermal data of multiple calorimeters Difference；The difference is less than first gradient value, then the unit price of total heat energy expense is collected according to benchmark expense floating 10；If institute Difference is stated between first gradient value and the second Grad, then the unit price that total heat energy is taken is according to benchmark expense floating 20 percent Collect；If the difference is more than the second Grad, the unit price of total heat energy expense is collected according to benchmark expense floating 30 percent； Wherein, the first gradient value, second Grad and the benchmark expense preset value be in the government services platform, and Sent by the government services platform to the management and divide platform.

Further, a user platform corresponds to multiple calorimeters, and the user platform and multiple calorimeters Between it is interrelated.

The invention provides a kind of heat energy based on compound Internet of Things to take collection methods and Internet of things system.This method application In Internet of things system, the Internet of things system includes user platform, multiple services divide platform, multiple management divide platform, Sensor Network Network platform and multiple objects divide platform, and multiple services divide platform to include government services platform and supplement platform with money, multiple described Management divides multiple management servers that platform includes heating company, and multiple objects divide platform to include calorimeter.The side Method includes：Any one hair that multiple calorimeters are divided in platform in predetermined time by sensing network platform to multiple management Send thermal data；The management divides the total amount of the thermal data of the multiple calorimeters of platform statistics；The management divides platform will The heat factors that the total amount of the thermal data of multiple calorimeters is sent with the government services platform compare；The management Divide platform to formulate toll project according to comparing result, and the total heat energy expense of multiple calorimeters is obtained according to toll project；When The user platform by supplement with money platform pay the fees when, it is described management divide platform by the total heat energy expense send to it is described supplement with money it is flat Platform, the platform of supplementing with money collect the corresponding amount of money according to total heat energy expense from the user platform.

The present invention, which is certainly sent thermal data to management in predetermined time by calorimeter, divides platform, and management divides platform to unite After the thermal data for counting multiple calorimeters of a section, by the thermal data total amount of the section and government services platform to management The heat factors for dividing platform to provide compare, and formulate toll project, generate the total heat energy expense of the section, user platform can lead to Cross and supplement platform completion payment with money.By one cell of programming count or the total amount of the thermal data of section, and referred to based on heat Mark is charged according to quantity, can preferably be supervised a cell or section to save the energy, be passed through the user to a cell or section Platform is managed, and can preferably be carried out and be saved the policies such as the energy.

To enable the above objects, features and advantages of the present invention to become apparent, preferred embodiment cited below particularly, and coordinate Appended accompanying drawing, is described in detail below.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by embodiment it is required use it is attached Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore be not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is the composition schematic diagram of Internet of things system provided in an embodiment of the present invention.

Fig. 2 is the flow chart of the heat energy expense collection methods provided in an embodiment of the present invention based on compound Internet of Things.

Fig. 3 is the total amount and charge feelings of tetra- sections of A, B, C, D provided in an embodiment of the present invention thermal data of one month Condition schematic diagram.

Fig. 4 is the exceeded number schematic diagram of tetra- sections of A, B, C, D provided in an embodiment of the present invention.

Icon：100- Internet of things system；10- user platforms；20- services divide platform；30- management divides platform；40- Sensor Networks Network platform；50- objects divide platform.

Embodiment

To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with the embodiment of the present invention In accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is Part of the embodiment of the present invention, rather than whole embodiments.The present invention implementation being generally described and illustrated herein in the accompanying drawings The component of example can be configured to arrange and design with a variety of.

Therefore, below the detailed description of the embodiments of the invention to providing in the accompanying drawings be not intended to limit it is claimed The scope of the present invention, but be merely representative of the present invention selected embodiment.It is common based on the embodiment in the present invention, this area The every other embodiment that technical staff is obtained under the premise of creative work is not made, belong to the model that the present invention protects Enclose.

Fig. 1 is refer to, is the composition schematic diagram of Internet of things system provided in an embodiment of the present invention.The embodiment of the present invention provides The heat energy based on compound Internet of Things take collection methods and be applied to Internet of things system 100, the Internet of things system 100 is put down including user Platform 10, multiple services divide platform 20, multiple management to divide platform 30, sensing network platform 40 and multiple objects to divide platform 50.Its In, multiple objects divide in platform 50 any one can by sensing network platform 40 with it is multiple management divide in platform 30 appoint One communication connection of meaning, to manage the thermal data for dividing the sending object of platform 30 to divide platform 50 to multiple.

Multiple management divide in platform 30 any one divide platform 20 to communicate to connect with multiple services, in the present embodiment In, service divides platform 20 to include government services platform, supplement with money in platform and social carrier service platform, multiple services point Platform 20 communicates to connect with user platform 10, for receiving the charging information of the transmission of user platform 10, and to user platform 10 Send total heat energy expense to be paid.User platform 10 can be general electronic equipment, such as PC (personal Computer, PC), smart mobile phone, tablet personal computer, personal digital assistant (personal digital assistant, PDA), Mobile internet surfing equipment (mobile Internet device, MID) etc..In the present embodiment, an office building or cell or section Infrastructure management company operate a user platform 10, to manage multiple calorimeters of whole cell or section or whole office building.It is more Individual management divides multiple management servers that platform 30 can be a heating company.Each object divides platform 50 to include calorimeter, Heat energy provided in an embodiment of the present invention based on compound Internet of Things takes collection methods applied to reasonable for a user platform 10 The heat energy expense for collecting multiple calorimeters, can effectively advocate the saving energy, also allow for managing.

Fig. 2 is refer to, is the flow chart of the heat energy expense collection methods provided in an embodiment of the present invention based on compound Internet of Things. It should be noted that the heat energy of the present invention based on compound Internet of Things takes collection methods not with Fig. 2 and as described below Particular order for limitation.It should be appreciated that in other embodiments, the heat energy of the present invention based on compound Internet of Things takes receipts Taking the order of method which part step can be exchanged with each other according to being actually needed, or part steps therein can also be omitted Or delete, the heat energy based on compound Internet of Things takes collection methods and is applied to Internet of things system 100, and methods described includes following Step：

Step S1, multiple calorimeters predetermined time by sensing network platform 40 to it is multiple management divide it is any in platform One transmission thermal data.

In the present embodiment, multiple calorimeters can be calorimeter corresponding to each resident family in a cell or section.Pass The sense network platform 40 can be intelligent networking gateway, and all calorimeters of a cell or section can correspond to an Internet of Things Intelligent gateway.In the present embodiment by taking section as an example, all calorimeters of a section are in predetermined time by the thermal data of itself Sent by intelligent networking gateway corresponding to the section to a management service in multiple management servers of heating company Device.

Multiple each management servers for dividing in platform 30 of managing can correspond to one or more sections, i.e. section All calorimeters every time predetermined time all by the thermal data of itself send to multiple management divide in platform 30 corresponding to one In management server.Preferably, the predetermined time can be the zero point on every month 1, certainly in other embodiments In, the predetermined time can also be 12 points of monthly 8 points, monthly No. 10 of No. 2, per week one zero point etc..

Step S2, management divide the total amount of the thermal data of the multiple calorimeters of platform statistics.

The multiple heat for thering is a management to divide platform 30 to have received that corresponding section divided due to multiple management in platform 30 The thermal data of scale, the management for receiving the thermal data of multiple calorimeters divide platform 30 to count multiple calorimeters The total amount of thermal data.

Step S3, management divide platform 30 by the total amount of the thermal data of multiple calorimeters and the government services platform The heat factors of transmission compare.

Because government services platform and management divide the intercommunication of platform 30, government services platform can be by heat factors Each management is sent in advance and divides platform 30, and management divides platform 30 to be stored heat factors.Wherein, the heat factors are The standard hot energy used of the section that government platform provides in every month, heat factors can be directed to different sections and Formulate, situation similar in the calorimeter number in section, heat factors can be with identical.

Refer to Fig. 3, be tetra- sections of A, B, C, D provided in an embodiment of the present invention thermal data of one month total amount and Charge situation schematic diagram.Wherein, the total amount for the thermal data that all calorimeters of tetra- sections of A, B, C, D used at one month point Not Wei 400kcal, 550kcal, 640kcal, 710kcal, the calorimeter sum of tetra- sections of A, B, C, D is close, four sections Heat factors be 500kcal.A, the total amount of thermal data of tetra- sections of B, C, D and the comparing result of heat factors are：A The total amount of the thermal data of section is without departing from heat factors；The total amount of the thermal data of B sections exceeds heat factors 50kcal； The total amount of the thermal data of C sections exceeds heat factors 140kcal；The total amount of the thermal data of D sections exceeds heat factors 210kcal。

Step S4, the management divide platform to formulate toll project according to comparing result, and obtain according to toll project multiple The total heat energy of the calorimeter is taken.

In step s3, the total amount of the thermal data of multiple calorimeters corresponding to a section is done with heat factors Contrast, referring again to Fig. 3, the toll project that the present embodiment is formulated is：If the thermal data of multiple calorimeters is total Amount is less than or equal to the heat factors, then the unit price that total heat energy is taken is according to benchmark fee.Benchmark in the present embodiment takes With for α, then it is 400 × α that the total heat energy of A sections, which is taken,.

If the total amount of the thermal data of multiple calorimeters is more than the heat factors, multiple calorimeters are calculated Thermal data total amount and the heat factors difference.Such as the heat of multiple calorimeters of tri- sections of B, C, D The total amount of data exceeds the heat factors, and exceeds 50kcal, 140kcal, 210kcal respectively.

If the difference is less than first gradient value, the unit price that total heat energy is taken is received according to benchmark expense floating 10 Take；If the difference, between first gradient value and the second Grad, the unit price that total heat energy is taken is according to benchmark expense floating hundred / bis- ten collect；If the difference is more than the second Grad, the unit price that total heat energy is taken is according to benchmark expense floating percent 30 collect.Wherein, the first gradient value, second Grad and the benchmark expense preset value take in the government Business platform, and sent by the government services platform to the management and divide platform 30.

In the present embodiment, first gradient value and the second Grad are respectively 100kcal and 200kcal, therefore, B sections Total heat energy is taken for 550 × α × (1+10%) members, and it is 640 × α × (1+20%) that the total heat energy of C sections, which is taken, the total heat energy of D sections Take for 710 × α × (1+30%).Certainly, in other embodiments, the first gradient value and the second Grad may be used also Think other, such as 50kcal and 100kcal, 80kcal and 150kcal etc., government services platform is specifically needed according to actual feelings Condition is formulated.

Step S5, when the user platform is paid the fees by supplementing platform with money, management divides platform that the total heat energy is taken into transmission Platform is supplemented with money to described, and the platform of supplementing with money collects the corresponding amount of money according to total heat energy expense from the user platform.

After the management divides the total heat energy expense that platform 30 calculates a section, it can be sent by carrier service platform To the user platform 10, after user platform 10 collects the payment information of carrier service platform, may be selected in certain time limit It is interior to complete payment, in 7 days.Turn over time-consuming by supplementing platform with money when property management personnel operates user platform 10, management point is flat The total heat energy of section corresponding to the user platform 10 expense can be sent to described and supplement platform with money by platform 30, and the platform of supplementing with money is from described Account corresponding to user platform 10 takes off the amount of money corresponding to total heat energy expense.The platform of supplementing with money can be the chain service of supplementing with money of red flag Device, wechat, Alipay etc. can be used for the server supplemented with money.Need it is to be noted that multiple calorimeters of a cell or section It is interrelated with the user platform 10 of the cell or section.

In the embodiment of the present invention, the heat energy expense collection methods based on compound Internet of Things also include：The management point is flat Platform 30 counts the total amount of the monthly thermal data of multiple calorimeters, calculates the thermal data of annual multiple calorimeters Total amount exceeds the month number of heat factors；

If the total amount of the thermal data of annual multiple calorimeters is more than default time beyond the month number of heat factors Count, then heat energy of the user platform 10 in next year corresponding to multiple calorimeters takes unit price increase.Described, preset times can be The index that government services platform is formulated.

Fig. 4 is refer to, is the exceeded number schematic diagram of tetra- sections of A, B, C, D provided in an embodiment of the present invention.Wherein, A, B, tetra- sections of C, D are respectively 4 times, 2 times, 3 times, 8 times beyond the month number of heat factors in annual 12 middle of the month, A, B, C, The preset times of tetra- sections of D are 6 times, thus tri- section whole years of A, B, C monthly beyond heat factors number be satisfied by it is pre- If number, the heat energy expense unit price of next year does not adjust, and is performed according to market price.D sections are more than preset times, and have had more 2 times, this Can specify the expenses standard of next year in embodiment according to the number having more, i.e., D sections the unit price that next year heat energy takes for α × (1+20%).

Methods described also includes：The government services platform divides platform 30 to obtain multiple calorimeters from the management Total heat energy is taken, and according to the relation that is mutually related between user platform 10 and multiple calorimeters, is obtained corresponding to various zones The heat energy service condition of user platform 10, the heat energy service condition of user platform corresponding to various zones 10 is taken in the government Shown corresponding to business platform on website, to advocate each cell, section economizes on resources.

In summary, the invention provides a kind of heat energy based on compound Internet of Things to take collection methods and Internet of things system. This method is applied to Internet of things system, and the Internet of things system includes user platform, multiple services divide platform, multiple management point are flat Platform, sensing network platform and multiple objects divide platform, and multiple services divide platform to include government services platform and supplement platform with money, Multiple management divide multiple management servers that platform includes heating company, and multiple objects divide platform to include heat Table.The present invention, which is certainly sent thermal data to management in predetermined time by calorimeter, divides platform, and management divides platform to count one It is after the thermal data of multiple calorimeters of individual section, the thermal data total amount of the section and government services platform is flat to management point The heat factors that platform provides compare, and formulate toll project, generate the total heat energy expense of the section, and management divides platform can be by always Heat energy expense informs user platform by carrier service platform in the form of short message, and user platform can be completed by supplementing platform with money Payment.The heat energy based on compound Internet of Things of the present invention takes collection methods can be with one cell of programming count or the heat number of section According to total amount, and charged according to quantity based on heat factors, can preferably supervise cell or section to save the energy, pass through The user platform of one cell or section is managed, can preferably carry out and save the policies such as the energy.Also, the heat of cell Measure data total amount it is too high when, charge it is also higher, beyond the moon number of heat factors it is higher when, the charge of next year also can be higher, lead to Crossing this mode can effectively supervise user to save the energy.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.It should be noted that：Similar label and letter exists Similar terms is represented in following accompanying drawing, therefore, once being defined in a certain Xiang Yi accompanying drawing, is then not required in subsequent accompanying drawing It is further defined and explained.

Claims (10)

1. a kind of heat energy based on compound Internet of Things takes collection methods, it is characterised in that methods described is applied to Internet of things system, The Internet of things system includes user platform, multiple services and divides platform, multiple manage to divide platform, sensing network platform and multiple right As dividing platform, multiple services divide platform to include government services platform and supplement platform with money, and multiple management divide platform to include Multiple management servers of heating company, multiple objects divide platform to include calorimeter, and methods described includes：

Any one transmission that multiple calorimeters are divided in platform in predetermined time by sensing network platform to multiple management Thermal data；

The management divides the total amount of the thermal data of the multiple calorimeters of platform statistics；

The management divides the heat that platform sends the total amount of the thermal data of multiple calorimeters and the government services platform Figureofmerit compares；

The management divides platform to formulate toll project according to comparing result, and obtains multiple calorimeters according to toll project Total heat energy is taken；

When the user platform is paid the fees by supplementing platform with money, the management divides platform to fill total heat energy expense transmission to described It is worth platform, the platform of supplementing with money collects the corresponding amount of money according to total heat energy expense from the user platform.

2. the heat energy according to claim 1 based on compound Internet of Things takes collection methods, it is characterised in that multiple clothes Business divides platform also to include carrier service platform, is gone back after the total heat energy expense that the management divides platform to obtain multiple calorimeters Including：The management divides platform to send the total heat energy expense of multiple calorimeters to the user by carrier service platform Platform.

3. the heat energy according to claim 1 based on compound Internet of Things takes collection methods, it is characterised in that the management point Platform according to comparing result formulate toll project, and according to toll project obtain multiple calorimeters total heat energy take the step of Specifically include：

If the total amount of the thermal data of multiple calorimeters is less than or equal to the heat factors, the unit price of total heat energy expense is pressed According to benchmark fee；

If the total amount of the thermal data of multiple calorimeters is more than the heat factors, the heat of multiple calorimeters is calculated Measure the total amount of data and the difference of the heat factors；

If the difference is less than first gradient value, the unit price of total heat energy expense is collected according to benchmark expense floating 10；If The difference is between first gradient value and the second Grad, then the unit price that total heat energy is taken is according to benchmark expense floating 2 percent Ten collect；If the difference is more than the second Grad, the unit price that total heat energy is taken is received according to benchmark expense floating 30 percent Take；

Wherein, the first gradient value, second Grad and the benchmark expense preset value are put down in the government services Platform, and sent by the government services platform to the management and divide platform.

4. the heat energy according to claim 1 based on compound Internet of Things takes collection methods, it is characterised in that a user puts down Platform corresponds to multiple calorimeters, and interrelated between the user platform and multiple calorimeters.

5. the heat energy according to claim 4 based on compound Internet of Things takes collection methods, it is characterised in that methods described is also Including：The government services platform divides the total heat energy expense of the multiple calorimeters of platform acquisition from the management, is put down according to user Be mutually related relation between platform and multiple calorimeters, obtains the heat energy service condition of the user platform, by the use The heat energy service condition of family platform is being shown corresponding to the government services platform on website.

6. the heat energy according to claim 5 based on compound Internet of Things takes collection methods, it is characterised in that when described default Any one day for every month is carved, methods described also includes：The management divides the heat that platform counts monthly multiple calorimeters The total amount of data is measured, the total amount for calculating the thermal data of annual multiple calorimeters exceeds the month number of heat factors；

If the total amount of the thermal data of annual multiple calorimeters is more than preset times beyond the month number of heat factors, Heat energy of the user platform in next year corresponding to multiple calorimeters takes unit price increase.

7. a kind of Internet of things system, it is characterised in that divide platform, multiple management to divide platform including user platform, multiple services, pass The sense network platform and multiple objects divide platform, and multiple services divide platform to include government services platform and supplement platform with money, multiple The management divides multiple management servers that platform includes heating company, and multiple objects divide platform to include calorimeter；

The calorimeter is used for any one transmission divided in predetermined time by sensing network platform to multiple management in platform Thermal data；

The management divides platform to be used to count the total amount of the thermal data of multiple calorimeters and by multiple calorimeters The heat factors that the total amount of thermal data is sent with the government services platform compare；And formulate payment collector according to comparing result Case, the total heat energy expense of multiple calorimeters is obtained according to toll project；

The management divides platform to be used to, when the user platform is paid the fees by supplementing platform with money, the total heat energy is taken into transmission to institute State and supplement platform with money；

The platform of supplementing with money is used to collect the corresponding amount of money from the user platform according to total heat energy expense.

8. Internet of things system according to claim 7, it is characterised in that the service divides platform also to include carrier service Platform, the management divide platform to be additionally operable to by carrier service platform send the total heat energy expense of multiple calorimeters to institute State user platform.

9. Internet of things system according to claim 7, it is characterised in that the management divides platform to be specifically used for：It is if multiple The total amount of the thermal data of the calorimeter is less than or equal to the heat factors, then the unit price that total heat energy is taken is according to benchmark expense Collect；

If the total amount of the thermal data of multiple calorimeters is more than the heat factors, the heat of multiple calorimeters is calculated Measure the total amount of data and the difference of the heat factors；

If the difference is less than first gradient value, the unit price of total heat energy expense is collected according to benchmark expense floating 10；If The difference is between first gradient value and the second Grad, then the unit price that total heat energy is taken is according to benchmark expense floating 2 percent Ten collect；If the difference is more than the second Grad, the unit price that total heat energy is taken is received according to benchmark expense floating 30 percent Take；

Wherein, the first gradient value, second Grad and the benchmark expense preset value are put down in the government services Platform, and sent by the government services platform to the management and divide platform.

10. Internet of things system according to claim 7, it is characterised in that a user platform corresponds to multiple calorimeters, and It is and interrelated between the user platform and multiple calorimeters.