CN106468602A - A kind of heat measuring system and its method - Google Patents

Abstract

The invention discloses a kind of heat measuring system and its method, wherein this heat measuring system includes Heat distribution meter, meter-copy device, building calorimeter and management server, Heat distribution meter determines thermal losses computing formula according to fansink-type and calculates thermal losses, thermal losses is sent to by management server by meter-copy device, management server calculates this consumption ratio of Heat distribution meter according to thermal losses, and calculates corresponding radiator heat with reference to the gross heat input measured by building calorimeter.The heat measuring system of the present invention and its method can be applied to polytype radiator, have general applicability.

Description

A kind of heat measuring system and its method

Technical field

The present invention relates to the heat death theory technical field of heating system, relate in particular to a kind of heat measuring system And its method.

Background technology

At present, it is typically using the assay method that radiator Heat distribution meter carries out heat death theory：Every kind of heat distribution A kind of thermal losses computing formula fixed by table, calculates user's radiator by thermal losses computing formula Thermal losses, carries out Computation for apportionment to thermal losses used by each user and obtains amortization ratio, further according to building The gross heat input recording on calorimeter, is calculated the heating load of each user.

But, the thermal losses computing formula due to Heat distribution meter immobilizes, and it is only applicable to a kind of spy Fixed radiator, and the species of current radiator is various, and installing and using due to current China radiator There is no specific specification, user according to the hobby of oneself, can arbitrarily change species, quantity of radiator etc., So needing to make different Heat distribution meters to be adapted to different types of radiator, during practical application, can make Become the increase of cost, lead to application difficult.

Content of the invention

For this reason, the technical problem to be solved is to overcome radiator Heat distribution meter in prior art Only can be suitably used for the problem of same type of radiator, thus proposing one kind can be applied to polytype The heat measuring system of radiator and its method.

A kind of heat measuring system of the present invention, including：

Heat distribution meter, including function setting module, data processor and the first wireless communication module；Described Function setting module is used for obtaining fansink-type and described fansink-type being transferred at described data Reason device；Described data processor by determined according to described fansink-type thermal losses computing formula and based on Calculate thermal losses, and described thermal losses is sent to described meter-copy device by described first wireless communication module；

Meter-copy device, including data receiving and transmitting controller and the second wireless communication module, described Heat distribution meter and institute State meter-copy device to be communicated by the first wireless communication module and the second wireless communication module；Described data is received Send out controller to be used for receiving, by described second wireless communication module, the described heat that described Heat distribution meter sends Consumption, is sent to described management server after being processed；

Building calorimeter, for measuring the gross heat input of entire building；

Management server, including input module, CPU module and the 3rd wireless communication module, described checks meter Device is carried out by described second wireless communication module and the 3rd wireless communication module with described management server Communication；Described input module is used for obtaining the gross heat input measured by described building calorimeter and being passed It is defeated by described CPU module；Described CPU module is used for described by described 3rd wireless communication module reception The thermal losses that meter-copy device sends, and this consumption ratio of Heat distribution meter is calculated according to described thermal losses, with And corresponding radiator heat is calculated according to this consumption ratio of described gross heat input and Heat distribution meter.

Preferably, described thermal losses computing formula is：Q=A (Δ T)^B, wherein Q represents thermal losses, Δ T represents the absolute value of the difference of spreader surface mean temperature and indoor air temperature, A and B represents normal Value parameter, it determines according to fansink-type, and the value of A is 3.5-9.5, and the value of B is 1-1.5.

Preferably, the data processor of described Heat distribution meter includes：

First judging unit, for judging to whether there is and described fansink-type identical in preset kind Type；

First formula determining unit, for when exist and described fansink-type be GLZY7-6/670 shaped steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.277 for 5.631, B；

Second formula determining unit, for when exist and described fansink-type be GLF-75/75-600 steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.329 for 5.697, B；

3rd formula determining unit, for when exist and described fansink-type be GB-21-600 steel plate During formula, determine that in thermal losses computing formula, A is 1.123 for 8.264, B；

4th formula determining unit, for when exist and described fansink-type be GLF-650*78*45 steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.33 for 4.088, B；

5th formula determining unit, for when exist and described fansink-type be TZ4-6-5 (8) cast iron During four posts, 760 type radiator, determine that in thermal losses computing formula, A is 1.222 for 6.924, B.

Preferably, the CPU module of described management server is additionally operable to for radiator heat to pass through described the Three wireless communication modules are sent to described meter-copy device；

The data receiving and transmitting controller of described meter-copy device is additionally operable to receive by described second wireless communication module Described radiator heat, and send it to corresponding Heat distribution meter；

Described Heat distribution meter also includes display module, and described data processor is additionally operable to by described first no Line communication module receives described radiator heat, and is transmitted to described display module and is shown.

Preferably, the data processor of described Heat distribution meter is additionally operable to when receiving unit exception signal, Produce abnormal alarm signal and described meter-copy device is sent to by the first wireless communication module；

The data receiving and transmitting controller of described meter-copy device is additionally operable to receive by described second wireless communication module Described abnormal alarm signal simultaneously sends it to described management server；

The CPU module of described management server is additionally operable to receive institute by described 3rd wireless communication module State abnormal alarm signal.

Preferably, described first wireless communication module includes the first bluetooth module；

Described second wireless communication module includes the second bluetooth module and the first GPRS module；

Described 3rd wireless communication module includes the second GPRS module.

Preferably, the CPU module of described management server is additionally operable to according to described radiator heat Calculation Go out the hot expense of radiator.

A kind of heat measuring method of the present invention, comprises the following steps：

After the function setting module of Heat distribution meter gets fansink-type, it is transmitted to Heat distribution meter Data processor；

Described data processor determines thermal losses computing formula according to described fansink-type and calculates Thermal losses, and described thermal losses is sent to meter-copy device by the first wireless communication module of Heat distribution meter；

The data receiving and transmitting controller of meter-copy device is received respectively respectively by the second wireless communication module of meter-copy device The described thermal losses that individual described Heat distribution meter sends, is sent to management server after being processed；

After the input module of management server gets the gross heat input measured by building calorimeter, by it It is transferred to the CPU module of management server；

Described CPU module receives described meter-copy device by the 3rd wireless communication module of management server and sends out This consumption ratio of Heat distribution meter is calculated after the thermal losses sent, and according to described gross heat input and heat distribution This consumption ratio of table calculates corresponding radiator heat.

Preferably, described thermal losses computing formula is：Q=A (Δ T)^B, wherein Q represents thermal losses, Δ T represents the absolute value of the difference of spreader surface mean temperature and indoor air temperature, A and B represents normal Value parameter, it determines according to fansink-type, and the value of A is 3.5-9.5, and the value of B is 1-1.5.

Preferably, described included according to the step that described fansink-type determines thermal losses computing formula：

Judge to whether there is and described fansink-type identical type in preset kind；

When existing and described fansink-type is GLZY7-6/670 shaped steel aluminium composite heating radiator, heat loss In amount computing formula, A is 1.277 for 5.631, B；

When existing and described fansink-type is GLF-75/75-600 steel combined with aluminum radiator, heat loss In amount computing formula, A is 1.329 for 5.697, B；

When existing and described fansink-type is GB-21-600 steel plate, thermal losses computing formula Middle A is 8.264, B is 1.123；

When existing and described fansink-type is GLF-650*78*45 steel combined with aluminum radiator, heat loss In amount computing formula, A is 1.33 for 4.088, B；

When existing and described fansink-type is TZ4-6-5 (8) cast iron four posts, 760 type radiator, heat In consumption calculating formula, A is 1.222 for 6.924, B.

The technique scheme of the present invention has advantages below compared to existing technology：

Pass through in the present invention to arrange Heat distribution meter, meter-copy device, building calorimeter and management server, build One complete intelligent heat measuring system, Heat distribution meter, meter-copy device and management server are led to each other Cross wireless mode and communicated it is achieved that being exempted to copy and accept into user data and manage, only need on the management server Operation can complete, the very convenient hot statistical work taking, and saved human cost, and improve effect Rate.And this heat measuring system, using the relative metering method shared, is not belonging to traditional metering product, Do not need regularly measurement verification, so improve the accuracy of heat expense metering.Also by Heat distribution meter Middle setting data processor, can according to the difference of the fansink-type of required metering intelligently by it Select thermal losses computing formula such that it is able to be applied to polytype radiator, expand heat death theory system The scope of application of system, efficiently solves the applicable sex chromosome mosaicism of heat measuring system.

Pass through in the present invention to arrange thermal losses computing formula, thus calibrating two constant value in this formula Parameter A and the span of B, and be determined according to fansink-type, improve heat measuring system pair Heat takes the accuracy of metering.

Pass through according to different fansink-type in the present invention, define each different types of radiator The value of two constant parameter A and B in corresponding thermal losses computing formula, and by widely Test demonstrates the accuracy of determined two constant parameter, has all reached country to Heat distribution meter C value requires.

By radiator heat is fed back to Heat distribution meter in the present invention, and by the display of Heat distribution meter Module shows, user can be allowed intuitively to check its heat expense Expenditure Levels, and remind user in time Carry out paying of heat expense, it is to avoid situations such as produce late payment.

Pass through the abnormal alarm function of Heat distribution meter in the present invention, and the abnormal alarm that Heat distribution meter will produce Signal is sent to management server by meter-copy device, such that it is able to make Heat distribution meter be believed according to this abnormal alarm Number automatically record the time producing mistake and thermal losses now, and take stopping thermal losses in time Metering and/or stop sending the operation such as thermal losses data to management server it is achieved that self-protection work( Can, it is to avoid the hot erroneous metrology taking.Management server also can be timely after receiving abnormal alarm signal Stop the metering that take of heat, and maintainer can be allowed in time to know, make maintenance accordingly.

Brief description

In order that present disclosure is more likely to be clearly understood, being embodied as below according to the present invention Example simultaneously combines accompanying drawing, and the present invention is further detailed explanation, wherein

Fig. 1 is a kind of structured flowchart of heat measuring system of the embodiment of the present invention 1；

Fig. 2 is a kind of actual distribution figure of heat measuring system of the embodiment of the present invention 1；

Fig. 3 is a kind of flow chart of heat measuring method of the embodiment of the present invention 2；

Fig. 4 is a kind of flow chart of preferred implementation of the embodiment of the present invention 2.

In figure reference is denoted as：1- Heat distribution meter, 2- meter-copy device, 3- building calorimeter.

Specific embodiment

The heat measuring system of the present invention can be applicable in many buildings, thus, multiple heat can be included in a building Allocation table 1.A meter-copy device 2 can be included it is also possible to include multiple meter-copy devices 2 in one building.One In building, a building calorimeter 3 is set, when being applied to many buildings and carrying out heat death theory, then heat measuring system Multiple buildings calorimeter 3 can be included.Management server 4 can receive the measurement of multiple buildings calorimeter 3 Data and the measurement data of multiple meter-copy device 2, and carry out data management.

As shown in figure 1, the heat measuring system of embodiment 1 includes：Heat distribution meter 1, meter-copy device 2, building Calorimeter 3 and management server 4.Heat distribution meter 1 includes function setting module 11, data processor 12 and first wireless communication module 13；Function setting module is used for obtaining fansink-type and by radiator Type transfers are to data processor 12；Data processor 12 is used for determining heat loss according to fansink-type Amount computing formula simultaneously calculates thermal losses, and send to meter-copy device 2 by the first wireless communication module 13 Thermal losses.Meter-copy device 2 includes data receiving and transmitting controller 21 and the second wireless communication module 22, heat point Join table 1 to be led to by the first wireless communication module 13 and the second wireless communication module 22 with meter-copy device 2 Letter；Data receiving and transmitting controller 21 is used for sending by the second wireless communication module 22 reception Heat distribution meter 1 Thermal losses, carry out Data Integration, data conversion etc. process after be sent to management server 4.Lou Dong Calorimeter 3 is used for measuring the gross heat input of entire building, provides it to management server 4.Management service Device 4 includes input module 41, CPU module 42 and the 3rd wireless communication module 43, meter-copy device 2 and pipe Reason server 4 passes through the second wireless communication module 22 and the 3rd wireless communication module 43 is communicated；Defeated Enter module 41 for obtaining the gross heat input measured by building calorimeter 3 and being transmitted to CPU mould Block 42；The heat that CPU module 42 is used for by the 3rd wireless communication module 43 receives meter-copy device 2 transmission disappears Consumption, and this consumption ratio of Heat distribution meter 1 is calculated according to thermal losses, and according to gross heat input and heat This consumption ratio of allocation table calculates corresponding radiator heat.Preferably, the CPU of management server 4 Module 42 is additionally operable to calculate the hot expense of radiator according to radiator calorimeter, and produces the hot expense at each family Bill is printed.

As shown in Fig. 2 in a building, the heating power that building calorimeter 3 is arranged in building unit comes in and goes out At mouthful, it is responsible for measuring the gross heat input of single Accounting unit.Each radiator of each household is respectively arranged with heat Allocation table 1, the setting height(from bottom) of center select radiator from the bottom to top total height 75% position, The installation of horizontal level is selected in the center of radiator horizontal direction.Heat distribution meter 1 needs when installing to ensure The hot sensing backboard of Heat distribution meter is contacted well with radiator, enables the numerical value that Heat distribution meter measures Fully demonstrate the heat dispersal situations of radiator.Meter-copy device 2 can be divided into centralized automatic meter-reading device and hand-held meter reading instrument, Centralized automatic meter-reading device can be installed in corridor, can the number that sent of its local Heat distribution meter of timed collection According to.Hand-held meter reading instrument can complete registration or the setting work of its local Heat distribution meter at any time, and at any time Carry out checking meter operation.

Pass through in the present embodiment to arrange Heat distribution meter, meter-copy device, building calorimeter and management server, structure Build a complete intelligent heat measuring system, Heat distribution meter, meter-copy device and management server are each other Wirelessly communicated it is achieved that being exempted to copy and accept into user data and manage, only need to be in management server Upper operation can complete, the very convenient hot statistical work taking, and saved human cost, and improve Efficiency.And this heat measuring system, using the relative metering method shared, is not belonging to traditional metering product, Do not need regularly measurement verification, so improve the accuracy of heat expense metering.Also by Heat distribution meter Middle setting data processor, can according to the difference of the fansink-type of required metering intelligently by it Select thermal losses computing formula such that it is able to be applied to polytype radiator, expand heat death theory system The scope of application of system, efficiently solves the applicable sex chromosome mosaicism of heat measuring system.

As a kind of preferred implementation, thermal losses computing formula can be：Q=A (Δ T)^B, wherein Q represents thermal losses, and Δ T represents the absolute of the difference of spreader surface mean temperature and indoor air temperature Value, A and B represents constant parameter, and it determines according to fansink-type, and the value of A is 3.5-9.5, B's Value is 1-1.5.It will be understood by those of skill in the art that thermal losses computing formula is not limited to by upper State formula to realize it is also possible to be realized by other formula being capable of thermal losses calculating.

Pass through in the present embodiment to arrange thermal losses computing formula, thus two calibrated in this formula normal Value parameter A and the span of B, and be determined according to fansink-type, improve heat measuring system Heat is taken with the accuracy of metering.

As a kind of preferred implementation, the data processor 12 of Heat distribution meter 1 includes：

First judging unit, is got with data processor 12 for judging to whether there is in preset kind Fansink-type identical type.

First formula determining unit, for when exist and described fansink-type be GLZY7-6/670 shaped steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.277 for 5.631, B.

Second formula determining unit, for when exist and described fansink-type be GLF-75/75-600 steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.329 for 5.697, B.

3rd formula determining unit, for when exist and described fansink-type be GB-21-600 steel plate During formula, determine that in thermal losses computing formula, A is 1.123 for 8.264, B.

4th formula determining unit, for when exist and described fansink-type be GLF-650*78*45 steel During aluminium composite heating radiator, determine that in thermal losses computing formula, A is 1.33 for 4.088, B.

5th formula determining unit, for when exist and described fansink-type be TZ4-6-5 (8) cast iron During four posts, 760 type radiator, determine that in thermal losses computing formula, A is 1.222 for 6.924, B.

Pass through according to different fansink-type in the present embodiment, define each different types of radiating The value of two constant parameter A and B in the corresponding thermal losses computing formula of device, and by extensively Test demonstrate the accuracy of determined two constant parameter, all reached country to Heat distribution meter C value require.

As a kind of preferred implementation, the CPU module 42 of management server 4 is additionally operable to radiator With heat, meter-copy device 2 is sent to by the 3rd wireless communication module 43.The data transmit-receive control of meter-copy device 2 Device 21 processed is additionally operable to receive radiator heat by the second wireless communication module 22, and sends it to Corresponding Heat distribution meter 1.Heat distribution meter 1 also includes display module, and data processor 12 is additionally operable to lead to Cross the first wireless communication module 13 and receive radiator heat, and be transmitted to display module and shown Show.

By radiator heat is fed back to Heat distribution meter in the present embodiment and aobvious by Heat distribution meter Show that module shows, user can be allowed intuitively to check its heat expense Expenditure Levels, and remind use in time Family carries out paying of heat expense, it is to avoid situations such as produce late payment.

As a kind of preferred implementation, the data processor 12 of Heat distribution meter 1 is additionally operable to work as and receives During unit exception signal, produce abnormal alarm signal and passed through the first wireless communication module 13 and send To meter-copy device 2.The data receiving and transmitting controller 21 of meter-copy device 2 is additionally operable to by the second wireless communication module 22 reception abnormal alarm signals simultaneously send it to management server 4.The CPU module of management server 4 42 are additionally operable to receive abnormal alarm signal by the 3rd wireless communication module 43.

Pass through the abnormal alarm function of Heat distribution meter in the present embodiment, and the exception report that Heat distribution meter will produce Alert signal is sent to management server by meter-copy device, such that it is able to make Heat distribution meter according to this abnormal alarm Signal records time and the thermal losses now producing mistake automatically, and takes stopping heat loss in time Gauge amount and/or stop sending the operation such as thermal losses data to management server it is achieved that self-protection Function, it is to avoid the hot erroneous metrology taking.Management server after receiving abnormal alarm signal also can and When stop the metering that take of heat, and maintainer can be allowed in time to know, make maintenance accordingly.

As a kind of preferred implementation, the first wireless communication module 13 includes the first bluetooth module, the Two wireless communication modules 22 include the second bluetooth module and the first GPRS module, the 3rd wireless communication module 43 include the second GPRS module.Channel radio can be carried out using bluetooth between Heat distribution meter and meter-copy device Letter, can carry out radio communication using GPRS between meter-copy device and management server.Certainly, heat distribution Between table and meter-copy device, can also be entered using other communications between meter-copy device and management server Row communication, such as Wi-Fi etc..

As shown in figure 3, the heat measuring method of embodiment 2 comprises the following steps：

After step S1, the function setting module of Heat distribution meter get fansink-type, it is transmitted to The data processor of Heat distribution meter.

Step S2, data processor determine thermal losses computing formula according to fansink-type and calculate Thermal losses, and this thermal losses is sent to meter-copy device by the first wireless communication module of Heat distribution meter.

Step S3, the data receiving and transmitting controller of meter-copy device are connect by the second wireless communication module of meter-copy device Receive the thermal losses that Heat distribution meter sends, after being processed, be sent to management server.

Step S4, the input module of management server get the total heat supply measured by building calorimeter After amount, it is transmitted to the CPU module of management server.

The 3rd wireless communication module that step S5, CPU module pass through management server receives meter-copy device transmission Thermal losses after calculate this consumption ratio of each Heat distribution meter, and according to gross heat input and Heat distribution meter This consumption ratio calculate corresponding radiator heat.

Pass through in the present embodiment to arrange Heat distribution meter, meter-copy device, building calorimeter and management server, structure Build a complete intelligent heat measuring system, Heat distribution meter, meter-copy device and management server are each other Wirelessly communicated it is achieved that being exempted to copy and accept into user data and manage, only need to be in management server Upper operation can complete, the very convenient hot statistical work taking, and saved human cost, and improve Efficiency.And this heat measuring system, using the relative metering method shared, is not belonging to traditional metering product, Do not need regularly measurement verification, so improve the accuracy of heat expense metering.Also by Heat distribution meter Middle setting data processor, can according to the difference of the fansink-type of required metering intelligently by it Select thermal losses computing formula such that it is able to be applied to polytype radiator, expand heat death theory system The scope of application of system, efficiently solves the applicable sex chromosome mosaicism of heat measuring system.

As a kind of preferred implementation, thermal losses computing formula can be：Q=A (Δ T)^B, wherein Q represents thermal losses, and Δ T represents the absolute of the difference of spreader surface mean temperature and indoor air temperature Value, A and B represents constant parameter, and it determines according to fansink-type, and the value of A is 3.5-9.5, B's Value is 1-1.5.It will be understood by those of skill in the art that thermal losses computing formula is not limited to by upper State formula to realize it is also possible to be realized by other formula being capable of thermal losses calculating.

Pass through in the present embodiment to arrange thermal losses computing formula, thus two calibrated in this formula normal Value parameter A and the span of B, and be determined according to fansink-type, improve heat measuring system Heat is taken with the accuracy of metering.

As a kind of preferred implementation, being determined according to described fansink-type in above-mentioned steps S2 is hot The step of consumption calculating formula includes：

Step S21, judge in preset kind whether there is and the fansink-type identical type getting, It is actually needed according to preset kind and to be configured.When exist and fansink-type be GLZY7-6/670 During shaped steel aluminium composite heating radiator, enter step S22；When exist and described fansink-type be During GLF-75/75-600 steel combined with aluminum radiator, enter step S23；When presence and described radiator class When type is GB-21-600 steel plate, enter step S24；When exist and described fansink-type be During GLF-650*78*45 steel combined with aluminum radiator, enter step S25；When presence and described radiator class When type is TZ4-6-5 (8) cast iron four posts, 760 type radiator, enter step S26；When not existing, defeated Go out not exist the judged result of the application of this fansink-type.

In step S22, thermal losses computing formula, A is 1.277 for 5.631, B.

In step S23, thermal losses computing formula, A is 1.329 for 5.697, B.

In step S24, thermal losses computing formula, A is 1.123 for 8.264, B.

In step S25, thermal losses computing formula, A is 1.33 for 4.088, B.

In step S26, thermal losses computing formula, A is 1.222 for 6.924, B.

Pass through according to different fansink-type in the present embodiment, define each different types of radiating The value of two constant parameter A and B in the corresponding thermal losses computing formula of device, and by extensively Test demonstrate the accuracy of determined two constant parameter, all reached country to Heat distribution meter C value require.

Obviously, above-described embodiment is only intended to clearly illustrate example, and not to embodiment Restriction.For those of ordinary skill in the field, can also do on the basis of the above description Go out change or the variation of other multi-forms.There is no need to be exhaustive to all of embodiment. And the obvious change thus extended out or change still in the invention protection domain it In.

Claims (10)

1. a kind of heat measuring system is it is characterised in that include：

Heat distribution meter, including function setting module, data processor and the first wireless communication module；Described Function setting module is used for obtaining fansink-type and described fansink-type being transferred to described data processing Device；Described data processor is used for determining thermal losses computing formula according to described fansink-type and calculating Thermal losses, and described thermal losses is sent to described meter-copy device by described first wireless communication module；

Meter-copy device, including data receiving and transmitting controller and the second wireless communication module, described Heat distribution meter and institute State meter-copy device to be communicated by the first wireless communication module and the second wireless communication module；Described data is received Send out controller to be used for disappearing by the described heat of the described Heat distribution meter transmission of described second wireless communication module reception Consumption, is sent to described management server after being processed；

Building calorimeter, for measuring the gross heat input of entire building；

Management server, including input module, CPU module and the 3rd wireless communication module, described meter-copy device Communicated by described second wireless communication module and the 3rd wireless communication module with described management server； Described input module is used for obtaining the gross heat input measured by described building calorimeter and being transmitted to institute State CPU module；Described CPU module is used for sending out by the described 3rd wireless communication module described meter-copy device of reception The thermal losses sent, and this consumption ratio of Heat distribution meter is calculated according to described thermal losses, and according to institute State gross heat input and this consumption ratio of Heat distribution meter calculates corresponding radiator heat.

2. heat measuring system according to claim 1 is it is characterised in that described thermal losses calculates Formula is：Q=A (Δ T)^B, wherein Q represents thermal losses, Δ T represent spreader surface mean temperature and The absolute value of the difference of indoor air temperature, A and B represents constant parameter, and it determines according to fansink-type, The value of A is 3.5-9.5, and the value of B is 1-1.5.

3. heat measuring system according to claim 2 is it is characterised in that the number of described Heat distribution meter Include according to processor：

First judging unit, for judging to whether there is and described fansink-type identical in preset kind Type；

First formula determining unit, for when exist and described fansink-type be GLZY7-6/670 shaped steel aluminum During composite heating radiator, determine that in thermal losses computing formula, A is 1.277 for 5.631, B；

Second formula determining unit, for when exist and described fansink-type be GLF-75/75-600 steel aluminum During composite heating radiator, determine that in thermal losses computing formula, A is 1.329 for 5.697, B；

3rd formula determining unit, for when exist and described fansink-type be GB-21-600 steel plate When, determine that in thermal losses computing formula, A is 1.123 for 8.264, B；

4th formula determining unit, for when exist and described fansink-type be GLF-650*78*45 steel aluminum During composite heating radiator, determine that in thermal losses computing formula, A is 1.33 for 4.088, B；

5th formula determining unit, for when exist and described fansink-type be TZ4-6-5 (8) cast iron four During post 760 type radiator, determine that in thermal losses computing formula, A is 1.222 for 6.924, B.

4. the heat measuring system according to any one of claim 1-3 is it is characterised in that described management The CPU module of server is additionally operable to be sent to radiator heat by described 3rd wireless communication module Described meter-copy device；

The data receiving and transmitting controller of described meter-copy device is additionally operable to receive institute by described second wireless communication module State radiator heat, and send it to corresponding Heat distribution meter；

Described Heat distribution meter also includes display module, and described data processor is additionally operable to by described first no Line communication module receives described radiator heat, and is transmitted to described display module and is shown.

5. the heat measuring system according to any one of claim 1-4 is it is characterised in that described heat is divided The data processor joining table is additionally operable to when receiving unit exception signal, and generation abnormal alarm signal simultaneously will It is sent to described meter-copy device by the first wireless communication module；

The data receiving and transmitting controller of described meter-copy device is additionally operable to receive institute by described second wireless communication module State abnormal alarm signal and send it to described management server；

The CPU module of described management server is additionally operable to described by described 3rd wireless communication module reception Abnormal alarm signal.

6. the heat measuring system according to any one of claim 1-5 is it is characterised in that described first Wireless communication module includes the first bluetooth module；

Described second wireless communication module includes the second bluetooth module and the first GPRS module；

Described 3rd wireless communication module includes the second GPRS module.

7. the heat measuring system according to any one of claim 1-6 is it is characterised in that described management The CPU module of server is additionally operable to calculate the hot expense of radiator according to described radiator calorimeter.

8. a kind of heat measuring method is it is characterised in that comprise the following steps：

After the function setting module of Heat distribution meter gets fansink-type, it is transmitted to Heat distribution meter Data processor；

Described data processor determines thermal losses computing formula according to described fansink-type and calculates heat Consumption, and described thermal losses is sent to meter-copy device by the first wireless communication module of Heat distribution meter；

The data receiving and transmitting controller of meter-copy device receives each respectively by the second wireless communication module of meter-copy device The described thermal losses that described Heat distribution meter sends, is sent to management server after being processed；

After the input module of management server gets the gross heat input measured by building calorimeter, by it It is transferred to the CPU module of management server；

The 3rd wireless communication module that described CPU module passes through management server receives described meter-copy device transmission Thermal losses after calculate this consumption ratio of Heat distribution meter, and according to described gross heat input and Heat distribution meter This consumption ratio calculate corresponding radiator heat.

9. heat measuring method according to claim 8 is it is characterised in that described thermal losses calculates Formula is：Q=A (Δ T)^B, wherein Q represents thermal losses, Δ T represent spreader surface mean temperature and The absolute value of the difference of indoor air temperature, A and B represents constant parameter, and it determines according to fansink-type, The value of A is 3.5-9.5, and the value of B is 1-1.5.

10. heat measuring method according to claim 8 or claim 9 is it is characterised in that described in described basis Fansink-type determines that the step of thermal losses computing formula includes：

Judge to whether there is and described fansink-type identical type in preset kind；

When existing and described fansink-type is GLZY7-6/670 shaped steel aluminium composite heating radiator, thermal losses In computing formula, A is 1.277 for 5.631, B；

When existing and described fansink-type is GLF-75/75-600 steel combined with aluminum radiator, thermal losses In computing formula, A is 1.329 for 5.697, B；

When existing and described fansink-type is GB-21-600 steel plate, in thermal losses computing formula A is 8.264, B is 1.123；

When existing and described fansink-type is GLF-650*78*45 steel combined with aluminum radiator, thermal losses In computing formula, A is 1.33 for 4.088, B；

When existing and described fansink-type is TZ4-6-5 (8) cast iron four posts, 760 type radiator, heat loss In amount computing formula, A is 1.222 for 6.924, B.