CN107166506A - A kind of make-and-break time area methodology and on-off type heat metering device based on weather compensation - Google Patents

Abstract

The invention discloses a kind of make-and-break time area-method heat sharing method based on weather compensation and on-off type heat metering device, the present invention passes through the existing heat metering method of comparative analysis, summarise make-and-break time area-method the problems of while better than other thermal neasurings and not enough, and for the problem of presence, on the basis of theoretical research and verification experimental verification, propose compared with improving method, the regulation period according to weather compensation, determine the heat pool schemes of heat sharing pattern, and developed the make-and-break time area-method heat metering device based on weather compensation.Using the heat amortization techniques based on weather compensation, each user is distributed heat and user's heat consumption i.e. outdoor temperature and change basically identical, solve identical make-and-break time, same period heat sharing variability issues, its heat distribution is fair, reasonable, meet the principle of " equal area user under conditions of same comfortable degree, pays identical heat expense ".

Description

A kind of make-and-break time area methodology and on-off type heat death theory based on weather compensation Device

Technical field

The present invention relates to a kind of make-and-break time area methodology based on weather compensation and on-off type heat metering device.

Background technology

The purpose that heating system carries out heat supply to building is, in order to meet user's hot comfort demand, and to ensure that its is indoor Temperature within limits, such as (18 ± 2) DEG C, prevents user from the too high phenomenon of indoor temperature occur, and system was being run Cheng Zhong, due to the change of the factors such as outdoor weather condition, corresponding change can occur for the thermic load of building.Therefore, in order that The change of heat supply amount and user's thermic load is adapted, it is necessary to which corresponding to the supply and return water temperature progress of thermal source adjusted, with reality Existing heating according to need, saves heat supply energy consumption.

A few days ago, when being used for the Main Basiss of Computation for apportionment in the make-and-break time area-method in heat death theory for user heating connection Between, do not account for heating system supply water temperature and hydraulic regime change is directly affected to heat sharing.But individual heating user The accuracy of heat metering depends primarily on the service condition of heating system.Current make-and-break time area-method is according to each user whole Valve total turn-on time in the individual heating end of term, do not considering the period change of gross heat input caused by weather compensation is adjusted In the case of, disposably gross heat input is shared, have ignored it is identical with hot duration different periods different supply water temperatures User's heat amount difference sex chromosome mosaicism, so as to occur unfair problem on heat sharing.In addition, share the period in some calculating, As long as having a family or a few families to carry out on-off valve regulation, standpipe flow necessarily changes, and directly influences user's heat, this method Influence of the change to heating load of heating system hydraulic regime is not accounted for, meterage is unfair just.For example：One Erect riser carries 11 family household heating systems, the changes in flow rate rule of certain user be its more changes in flow rate of user closed more Greatly, that is the use heat of user is also relevant with its uninterrupted except relevant with service time, flowed in identical service time The more big actual heat consumption of amount is also bigger, it is clear that it is not accurate enough only simply to share heat by make-and-break time, it is necessary to fully Consider the change of hydraulic regime.

The content of the invention

It is an object of the invention to provide a kind of make-and-break time area methodology based on weather compensation and on-off type heat meter Measure device.

To achieve these goals, the technical scheme that the present invention takes is as follows：

A kind of make-and-break time area methodology based on weather compensation, shares in the cycle as useful in heat metering code Family carries out on-off valve regulation, and sharing for heat of progress is not changed, heat shares mould with the gross heat input ensured in day part Formula is periodically shares, the accumulative summation of end of the season, entirely Heating Period will be divided into several and shares the cycle, logical in heating end of the season The accumulative summation of the calorie value for being distributed each cycle is crossed, the total allocation calorie value of each user is obtained；

According to the Time segments division under weather compensation shaping modes, share the cycle using a period as one, the cycle phase After the correspondence period terminates, share the total amount of heat of a building period, in the meantime when some user turns off or on, collection Time shares a heat, that is, adopts and divide.

Further, the apportioned mode respectively shared in the cycle is identical, by it is same share the cycle exemplified by, there are two kinds of situations： The first situation：Share same in the cycle, all users normally run, the regulation for not occurring on-off controller valve； Second of situation：Share same in the cycle, the regulation that on-off controller valve is closed and/or opened occurs in user.

Further, heat sharing mathematical modeling is set up for the first situation, according under weather compensation shaping modes Time segments division situation presets a collection period P, i.e., according to the compensation period, a period is a collection period；Each Period gathers a heat supply data, and the heat that will share a total heat scale after terminating；In gathered data, to each collection It is n with distribution numbering, wherein n values are positive integer, for whole Heating Season, after collection period is determined, what n was also to determine, Gather and distribute for n-th, the heat of distribution is (n-1)th heat arrived in n-th, i.e., a upper collection period, entirely The accumulation of heat value of Heating Season each household n sub-distribution as respectively be used in the whole Heating Period in family total amount of heat, using the value as charge according to According to；

1. in the distribution of heat user i n-ths, i.e., the heat distributed between n-1 to n is secondary in this period：

In formula, Q_{I, n}--- the heat in the distribution of heat user i n-ths, unit is kWh；

Q_{Z, n}--- the heat that total heat scale is recorded after n-th collection, unit is kWh；

Q_{Z, n-1}--- the heat that total heat scale is recorded after (n-1)th collection, unit is kWh；

F_i--- user i heating area, unit is m²；

τ_i--- user i collects this section of collection period of n-th (n-1)th time, and unit is h；

I --- the heat user label that n-th collection inner valve this period is opened is collected from (n-1)th time；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p；

J --- participate in number of users j=1,2 ... ... l that n-th heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i is in heating period accumulation distribution heat：

In formula, Q_{I, z}--- heat user i is kWh in heating period accumulation distribution heat, unit；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, unit is kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

Further, heat sharing mathematical modeling is set up for second of situation, in a collection period, if any user Generation on-off valve regulation, system will also gather a heat supply data, and share the total amount of heat of a total heat scale；I.e. in collection week Reset the number of times that collection period a Q, Q acts by heat user on-off valve in phase P to determine, to each collection and distribution numbering For m, wherein n values are positive integer；There is break-make again since on-off valve regulation occurs in certain user to certain user in the collection period Regulation terminates, and collection period Q is no more than collection period P；

1. after heat user i m sub-distribution, i.e., the heat distributed within this period between m-1 to m times：

In formula, Q_{I, m}--- the heat in heat user i m sub-distribution, unit is kWh；

Q_{Z, m}--- the heat that total heat scale is recorded after the m times collection, unit is kWh；

Q_{Z, m-1}--- the heat that total heat scale is recorded after the m-1 times collection, unit is kWh；

F_i--- user i heating area, unit is m²；

I --- the heat user label that the m times collection inner valve this period is opened is collected from the m-1 times；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

J --- participate in number of users j=1,2 ... ... s that the m times heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i accumulation distribution heats in a collection period P：

In formula, Q_i--- heat user i accumulation distribution heats in a collection period Q, unit is kWh；

Q_{I, m}--- the heat in heat user i m sub-distribution, unit is kWh；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

3. heat user i accumulation distribution heats in Heating Period：

In formula, Q_{I, z}--- heat user i is kWh in heating period accumulation distribution heat, unit；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, unit is kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

A kind of on-off type heat measuring system based on weather compensation, including room thermostat, on-off controller, building heat Table, collection calculator and data information management system, this system integrate regulation with measuring, it is adaptable to which common riser presses family Divide ring free-standing heating system form.

Further, the room thermostat is placed in the typical room at each family, is shown by temperature measurement unit, computing Show the remote control that unit and communication unit are constituted.It is mainly used in setting and measuring indoor temperature, and according to indoor measurement temperature With the comparative result of design temperature, the control to on-off controller is realized by communication, calculated while receiving collection The communication of device, display user heating state and heating energy consumption.

Further, the on-off controller is installed on branch's branch road of user entry in shared pipe well, by controller, Actuator and mechanical valve body composition, perform all-pass disconnected action entirely by actuator control valves body, indoor temperature are regulated and controled, together When recording valve gate-shaped condition and turn-on time.

Further, the building calorimeter is installed on building entrance, by flow sensor, calculator or integrator, matches somebody with somebody Temperature sensor and communication unit are constituted, the task of the total heating caloric in metering building is undertaken, its variable is used as Lou Dongyong The foundation for sharing total value at family.

Further, the collection calculator is arranged in cell each unit, and on-off controller and building are come from for receiving The data message of calorimeter, and data are carried out to handle and store in real time, realize that the monitoring to heating process and heat expense are shared, It is that heating data in system focuses on center；Collection calculator can carry out instant messaging, the room temperature control of connection user end Device and data information management system platform, can also be by under data information management system while transmitting heating position to user The order of hair is transmitted to on-off controller, realizes that management system is directly monitored.

Further, the data information management system is management platform of the heat supply personnel to community user heat supply information, The system is gathered by TCP/IP network communications and receives the user's heat supply data reported by collection calculator, and heat user information is entered Row typing, storage, inquiry, management while, can realize the real-time query to heat user supplying thermal condition data, collection, storage, Display, management function, are managed so as to heat supply attendant to heat user field apparatus, control, failure monitoring.

Having the beneficial effect that acquired by the present invention：

The present invention is in view of the change of heating network supply and return water temperature and the on-off valve regulation of user to total heat supply and heat point The influence at stand, is proposed in original (heat metering code), shares the cycle by consistent with seeking compensator regulating cycle, and each Share in the cycle and the pool schemes of on-off valve regulation, i.e. heat of progress are carried out if any user, to ensure what is shared in day part Heat is closer actual.Hot apportioned mode is periodically shares, and the accumulative summation of end of the season entirely will be divided into several by Heating Period Share the cycle, in heating end of the season, by the accumulative summation of the calorie value for being distributed each cycle, obtain the total allocation heat of each user Value.According to the Time segments division under weather compensation shaping modes, share the cycle using a period as one, the cycle is corresponding After period terminates, share the total amount of heat of a building period.In the meantime when some user turns off or on, collection is once Time shares a heat, because can all have influence on the hydraulic regime of pipe network by the open and close of user, it is necessary to consider that flow becomes Change the influence to heat sharing, realize to adopt and divide.On-off type heat measuring system based on weather compensation is regulated to room temperature Core, the heating turn-on time according to each user combines the heating area, " building that fixed cycle is shared building total amount of heat in real time Metering, is shared by family " heat death theory and control technique product.The system passes through the room temperature control that is placed in each household typical room Device processed is instructed to on-off controller sending action, and the disconnected regulations of logical, control are carried out to the flow rate of heat medium for flowing into heat user heating system The heating load in room is sent into, so as to realize that room temperature regulates and controls.Regulation of the heat sharing pattern of heat measuring system according to weather compensation Period is determined, after each end cycle, and heating area is combined to building total heat scale according to the heating turn-on time at each family Heat is shared in real time, and the accumulative summation of calorie value apportioned by each cycle is determined into the total with heat of each family in heating end of the season Amount and the hot expense that should be paid.

Make-and-break time area-method heat metering device based on weather compensation, is to make-and-break time face in (heat metering code) Area method heat metering device it is further perfect, the system integrate regulation with metering, both realized to each family indoor temperature Adjust respectively, relatively reasonable heat sharing method is provided again.When the core technology of the system is the regulation according to weather compensation Section determines heat sharing pattern and adopts the apportioned mode divided, shares by using fixed cycle is real-time accumulated, solves same duration The hot variability issues of different periods, its feature mainly includes：Fixed cycle real-time heat is distributed.The system is according to weather compensation The regulation period determines apportioned mode, shares by using fixed cycle real-time progressive, implements dynamically distributes to total amount of heat, in algorithm side Face makes heat sharing more reasonable, and metering fair relatively is just, and the different periods caused by solving confession, return water temperature influence are identical Time uses hot variability issues.Missed for the identical use duration difference present in make-and-break time area-method with hot period heat sharing Poor problem, it is proposed that the Novel hot pool schemes based on weather compensation, the regulation period according to weather compensation determines point of heat Stand pattern, changes disposable apportioned mode and shares for fixed cycle is real-time accumulated.

Brief description of the drawings

Accompanying drawing 1 is the schematic flow sheet of on-off type heat metering device of the present invention；

Accompanying drawing 2 adds up hot contributory value and room temperature Long-term change trend schematic diagram day for what make-and-break time area-method of the present invention was distributed；

Accompanying drawing 3 is each month to date heat contrast schematic diagram of user of the embodiment of the present invention one；

Accompanying drawing 4 is each user's different periods heat sharing schematic diagram of the embodiment of the present invention one；

Accompanying drawing 5 is that the embodiment of the present invention one is shown according to make-and-break time area-method with the contrast of make-and-break time area-method heat sharing It is intended to.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is carried out clear, complete Site preparation is described, it is clear that described embodiment is only some embodiments of the present application, rather than whole embodiments.Below Description only actually at least one exemplary embodiment is illustrative, is never used as to the application and its application or makes Any limitation.Based on the embodiment in the application, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, the scope that subordinate protects in the application.

A kind of make-and-break time area methodology based on weather compensation, it is characterised in that：Share in heat metering code On the basis of cycle, on-off valve regulation is carried out if any user, sharing for heat is carried out immediately, to ensure waterpower work in day part The fairness of heat sharing when condition changes.Hot apportioned mode is periodically shares, and the accumulative summation of heating end of the season obtains each user's Total allocation calorie value；

According to the Time segments division under weather compensation shaping modes, share the cycle using a period as one, the cycle phase After the correspondence period terminates, share the total amount of heat of a building period, in the meantime when some user turns off or on, collection Time shares a heat, that is, adopts and divide.

The pipe network or even the supply water temperature of each user respectively shared in the cycle are identical；Remaining users flow when certain user turns off It can change.Both can influence the heat sharing of user.By it is same share the cycle exemplified by, there are two kinds of situations：The first feelings Condition：Share same in the cycle, all users normally run, the regulation for not occurring on-off controller valve；Second of feelings Condition：Share same in the cycle, the regulation that on-off controller valve is closed and/or opened occurs in user.

Heat sharing mathematical modeling is set up for the first situation, according to the Time segments division feelings under weather compensation shaping modes Condition presets a collection period P, i.e., according to the compensation period, a period is a collection period；After each period terminates A heat supply data are gathered, and share the heat of a total heat scale；In gathered data, it is to each collection and distribution numbering N, wherein n values are positive integer, for whole Heating Season, after collection period is determined, what n was also to determine, are gathered for n-th And distribution, the heat of distribution is (n-1)th heat arrived in n-th, i.e., a upper collection period, whole Heating Season each household n times The heat accumulation value of distribution is as respectively used in the total amount of heat of the whole Heating Period in family, and charge foundation is used as using the value；

1. in the distribution of heat user i n-ths, i.e., the heat distributed between n-1 to n is secondary in this period：

In formula, Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

Q_{Z, n}--- the heat that total heat scale is recorded after n-th collection, kWh；

Q_{Z, n-1}--- the heat that total heat scale is recorded after (n-1)th collection, kWh；

F_i--- user i heating area, m²；

τ_i--- user i collects this section of collection period of n-th, h (n-1)th time；

I --- the heat user label that n-th collection inner valve this period is opened is collected from (n-1)th time；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p；

J --- participate in number of users j=1,2 ... ... l that n-th heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i is in heating period accumulation distribution heat：

In formula, Q_{I, z}--- heat user i is in heating period accumulation distribution heat, kWh；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

Heat sharing mathematical modeling is set up for second of situation, in a collection period, occurs break-make if any user Regulation, system will also gather a heat supply data, and share the total amount of heat of a total heat scale；I.e. in collection period P again The number of times that setting one collection period Q, Q are acted by heat user on-off valve is determined, is m to each collection and distribution numbering, its Middle n values are positive integer；There is on-off valve regulation knot again since on-off valve regulation occurs in certain user to certain user in the collection period Beam, and collection period Q is no more than collection period P：

1. after heat user i m sub-distribution, i.e., the heat distributed within this period between m-1 to m times：

In formula, Q_{I, m}--- the heat in heat user i m sub-distribution, unit is kWh；

Q_{Z, m}--- the heat that total heat scale is recorded after the m times collection, unit is kWh；

Q_{Z, m-1}--- the heat that total heat scale is recorded after the m-1 times collection, unit is kWh；

F_i--- user i heating area, unit is m²；

I --- the heat user label that the m times collection inner valve this period is opened is collected from the m-1 times；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

J --- participate in number of users j=1,2 ... ... s that the m times heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i accumulation distribution heats in a collection period P：

In formula, Q_i--- heat user i accumulation distribution heat, kWh in a collection period Q；

Q_{I, m}--- the heat in heat user i m sub-distribution, kWh；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

3. heat user i accumulation distribution heats in Heating Period：

In formula, Q_{I, z}--- heat user i is in heating period accumulation distribution heat, kWh；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

A kind of on-off type heat metering device based on weather compensation includes room thermostat, on-off controller, building heat Table, climate compensator, collection calculator and data information management system, this system integrate regulation with measuring, it is adaptable to Common riser is by the free-standing heating system of family point ring.

The room thermostat be arranged on each family typical room in, be by temperature measurement unit, computing display unit and The remote control that communication unit is constituted.It is mainly used in setting and measuring indoor temperature, and according to indoor measurement temperature and setting temperature The comparative result of degree, the control to on-off controller is realized by communication, while receive the communication of collection calculator, Show user heating state and heating energy consumption.

The on-off controller is installed on branch's branch road of user entry in shared pipe well, by controller, actuator and Mechanical valve body composition, performs all-pass disconnected action entirely by actuator control valves body, indoor temperature is regulated and controled, while recording valve Gate-shaped condition and turn-on time.

The building calorimeter is installed on building entrance, by flow sensor, calculator or integrator, pairing TEMP Device and communication unit composition, undertake the task of the total heating caloric in metering building, and its variable is total as sharing for building user The foundation of value.

The climate compensator is installed in heat exchange station, when transmitting the regulation of climate compensator by wired or wireless way The regulation period, can also be write direct computing unit by section.

It is described collection calculator be arranged in cell each unit, for receive from on-off controller, building calorimeter and The data message of climate compensator, and data are carried out to handle and store in real time, realize the monitoring to heating process and heat point Stand, is that the heating data in system focuses on center；Collection calculator can carry out instant messaging, connect user's end room temperature control Device processed and data information management system platform, can also be by data information management system while transmitting heating position to user The order issued is transmitted to on-off controller, realizes that management system is directly monitored.

The data information management system is management platform of the heat supply personnel to community user heat supply information, and the system passes through TCP/IP network communications collection receives the user's heat supply data reported by collection calculator, and typing is carried out to heat user information, is deposited While storage, inquiry, management, the real-time query to heat user supplying thermal condition data, collection, storage, display, management can be realized Function, is managed so as to heat supply attendant to heat user field apparatus, controls, failure monitoring.

Embodiment one：

Demonstration project is located at Handan refined scholar name Di little Qu, and overall floorage is 32777.69 square metres.Cell building is that 6 floor are built Build, have 9 buildings, every building there are two units, and each unit is one lift with two users formula general layout, altogether 274 family, each household construction area It is 110 square metres.The cell heating system directly feeds hot water by steam power plant, through the heat after heat exchange station water in institute-water heat exchange Water is registered one's residence heating by secondary pipe network, and heat exchange station installs climate compensator, and secondary network operational factor maintains water supply 45--56 substantially DEG C 35--45 DEG C or so of backwater.

Cell original system is make-and-break time area method heat metering system, in order to verify new make-and-break time face method heat death theory Fairness, reasonability and the superiority compared with original system of device, Heating Season start before to wherein 1,24 use of 2 two units Family is transformed, and installs the make-and-break time area-method heat metering device based on weather compensation.Make-and-break time face method heat death theory system In system, each unit is a consumer heat inlet, and consumer heat inlet pipeline enters staircase by underground, is Lower Pleistocene series for returning standpipe Formula, heating system is point family autonomous system of common riser, and interior uses the connected mode of single tube horizontal series sequential.Heat enters Mouth is equipped with total heat scale, the parameters such as heat accumulative, current supply and return water temperature, present flow rate can be read, each user entry installs end additional Hold on-off valve regulation device.

(1) family is divided to configure

Installed in the representative room of each user and on-off controller is installed on room thermostat, each household heating service pipe.

(2) Lou Dong is configured

Each unit consumer heat inlet, which is installed, installs collection calculator in calorimeter, corridor.Calorimeter and on-off controller and Gather calculator to be connected, the acquired calculator of calorie value, which is shared, is uploaded to each heat user.

(3) teletransmission device configuration

Remote automatic monitoring system is established, data information management system is calculated by the connection collection of GPRS information communications Device, can remotely monitor instant data such as heat, the flow of every heat supply, enter/return water temperature, can also monitor the valve shape of each household State, room temperature simultaneously feed back accumulative heating cost, arrearage resident family can be implemented to close valve if necessary.Number below whole heating and acquisition and recording According to：Setting value at room temperature, room temperature measured value, outdoor temperature, confession of registering one's residence, return water temperature, electronic on-off control valve state, user's valve Turn-on time, total amount of heat exterior heat amount etc..

Data acquiring frequency determines by the shaping modes of weather compensation, according to its intraday [0,4], [5,9], [10, 12], [13,17], [18,19], the division of [20,23] six periods, when presetting 4,9 when, 12 when, 17 when, 19 when, This 6 acquisition times when 23, and if user's on-off valve has the action being switched on or switched off between, also to carry out once Data acquisition.

Data are adopted and are divided using the pattern distributed in real time.Each time in gatherer process, on-off controller, which is received, comes from room The data of temperature controller, and the every heating data of user is delivered into collection calculator, gather the numerical value of calculator combination calorimeter Heat is distributed in real time according to the program of setting, the thermal data after distribution can pass to room temperature control by communication link Device is inquired about for user, while showing and preserving by data information management system in data sheet form.

It is warm that season room temperature is analyzed with adding up hot contributory value situation of change day：

Each user of heating period sets corresponding indoor temperature, deep cold phase (January 15 was to 15 days 2 months) room temperature according to demand Setting value is of a relatively high, and its average value is about 21 DEG C, and just cold (November 15 to December 15) and end are trembled with fear, and (next year 2 month 16 is extremely March 15) phase setting value is relatively low, average value is about 18 DEG C, whole Heating Period user indoor temperature average control 18 DEG C- 22℃.Fig. 5-2 be 102 users on March 15,1 day to 2013 November in 2012, as shown in Figure 2, during using new break-make Between area-method distribute add up hot contributory value and room temperature Long-term change trend schematic diagram day.It can obtain drawing a conclusion by analysis chart 2：

(1) whole heating period user room temperature change is more steady, although user surveys room temperature with user's set temperature value Change and fluctuate up and down, but can be controlled within the scope of precision ± 0.2 DEG C of design temperature, room temperature control effect is good, Meet requirement of the user with thermal conditioning.Illustrate on-off type heat measuring system according to its weather compensation shaping modes, regulation heat Amount, it is ensured that the stabilization of indoor temperature.

(2) variation tendency that whole heating period user day adds up hot contributory value matches with user's heat demand, just cold, End hot contributory value of cold period is relatively low；Deep hot contributory value of cold period is higher, meets the requirement of heating according to need.

As shown in figures 3 and 4, it sets forth 1,2 two 24 users of unit are in 2012-013 whole Heating Season each moons Heat sharing situation and the heat sharing situation in just cold, deep cold, the end cold phase.

Pass through comparative analysis Fig. 3,4：

(1) position difference is smaller to the influence caused by user's heat sharing, calorie value phase of each user in the identical period It is poor little.

(2) each user meets changing rule and difference of its thermic load with outdoor temperature in the heat sharing value of different periods It is different very big.

In figure 3, the month to date heat sharing value of relatively more each user understands that December, January and 2 selenothermy contributory values are more, 11 The moon is less with heat contributory value in March, and heat maxima appears in the January of deep cold phase, and minimum value appears in the March of end cold phase. By taking 2 unit users 102 as an example, in whole Heating Season, November and heating days in March are minimum, respectively 16 days and 15 days, tire out Count heat sharing value relatively low, minimum appears in March for 1095KW, its per day heat of sharing is 73KW.December, January adopt Warm number of days is 31 days, and heat accumulative contributory value is larger, and peak appears in January for 4050KW, and per day heat of sharing is 135KW, most big 1 month moon average daily calorie value is about 1.8 times of most March in solar month of 30 days.

As shown in Figure 4, each user trembles with fear phase calorie value average for 7239KW deeply, and the 3.5 of about just cold and deeply cold phase calorie value Times.Therefore, user's heat is carried out dividing the accuracy and fairness that are conducive to improving heat sharing at times, so as to ensure new The science and reasonability of the hot methodology of type.

Share analysis contrast with make-and-break time area-method heat, after Heating Season terminates, gather the heat supply data of each user, foundation Make-and-break time area-method is analyzed and processed to it and carried out with new methodology the data obtained to such as Fig. 5.

As shown in figure 5, hot methodology one is make-and-break time area-method in figure, hot methodology two is based on weather compensation Novel hot methodology under shaping modes.Most users are in long-term on-state in whole Heating Period on-off valve, close Total number of days of on-off valve only be about 1-2 days, and 1-201,1-501,2-301,2-302 user due to outside individual artificial situation go out Showed it is of short duration stop warming up, wherein 1-201 is close with 1-501 user's turn-on time, and 2-301 is identical with 2-302 turn-on times.

The heat situation of sharing of selection 2-301 and 2-302 user illustrate the difference of two methods.2-301 user and 2-302 User stops warm 16 days in 2 months 18-March 5 (end cold phase) and 23-December of January 7 (deep cold phase) respectively, both heating Total turn-on time is identical.It is equal using the calorie value apportioned by the family of method one or two, and method two is used, calorie value apportioned by the former 526KW is had more than the latter.Obviously, the thermic load of deep cold phase is much larger than thermic load first, that end is cold.The actual heat dissipation of 2-301 user What amount should be far above stops warm 16 days 2-302 user's heat consumption in the deeply cold phase, and 2-302 user heatings heat is taken should be relatively fewer.It is right Than two methods, identical the paid heat of number takes identical when 2-301 user and 2-302 user are by heating in method one, and this is right 2-302 user is inequitable, and method two considers the influence for having arrived different periods thermal difference, with more fairness.

User is within first, last cold and deep cold identical turn-on time phase, and heat consumption has very big difference, make-and-break time face Area method carries out heat distribution due to accumulating turn-on time and heating area according to user, it is impossible to reflect this difference, and Novel hot Methodology is gathered and shared in real time according to total amount of heat situation of change, fully takes into account the shadow of different periods heating load difference Ring, it is clear that more fair, reasonable.

In summary, heat distribution is carried out using the disconnected time and area method of new break-make, each user distributes heat and user Heat consumption is that outdoor temperature change is basically identical, solves same time, different periods heat sharing variability issues, its heat Fairness in distribution, rationally, meet " equal area user, under conditions of same comfortable degree, pay it is identical heat expense " principle.With Handan Two unit users in the demonstration quarter of Dancheng are research object, the data after collection Practical Project test, by comparative analysis Draw, using the Novel hot amortization techniques based on weather compensation, each user distributes heat and user's calorific requirement i.e. outdoor temperature Change is basically identical, solves same time, and different periods heat sharing variability issues, its heat distribution is fair, reasonable, symbol Close the principle of " equal area user under conditions of same comfortable degree, pays identical heat expense ".Verify new system compared with original system more With fairness, reasonability, a thinking is provided for the improvement of make-and-break time area-method.

The present invention proposes the Novel hot pool schemes based on weather compensation, on this basis, develops phase therewith The supporting make-and-break time area-method heat metering device based on weather compensation.During the regulation of the heat death theory technical basis weather compensation Section determines the apportioned mode of heat, changes disposable apportioned mode and shares for fixed cycle is real-time accumulated.By the way that whole Heating Period is drawn It is divided into several and shares the cycle, dynamically distributes are implemented to total amount of heat, make heat sharing more reasonable in terms of algorithm, metering is relatively public It is flat just, solve for the hot variability issues of different periods same time caused by, return water temperature influence.Engineering practice table Bright, using the Novel hot amortization techniques based on weather compensation, each user distributes heat and become with user's calorific requirement i.e. outdoor temperature Change is basically identical, solves same time, and different periods heat sharing variability issues, its heat distribution is fair, reasonable, meets The principle of " equal area user under conditions of same comfortable degree, pays identical heat expense ".

The present invention considers influence of the on-off valve regulation of user to gross heat input, proposes in original (heat metering code) point On-off valve regulation is carried out if any user in the cycle of stand, the scheme shared of a heat is carried out, to ensure total heat supply in day part Amount does not change.Hot apportioned mode is periodically shares, and the accumulative summation of end of the season entirely will be divided into several points by Heating Period In the stand cycle, in heating end of the season, by the accumulative summation of the calorie value for being distributed each cycle, obtain the total allocation heat of each user Value.According to the Time segments division under weather compensation shaping modes, share the cycle using a period as one, when the cycle is corresponding After section terminates, share the total amount of heat of a building period.In the meantime when some user turns off or on, when gathering one time Between share a heat because can all have influence on the hydraulic regime of pipe network by the open and close of user, it is necessary to consider changes in flow rate Influence to heat sharing, realizes to adopt and divides.On-off type heat measuring system based on weather compensation is to be regulated to core with room temperature The heart, the heating turn-on time according to each user combines the heating area, " Lou Dong that fixed cycle is shared building total amount of heat in real time Metering, is shared by family " heat death theory and control technique product.The system is controlled by the room temperature being placed in each household typical room Device is instructed to on-off controller sending action, and the disconnected regulations of logical are carried out to the flow rate of heat medium for flowing into heat user heating system, and control is sent Enter the heating load in room, so as to realize that room temperature regulates and controls.During the regulation of the heat sharing pattern foundation weather compensation of heat measuring system Section is determined, after each end cycle, and heat of the heating area to building total heat scale is combined according to the heating turn-on time at each family Amount is shared in real time, and in heating end of the season by the accumulative summation of calorie value apportioned by each cycle, that determines each family always uses heat And the hot expense that should be paid.

Make-and-break time area method heat metering system based on weather compensation is to current make-and-break time area-method heat death theory system That unites is further perfect, and the system integrates regulation and metering, had both realized the regulation respectively to each family indoor temperature, and had given again Go out relatively reasonable heat sharing method.The core technology of the system is the regulation period of foundation weather compensation to determine heat sharing Pattern and the apportioned mode that divides is adopted, share by using fixed cycle is real-time accumulated, solve with duration different periods heat differential Different in nature problem, its feature mainly includes：Fixed cycle real-time heat is distributed.The system determines to divide according to the regulation period of weather compensation Stand pattern, shares by using fixed cycle real-time progressive, implements dynamically distributes to total amount of heat, heat sharing is made in terms of algorithm more Rationally, metering fair relatively is just, solves for the different periods same time heat differential opposite sex caused by the influence of, return water temperature Problem.For the identical use duration difference heat period heat sharing error problem present in make-and-break time area-method, it is proposed that Novel hot pool schemes based on weather compensation, the regulation period according to weather compensation determines the apportioned mode of heat, changes once Property apportioned mode be real-time accumulated to share in the cycle.

Embodiment described above is only the preferred embodiments of the present invention, and the simultaneously exhaustion of the feasible implementation of non-invention.It is right For persons skilled in the art, any aobvious to made by it on the premise of without departing substantially from the principle of the invention and spirit and Within the change being clear to, the claims that should be all contemplated as falling with the present invention.

Claims (10)

1. a kind of make-and-break time area methodology based on weather compensation, it is characterised in that：Share week in heat metering code On the basis of phase, on-off valve regulation is carried out if any user, sharing for heat is carried out immediately, to ensure hydraulic regime in day part The fairness of heat sharing during change.Hot apportioned mode is periodically shares, and the accumulative summation of heating end of the season obtains the total of each user Distribute calorie value；

According to the Time segments division under weather compensation shaping modes, share the cycle using a period as one, the cycle is corresponding After period terminates, share the total amount of heat of a building period, in the meantime when some user turns off or on, collection is once Time shares a heat, that is, adopts and divide.

2. a kind of make-and-break time area methodology based on weather compensation according to claim 1, it is characterised in that：Respectively The pipe network or even the supply water temperature of each user shared in the cycle are identical；Remaining users flow can change when certain user turns off Become；Both can influence the heat sharing of user；It is same to share the cycle, there are two kinds of situations：The first situation：Share same In cycle, all users normally run, the regulation for not occurring on-off controller valve；Second of situation：Share same In cycle, there is the regulation that on-off controller valve is closed and/or opened in user.

3. a kind of make-and-break time area methodology based on weather compensation according to claim 2, it is characterised in that：It is right Heat sharing mathematical modeling is set up in the first situation, is preset according to the Time segments division situation under weather compensation shaping modes One collection period P, i.e., according to the compensation period, a period is a collection period；Each period gathers and once supplied after terminating Dsc data, and share the heat of a total heat scale；It is n to each collection and distribution numbering, wherein n takes in gathered data It is worth for positive integer, for whole Heating Season, after collection period is determined, what n was also to determine, gather and distribute for n-th, point The heat matched somebody with somebody is (n-1)th heat arrived in n-th, i.e., a upper collection period, the heat of whole Heating Season each household n sub-distribution Aggregate-value is as respectively used in the total amount of heat of the whole Heating Period in family, and charge foundation is used as using the value；

1. in the distribution of heat user i n-ths, i.e., the heat distributed between n-1 to n is secondary in this period：

<mrow> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>n</mi> </mrow> </msub> <mo>=</mo> <mrow> <mo>(</mo> <msub> <mi>Q</mi> <mrow> <mi>z</mi> <mo>,</mo> <mi>n</mi> </mrow> </msub> <mo>-</mo> <msub> <mi>Q</mi> <mrow> <mi>z</mi> <mo>,</mo> <mi>n</mi> <mo>-</mo> <mn>1</mn> </mrow> </msub> <mo>)</mo> </mrow> <mo>&amp;CenterDot;</mo> <mfrac> <mrow> <msub> <mi>F</mi> <mi>i</mi> </msub> <mo>&amp;CenterDot;</mo> <msub> <mi>&amp;tau;</mi> <mi>i</mi> </msub> </mrow> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>j</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>l</mi> </munderover> <msub> <mi>F</mi> <mi>j</mi> </msub> <mo>&amp;CenterDot;</mo> <msub> <mi>&amp;tau;</mi> <mi>j</mi> </msub> </mrow> </mfrac> <mo>-</mo> <mo>-</mo> <mo>-</mo> <mrow> <mo>(</mo> <mn>4</mn> <mo>-</mo> <mn>1</mn> <mo>)</mo> </mrow> </mrow>

In formula, Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

Q_{Z, n}--- the heat that total heat scale is recorded after n-th collection, kWh；

Q_{Z, n-1}--- the heat that total heat scale is recorded after (n-1)th collection, kWh；

F_i--- user i heating area, m²；

τ_i--- user i collects this section of collection period of n-th, h (n-1)th time；

I --- the heat user label that n-th collection inner valve this period is opened is collected from (n-1)th time；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p；

J --- participate in number of users j=1,2 ... ... l that n-th heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i is in heating period accumulation distribution heat：

<mrow> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>z</mi> </mrow> </msub> <mo>=</mo> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>n</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>p</mi> </munderover> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>n</mi> </mrow> </msub> <mo>-</mo> <mo>-</mo> <mo>-</mo> <mrow> <mo>(</mo> <mn>4</mn> <mo>-</mo> <mn>2</mn> <mo>)</mo> </mrow> </mrow>

In formula, Q_{I, z}--- heat user i is in heating period accumulation distribution heat, kWh；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

4. a kind of make-and-break time area methodology based on weather compensation according to claim 2, it is characterised in that：It is right Heat sharing mathematical modeling is set up in second of situation, in a collection period, when there is user to occur on-off valve regulation, system Also a heat supply data will be gathered, and share the total amount of heat of a total heat scale；One is reset in collection period P to adopt The number of times that collection cycle Q, Q are acted by heat user on-off valve is determined, is m to each collection and distribution numbering, wherein n values is just Integer；The collection period on-off valve regulation occurs again since on-off valve regulation occurs in certain user, to certain user to be terminated, and the collection Cycle Q is no more than collection period P；

1. after heat user i m sub-distribution, i.e., the heat distributed within this period between m-1 to m times：

<mrow> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>m</mi> </mrow> </msub> <mo>=</mo> <mrow> <mo>(</mo> <msub> <mi>Q</mi> <mrow> <mi>z</mi> <mo>,</mo> <mi>m</mi> </mrow> </msub> <mo>-</mo> <msub> <mi>Q</mi> <mrow> <mi>z</mi> <mo>,</mo> <mi>m</mi> <mo>-</mo> <mn>1</mn> </mrow> </msub> <mo>)</mo> </mrow> <mo>&amp;CenterDot;</mo> <mfrac> <mrow> <msub> <mi>F</mi> <mi>i</mi> </msub> <mo>&amp;CenterDot;</mo> <msub> <mi>&amp;tau;</mi> <mi>i</mi> </msub> </mrow> <mrow> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>j</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>s</mi> </munderover> <msub> <mi>F</mi> <mi>j</mi> </msub> <mo>&amp;CenterDot;</mo> <msub> <mi>&amp;tau;</mi> <mi>j</mi> </msub> </mrow> </mfrac> <mo>-</mo> <mo>-</mo> <mo>-</mo> <mrow> <mo>(</mo> <mn>4</mn> <mo>-</mo> <mn>3</mn> <mo>)</mo> </mrow> </mrow>

In formula, Q_{I, m}--- the heat in heat user i m sub-distribution, unit is kWh；

Q_{Z, m}--- the heat that total heat scale is recorded after the m times collection, unit is kWh；

Q_{Z, m-1}--- the heat that total heat scale is recorded after the m-1 times collection, unit is kWh；

F_i--- user i heating area, unit is m²；

I --- the heat user label that the m times collection inner valve this period is opened is collected from the m-1 times；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

J --- participate in number of users j=1,2 ... ... s that the m times heat is shared；

Z --- correspondence user i total heat scale label；

2. heat user i accumulation distribution heats in a collection period P：

<mrow> <msub> <mi>Q</mi> <mi>i</mi> </msub> <mo>=</mo> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>m</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>q</mi> </munderover> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>m</mi> </mrow> </msub> <mo>-</mo> <mo>-</mo> <mo>-</mo> <mrow> <mo>(</mo> <mn>4</mn> <mo>-</mo> <mn>4</mn> <mo>)</mo> </mrow> </mrow>

In formula, Q_i--- heat user i accumulation distribution heat, kWh in a collection period Q；

Q_{I, m}--- the heat in heat user i m sub-distribution, kWh；

M --- the number of times of calorimeter distribution, m=1,2 ... ... q；

3. heat user i accumulation distribution heats in Heating Period：

<mrow> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>z</mi> </mrow> </msub> <mo>=</mo> <munderover> <mo>&amp;Sigma;</mo> <mrow> <mi>n</mi> <mo>=</mo> <mn>1</mn> </mrow> <mi>p</mi> </munderover> <msub> <mi>Q</mi> <mrow> <mi>i</mi> <mo>,</mo> <mi>n</mi> </mrow> </msub> <mo>-</mo> <mo>-</mo> <mo>-</mo> <mrow> <mo>(</mo> <mn>4</mn> <mo>-</mo> <mn>5</mn> <mo>)</mo> </mrow> </mrow>

In formula, Q_{I, z}--- heat user i is in heating period accumulation distribution heat, kWh；

Q_{I, n}--- the heat in the distribution of heat user i n-ths, kWh；

N --- the number of times of calorimeter distribution, n=1,2 ... ... p.

5. a kind of on-off type heat metering device based on weather compensation, it is characterised in that：It includes room thermostat, break-make control Device, building calorimeter, climate compensator, collection calculator and data information management system, this system collect regulation with measure in One, it is adaptable to which common riser is by the free-standing heating system of family point ring.

6. a kind of on-off type heat metering device based on weather compensation according to claim 5, it is characterised in that：The room Temperature controller is arranged in the typical room at each family, is made up of temperature measurement unit, computing display unit and communication unit Remote control.It is mainly used in setting and measuring indoor temperature, and according to indoor measurement temperature and the comparative result of design temperature, leads to Control of the communication realization to on-off controller is crossed, while receiving the communication of collection calculator, user heating shape is shown State and heating energy consumption.

7. a kind of on-off type heat metering device based on weather compensation according to claim 5, it is characterised in that：It is described logical Disconnected controller is installed on branch's branch road of user entry in shared pipe well, is made up of, is led to controller, actuator and mechanical valve body Cross actuator control valves body and perform all-pass disconnected action entirely, indoor temperature is regulated and controled, while when recording valve gate-shaped condition and connection Between.

8. a kind of on-off type heat metering device based on weather compensation according to claim 5, it is characterised in that：The building Calorimeter is installed on building entrance, by flow sensor, calculator or integrator, pairing temperature sensor and communication unit tuple Into, undertake the task of the total heating caloric in metering building, its variable as building user the foundation for sharing total value；

The climate compensator is installed in heat exchange station, and the regulation period of climate compensator is transmitted by wired or wireless way, Also the regulation period can be write direct computing unit.

9. a kind of on-off type heat metering device based on weather compensation according to claim 5, it is characterised in that：It is described to adopt Collection calculator is arranged in cell each unit, for receiving the number from on-off controller, building calorimeter and climate compensator It is believed that breath, and data are carried out to handle and store in real time, realize monitoring to heating process and heat sharing, be adopting in system Warm Data Centralized Processing center；Collection calculator can carry out instant messaging, connection user's end room thermostat and data message Management system platform, while transmitting heating position to user, the order forwarding that data information management system can also be issued To on-off controller, realize that management system is directly monitored.

10. a kind of on-off type heat metering device based on weather compensation according to claim 5, it is characterised in that：It is described Data information management system is management platform of the heat supply personnel to community user heat supply information, and the system is logical by TCP/IP networks News collection receives the user's heat supply data reported by collection calculator, and typing, storage, inquiry, management are carried out to heat user information While, the real-time query to heat user supplying thermal condition data, collection, storage, display, management function can be realized, to supply Hot attendant is managed to heat user field apparatus, controlled, failure monitoring.