CN204757124U - Unsteady flow volume and central heating system who divides family measurement - Google Patents

Abstract

Unsteady flow volume and central heating system who divides family measurement, including branch family metering modules, water supply temperature measurement module, return water temperature measurement module and heat supply network control management platform, branch family metering modules locates each user position, heat supply network control management platform respectively with divide family metering modules and global cycle pump communication connection, and pass through water supply temperature measurement module with water supply temperature and return water temperature in the return water temperature measurement module difference collecting pipe network system, be equipped with the converter on the global cycle pump. Satisfy each user's water yield needs, under the prerequisite that satisfies the requirement of user comfort, realize regulated flow as required, reduce the energy consumption, not only practice thrift the cost, have higher reliability and stability moreover, more be fit for long -term the use.

Description

The central heating system of variable-flow and household metering

Technical field

The utility model relates to heat supply process system regions, particularly the central heating system of a kind of variable-flow and household metering.

Background technology

Hydraulic unbalance is modal phenomenon in central heating system, and cause the reason of system hydraulic unbalance a lot, the links such as design, construction, operational management all likely cause hydraulic unbalance.During design, consider in-pipe flow speed and caliber restriction, the friction loss of pipe network system may be issued to balance in design discharge distribution; In work progress, due to the restriction of field condition, often can not press design drawing construction completely, result must cause the deviation with design, produces hydraulic unbalance; In addition, in central heating system, because building terminal temperature difference adopts the devices such as flow control valve to change the flow entering user's heat exchanger, also will produce restriction loss, cause hydraulic unbalance.

Hydraulic unbalance, by inconsistent for the actual flow and design discharge causing heating system pipe network, end-equipment, makes the heat of each user of system unbalanced.In engineer applied, for improving hydraulic unbalance problem, often adopting the measure strengthening circular flow simply, not only increasing conveying energy consumption, also likely make normal loop originally be deteriorated, cause hydraulic unbalance more serious.This phenomenon both affected indoor thermal comfort, also directly caused system energy consumption to rise.

In central heating system, hydraulic unbalance is a kind of phenomenon that cannot avoid completely, although in central heating system design and work progress, will control hydraulic unbalance as vital task, even if but design, construction all reach expection, also just complete by the loading condiction of static state after all, ideal situation also can only solve static waterpower unbalance, cannot solve dynamic waterpower unbalance.

Along with the attention to energy conservation, for reducing the energy waste that hydraulic unbalance causes, in recent years, hydraulic jacking tests being set at heating network main, arm, having become general measure, also having suggestion that the scheme of various hydraulic jacking tests is set at user's end; According to the principle of hydraulic jacking tests, the principle of static balancing valve changes by the negotiability of adjustment valve the flow resistance flowing through valve, reaches the object of adjust flux, be mainly used in solving static waterpower unbalance; Dynamic flow balance valve is generally automatically adjust resistance coefficient according to system pressure difference variation, can, in certain pressure differential range, make to keep substantially constant by the flow of valve; Can see from balanced valve general principle and function, as far as possible the object of balance valve ensures that the flow of pipe network is not by the change of ductwork pressure, thus ensure that heat (water) amount of user meets design requirement.By this target analysis, if central heating system adopts rotten regulation strategy, then balance valve can improve system water dynamic balance, obtains good energy-saving effect; If but during central heating system employing variable regulation strategy, need flow system flow is changed with load variations, namely active adjustment flow system flow is needed, and changes in flow rate will change the hydraulic regime of system, adopt balanced valve there will be the confusion of assignment of traffic, in variable flow system, namely adopt balanced valve to be restricted.

From the angle of energy saving in running, heating system adopts rotten adjustment and variable to regulate simultaneously can obtain better energy-saving effect, and in practical application, the mode adopting variable to regulate is more and more many, when dynamic balance valve being applied to variable regulating system, there is obvious defect.

In addition, because flow balance valve itself can not provide extra pressure, if when the pressure reduction of pipe network is less than or greater than the normal range of operation of balanced valve, balanced valve will lose regulating power, and namely balanced valve application still exists the dead band of waterpower adjustment.

Moreover consider and promote the Important Action that central heating system heat household metering is energy-saving and emission-reduction, realizing heat household metering at present has diverse ways, but the device realizing these methods only considers the requirement of metering, does not solve the problem of hydraulic unbalance.

Summary of the invention

For above-mentioned defect, the object of the utility model patent is to provide the central heating system of a kind of variable-flow and household metering, adopt this system, both the requirement of terminal temperature difference according to indoor load change adjust flux can have been met, can effectively solve hydraulic unbalance problem again, can also provide heating system heat household cost allocation function, namely Flow-rate adjustment and heat household cost allocation function i ntegration are integrated by the method simultaneously, effectively reduce system cost and construction cost.

For reaching this object, the utility model by the following technical solutions:

The central heating system of variable-flow and household metering, comprise that heat exchange station plate changes, global cycle pump be connected heat exchange station plate and change the pipe network system with each customer location, described pipe network system comprises water supply line and water return pipeline, the water inlet pipe of more than one customer location is connected in parallel on described water supply line, described heat exchange station plate is changed interior hot water and is pressed into each customer location by described water supply line by described global cycle pump, and the water after heat exchange completes is got back to described heat exchange station plate by described water return pipeline again and changed:

Also comprise household metering module, water supply temperature measurement module, backwater temperature measurement module and heating network monitoring management platform, described household metering module is located at each customer location, heating network monitoring management platform communicates to connect with described household metering module and global cycle pump respectively, and collect supply water temperature in pipe network system and return water temperature respectively by described water supply temperature measurement module and described backwater temperature measurement module, described global cycle pump adopts frequency converter regulable control;

Described household metering module comprises water supply to separate house pump, drive motors and MCU controller, is provided with frequency converter and the room temperature monitoring modular for measuring user indoor temperature in described MCU controller; The water inlet pipe of each customer location accesses described water supply line respectively by described water supply to separate house pump, and described drive motors drives described water supply to separate house pump to rotate; Described MCU controller is electrically connected with described drive motors by described frequency converter.

Further, described water supply temperature measurement module measures the supply water temperature of customer location, and described backwater temperature measurement module is for measuring the return water temperature of customer location, and described water supply temperature measurement module and backwater temperature measurement module are electrically connected with described MCU controller respectively.

Further, described water supply temperature measurement module is used for the supply water temperature in described water supply line, and described backwater temperature measurement module is used for the return water temperature in described water return pipeline, and described water supply temperature measurement module and backwater temperature measurement module are electrically connected with heating network monitoring management platform respectively.

Further, also comprising for statistical system is the timing module of user's water supply time, and described timing module is electrically connected with described MCU controller.

Further, man-machine communication module is provided with in described MCU controller, the indoor temperature of user needed for self sends temperature setting signal by described man-machine communication module in MCU controller, and MCU controller regulates the rotating speed of described water supply to separate house pump by frequency converter according to established temperature.

Further, described drive motors is permanent-magnet DC brushless direct current generator.

The hydraulic equilibrium control method of the central heating system of variable-flow and household metering, its step is as follows:

A: detect the supply water temperature T of each user's pipe network by the water supply temperature measurement module in MCU controller and backwater temperature measurement module at each customer location _giwith return water temperature T _hi, and calculate the heat H of each user consumption according to the following formula _i:

$H_i=c_p\mathrm{\ρ}\frac{L_i}{3600}(T_{hi}-T_{gi})=c_p\mathrm{\ρ}\frac{n_i}{n_N}\frac{L_N}{3600}(T_{hi}-T_{gi})$

Wherein: H _ifor user's chargeable heat load, W

C _pfor the specific heat at constant pressure of fluid media (medium), kJ/ (kg DEG C)

ρ is fluid media (medium) density, kg/m ³

L _nfor corresponding to fluid volume flow during water pump rated speed, m ³/ h;

T _hit _gibe respectively user's heat exchanger return water temperature and supply water temperature, DEG C, obtained by actual measurement

N _in _nbe respectively water pump actual speed and rated speed, rpm, n _icalculated by controller MCU;

MCU controller calculates the flow Q needed for each user after calculating the heat that customer location consumes according to the following formula _i:

$Q_i=\mathrm{\ρ}\frac{n_i}{n_N}{L}_N$

Wherein: Q _ifor terminal temperature difference volume flow, m ³/ h;

ρ is fluid media (medium) density, kg/m ³

N _in _nbe respectively water pump actual speed and rated speed, rpm, n _icalculated by controller MCU.

The MCU controller of B, each customer location by network by required flow Q _isend to heating network monitoring management platform, heating network monitoring management platform is by the flow Q of received user _icalculate the flow needed for user of whole pipe network system according to the following formula:

Q＝K _qΣQ _i

Wherein: the total flow that Q provides needed for heat exchange station plate;

K _qbe a parameter being greater than 1, the parameter that the flow provided for meeting global cycle pump should be arranged slightly larger than terminal temperature difference flow, can set in management and parametric controller unification and revise.

In step A, MCU controller calculates the heat H that each user consumes _isend to heating network monitoring management platform by network, heat Calculation cycle T and charging rate K are set at management and parametric controller _f, then the heat that user consumes in current calculation cycle T can by following formulae discovery:

W _Ti＝k _fTTH _i

Wherein: k _fT, consider the correction coefficient of the factors such as pipe network loss in computing cycle T, h is drawn by the heat metering device of heat exchange station, Σ H _ifor all terminal temperature differences calculate heat sum.

The heat accumulation that computing cycle user consumes can be obtained the heat that each user consumes, then take advantage of and can realize heating system household cost allocation with charging rate, that is:

F _i＝K _fΣW _Ti

Wherein: K _ffor charging rate, F _ifor household heat supplying charging value

The beneficial effects of the utility model:

(1) the terminal temperature difference flow of the technical program adopts variable-frequency water supply to separate house pump to regulate, not only can change flow automatic regulation by indoor load according to demand, and adjustment process does not produce restriction loss, the water supply caused due to restriction loss can be eliminated and prop up the hydraulic unbalance impact that pipe pressure change produces;

(2) the technical program control Network Based, the information such as terminal temperature difference flow, temperature can be uploaded to heating network monitoring management platform, the hot water amount met consumers' demand is calculated by heating network monitoring management platform, export the rotary speed parameter of heat exchange station secondary side water pump, regulate heat exchange station secondary side pump rotary speed, realize heat exchange station secondary side water pump changeable flow adjustment, system total flow is regulated, effectively to alleviate the hydraulic unbalance phenomenon of heating system secondary pipe network and user's pipe network by identical Changing Pattern simultaneously match with terminal temperature difference flow.

(3) the technical program is not only suitable for constant flow water system, also variable flow system is applicable to, heating system pipe network transmission energy consumption can be effectively reduced by changeable flow adjustment, lift simultaneously owing to regulating heat exchange station secondary side water pump to bear reduces, and can reduce the power that joint heat exchange station secondary side water pump needs;

(4) Flow-rate adjustment and heating system heat household cost allocation function i ntegration are integrated by the technical program, effectively reduce heating system direct cost and construction cost.

(5) the technical program possesses system management and controlling functions, the indoor temperature desired value meeting national relevant regulations can be set by management and parametric controller are unified, the hot water amount that user needs is calculated according to the difference of temperature target and observed temperature and Properties of Objects, and regulate water supply to separate house revolution speed under the prerequisite meeting the requirement of user's thermal comfort, realize adjust flux as required, reduce energy consumption.

(6) the terminal temperature difference Flow-rate adjustment of the technical program and heat Calculation device possess user's man machine operation interface, can be user and provide ambient parameter and the information such as operational factor and fault alarm.

Accompanying drawing explanation

Fig. 1 is the structural representation of an embodiment of the present utility model;

Fig. 2 is the modular structure schematic diagram of an embodiment of the present utility model;

Fig. 3 is the structural representation of an embodiment of household metering module in the utility model;

Fig. 4 is flow Q calculation flow chart in the utility model;

Fig. 5 is heating system point family heat charging flow chart in the utility model.

Wherein: heat exchange station plate changes 1, global cycle pump 2, water supply line 3, water return pipeline 4, water supply to separate house pump 5, drive motors 6, MCU controller 7, heating network monitoring management platform 8.

Detailed description of the invention

The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

As shown in Figures 1 and 2, the central heating system of variable-flow and household metering, comprise that heat exchange station plate changes 1, global cycle pump 2 be connected heat exchange station plate change 1 with the pipe network system of each customer location, described pipe network system comprises water supply line 3 and water return pipeline 4, the water inlet pipe of more than one customer location is connected in parallel on described water supply line 3, by described heat exchange station plate, the hot water changed in 1 is pressed into each customer location by described water supply line 3 to described global cycle pump 2, and the water after heat exchange completes is got back to described heat exchange station plate by described water return pipeline 4 again and changed 1; Also comprise household metering module, water supply temperature measurement module, backwater temperature measurement module and heating network monitoring management platform 8, described household metering module is located at each customer location, heating network monitoring management platform 8 is electrically connected with described household metering module and global cycle pump 2 respectively, and collect supply water temperature in pipe network system and return water temperature respectively by described water supply temperature measurement module and described backwater temperature measurement module, described global cycle pump 2 adopts frequency converter regulable control;

As shown in Figures 2 and 3, described household metering module comprises water supply to separate house pump 5, drive motors 6 and MCU controller 7, is provided with frequency converter and the room temperature monitoring modular for measuring user indoor temperature in described MCU controller 7; The water inlet pipe of each customer location accesses described water supply line 3 respectively by described water supply to separate house pump 5, and described drive motors 6 drives described water supply to separate house pump 5 to rotate; Described MCU controller 7 is electrically connected with described drive motors 6 by described frequency converter.

Heating system in the technical program is changeable flow adjustment system, water supply temperature measurement module and backwater temperature measurement module gather in real system, temperature data in water supply line 3 and water return pipeline 4, and pass to heating network monitoring management platform 8, heating network monitoring management platform 8 calculates the data of actual heat supply, in conjunction with the thermal data needed for each customer location that household metering module measures, according to both differences, the rotating speed of global cycle pump 2 is regulated by frequency converter, meet the water yield needs of each user, under the prerequisite meeting the requirement of user's thermal comfort, realize adjust flux as required, reduce energy consumption.

In household metering module, the normal temperature under relevant regulations is set with in MCU controller 7, room temperature monitoring modular gathers user indoor temperature, MCU controller 7 is according to the difference of normal temperature (or design temperature) and observed temperature, the hot water flow that computed user locations heat transmission equipment needs, be the rotating speed of water supply to separate house pump 5 again by hot water flow shift in demand, then pump variable frequency signal is exported by MCU controller 7, the rotating speed of water supply to separate house pump 5 is regulated by frequency converter 8, under the prerequisite meeting the requirement of user's thermal comfort, realize adjust flux as required, reduce energy consumption.

This device is different with balanced valve from common discharge control valve, heating network is not needed to provide the pressure of Flow-rate adjustment, but utilize variable frequency adjustment water supply to separate house pump 5 to provide power, namely the water supply to separate house pump 5 that the pressure required for terminal temperature difference Flow-rate adjustment can be arranged by customer location provides, not by the impact of system pipe network pressure change, therefore this device not only can realize Flow-rate adjustment, effectively can also eliminate central heating system terminal temperature difference hydraulic unbalance phenomenon.

The terminal temperature difference Flow-rate adjustment that described system is integrated and heat Calculation device detect user indoor temperature, the built-in PI of MCU controller regulates algorithm, according to the user's indoor objects temperature preset and the actual difference detecting indoor temperature, calculate the flow needing to be supplied to user, export pump rotary speed signal, drive water pump to provide required flow, under the prerequisite meeting the requirement of user's comfortableness, reduce energy consumption:

About the using method of native system, its step is as follows:

A: detect the supply water temperature T of each user's pipe network by the water supply temperature measurement module in MCU controller and backwater temperature measurement module at each customer location _giwith return water temperature T _hi, and calculate the heat H of each user consumption according to the following formula _i:

$H_i=c_p\mathrm{\ρ}\frac{L_i}{3600}(T_{hi}-T_{gi})=c_p\mathrm{\ρ}\frac{n_i}{n_N}\frac{L_n}{3600}(T_{hi}-T_{gi})$

Wherein: H _ifor user's chargeable heat load, W

C _pfor the specific heat at constant pressure of fluid media (medium), kJ/ (kg DEG C)

ρ is fluid media (medium) density, kg/m ³

L _nfor corresponding to fluid volume flow during water pump rated speed, m ³/ h;

T _hit _gibe respectively user's heat exchanger return water temperature and supply water temperature, DEG C, obtained by actual measurement

N _in _nbe respectively water pump actual speed and rated speed, rpm, n _icalculated by controller MCU;

MCU controller calculates the flow Q needed for each user after calculating the heat that customer location consumes according to the following formula _i:

$Q_i=\mathrm{\ρ}\frac{n_i}{n_N}{L}_N$

Wherein: Q _ifor terminal temperature difference volume flow, m ³/ h;

ρ is fluid media (medium) density, kg/m ³

N _in _nbe respectively water pump actual speed and rated speed, rpm, n _icalculated by controller MCU.

The MCU controller of B, each customer location by network by required flow Q _isend to heating network monitoring management platform, heating network monitoring management platform is by the flow Q of received user _icalculate the flow needed for user of whole pipe network system according to the following formula:

Q＝K _qΣQ _i

Wherein: the total flow that Q provides needed for heat exchange station plate;

K _qbe a parameter being greater than 1, the parameter that the flow provided for meeting global cycle pump 2 should be arranged slightly larger than terminal temperature difference flow, can set in heating network monitoring management platform 8 and revise, handling process as shown in Figure 4.

Heating system point family heat charging (handling process as shown in Figure 5): in step A, MCU controller calculates the heat H that each user consumes _isend to heating network monitoring management platform by network, heat Calculation cycle T and charging rate K are set at management and parametric controller _f, then the heat that user consumes in current calculation cycle T can by following formulae discovery:

W _Ti＝k _fTTH _i

Wherein: k _fT, consider the correction coefficient of the factors such as pipe network loss in computing cycle T, h is drawn by the heat metering device of heat exchange station, Σ H _ifor all terminal temperature differences calculate heat sum.

The heat accumulation that computing cycle user consumes can be obtained the heat that each user consumes, then take advantage of and can realize heating system household cost allocation with charging rate, that is:

F _i＝K _fΣW _Ti

Wherein: K _ffor charging rate, F _ifor household heat supplying charging value.

Embodiment 1

Described water supply temperature measurement module measures the supply water temperature of customer location, and described backwater temperature measurement module is for measuring the return water temperature of customer location, and described water supply temperature measurement module and backwater temperature measurement module are electrically connected with described MCU controller respectively.

Confession, the return water temperature of customer location is gathered respectively by water supply temperature measurement module and backwater temperature measurement module, according to similarity law, square being directly proportional of customer flow and supply-water pump rotating speed, the nominal parameter of supply-water pump is known, water pump actual speed is determined by MCU controller 7, namely can calculate according to water supply to separate house pump 5 nominal parameter and actual speed the actual flow being supplied to user; MCU controller 7 according to actual acquisition user for, return water temperature and the actual flow that calculates, by MCU controller 7 record.

In the present embodiment, water supply temperature measurement module and backwater temperature measurement module are arranged on each customer location, and directly measure inflow temperature and the return water temperature of customer location, measurement data is accurate, system can be carried out water supply according to the heat demand of client exactly and be regulated, and achieves the effect of saving the energy; And this mode does not need the checkout gear of flow sensor class, not only cost-saving, and there is higher reliability and stability, be more suitable for Long-Time Service.

Embodiment 2

Described water supply temperature measurement module is used for the supply water temperature in described water supply line 3, and described backwater temperature measurement module is used for the return water temperature in described water return pipeline 4, and described water supply temperature measurement module and backwater temperature measurement module are electrically connected with heating network monitoring management platform 8 respectively.

The confession in water supply line 3 and water return pipeline 4, return water temperature is gathered respectively by water supply temperature measurement module and backwater temperature measurement module, according to similarity law, square being directly proportional of customer flow and water supply to separate house pump 5 rotating speed, the nominal parameter of water supply to separate house pump 5 is known, water pump actual speed is determined by MCU controller 7, namely can calculate according to water supply to separate house pump 5 nominal parameter and actual speed the actual flow being supplied to user; MCU controller 7 according to actual acquisition user for, return water temperature and the actual flow that calculates, by MCU controller 7 record.

In the present embodiment, water supply temperature measurement module and backwater temperature measurement module are separately positioned on the main line pipeline of water supply line 3 and water return pipeline 4, carry out concentrating to the inflow temperature of multiple user (entire building or whole community) and return water temperature and measure, the system heat demand total according to multi-user is carried out water supply and is regulated, achieve the effect of saving the energy, the more important thing is the cost saving and lay water supply temperature measurement module and backwater temperature measurement module; And this mode does not need the checkout gear of flow sensor class, not only cost-saving, and there is higher reliability and stability, be more suitable for Long-Time Service.

Also comprising for statistical system is the timing module of user's water supply time, and described timing module is electrically connected with described MCU controller 7.

Used the time of hot water by timing module counting user, and by MCU controller 7 record, according to these parameters, user's heat can be supplied to by calculating, facilitate follow-up toll administration.

Man-machine communication module is provided with in described MCU controller 7, the indoor temperature of user needed for self sends temperature setting signal by described man-machine communication module in MCU controller, and MCU controller 7 regulates the rotating speed of described water supply to separate house pump 5 by frequency converter according to established temperature.

User is according to the temperature requirements of self, by man-machine communication module, signal input is carried out to MCU controller 7, complete the frequency setting of water supply to separate house pump 5, reach after the object of rotational speed regulation is carried out to water supply to separate house pump 5, control to arrive the inflow in family, improve or reduce the efficiency of heat exchange, thus meet the temperature requirements of oneself, make the function more personalized of system.

Described drive motors 6 is permanent-magnet DC brushless direct current generator.

End each user pump power is less, adopts permanent-magnet DC brushless DC motor Driver water pump, improve the Energy Efficiency Ratio of driving in the present embodiment.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes all will fall within protection domain of the present utility model.

Claims (5)

1. the central heating system of variable-flow and household metering, comprise that heat exchange station plate changes, global cycle pump be connected heat exchange station plate and change the pipe network system with each customer location, described pipe network system comprises water supply line and water return pipeline, the water inlet pipe of more than one customer location and outlet pipe are connected in parallel on described water supply line and described water return pipeline respectively, described heat exchange station plate is changed interior hot water and is pressed into each customer location by described water supply line by described global cycle pump, water after heat exchange completes is got back to described heat exchange station plate by described water return pipeline again and is changed, and it is characterized in that:

Also comprise household metering module, water supply temperature measurement module, backwater temperature measurement module and heating network monitoring management platform, described household metering module is located at each customer location, heating network monitoring management platform is connected by network with described household metering module, be electrically connected with described global cycle pump, and collect supply water temperature in pipe network system and return water temperature respectively by described water supply temperature measurement module and described backwater temperature measurement module, described global cycle pump adopts frequency converter regulable control;

Described household metering module comprises water supply to separate house pump, drive motors and MCU controller, is provided with frequency converter and the room temperature monitoring modular for measuring user indoor temperature in described MCU controller; The water inlet pipe of each customer location accesses described water supply line respectively by described water supply to separate house pump, and described drive motors drives described water supply to separate house pump to rotate; Described MCU controller is electrically connected with described drive motors by described frequency converter.

2. the central heating system of variable-flow according to claim 1 and household metering, it is characterized in that: described water supply temperature measurement module measures the supply water temperature of customer location, described backwater temperature measurement module for measuring the return water temperature of customer location, described water supply temperature measurement module and backwater temperature measurement module respectively be integrated in described MCU controller respectively and be electrically connected.

3. the central heating system of variable-flow according to claim 1 and household metering, it is characterized in that: described water supply temperature measurement module is used for the supply water temperature in described water supply line, described backwater temperature measurement module is used for the return water temperature in described water return pipeline, and described water supply temperature measurement module and backwater temperature measurement module are electrically connected with heating network monitoring management platform respectively.

4. the central heating system of variable-flow according to claim 1 and household metering, it is characterized in that: in described MCU controller, be provided with man-machine communication module, the indoor temperature of user needed for self sends temperature setting signal by described man-machine communication module in MCU controller, and MCU controller regulates the rotating speed of described water supply to separate house pump by frequency converter according to established temperature.

5. the central heating system of variable-flow according to claim 1 and household metering, is characterized in that: described drive motors is permanent-magnet DC brushless direct current generator.