CN201476145U - Independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water - Google Patents
Independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water Download PDFInfo
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- CN201476145U CN201476145U CN200920170348XU CN200920170348U CN201476145U CN 201476145 U CN201476145 U CN 201476145U CN 200920170348X U CN200920170348X U CN 200920170348XU CN 200920170348 U CN200920170348 U CN 200920170348U CN 201476145 U CN201476145 U CN 201476145U
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Abstract
An independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water comprises a plurality of hot water dissipating systems distributed in different floors; wherein the hot water dissipating systems are serially connected up to down, in each floor, one shunting pipe is provided between the water inlet pipe and the water outlet pipe of the hot water dissipating system, and each shunting pipe is provided with a first controllable valve. The independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water resolves the defects of traditional multi-floor centralized heat supply system, such as that the traditional art can not shut down heat supply or adjust heat output of single floor, has imbalance heat output, can confirm basic heat supply of bottom floor or top floor but with over supply at other floors to waste energy, is difficult to realize fair charge, needs to change pipelines to reconstruct heat supply system with difficult construction, and adopts the equipment with high cost and electricity waste. The independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water can effectively resolves aforementioned problems, which can be reconstructed without changing pipelines, has simple installment and low equipment cost, can shut floor independently or adjust heat supply system of single floor via users, and can realize rational and fair charge.
Description
Technical field
The present invention relates to concentrate hot-water heating system, particularly relate to a kind of many floors and concentrate hot water heating to divide floor can control heating system.
Background technology
Shown in Figure 1A, existing concentrated hot-water heating system is taked many floors single tube series system more, so-called many floors single tube series system is meant heating hot water by ground floor layer pump to loft, and heating hot water is back to the circulation heating system of ground floor layer at last by the flow through radiator of each floor of loft again.The advantage of this kind mode is to need not at each floor water pump to be installed to realize the heating in parallel of many floors, and construction cost is low, adapts to national conditions at that time.But shortcoming is the heating installation of next floor goes into the heating installation that coolant-temperature gage necessarily is lower than a last floor and goes into coolant-temperature gage, causes heating effect to pursue floor and successively decreases downwards, for the heating effect that guarantees the ground floor layer will make loft overheated, wastes energy and weak effect.Owing to be series system, any floor all cannot end even reduce hot water flow simultaneously, otherwise other floors also can and then be cut off or reduce.Also have the part central heating take the two-tube parallel way of many floors shown in Figure 1B, this mode can solve any floor all cannot by in addition reduce the problem of hot water flow; But since in this heating system hydraulic pressure of next floor heating hot water because of gravity necessarily is higher than a last floor, thereby cause the heating flow rate of hot water of next floor necessarily to be higher than a floor, heating effect also is better than a floor, and successively progressively increase, the unbalanced problem of different floor heating effects still can't solve.Directly extract hot water as increase water pump at each floor from main heating hot-water line,, need to transform pipe-line system though can solve the unbalanced problem of heating effect, increase equipment, the engineering difficulty is big, expense height, and waste electric energy.
Summary of the invention
The present invention is intended to address the above problem, and a kind of hot water heating heat that can regulate each floor that provides realizes that many floors of balanced heating concentrate hot water heating to divide floor can control heating system.
Another object of the present invention is the heating-amount that can require quantitatively to regulate each floor according to the user, energy savings; Each floor heating-amount of control module accumulative total can be used as the heating charge foundation simultaneously, realizes reasonable fee.
For achieving the above object, a kind of many floors that provide concentrate hot water heating to divide floor can control heating system, it comprises: several hot water cooling systems, and described hot water cooling system is distributed on different floors, and each described hot water cooling system is series connection successively from top to bottom; Between the outlet pipe of the oral siphon of the described hot water cooling system of each floor and hot water cooling system, respectively be provided with an isocon, among every described isocon, be provided with one first adjustable valve.
Except that above-mentioned in-line scheme, the present invention can also be designed to following parallel structure, a kind of many floors concentrate hot water heating to divide floor can control heating system, comprise: several hot water cooling systems, described hot water cooling system is distributed on different floors, and each described hot water cooling system is in parallel successively from top to bottom; On the UNICOM's water pipe between the oral siphon of the oral siphon of the described hot water cooling system of a last floor and the described hot water cooling system of next floor, respectively be provided with one first adjustable valve.
No matter be in-line scheme or parallel scheme, the present invention all can do following improvement.
As improvement of the present invention, also be provided with control module at each floor, described control module is controlled the first adjustable valve hot water flow.
As to further improvement of the present invention, among the loop of described oral siphon of each floor and outlet pipe, be in series with the digitlization water ga(u)ge respectively, be respectively equipped with into water temperature sensor at the described oral siphon of each floor, be respectively equipped with the leaving water temperature sensor at the described outlet pipe of each floor; Described control module comprises control circuit and telecommunication circuit, described control module is measured the discharge of place floor hot water cooling system in the scheduled time by coupled digitlization water ga(u)ge, goes into water temperature sensor and the entry and the water outlet mean temperature of the hot water cooling system of place floor in the leaving water temperature sensor measurement scheduled time by coupled; Control module multiply by its entry and water outlet mean temperature difference to obtain the heat supply value of this hot water cooling system in the scheduled time with the discharge of hot water cooling system in the scheduled time; Control module is communicated by letter by each floor control module of telecommunication circuit and other and is sent other each floor control modules to the heat supply value that obtains other each floors hot water cooling system in the scheduled time and with the heat supply value of place floor hot water cooling system; Control module uses the heat supply value of these heat supply values and himself place floor to calculate the heat supply value that its place floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements; Control module is according to calculating gained heat supply value, and the discharge of controlling the hot water cooling system of place floor by the first adjustable valve realizes this hot water cooling system heating load; The heat supply value of control module record and accumulative total place floor hot water cooling system is with this reference frame as the accumulative total heating load of each floor.
As further improving to of the present invention, among the loop of described oral siphon of each floor and outlet pipe, be in series with the second adjustable valve respectively, control module is according to calculating gained heat supply value, the discharge of controlling the hot water cooling system of place floor by the second adjustable valve realizes this hot water cooling system heat supply value, and closes the hot water of this hot water cooling system when needed.
As further improving of the present invention, well-behaved floor can be controlled heating system and also comprise a master control unit, the total telecommunication circuit in the described master control unit and the telecommunication circuit transmission of each floor and reception data; The heat supply value from control module place floor hot water cooling system in the scheduled time of each floor hot water cooling system is collected in the master control unit, and use these heat supply values to calculate the heat supply value that each floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements, and will calculate the control module that each floor heat supply value of gained sends each floor hot water cooling system to by total telecommunication circuit, to realize control to each floor hot water cooling system heat supply value; The heat supply value of master control unit record and each floor hot water cooling system of accumulative total is with this reference frame as the accumulative total heating load of each floor.
As further improving of the present invention, the described second adjustable valve is made of CD-ROM drive motor, change gear box, valve opening sensor, valve; By the control module control that is connected; Control module detects the aperture of valve by the valve opening sensor; Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor, to realize the control to hot water flow.
As further improving of the present invention, described digitlization water ga(u)ge is made of water ga(u)ge and water flow sensor; Water ga(u)ge uses general water meter; Water flow sensor by to the metering of blade-rotating revolution in the water ga(u)ge realizing the digitlization of discharge, and send the discharge data to coupled control module.
As further improving to of the present invention, describedly go into water temperature sensor and leaving water temperature sensor, be installed in respectively in place hot water cooling system oral siphon and the outlet pipe, in order to measure hot water cooling system entry and leaving water temperature.
As further improving to of the present invention, the described first adjustable valve, it is made of CD-ROM drive motor, change gear box, valve opening sensor, valve; By the control module control that is connected; Control module detects the aperture of valve by the valve opening sensor; Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor, to realize the control to hot water flow.
Contribution of the present invention is that it efficiently solves the various disadvantages of traditional many floors central heating system: can't close or regulate heating load to single heating floor; Heating-amount is unbalanced, for guaranteeing the basic heating of ground floor layer or loft, can cause corresponding other floor transition to heat and waste energy; Be difficult to accurately fair charge; Transformation to heating system need be changed pipeline, and the engineering difficulty is big, the high and waste electric energy of cost of equipment.Apparatus of the present invention have solved the problems referred to above effectively, and transforming does not need to change pipeline, install simply, and equipment cost is low, can divide floor to close or user's adjusting, and the charge foundation of reasonable justice is provided.
Description of drawings
Fig. 1 is the structural representation that existing many floors are concentrated series connection of hot-water heating system single tube and two-tube parallel way.
Fig. 2 is a kind of structural representation that the present invention is applied in the single tube train.
Fig. 3 is a kind of structural representation that the present invention is applied in two-tube parallel system.
Fig. 4 is the structural representation of a digitlization water ga(u)ge of use implementation of the valving of the adjustable hot-water heating system heating load used of the present invention.
Fig. 5 is the structural representation of two digitlization water ga(u)ges of use implementation of the valving of the adjustable hot-water heating system heating load used of the present invention.
Fig. 6 is the structural representation of a kind of digitlization water ga(u)ge of use of the valving of the adjustable hot-water heating system heating load used of the present invention.
Fig. 7 is the structural representation of valve of a kind of adjustable water saving flow of use of the valving of the adjustable hot-water heating system heating load used of the present invention.
Fig. 8 is the structural representation of a kind of cooling-water temperature sensor of use of the valving of the adjustable hot-water heating system heating load used of the present invention.
Fig. 9 is the structural representation that is installed on the by-pass valve control on the branch overflow pipe that the present invention uses.
The specific embodiment
A kind of many floors of the present invention concentrate hot water heating to divide floor can control heating system, as shown in Figure 2, between the oral siphon 50 of the described hot water cooling system 90 of each floor of many floors single tube series connection central heating mode and outlet pipe 60, respectively be provided with an isocon 30, among every described isocon 30, be provided with one first adjustable valve 40; As shown in Figure 3, on the communicating pipe 80 between the oral siphon 70 of the oral siphon 50 of the described hot water cooling system 90 of a floor on the two-tube central heating mode in parallel of many floors and the described hot water cooling system 90 of next floor, respectively be provided with one first adjustable valve 40.The first adjustable valve 40 directly enters next floor heating system according to the splitter section heating hot water that requires and improves next floor heating system and go into coolant-temperature gage, and the hot water heating amount of regulating each floor simultaneously realizes balanced heating and requires quantitatively to regulate the heating-amount of each floor according to the user.
As shown in Figures 2 and 3, be in series with digitlization water ga(u)ge 24 respectively among the loop of described oral siphon 50 of each floor and outlet pipe 60, be respectively equipped with into water temperature sensor 25 at the described oral siphon 50 of each floor, be respectively equipped with leaving water temperature sensor 26 at the described outlet pipe 60 of each floor.Described control module 10 is by the discharge of coupled digitlization water ga(u)ge place floor hot water cooling system 90 in the 24 measurement scheduled times, by the coupled entry and the water outlet mean temperature of going into water temperature sensor 25 and leaving water temperature sensor hot water cooling system 90 of place floor in the 26 measurement scheduled times.Control module 10 multiply by its entry and water outlet mean temperature difference to obtain the heat supply value of this hot water cooling system 90 in the scheduled time with the discharge of the scheduled time (being generally 1 hour) interior hot water cooling system 90.Control module 10 is communicated by letter by each floor control module of telecommunication circuit 12 and other and is sent other each floor control modules to the heat supply value that obtains other each floors hot water cooling system in the scheduled time and with the heat supply value of place floor hot water cooling system; The heat supply value of control module 10 these heat supply values of utilization and himself place floor calculates the heat supply value that its place floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements; Control module 10 is according to calculating gained heat supply value, and the discharge of regulating the hot water cooling system 90 of the first adjustable valve 40 control place floors by control circuit 11 realizes this hot water cooling system 90 heating loads; The heat supply value of control module 10 records and accumulative total place floor hot water cooling system 90 with this reference frame as the accumulative total heating load of each floor, shows data simultaneously on display screen.
Require entering the quantitative adjusting of each floor hot-water heating system hot water flow according to heating, at first need the quantitative relationship between definite heating hot water flow and the heating system heating load.To hot-water heating system within a certain period of time the metering method of heating load be to calculate the difference that in the regular hour, flows into and flow out this heating system hot water heat energy, this difference is exactly the calorie value that this hot-water heating system was provided in this time.The heat energy of hot water can be drawn by the addition of two parts heat energy: the basic heat energy of 4 degrees centigrade of water of the first, and it two is that water is heated to the needed heat of relevant temperature from 4 degrees centigrade; For the heat energy that flows in the regular hour section or flow out this heating system hot water is to flow in this period being equivalent to or 4 degrees centigrade of water flowing out the heating system water yield are warmed up to the required heat of mean temperature that flows into or flow out this heating system hot water in this period.Selection to 4 degrees centigrade of water temperatures is because of water volume minimum under this temperature, and can not relate to the phase transformation problem, and the above water of this temperature heats up and institute's heat dissipation can be similar to linear direct ratio.So the calorie value computing formula that hot-water heating system consumed is as follows:
E: the calorie value that hot-water heating system is provided in the certain hour
Vi: flow into the heating system water yield in the certain hour
Vo: flow out the heating system water yield in the certain hour
Ti: the hot water mean temperature that flows into heating system in the certain hour
To: the hot water mean temperature that flows out heating system in the certain hour
E=Vix(Ti-4’C)-Vox(To-4’C)
=VixTi-VoxTo
The water yield that flows out heating system in actual use may be less than the water yield that flows into heating system because leak, and therefore as above computing formula can be done following adjustment for the influence of leaking:
E=VixTi-VoxTo+(Vi-Vo)x(Ti 4’C)
When heating system within a certain period of time do not occur leaking or the negligible situation of water leakage under can be similar to and think Vi=Vo, as above formula also can be simplified as follows:
E=Vix(Ti-4’C)-Vox(To-4’C)
=Vix?Ti-VoxTo
=Vix (Ti To) or=Vox (Ti-To)
The definition of thermal unit kilocalorie is that 1 kilocalorie heat equals 1 degree centigrade of required heat of 1 kg water intensification is similar to 1 liters of water is heated up 1 degree centigrade.As above the water yield is with litre in the formula, and temperature is with a degree centigrade timing, and the calorie value unit of its result of calculation is exactly a kilocalorie.
As shown in Figure 4, foundation is formula as above, use is installed in the digitlization water ga(u)ge 24 of hot-water heating system can measure the discharge of hot-water heating system within a certain period of time, simultaneously the discharge of measuring is sent to and be attached thereto the control module 10 that connects, calculate the heating load of heating system in the certain hour for control module 10.
As shown in Figure 4, use be installed in hot-water heating system oral siphon 50 and the outlet pipe 60 go into that water temperature sensor 25 and leaving water temperature sensor 26 can measure hot-water heating system go into coolant-temperature gage and leaving water temperature, and send measured value to control module 10; And calculate by control module 10 and to flow into the equal temperature of hot-water heating system level within a certain period of time and to flow out the equal temperature of hot-water heating system level.
As shown in Figure 5, as need consider the water leakage problem of this hot-water heating system to the control of hot-water heating system, can be according to the computing formula of the water leakage that as above comprises hot-water heating system, use two digitlization water ga(u)ges 24, one is installed in hot-water heating system oral siphon 50, to measure the discharge of hot-water heating system; One is installed in hot-water heating system outlet pipe 60, to measure the water flow of hot-water heating system.
As shown in Figure 6, digitlization water ga(u)ge 24 is made of light water flowmeter 241 and water flow sensor 242.Water ga(u)ge uses general water meter.Water flow sensor can make near the Hall sensor spares 2422 that are installed in the permanent magnet in blade-rotating 2411 rotating shafts in the water ga(u)ge 241 2421 and are installed in the permanent magnet 2421 constitute.When flow of hot water water flow meter 241 drives blade-rotating 2411 rotations, the permanent magnet 2421 that is installed in blade-rotating 2411 rotating shafts is also followed rotation, the permanent magnet revolution moves a week, nigh Hall sensor spare 2422 is installed permanent magnet will be rotated the signal in a week and send coupled control module 10 to.Because the moving flow of hot water water flow meter 241 that means certain volume a week of blade-rotating 2411 revolutions of water ga(u)ge 241, control module 10 can be measured discharge with this.
As shown in Figure 7, the valve 23 of adjustable water saving flow is made of CD-ROM drive motor 231, change gear box 232, valve opening sensor 233, valve 234.Valve can use ball valve as shown in Figure 7, and ball valve need rotate an angle of 90 degrees by full open to contract fully.CD-ROM drive motor 231 can adopt d.c. motor.Change gear box 232 is used for slowing down and increasing torsion.Valve opening sensor 233 can use as shown in Figure 7 one to be installed in the permanent magnet 2331 on the force-output shaft of d.c. motor 231 and nigh Hall sensor spare 2332 is installed to constitute; Permanent magnet 2331 on the moving all force-output shafts of d.c. motor 231 revolutions is also followed and is rotated a week, be installed in Hall sensor spare 2332 and send the signal that the motor revolution moves a week to control module 10, make control module 10 can count the revolution of d.c. motor 231, and calculate the aperture of valve 234.The valve 23 of adjustable water saving flow is the hot water flow that is used to regulate and control to flow into its place floor hot-water heating system.
As shown in Figure 8, go into water temperature sensor 25 and leaving water temperature sensor 26 by be installed in the water pipe temperature sensor with constitute in order to the holding wire that is connected control module 10.
As shown in Figure 9, be installed on the branch overflow pipe 30 between each floor hot-water heating system oral siphon 50 and the outlet pipe 60 or be installed on except that bottom that the by-pass valve control 40 on UNICOM's water pipe 80 is made of CD-ROM drive motor 41, change gear box 42, valve opening sensor 43, valve 44 between each floor hot-water heating system oral siphon 50 and next floor hot-water heating system oral siphon 70.Valve can use ball valve as shown in Figure 9, and ball valve need rotate an angle of 90 degrees by full open to contract fully.CD-ROM drive motor 41 can adopt d.c. motor.Change gear box 42 is used for slowing down and increasing torsion.Valve opening sensor 43 can use as shown in Figure 9 one to be installed in the permanent magnet 431 on the force-output shaft of d.c. motor 41 and nigh Hall sensor spare 432 is installed to constitute; Permanent magnet 431 on the moving all force-output shafts of d.c. motor 41 revolutions is also followed and is rotated a week, be installed in Hall sensor spare 432 and send the signal that the motor revolution moves a week to control module 10, make control module 10 can count the revolution of d.c. motor 41, and calculate the aperture of valve 44.By-pass valve control 40 is to be used to regulate the hot water flow that flows directly into next floor hot-water heating system, flow directly into the hot water temperature that the hot water of next floor hot-water heating system can improve next floor hot-water heating system, with the heating effect between each floor of balance.
The computational methods that control module 10 calculates the heat supply value of its place floor are: other each floor and the heat supply value sum of its place floor in identical certain hour that accumulative total receives are exactly the heat supply value that the balanced heating of each floor needs divided by floor sum gained again.If the data of transmitting between each floor also comprise the heat supply ratio that the user sets and set, as standard-sized sheet is 100%, complete shut-down position 0%, and the user also can set median, as above computational methods just need to introduce the proportion weighted that the user sets, to draw suitable heat supply value.
Communication can be passed through the electric supply line between the telecommunication circuit of telecommunication circuit 12 and other each floor hot-water heating system control module, and dedicated signal lines or wireless system communicate.
For better realizing control to each floor heat supply value of central heating system, the master control unit that comprises total telecommunication circuit can also be set, data are transmitted and received to total telecommunication circuit in the master control unit and the telecommunication circuit of each floor 12; The heat supply value from control module hot water cooling system 90 in the 10 place floor scheduled times of each floor hot water cooling system 90 is collected in the master control unit, and use these heat supply values to calculate the heat supply value that each floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements, and will calculate the control module 10 that each floor heat supply value of gained sends each floor hot water cooling system 90 to by total telecommunication circuit, to realize control to each floor hot water cooling system 90 heat supply value; The heat supply value of master control unit record and each floor hot water cooling system 90 of accumulative total is with this reference frame as the accumulative total heating load of each floor.
The used device in each unit all can adopt conventional device as described above.
Although by above embodiment the present invention is disclosed, scope of the present invention is not limited thereto, do not departing under the condition of the present invention design, more than each member can replace with the similar or equivalent element that affiliated technical field personnel understand.
Claims (18)
1. floor more than a kind concentrates hot water heating to divide floor can control heating system, and it comprises: several hot water cooling systems (90), and described hot water cooling system (90) is distributed on different floors, and each described hot water cooling system (90) is series connection successively from top to bottom; It is characterized in that: between the outlet pipe (60) of the oral siphon (50) of the described hot water cooling system of each floor (90) and hot water cooling system (90), respectively be provided with an isocon (30), among every described isocon (30), be provided with one first adjustable valve (40).
2. a kind of many floors as claimed in claim 1 concentrate hot water heating to divide floor can control heating system, it is characterized in that, also are provided with control module (10) at each floor, described control module (10) control first adjustable valve (40) hot water flow.
3. a kind of many floors as claimed in claim 2 concentrate hot water heating to divide floor can control heating system, it is characterized in that, among the loop of described oral siphon of each floor (50) and outlet pipe (60), be in series with digitlization water ga(u)ge (24) respectively, be respectively equipped with into water temperature sensor (25) at the described oral siphon of each floor (50), be respectively equipped with leaving water temperature sensor (26) at the described outlet pipe of each floor (60); Described control module (10) comprises control circuit (11) and telecommunication circuit (12), described control module (10) is by the discharge of coupled digitlization water ga(u)ge (24) place floor hot water cooling system (90) in the measurement scheduled time, by the coupled entry and the water outlet mean temperature of going into water temperature sensor (25) and leaving water temperature sensor (26) hot water cooling system (90) of place floor in the measurement scheduled time; Control module (10) multiply by its entry and water outlet mean temperature difference to obtain the heat supply value of this hot water cooling system (90) in the scheduled time with the discharge of hot water cooling system (90) in the scheduled time; Control module (10) is communicated by letter by each floor control module of telecommunication circuit (12) and other and is sent other each floor control modules to the heat supply value that obtains other each floors hot water cooling system in the scheduled time and with the heat supply value of place floor hot water cooling system; Control module (10) uses the heat supply value of these heat supply values and himself place floor to calculate the heat supply value that its place floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements; Control module (10) is according to calculating gained heat supply value, and the discharge of controlling the hot water cooling system (90) of place floor by the first adjustable valve (40) realizes this hot water cooling system (90) heating load; The heat supply value of control module (10) record and accumulative total place floor hot water cooling system (90) is with this reference frame as the accumulative total heating load of each floor.
4. a kind of many floors as claimed in claim 3 concentrate hot water heating to divide floor can control heating system, it is characterized in that, among the loop of described oral siphon of each floor (50) and outlet pipe (60), be in series with the second adjustable valve (23) respectively, control module (10) is according to calculating gained heat supply value, the discharge of controlling the hot water cooling system (90) of place floor by the second adjustable valve (23) realizes this hot water cooling system (90) heat supply value, and closes the hot water of this hot water cooling system (90) when needed.
5. a kind of many floors as claimed in claim 3 concentrate hot water heating to divide floor can control heating system, it is characterized in that, the one's duty floor can be controlled heating system and also comprise a master control unit, and data are transmitted and received to the telecommunication circuit (12) of the total telecommunication circuit in the described master control unit and each floor; The heat supply value from hot water cooling system (90) in control module (10) the place floor scheduled time of each floor hot water cooling system (90) is collected in the master control unit, and use these heat supply values to calculate the heat supply value that each floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements, and will calculate the control module (10) that each floor heat supply value of gained sends each floor hot water cooling system (90) to by total telecommunication circuit, to realize control to each floor hot water cooling system (90) heat supply value; The heat supply value of master control unit record and each floor hot water cooling system (90) of accumulative total is with this reference frame as the accumulative total heating load of each floor.
6. a kind of many floors as claimed in claim 4 concentrate hot water heating to divide floor can control heating system, it is characterized in that the described second adjustable valve (23) is made of CD-ROM drive motor (231), change gear box (232), valve opening sensor (233), valve (234); Control by the control module that is connected (10); Control module (10) detects the aperture of valve (234) by valve opening sensor (233); Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor (231), to realize the control to hot water flow.
7. a kind of many floors as claimed in claim 3 concentrate hot water heating to divide floor can control heating system, it is characterized in that, described digitlization water ga(u)ge (24) is made of water ga(u)ge (241) and water flow sensor (242); Water ga(u)ge (241) uses general water meter; Water flow sensor (242) by to the metering of blade-rotating (2411) revolution in the water ga(u)ge (241) realizing the digitlization of discharge, and send the discharge data to coupled control module (10).
8. a kind of many floors as claimed in claim 3 concentrate hot water heating to divide floor can control heating system, it is characterized in that, describedly go into water temperature sensor (25) and leaving water temperature sensor (26), be installed in respectively in place hot water cooling system (90) oral siphon and the outlet pipe, in order to measure hot water cooling system (90) entry and leaving water temperature.
9. a kind of many floors as claimed in claim 1 concentrate hot water heating to divide floor can control heating system, it is characterized in that, the described first adjustable valve (40), it is made of CD-ROM drive motor (41), change gear box (42), valve opening sensor (43), valve (44); Control by the control module that is connected (10); Control module (10) detects the aperture of valve (44) by valve opening sensor (43); Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor (41), to realize the control to hot water flow.
10. floor more than a kind concentrates hot water heating to divide floor can control heating system, comprising: several hot water cooling systems (90), and described hot water cooling system (90) is distributed on different floors, and each described hot water cooling system (90) is in parallel successively from top to bottom; It is characterized in that, among the UNICOM's water pipe (80) between the oral siphon (70) of the oral siphon (50) of the described hot water cooling system of a last floor (90) and the described hot water cooling system of next floor, respectively be provided with one first adjustable valve (40).
11. a kind of many floors as claimed in claim 10 concentrate hot water heating to divide floor can control heating system, it is characterized in that, also are provided with control module (10) at each floor, described control module (10) control first adjustable valve (40) hot water flow.
12. a kind of many floors as claimed in claim 11 concentrate hot water heating to divide floor can control heating system, among the loop of described oral siphon of each floor (50) and outlet pipe (60), be in series with digitlization water ga(u)ge (24) respectively, be respectively equipped with into water temperature sensor (25) at the described oral siphon of each floor (50), be respectively equipped with leaving water temperature sensor (26) at the described outlet pipe of each floor (60); Described control module (10) comprises control circuit (11) and telecommunication circuit (12), described control module (10) is by the discharge of coupled digitlization water ga(u)ge (24) place floor hot water cooling system (90) in the measurement scheduled time, by the coupled entry and the water outlet mean temperature of going into water temperature sensor (25) and leaving water temperature sensor (26) hot water cooling system (90) of place floor in the measurement scheduled time; Control module (10) multiply by its entry and water outlet mean temperature difference to obtain the heat supply value of this hot water cooling system (90) in the scheduled time with the discharge of hot water cooling system (90) in the scheduled time; Control module (10) is communicated by letter by each floor control module of telecommunication circuit (12) and other and is sent other each floor control modules to the heat supply value that obtains other each floors hot water cooling system in the scheduled time and with the heat supply value of place floor hot water cooling system; Control module (10) uses the heat supply value of these heat supply values and himself place floor to calculate the heat supply value that its place floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements; Control module (10) is according to calculating gained heat supply value, and the discharge of controlling the hot water cooling system (90) of place floor by the first adjustable valve (40) realizes this hot water cooling system (90) heating load; The heat supply value of control module (10) record and accumulative total place floor hot water cooling system (90) is with this reference frame as the accumulative total heating load of each floor.
13. a kind of many floors as claimed in claim 12 concentrate hot water heating to divide floor can control heating system, it is characterized in that, among the loop of described oral siphon of each floor (50) and outlet pipe (60), be in series with the second adjustable valve (23) respectively, control module (10) is according to calculating gained heat supply value, the discharge of controlling the hot water cooling system (90) of place floor by the second adjustable valve (23) realizes this hot water cooling system (90) heat supply value, and closes the hot water of this hot water cooling system (90) when needed.
14. a kind of many floors as claimed in claim 12 concentrate hot water heating to divide floor can control heating system, it is characterized in that, the one's duty floor can be controlled heating system and also comprise a master control unit, and data are transmitted and received to the telecommunication circuit (12) of the total telecommunication circuit in the described master control unit and each floor; The heat supply value from hot water cooling system (90) in control module (10) the place floor scheduled time of each floor hot water cooling system (90) is collected in the master control unit, and use these heat supply values to calculate the heat supply value that each floor needs according to the requirement of the balanced heating of each floor and each floor user's specific (special) requirements, and will calculate the control module (10) that each floor heat supply value of gained sends each floor hot water cooling system (90) to by total telecommunication circuit, to realize control to each floor hot water cooling system (90) heat supply value; The heat supply value of master control unit record and each floor hot water cooling system (90) of accumulative total is with this reference frame as the accumulative total heating load of each floor.
15. a kind of many floors as claimed in claim 13 concentrate hot water heating to divide floor can control heating system, it is characterized in that the described second adjustable valve (23) is made of CD-ROM drive motor (231), change gear box (232), valve opening sensor (233), valve (234); Control by the control module that is connected (10); Control module (10) detects the aperture of valve (234) by valve opening sensor (233); Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor (231), to realize the control to hot water flow.
16. a kind of many floors as claimed in claim 12 concentrate hot water heating to divide floor can control heating system, it is characterized in that, described digitlization water ga(u)ge (24) is made of water ga(u)ge (241) and water flow sensor (242); Water ga(u)ge (241) uses general water meter; Water flow sensor (242) by to the metering of blade-rotating (2411) revolution in the water ga(u)ge (241) realizing the digitlization of discharge, and send the discharge data to coupled control module (10).
17. a kind of many floors as claimed in claim 12 concentrate hot water heating to divide floor can control heating system, it is characterized in that, describedly go into water temperature sensor (25) and leaving water temperature sensor (26), be installed in respectively in place hot water cooling system (90) oral siphon and the outlet pipe, in order to measure hot water cooling system (90) entry and leaving water temperature.
18. a kind of many floors as claimed in claim 10 concentrate hot water heating to divide floor can control heating system, it is characterized in that, the described first adjustable valve (40), it is made of CD-ROM drive motor (41), change gear box (42), valve opening sensor (43), valve (44); Control by the control module that is connected (10); Control module (10) detects the aperture of valve (44) by valve opening sensor (43); Aperture and control according to valve require to come controlling opening of valve by the forward or reverse of control CD-ROM drive motor (41), to realize the control to hot water flow.
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CN200920170348XU CN201476145U (en) | 2009-08-13 | 2009-08-13 | Independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water |
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CN200920170348XU CN201476145U (en) | 2009-08-13 | 2009-08-13 | Independent-floor controlled heat supply system for centralized heat supply of multi-floor via hot water |
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CN103154618A (en) * | 2010-06-10 | 2013-06-12 | 丹福斯有限公司 | One-pipe heat supply system with flow regulation |
CN105864873A (en) * | 2016-04-19 | 2016-08-17 | 上海浪超电子电器有限公司太仓分公司 | Precise controllable heat supply radiator |
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WO2017004963A1 (en) * | 2015-07-09 | 2017-01-12 | 程玉明 | Remote transmission communication system for temperature control and heat metering and method therefor |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN103154618A (en) * | 2010-06-10 | 2013-06-12 | 丹福斯有限公司 | One-pipe heat supply system with flow regulation |
CN103154618B (en) * | 2010-06-10 | 2016-09-07 | 丹福斯有限公司 | There is the single tube heat supply system of Flow-rate adjustment |
WO2017004963A1 (en) * | 2015-07-09 | 2017-01-12 | 程玉明 | Remote transmission communication system for temperature control and heat metering and method therefor |
CN105864873A (en) * | 2016-04-19 | 2016-08-17 | 上海浪超电子电器有限公司太仓分公司 | Precise controllable heat supply radiator |
CN105864873B (en) * | 2016-04-19 | 2018-10-23 | 太仓市微贯机电有限公司 | A kind of controllable precise formula heating radiator |
CN105972692A (en) * | 2016-05-28 | 2016-09-28 | 许昌东方热力有限公司 | Heating household metering gauge |
CN107543242A (en) * | 2017-08-25 | 2018-01-05 | 苏州麦喆思科电子有限公司 | A kind of current automatic speed governing device of radiator |
CN109724140A (en) * | 2019-01-22 | 2019-05-07 | 中山市宇信科技有限公司 | A kind of heating system and heating system control method |
CN109724140B (en) * | 2019-01-22 | 2021-07-13 | 中山市宇信科技有限公司 | Heating system and heating system control method |
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