CN206669845U - A kind of energy-conserving intelligent heating system - Google Patents
A kind of energy-conserving intelligent heating system Download PDFInfo
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- CN206669845U CN206669845U CN201720180161.2U CN201720180161U CN206669845U CN 206669845 U CN206669845 U CN 206669845U CN 201720180161 U CN201720180161 U CN 201720180161U CN 206669845 U CN206669845 U CN 206669845U
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Abstract
It the utility model is related to a kind of energy-conserving intelligent heating system, it includes boiler, user terminal, circulation heating pipeline and water return pipeline, the water inlet of the circulation heating pipeline is connected with the boiler delivery port, and the delivery port of the circulation heating pipeline is connected with the user terminal;The water inlet of the water return pipeline is connected with the user terminal, the water return pipeline is connected by the first instlated tubular with heat storage box, and the heat storage box is connected with the first water return pipeline by the second instlated tubular so that the waste heat in heat storage box can be discharged into circulation heating pipeline by first water return pipeline and be recycled again;The heating system includes controller, and multiple sensors are connected with the controller.The utility model can carry out specific aim heat supply, energy-saving, emission-reducing, environment friendly, and the management that can be more become more meticulous to temperature with daily according to outdoor temperature with situations such as hot high ebb.
Description
Technical field
It the utility model is related to heat supply process field, and in particular to a kind of energy-conserving intelligent heating system.
Background technology
Boiler heating system is equipment essential in northern area daily life.And for the improvement of heating system
It is continual to update.However, also there is more deficiency for boiler heating system.
At present, all heating water returns, no matter the circulation of temperature height, which is flowed into boiler, carries out heating recycling.It is and real
Situation is that user terminal has obvious high ebb situation, e.g., outdoor temperature on different dates or periods different on the same day
When higher, it is only necessary to which less amount of heat can ensure the constant of indoor temperature, therefore, for backwater (the backwater temperature of higher temperature
Generally 30 ~ 80 degree of degree) it can be reused in the case of without boiler, to realize energy-conservation, the purpose of emission reduction.And
And at this stage, China's central heating lacks fine-grained management, and fireman is with sensation, by rule of thumb burning boiler, and boiler is in type selecting
When, selected by the worst environment in scene, can meet to use under local minimum temperature, but in the temperature difference of whole Heating Period
Amplitude of variation is all bigger, the temperature difference in most parts of the north daytime and evening is all very big, if warm heating load is big
Words, room temperature will be too high, and indoor temperature can be caused too high, it is desirable to reduce clothes when indoors, have even to go back beats
Open a window, also can be too high because of indoor temperature, it is outgoing to cause the diseases such as flu, not only cause personnel uncomfortable, also result in substantial amounts of
Environmental problem caused by energy waste and energy burning, therefore, if kettleman can not in time, reasonably change the fortune of boiler
Row parameter, it will result in the waste of the energy.
In addition, for response capital political affairs do [2013] No. 45 files of hair and《The stage control atmosphere pollution of Beijing the 16th is arranged
Apply》, Beijing generally transforms coal-burning boiler for nearly 2 years, and using gas fired-boiler, gas fired-boiler material is generally carbon steel.Combustion
The process of gas burning produces substantial amounts of vapor, carbon dioxide, a small amount of nitrogen oxides and micro sulfide.Caused by burning
High-temperature flue gas carries out heat exchange with the water in drum, substantially reduces flue-gas temperature, at this moment can produce substantial amounts of condensed water, when nitrogen oxygen
When in compound dissolving condensed water, weak acid can be produced, corrodes boiler tail.Therefore pot can also be improved simultaneously by improving boiler feed water temperature
Kiln gas temperature, condensed water is reduced, reduce boiler corrosion.At present, since coal changes gas work propulsion, Beijing eliminates coal-fired pot
Stove more than 8400 steams ton, is all changed to gas fired-boiler, and heating supply and return water temperature is relatively low, produces a large amount of condensed waters, corrodes boiler.
The content of the invention
In view of this, the purpose of this utility model is to provide a kind of energy-conserving intelligent heating system, to solve prior art
In the deficiency mentioned.
The purpose of this utility model is to be achieved through the following technical solutions:
A kind of energy-conserving intelligent heating system, it includes boiler, user terminal, circulation heating pipeline and water return pipeline, institute
The water inlet for stating circulation heating pipeline is connected with the boiler delivery port, delivery port and the user of the circulation heating pipeline
End connection;The water inlet of the water return pipeline is connected with the user terminal, the water return pipeline by the first triple valve respectively with
The first water return pipeline that backwater can be flowed into the circulation heating pipeline and backwater circulation can be flowed into the boiler
The second water return pipeline connection;
The water return pipeline passes through the first instlated tubular and the heat accumulation that can be stored heat unnecessary in water return pipeline
Case connects, and the heat storage box is connected with the first water return pipeline by the second instlated tubular so that the waste heat in heat storage box can lead to
Cross first water return pipeline and be discharged into circulation heating pipeline and recycled again;
The heating system includes controller, and multiple sensors are connected with the controller, and the sensor includes setting
The user terminal temperature sensor for being placed in user terminal, the outdoor temperature sensors being arranged in outdoor environment, it is arranged at water return pipeline
In return water temperature sensor, be arranged in heat storage box waste heat supply temperature sensor, be arranged at the confession of boiler delivery port
Hot water temperature sensor.
Further, the sensor also includes the first flow sensor being arranged on first water return pipeline and set
It is placed in boiler delivery port second flow sensor.
Further, it is equipped with butterfly valve on first instlated tubular and the second instlated tubular.
Further, the storage of the heat in the circulation heating pipeline can be stored by being connected with the circulation heating pipeline
Hot tank.
Further, first water return pipeline and the circulation heating pipeline communication, second water return pipeline and institute
State the second water inlet connection on boiler.
Further, first water return pipeline be provided with can be by the current direction circulation heating pipe in the first water return pipeline
One-way water pump in road.
Further, first water return pipeline of delivery port one end of the one-way water pump is provided with first check-valve.
Further, the suction inlet of the one-way water pump and delivery port by way of first is flexible coupling with described first
Water return pipeline connects.
Further, the circulation heating pipeline close to boiler delivery port and described the close to the water inlet of boiler first
Two water return pipelines pass through the hot water in the circulation heating pipeline can be discharged into second water return pipeline hot water line
Connection.
Further, the hot water line is provided with multifunctional pump;The suction inlet and delivery port of the multifunctional pump pass through
Two modes being flexible coupling are connected with the hot water line;The hot water line of suction inlet one end of the multifunctional pump goes up and delivery port one
The hot water line at end is upper to be equipped with the second regulating valve;Place is provided with second on the hot water line of delivery port one end of the multifunctional pump
Check-valves.
Further, the heating system also includes being the moisturizing pipeline of the boiler feedwater, the filling pipe
The delivery port in road is connected with the second water inlet of the boiler, and the water inlet of the moisturizing pipeline is connected with water supply tank.
Further, the hot water line is connected with the second water return pipeline and moisturizing pipeline respectively by the second triple valve.
Further, the sensor also include be arranged at the water inlet of boiler first backwater inflow temperature sensor,
It is arranged at the moisturizing temperature sensor of water supply tank and is arranged at the moisturizing inflow temperature sensor of the water inlet of boiler second.
Further, the multifunctional pump is heat-exchanger pump;First regulating valve and the second regulating valve are manual modulation valve
Or automatic regulating valve;The first check-valve and second check-valve are butterfly swing check valve;Described first be flexible coupling with it is second soft
Connection is that metal is flexible coupling.
The utility model at least has the advantages that:
1. the utility model can be stored exhaustless high-temperature tempering by heat storage box, enter when needing
Exercise and use, can greatly save the energy, energy-saving and emission-reduction, it is often more important that, it can be used in peak times of power consumption in the heat storage box
The water of higher temperature, avoids peak of power consumption.
2. other heat storage can also store exhaustless heat in circulation heating pipeline or in electricity consumption low peak period
Heat is stored, waits until to reuse when peak times of power consumption, itself and heat storage box use in conjunction can be largely
Peak times of power consumption are avoided, this has extremely important application value for heat supply center.
What 3. the utility model can according to outdoor temperature and daily carries out specific aim heat supply with situations such as hot high ebb,
I.e. by the higher backwater of temperature with hot low peak period (such as period at noon or when some outdoor temperatures, with heat relatively
Small, i.e., heat supply coolant-temperature gage is relatively low it is also ensured that normal indoor temperature) without heat directly with high-temperature water mixed flow
Access customer end carries out heat exchange, energy-saving, emission-reducing, environment friendly.
4. multiple sensors are connected with controller of the present utility model, can be to outdoor temperature, the temperature of user terminal, backwater
Temperature, boiler leaving water temperature etc. measure, and then carry out related place according to the temperature everywhere determined, processor
Reason, the assignment of traffic of rational allocation associated pipe is then carried out according to the temperature of different places, so as to realize that temperature becomes more meticulous pipe
Reason and energy-saving and emission-reduction.
5. the utility model, which has, invests the advantages of small, income is high, simple and practical, do not increasing the premise of energy consumption
The generation of condensed water can greatly be reduced down, reduce corrosion of the condensed water to boiler.At just cold end during cold boiler operatiopn, heat is used
Thermic load is less needed for family, under equal conditions compared with general gas steam generator system, by multifunctional pump and bypasses constant pressure pipe
Regulation, the reagent combustion conditions of the boiler operating mode close to depending on boiler can be made, improve boiler efficiency, save the energy.
Brief description of the drawings
Fig. 1 is the structural representation of the energy-conserving intelligent heating system described in the utility model embodiment;
Fig. 2 is the structural representation of the energy-conserving intelligent heating system described in the utility model another embodiment.
In figure, 1, boiler, 2, circulation heating pipeline, 3, water return pipeline, 4, hot water line, the 5, first water return pipeline, 6, mend
Waterpipe, the 7, second water return pipeline, 8, heat storage box, 9, user terminal, 10, heat storage can, 21, boiler leaving water temperature sensors, 22, supply
Hot water temperature sensor, the 31, first triple valve, 32, return water temperature sensor, 41, multifunctional pump, 42, second is flexible coupling, and 43,
Two regulating valves, 44, second check-valve, the 45, second triple valve, 51, one-way water pump, the 52, first regulating valve, 53, first check-valve,
61st, water supply tank, the 81, first instlated tubular, the 82, second instlated tubular, 83, waste heat supply temperature sensor, 91, user terminal temperature sensor,
101st, heat storage can temperature sensor.
Embodiment
The technical scheme in the embodiment of the utility model is clearly and completely described below, it is clear that described reality
It is the utility model part of the embodiment to apply example, rather than whole embodiments.Embodiment of the present utility model presented below
Detailed description be not intended to limit claimed the scope of the utility model, but be merely representative of of the present utility model selected
Embodiment.Based on the embodiment in the utility model, this area commonsense method personnel are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Embodiment 1
As shown in figure 1, a kind of energy-conserving intelligent heating system, it include boiler 1, user terminal, circulation heating pipeline 2 and
Water return pipeline 3, the water inlet of the circulation heating pipeline 2 are connected with the delivery port of boiler 1, the circulation heating pipeline 2
Delivery port is connected with the user terminal;The circulation heating pipeline 2 is by delivery to user terminal 9, and hot water is in the user terminal
Backwater is sent back to boiler 1 after progress heat exchange by the water return pipeline 3 to be recycled.
The water inlet of the water return pipeline 3 is connected with the user terminal, and the water return pipeline 3 is distinguished by the first triple valve
With that the first water return pipeline 5 that can be flowed into backwater in the circulation heating pipeline 2 and backwater circulation can be flowed into the pot
The second water return pipeline 7 in stove connects.Heating system daily can typically be entered according to outdoor temperature or with situations such as heat high ebb
Row specific aim heat supply, that is to say, that its temperature supplied of different time points might have change, therefore, for following for user terminal 9
The temperature of loopback water also has certain change, and e.g., sometimes return water temperature may only have 30 ~ 40 degree, return water temperature sometimes
60 ~ 80 degree can be reached;Therefore, can be reused for the higher circulating backwater of temperature, such as the temperature in required heat supply
When spending relatively low, circulating backwater and the hot water in circulation heating pipeline 2 can be used in mixed way, i.e., circulating backwater is without pot
The circulating-heating of stove 1 can be utilized, energy-saving and emission-reduction;Specific mixed proportion can be depending on actual temperature.And remaining portion
The circulating backwater divided can turn again to boiler 1 and be heated.
The water return pipeline passes through the first instlated tubular 81 and the storage that can be stored heat unnecessary in water return pipeline 3
Hot tank 8 connects, and the heat storage box 8 is connected more waste heats so that in heat storage box with the first water return pipeline 5 by the second instlated tubular 82
Amount can be discharged into circulation heating pipeline 2 by first water return pipeline 5 to be recycled again;If return water temperature compared with
Height, such as 60 ~ 80 degree, then stored by heat storage box 8 by exhaustless backwater, used when needing, Neng Gou great
The big saving energy, energy-saving and emission-reduction, it is often more important that, can peak times of power consumption use the heat storage box 8 in higher temperature water,
Peak times of power consumption can be largely avoided, this has extremely important application value for heat supply center.
The heating system includes controller, and the controller is provided with control panel, intelligence is connected with the controller
Can terminal, in the controller provided with processor and circuit module be connected with the processor and can with it is described intelligent whole
Hold the transport module connected.Prior art is for details, reference can be made to, the controller can also be bought.The intelligent terminal by with
Transport module in controller establishes connection so as to be connected with processor.The transport module is preferably wireless transport module, should
Wireless transport module includes at least one of 2G, 3G, 4G, wifi and gsm module.The data that then processor receives can pass
Intelligent terminal is defeated by, while intelligent terminal can also carry out operating or controlling accordingly to controller.The intelligent terminal includes intelligence
Energy mobile phone, ipad, PC etc..
Be connected with the controller it is multiple corresponding local temperature can be transmitted to the sensor of controller, the connection
Can be communication connection or electrical connection etc..The sensor includes being arranged at the user terminal temperature that user terminal is used to determine user terminal temperature
Degree sensor 91, it is arranged in outdoor environment for determining the outdoor temperature sensors of outdoor temperature, being arranged in water return pipeline
It is used to determine what is stored in heat storage box for determining the return water temperature sensor 32 of user terminal return water temperature, being arranged in heat storage box
The waste heat supply temperature sensor 83 of the temperature of water, be arranged at boiler delivery port be used for determine from boiler flow out hot water temperature pot
Stove leaving water temperature sensors 21 and it is arranged at the common sections of 2 and first water return pipeline of circulation heating pipeline 5(I.e. described first backwater
On circulation heating pipeline 2 after the remittance circulation heating of pipeline 5 pipeline 2)For determining the heat supply for the temperature for supplying the hot water of user
Water temperature sensor 22.These sensors are connected with the processor in controller, the phase that then these sensors will be gathered
Temperature that should be local is transmitted in the processor into controller in real time.Then staff is carried out by each local temperature
Rationally dominate the whereabouts of backwater.The temperature monitored such as return water temperature sensor 32 is higher (such as 60 ~ 80 degree), can be according to boiler
The temperature that the temperature and outdoor temperature sensors that leaving water temperature sensors 21 are monitored are monitored adjusts the first water return pipeline 5
The amount flowed into circulation heating pipeline 2, while can also determine to be discharged into the amount that heat storage is carried out in heat storage box 8.
Heat storage can 10 is equally connected with the circulation heating pipeline 2, the heat storage can 10 can store exhaustless heat
Get up or store heat in electricity consumption low peak period, discharge it into circulation heating pipeline when waiting until peak times of power consumption again
Used in 2, heat storage can temperature sensor 101 is connected with the heat storage can 10, the temperature sensor 101 is equally and controller
In processor connection, for real-time monitoring temperature, so as to be more convenient in application.
The sensor also includes the first flow sensor being arranged on first water return pipeline 5 and is arranged at boiler
Delivery port is used for the second flow sensor for determining the flow of the water come out from boiler.The two flow sensors equally with processing
Device connects and the data on flows collected can be transferred to processor in real time, convenient to understand and adjust in time.
Butterfly valve is equipped with first instlated tubular and the second instlated tubular, controls its unlatching;Also can be according to being actually needed
Water pump is set on first instlated tubular and the second instlated tubular.
First water return pipeline 5 connects with the circulation heating pipeline 2, second water return pipeline 7 and the boiler 1
On the second water inlet connection.Then the water in water return pipeline 3 can be distinguished by the first water return pipeline 5 and the second water return pipeline 7
Into in circulation heating pipeline 2 and boiler 1, can be mixed later with the hot water in circulation heating pipeline 2 into circulation heating pipeline 2
Then flow into user terminal 9 and carry out heat exchange;It is recycled after being heated after into boiler 1 in boiler 1.
First water return pipeline 5 is provided with can be by the current direction circulation heating pipeline 2 in the first water return pipeline 5
One-way water pump 51, i.e., the outlet of described one-way water pump 51 is close to the side of circulation heating pipeline 2, the suction inlet of the one-way water pump 51
The first regulating valve 52 is equipped with first water return pipeline 5 of on first water return pipeline 5 of one end and delivery port one end, passes through control
The folding of first regulating valve 52 or aperture size can also realize control flow and flow rate etc.;The water outlet of the one-way water pump 51
First water return pipeline 5 of mouth one end is provided with first check-valve 53.The suction inlet and delivery port of the one-way water pump 51 are equal
It is connected by way of first is flexible coupling with first water return pipeline 5.
Embodiment 2
On the basis of embodiment 1, referring to Fig. 2, close to the delivery port of boiler 1 the circulation heating pipeline 2 with it is close
Second water return pipeline 7 of the water inlet of boiler 1 first is described by that can be discharged into the hot water in the circulation heating pipeline 2
Hot water line 4 in second water return pipeline 7 connects.Specifically, can be on the circulation heating pipeline 2 from the 0 ~ 10m of delivery port of boiler 1
, certainly specifically can be according to actual need with connection hot water line 4 on the second water return pipeline 7 from the m of 1 first water inlet of boiler 1 ~ 10
Will and construction environment etc. depending on.
The heat storage can 10 is also connected with hot water line 4, and the heat stored in heat storage can 10 can be used directly in hot water line 4
Amount.
The hot water line 4 is provided with multifunctional pump 41, i.e. the suction inlet of multifunctional pump 41 is connected with circulation heating pipeline 2, mixes water
The delivery port of pump 41 is connected with the water return pipeline 3;The multifunctional pump 41 is heat-exchanger pump.The suction inlet of the multifunctional pump 41 and go out
The mouth of a river is flexible coupling by way of 42 second to be connected with the hot water line 4.The heat of suction inlet one end of the multifunctional pump 41
The second regulating valve 43 is equipped with the hot water line 4 of in water lines 4 and delivery port one end.
Place is provided with second check-valve 44 on the hot water line 4 of delivery port one end of the multifunctional pump 41.
Return water temperature is generally between 30 ~ 80 DEG C, if the temperature in the second water return pipeline 7 is too low (such as 30 DEG C), burning
Caused high-temperature flue gas carries out heat exchange with the water in drum, and flue-gas temperature drastically declines, then often produces substantial amounts of condensation
Water, and nitrogen oxides can produce weak acid after being dissolved in condensed water, so as to easily corrode the afterbody of boiler 1.
Therefore, in the specific implementation, according to the height of return water temperature, correspondingly, by the high-temperature water in circulation heating pipeline 2
It is discharged into by hot water line 4 in second water return pipeline 7, improves the water temperature in the second water return pipeline 7, so as to improve boiler
The inflow temperature of 1 first water inlet, then can substantially reduce the generation of condensed water.Specific inflow temperature can be by adjusting mixed water
The flow of pump 41 or internal circulating load are adjusted, and also can adjust the second regulating valve 43 to adjust.At present, except the method in the present embodiment
Outside also without other significantly more efficient methods for reducing condensed water.
The utility model can realize that improving boiler 1 first water inlet enters water temperature by hot water line 4, multifunctional pump 41 etc.
Degree, so as to realize the purpose for reducing condensed water.By adjusting the aperture size of the regulating valve 43 of multifunctional pump 41 or second, carried with realizing
The high inflow temperature of boiler 1 alleviates the purpose of boiler condensation corrosion.The heating system can greatly reduce the production of condensed water, subtract
On a small quantity between 60 ~ 80%.
Embodiment 3
On the basis of embodiment 2, referring to Fig. 2, the heating system also includes being the benefit of the make-up water of boiler 1
Waterpipe 6, the delivery port of the moisturizing pipeline 6 are connected with the second water inlet of the boiler 1, the water inlet of the moisturizing pipeline 6
Mouth is connected with water supply tank 61.
The hot water line 4 is connected with the second water return pipeline 7 and moisturizing pipeline 6 respectively by the second triple valve 45, i.e., logical
The second triple valve 45 is crossed, the hot water line 4 is divided into two streams, and one stream is flowed into the second water return pipeline 7, and another stream flows into moisturizing
In pipeline 6, to improve the inflow temperature of boiler 1, so as to reduce the yield of condensed water.
Because the water in water supply tank 61 is typically from municipal water supply, i.e., generally running water or it is treated originally
Water, therefore its temperature is relatively low, if the water at low temperature is flowed directly into boiler 1, larger temperature difference can cause largely to condense
The generation of water, so as to considerably increase the risk of corrosion boiler 1, easily cause the reduction significantly in the life-span of boiler 1.Therefore, the party
Method can greatly improve boiler life, cost-effective.
The sensor in embodiment 1 also includes the backwater inflow temperature sensing for being arranged at the water inlet of boiler first
Device, the moisturizing temperature sensor for being arranged at water supply tank and the moisturizing inflow temperature sensor for being arranged at the water inlet of boiler second.
These temperature sensors are also connected with the processor in the controller, then carry out multiple local numbers by these sensors
According to gathering and transmitting to processor, the tapping condition and high-temperature water that can carry out more intelligent judgement and backwater flow into the second backwater
Situation in pipeline, moisturizing pipeline.
In above-described embodiment 1 ~ 3, the circulation heating pipeline 2, water return pipeline 3, a water return pipeline, the second water return pipeline
7th, delivery port of the water inlet of boiler 1 and boiler 1 etc. is equipped with the pressure sensor being connected with the processor in controller;Energy
It is enough to monitor at any time, intelligent decision intelligent operation.
Three mouth streams in first triple valve 31, second triple valve 45 etc. can arbitrarily control opening for some mouthful
Close, the first triple valve 31, the second triple valve 45 or magnetic valve.
Described first be flexible coupling with second be flexible coupling 42 be both preferably metals be flexible coupling, one-way water pump 51 and multifunctional pump 41 are matched somebody with somebody
Closing the mode that the metal is flexible coupling can make water pump preferably play its effect, also ensure its accuracy to a certain extent.
The regulating valve 43 of first regulating valve 52 and second is manual modulation valve or automatic regulating valve;First non-return
Valve 53 and second check-valve 44 are butterfly swing check valve.
One-way water pump 51 in the utility model be can only individual event pump out the water pump of water, naturally it is also possible to other kinds of
Water pump, as long as the water in water return pipeline can be pumped into circulation heating pipeline.
The set location of controller in the utility model is flexible, can be set according to being actually needed, such as be arranged at computer room, work
Between work or boiler room etc. place.
When it is implemented, tubing used in the utility model may be selected DN200 using down tube as seamless steel pipe, DN200 with
Upper is spiral weld steel pipe.All valves used in the utility model can use the valve for being capable of automatic control flow, will
These valves are directly connected to controller, then can be sent by controller instruction directly operation correspondingly the folding of valve and
Aperture, i.e., directly control its flow.
When specifically used, the utility model can be by taking 4 t boilers as an example, then boiler internal circulating load can be 100t/h, and backwater follows
Circular rector can be 160t/h, and the internal circulating load of multifunctional pump 41 can be 45t/h, and manual modulation valve flow can be 110t/h, the stream of multifunctional pump 41
The multifunctional pump internal circulating load that parameter can be 1.5 ~ 2 times is measured, the lift parameter of multifunctional pump can be 10 ~ 15m, can overcome boiler resistance i.e.
Can.Specifically, can be selected according to being actually needed.
Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this area
For technical staff, the utility model can have various changes and change.All institutes within spirit of the present utility model and principle
Any modification, equivalent substitution and improvements of work etc., should be included within the scope of protection of the utility model.
Claims (10)
1. a kind of energy-conserving intelligent heating system, it includes boiler, user terminal, circulation heating pipeline and water return pipeline, described
The water inlet of circulation heating pipeline is connected with the boiler delivery port, delivery port and the user terminal of the circulation heating pipeline
Connection;The water inlet of the water return pipeline is connected with the user terminal, it is characterised in that:
The water return pipeline by the first triple valve respectively with backwater can be flowed into the circulation heating pipeline first time
Waterpipe connects with the second water return pipeline that can flow into backwater circulation in the boiler;
The water return pipeline is by the first instlated tubular with can connect the heat storage box that heat unnecessary in water return pipeline is stored
Connect, the heat storage box is connected with the first water return pipeline by the second instlated tubular so that the waste heat in heat storage box can pass through institute
State the first water return pipeline and be discharged into circulation heating pipeline and recycled again;
The heating system includes controller, and multiple sensors are connected with the controller, and the sensor includes being arranged at
The user terminal temperature sensor of user terminal, the outdoor temperature sensors being arranged in outdoor environment, it is arranged in water return pipeline
Return water temperature sensor, the waste heat supply temperature sensor being arranged in heat storage box, it is arranged at boiler delivery port boiler water outlet
Temperature sensor and it is arranged at circulation heating pipeline and the heat supply water temperature sensor of the first water return pipeline common sections.
2. energy-conserving intelligent heating system according to claim 1, it is characterised in that:The sensor also includes being arranged at
First flow sensor on first water return pipeline and it is arranged at boiler delivery port second flow sensor;
Butterfly valve is equipped with first instlated tubular and the second instlated tubular.
3. energy-conserving intelligent heating system according to claim 1 or 2, it is characterised in that:On the circulation heating pipeline
The heat storage can of the heat in the circulation heating pipeline can be stored by being connected with.
4. energy-conserving intelligent heating system according to claim 3, it is characterised in that:First water return pipeline with it is described
Circulation heating pipeline communication, second water return pipeline are connected with the second water inlet on the boiler.
5. energy-conserving intelligent heating system according to claim 4, it is characterised in that:First water return pipeline is provided with
Can be by the one-way water pump in the current direction circulation heating pipeline in the first water return pipeline;
First water return pipeline of delivery port one end of the one-way water pump is provided with first check-valve.
6. energy-conserving intelligent heating system according to claim 5, it is characterised in that:The suction inlet of the one-way water pump and
Delivery port is connected by way of first is flexible coupling with first water return pipeline.
7. energy-conserving intelligent heating system according to claim 6, it is characterised in that:Described close to boiler delivery port follows
Ring heat supply pipeline and second water return pipeline close to boiler first water inlet are by can be by the circulation heating pipeline
Hot water be discharged into second water return pipeline hot water line connection;The hot water line is provided with multifunctional pump.
8. energy-conserving intelligent heating system according to claim 7, it is characterised in that:The heating system also includes can
For the moisturizing pipeline of the boiler feedwater, the delivery port of the moisturizing pipeline is connected with the second water inlet of the boiler, institute
The water inlet for stating moisturizing pipeline is connected with water supply tank.
9. energy-conserving intelligent heating system according to claim 8, it is characterised in that:The hot water line passes through the two or three
Port valve is connected with the second water return pipeline and moisturizing pipeline respectively.
10. energy-conserving intelligent heating system according to claim 9, it is characterised in that:The sensor also includes setting
Backwater inflow temperature sensor in the water inlet of boiler first, it is arranged at the moisturizing temperature sensor of water supply tank and is arranged at
The moisturizing inflow temperature sensor of the water inlet of boiler second.
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CN109405056A (en) * | 2018-10-17 | 2019-03-01 | 河北建筑工程学院 | A method of with heat source system heat supply and accumulation of heat decoupling operation |
CN109405055A (en) * | 2018-10-17 | 2019-03-01 | 河北建筑工程学院 | A kind of heat supply and accumulation of heat decouple operating system with heat source |
CN110397978A (en) * | 2019-08-13 | 2019-11-01 | 北京英翔博瑞耐火材料科技有限公司 | A kind of energy storage equipment and its control method |
CN110397976A (en) * | 2018-04-24 | 2019-11-01 | 河北桓杰机电设备安装工程有限公司 | Domestic electromagnetic heated type phase-transition heat-storage heating equipment |
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2017
- 2017-02-28 CN CN201720180161.2U patent/CN206669845U/en not_active Expired - Fee Related
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110397976A (en) * | 2018-04-24 | 2019-11-01 | 河北桓杰机电设备安装工程有限公司 | Domestic electromagnetic heated type phase-transition heat-storage heating equipment |
CN109405056A (en) * | 2018-10-17 | 2019-03-01 | 河北建筑工程学院 | A method of with heat source system heat supply and accumulation of heat decoupling operation |
CN109405055A (en) * | 2018-10-17 | 2019-03-01 | 河北建筑工程学院 | A kind of heat supply and accumulation of heat decouple operating system with heat source |
CN110397978A (en) * | 2019-08-13 | 2019-11-01 | 北京英翔博瑞耐火材料科技有限公司 | A kind of energy storage equipment and its control method |
CN110397978B (en) * | 2019-08-13 | 2024-02-23 | 北京英翔博瑞耐火材料科技有限公司 | Energy storage device and control method thereof |
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