CN109405055A - A kind of heat supply and accumulation of heat decouple operating system with heat source - Google Patents

Abstract

The invention discloses a kind of heat supplies and accumulation of heat to decouple operating system with heat source, including heat source, the heat source is connected to for hot water outlet with for hot water supplying pipe, accumulation of heat water supplying pipe, it is described to be connected to for hot water supplying pipe with user, accumulation of heat water supplying pipe is connected to hot water storage tank, the water return outlet of the heat source is connected to heat supply return pipe, accumulation of heat return pipe, the heat supply return pipe is connected to user, accumulation of heat return pipe is connected to hot water storage tank, described for being provided with water supply isocon, backwater diffluence pipe between hot water supplying pipe, heat supply return pipe.The present invention can realize the control of heat supply temperature and the stabilization for maintaining accumulation of heat flow simultaneously in same heat source system by flow shunt, so as to avoid for the influence between hot side and accumulation of heat side, on the one hand heating according to need, stable operation are realized to for hot side, another aspect accumulation of heat side can make full use of the high-temperature stable accumulation of heat of paddy electricity time, rationalize the process supplied when storing, is efficient.

Description

A kind of heat supply and accumulation of heat decouple operating system with heat source

Technical field

The invention belongs to heat supply process fields, and in particular to a kind of heat supply and accumulation of heat decouple operating system with heat source.

Background technique

During electric power low ebb, with heat source system in heat supply and heat-accumulating process, it should can meet simultaneously heating according to need and High-efficiency thermal storage, the heat in heat storage medium releases during peak of power consumption meets heat supply needs.To realize heating according to need, when When user's thermic load changes, the flow to heating system, supply water temperature etc. is needed to be adjusted.It is to make for the purpose of thermal conditioning The heat dissipation capacity of heat dissipation equipment of user that heats and the changing rule of user's thermic load are adapted, to prevent heating family from room temperature occur Too high or too low situation.In water hold over system, heat storage medium --- water first, and it is stored in hot water storage tank In.In order to utilize the abundant accumulation of energy of thermal storage time, it should ensure that water tank water intake maintains the condition of high temperature first.But in the confession of same heat source It in thermal regenerator system, also needs to carry out accumulation of heat to water tank while to user's heat supply, if the side that system integrally uses matter to adjust Formula, i.e., based on heat supply, to reach the equilibrium of supply and demand, for hot side, required supply water temperature is different under the influence of different outdoor temperatures, Due to being same heat source water outlet, so will have a direct impact on the inflow temperature of water tank, to reduce the heat storage efficiency of water tank, or even it is difficult to Reach highest regenerator temperature；Such as the adjusting method that extraction system is integrally adjusted using amount, accumulation of heat side can guarantee high-temperature heat accumulation, still The variation that can cause circulating water flow in system because of the variation of thermic load for hot side, may will affect the room temperature of user, Even generate the consequence of hydraulic misadjustment.

To solve the problems, such as that the mode of single adjusting is brought, currently, the country is frequently with adjustment pump rotary speed or adjustment boiler Power solves to obtain the method for operation of flow, temperature while variation, but to be related to variable excessive for this method of operation, can not essence Variable needed for really controlling, has seriously affected the stability of system, has led to the increase of operation energy consumption, or even affected heating system Regulation performance.

Summary of the invention

The present invention proposes in order to solve the problems existing in the prior art, and the purpose is to provide a kind of heat supply and the same heat source of accumulation of heat Decouple operating system.

The technical scheme is that a kind of heat supply and accumulation of heat decouple operating system, including heat source, the heat source with heat source Be connected to for hot water outlet with for hot water supplying pipe, accumulation of heat water supplying pipe, it is described to be connected to for hot water supplying pipe with user, accumulation of heat water supplying pipe with Hot water storage tank connection, the water return outlet of the heat source are connected to heat supply return pipe, accumulation of heat return pipe, the heat supply return pipe and user Connection, accumulation of heat return pipe is connected to hot water storage tank, it is described for be provided between hot water supplying pipe, heat supply return pipe water supply isocon, Backwater diffluence pipe.

The water supply isocon is connected to for hot water supplying pipe, heat supply return pipe, the backwater diffluence pipe with for hot water supplying pipe, The connection of heat supply return pipe, it is described to form temperature adjustment circulation for hot water supplying pipe, heat supply return pipe, water supply isocon, backwater diffluence pipe.

It is provided with user's circulating pump of heating cycle in the heat supply return pipe, is provided with storage in the accumulation of heat return pipe The accumulation of heat circulating pump of thermal cycle.

The heat-storing aqueduct valve of control accumulation of heat circulation is provided in the accumulation of heat water supplying pipe.

It is provided with backwater diffluence tube valve in the backwater diffluence pipe, is provided with water supply isocon in the water supply isocon Valve, the backwater diffluence tube valve, water supply shunt valve adjust temperature adjustment circulation.

User's circulating pump, accumulation of heat circulating pump, heat-storing aqueduct valve, backwater diffluence tube valve, supplying water shunts pipe valve The connection of Men Junyu controller circuitry.

The heat source forms heating cycle for hot water supplying pipe, user, heat supply return pipe, is provided in the heating cycle Sensor module.

It is described to form temperature adjustment circulation, the temperature adjustment for hot water supplying pipe, heat supply return pipe, water supply isocon, backwater diffluence pipe Sensor module is provided in circulation.

The heat source, accumulation of heat water supplying pipe, accumulation of heat return pipe, hot water storage tank form accumulation of heat circulation, set in the accumulation of heat circulation It is equipped with sensor module.

The sensor module is connected to controller circuitry, and the sensor module includes pressure sensor, temperature biography Sensor, flow sensor.

Existing beneficial effect is technical solution of the embodiment of the present invention compared with prior art:

1, the present invention can realize the control of heat supply temperature simultaneously by flow shunt in same heat source system and maintain accumulation of heat stream On the one hand the stabilization of amount realizes heating according to need, stabilization to for hot side so as to avoid for the influence between hot side and accumulation of heat side Operation, another aspect accumulation of heat side can make full use of the high-temperature stable accumulation of heat of paddy electricity time, rationalize the process supplied when storing, is high Effectization.

2, the present invention in temperature adjustment process be with for hot side return water adjustment ratio mixed flow process, in entire temperature adjustment process In, the thermal energy of system entirety is not lost, shortens thermal storage time, improves system effectiveness.

3, the present invention be make for hot side integrally using matter adjusting by the way of, realize heating load and calorific requirement balance.Management Simply, easy to operate, network hydraulic regime is stablized.

4, the degree of automation of the present invention is higher, only needs manually combustion adjustment at times, reduces artificial in heat supplying process Consumption.

5, the present invention can be such that heat-accumulating process is not influenced by matter adjusting in heat supplying process, to make full use of the paddy electricity time High-temperature heat accumulation had not only alleviated peak power insufficiency of supply-demand, but also promoted distributing rationally for electric power resource.

6, the present invention can simplify regulator control system, reduce systematic running cost and use, have significant economic advantages, more have It is promoted the use of conducive to a wide range of.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention；

Wherein:

1 backwater diffluence tube valve, 2 water supply shunt valve

3 heat-storing aqueduct valve, 4 user's circulating pump

5 accumulation of heat circulating pump, 6 user

7 heat source, 8 hot water storage tank

9 controllers 10 are for hot water supplying pipe

11 heat supply return pipe, 12 water supply isocon

13 backwater diffluence pipe, 14 accumulation of heat water supplying pipe

15 accumulation of heat return pipes

P1 first pressure sensor the first temperature sensor of T1

L1 first flow sensor P2 second pressure sensor

T2 second temperature sensor L2 second flow sensor

P3 third pressure sensor T3 third temperature sensor

The 4th pressure sensor of L3 third flow sensor P4

The 4th flow sensor of the 4th temperature sensor L4 of T4

The 5th temperature sensor of the 5th pressure sensor T5 of P5

The 6th pressure sensor of the 5th flow sensor P6 of L5

The 6th flow sensor of the 6th temperature sensor L6 of T6

The 7th temperature sensor of the 7th pressure sensor T7 of P7

The 8th pressure sensor of the 7th flow sensor P8 of L7

The 8th flow sensor of the 8th temperature sensor L8 of T8

The 9th temperature sensor of the 9th pressure sensor T9 of P9

The tenth pressure sensor of the 9th flow sensor P10 of L9

The tenth flow sensor of the tenth temperature sensor L10 of T10

The 11st temperature sensor of the 11st pressure sensor T11 of P11

The 12nd pressure sensor of the 11st flow sensor P12 of L11

The 12nd flow sensor of the 12nd temperature sensor L12 of T12

Ty user temperature sensor Ts hot water storage tank temperature sensor.

Specific embodiment

Hereinafter, referring to drawings and examples, the present invention is described in detail:

As shown in Figure 1, a kind of heat supply and accumulation of heat decouple operating system, including heat source 7, the heat supply water outlet of the heat source 7 with heat source Mouthful be connected to for hot water supplying pipe 10, accumulation of heat water supplying pipe 14, it is described to be connected to for hot water supplying pipe 10 with user 6, accumulation of heat water supplying pipe 14 and Hot water storage tank 8 is connected to, and the water return outlet of the heat source 7 is connected to heat supply return pipe 11, accumulation of heat return pipe 15, the heat supply return pipe 11 are connected to user 6, and accumulation of heat return pipe 15 is connected to hot water storage tank 8, described for setting between hot water supplying pipe 10, heat supply return pipe 11 It is equipped with water supply isocon 12, backwater diffluence pipe 13.

The water supply isocon 12 is connected to for hot water supplying pipe 10, heat supply return pipe 11, the backwater diffluence pipe 13 and confession Hot water supplying pipe 10, heat supply return pipe 11 are connected to, described for hot water supplying pipe 10, heat supply return pipe 11, water supply isocon 12, return water point Flow tube 13 forms temperature adjustment circulation.

It is provided with user's circulating pump 4 of heating cycle in the heat supply return pipe 11, is set in the accumulation of heat return pipe 15 It is equipped with the accumulation of heat circulating pump 5 of accumulation of heat circulation.

The heat-storing aqueduct valve 3 of control accumulation of heat circulation is provided in the accumulation of heat water supplying pipe 14.

It is provided with backwater diffluence tube valve 1 in the backwater diffluence pipe 13, is provided with water supply in the water supply isocon 12 Shunt valve 2, the backwater diffluence tube valve 1, water supply shunt valve 2 adjust temperature adjustment circulation.

User's circulating pump 4, accumulation of heat circulating pump 5, heat-storing aqueduct valve 3, backwater diffluence tube valve 1, supplying water shunts Tube valve 2 with 9 circuit communication of controller.

The heat source 7 forms heating cycle for hot water supplying pipe 10, user 6, heat supply return pipe 11, in the heating cycle It is provided with sensor module.

It is described to form temperature adjustment circulation for hot water supplying pipe 10, heat supply return pipe 11, water supply isocon 12, backwater diffluence pipe 13, Sensor module is provided in the temperature adjustment circulation.

The heat source 7, accumulation of heat water supplying pipe 14, accumulation of heat return pipe 15, hot water storage tank 8 form accumulation of heat circulation, and the accumulation of heat follows Sensor module is provided in ring.

For the sensor module with 9 circuit communication of controller, the sensor module includes pressure sensor, temperature biography Sensor, flow sensor.

The heat source 7 is electric boiler.

8 medium of hot water storage tank is water.

The user 6 is connected to user's circulating pump 4 by heat supply return pipe 11 with water supply isocon 12.

User's circulating pump 4 is connected to heat source 7, accumulation of heat circulating pump 5 by heat supply return pipe 11 with backwater diffluence pipe 13 Heat source 7 is connected to by accumulation of heat return pipe 15.

First pressure sensor P1, the first temperature sensor T1, first flow sensor L1 are mounted on the confession of the outlet of heat source 7 On water pipe.

Second pressure sensor P2, second temperature sensor T2, second flow sensor L2 are mounted on heat source 7 and return water point Between flow tube 13 on hot water supplying pipe 10.

Third pressure sensor P3, third temperature sensor T3, third flow sensor L3 are mounted on backwater diffluence pipe 13 Between water supply isocon 12 on hot water supplying pipe 10.

4th pressure sensor P4, the 4th temperature sensor T4, the 4th flow sensor L4 are mounted on user 6 and for moisture Between flow tube 12 on hot water supplying pipe 10.

5th pressure sensor P5, the 5th temperature sensor T5, the 5th flow sensor L5 are mounted on user 6 and for moisture On heat supply return pipe 11 between flow tube 12.

6th pressure sensor P6, the 6th temperature sensor T6, the 6th flow sensor L6 are mounted on backwater diffluence pipe 13 On heat supply return pipe 11 between water supply isocon 12.

7th pressure sensor P7, the 7th temperature sensor T7, the 7th flow sensor L7 are mounted on heat source 7 and return water point On heat supply return pipe 11 between flow tube 13.

8th pressure sensor P8, the 8th temperature sensor T8, the 8th flow sensor L8 are mounted on water supply isocon 12 On.

9th pressure sensor P9, the 9th temperature sensor T9, the 9th flow sensor L9 are mounted on backwater diffluence pipe 13 On.

Tenth pressure sensor P10, the tenth temperature sensor T10, the tenth flow sensing L10 device are mounted on 7 import of heat source Heat supply pipeline on.

11st pressure sensor P11, the 11st temperature sensor T11, the 11st flow sensor L11 are mounted on heat source On accumulation of heat water supplying pipe 14 between 7 and hot water storage tank 8.

12nd pressure sensor P12, the 12nd temperature sensor T12, the 12nd flow sensor L12 are mounted on connection On accumulation of heat return pipe 15 between heat source 7 and hot water storage tank 8.

User temperature sensor Ty is mounted on the heat supply pipeline in user 6.

Hot water storage tank temperature sensor Ts is mounted in hot water storage tank 8.

Heat storage medium flows in heat source 7, heat-storing aqueduct valve 3, hot water storage tank 8, accumulation of heat circulating pump 5, accumulation of heat is supplied water In pipe 14 and accumulation of heat return pipe 15.

Heat storage medium is liquid, passes through accumulation of heat water pump 5, heat-storing aqueduct valve 3, accumulation of heat water supplying pipe 14 and accumulation of heat return pipe 15 flowings are in heat source 7 and hot water storage tank 8.

Heat storage medium is heated in heat source 7, heat storage medium accumulation of heat in hot water storage tank 8.

Controller 9 can be programmable logic controller (PLC).

Backwater diffluence tube valve 1 and water supply shunt valve 2 can be electrically connected by controller 9 keeps identical aperture.

First pressure sensor P1, second pressure sensor P2, third pressure sensor P3, the 4th pressure sensor P3, 5th pressure sensor P5, the 6th pressure sensor P6, the 7th pressure sensor P7, the 8th pressure sensor P8, the 9th pressure Phase can be used in sensor P9, the tenth pressure sensor P10, the 11st pressure sensor P11 and the 12nd pressure sensor P12 Same model.

First temperature sensor T1, second temperature sensor T2, third temperature sensor T3, the 4th temperature sensor T4, 5th temperature sensor T5, the 6th temperature sensor T6, the 7th temperature sensor T7, the 8th temperature sensor T8, the 9th temperature Sensor T9, the tenth temperature sensor T10, the 11st temperature sensor T11, the 12nd temperature sensor T12, user temperature pass Same model can be used in sensor Ty and hot water storage tank temperature sensor Ts.

First flow sensor L1, second flow sensor L2, third flow sensor L3, the 4th flow sensor L4, 5th flow sensor L5, the 6th flow sensor L6, the 7th flow sensor L7, the 8th flow sensor L8, the 9th flow Phase can be used in sensor L9, the tenth flow sensor L10, the 11st flow sensor L11 and the 12nd flow sensor L12 Same model.

The heat supply and accumulation of heat of this system decouple operation method with heat source, specific as follows:

Controller 9 collects the monitoring numerical value of each sensor module, and control heat source 7 adjusts power, keeps leaving water temperature certain, keeps 8 heat storage efficiency of hot water storage tank is certain；Target needed for controller 9 obtains user 6 by carry calculation needed for the user 6 supplies water Temperature, it is certain by calculating the control disengaging water flow of user 6, pass through control backwater diffluence tube valve 1 and water supply shunt valve 2 The power of aperture and user's circulating pump 4, adjustment water supply isocon 12 and moisture stream flow number in backwater diffluence pipe 13, are adjusted The whole matter adjusting for not changing flow for into 6 hot water temperature of user, achieving the purpose that carry out user 6.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.

Claims (10)

1. a kind of heat supply and accumulation of heat decouple operating system, including heat source (7) with heat source, it is characterised in that: the confession of the heat source (7) Hot water outlet is connected to for hot water supplying pipe (10), accumulation of heat water supplying pipe (14), described to be connected to for hot water supplying pipe (10) with user (6), Accumulation of heat water supplying pipe (14) is connected to hot water storage tank (8), the water return outlet of the heat source (7) and heat supply return pipe (11), accumulation of heat return water (15) connection is managed, the heat supply return pipe (11) is connected to user (6), and accumulation of heat return pipe (15) is connected to hot water storage tank (8), institute It states for being provided with water supply isocon (12), backwater diffluence pipe (13) between hot water supplying pipe (10), heat supply return pipe (11).

2. a kind of heat supply according to claim 1 and accumulation of heat decouple operating system with heat source, it is characterised in that: the water supply Isocon (12) is connected to for hot water supplying pipe (10), heat supply return pipe (11), the backwater diffluence pipe (13) with for hot water supplying pipe (10), heat supply return pipe (11) is connected to, described for hot water supplying pipe (10), heat supply return pipe (11), water supply isocon (12), return water Isocon (13) forms temperature adjustment circulation.

3. a kind of heat supply according to claim 2 and accumulation of heat decouple operating system with heat source, it is characterised in that: the heat supply It is provided with user's circulating pump (4) of heating cycle in return pipe (11), is provided with accumulation of heat in the accumulation of heat return pipe (15) and follows The accumulation of heat circulating pump (5) of ring.

4. a kind of heat supply according to claim 3 and accumulation of heat decouple operating system with heat source, it is characterised in that: the accumulation of heat The heat-storing aqueduct valve (3) of control accumulation of heat circulation is provided in water supplying pipe (14).

5. a kind of heat supply according to claim 4 and accumulation of heat decouple operating system with heat source, it is characterised in that: the return water It is provided in isocon (13) backwater diffluence tube valve (1), is provided with water supply shunt valve in the water supply isocon (12) (2), the backwater diffluence tube valve (1), water supply shunt valve (2) adjust temperature adjustment circulation.

6. a kind of heat supply according to claim 5 and accumulation of heat decouple operating system with heat source, it is characterised in that: the user Circulating pump (4), accumulation of heat circulating pump (5), heat-storing aqueduct valve (3), backwater diffluence tube valve (1), water supply shunt valve (2) With controller (9) circuit communication.

7. a kind of heat supply according to claim 6 and accumulation of heat decouple operating system with heat source, it is characterised in that: the heat source (7), heating cycle is formed for hot water supplying pipe (10), user (6), heat supply return pipe (11), is provided with biography in the heating cycle Sensor mould group.

8. a kind of heat supply according to claim 7 and accumulation of heat decouple operating system with heat source, it is characterised in that: the heat supply Water supplying pipe (10), heat supply return pipe (11), water supply isocon (12), backwater diffluence pipe (13) form temperature adjustment circulation, the temperature adjustment Sensor module is provided in circulation.

9. a kind of heat supply according to claim 8 and accumulation of heat decouple operating system with heat source, it is characterised in that: the heat source (7), accumulation of heat water supplying pipe (14), accumulation of heat return pipe (15), hot water storage tank (8) form accumulation of heat circulation, are arranged in the accumulation of heat circulation There is sensor module.

10. a kind of heat supply according to claim 9 and accumulation of heat decouple operating system with heat source, it is characterised in that: the biography For sensor mould group with controller (9) circuit communication, the sensor module includes pressure sensor, temperature sensor, flow biography Sensor.