CN209130998U - Solar energy concentrates the collection heat separating user heat accumulation circulatory system - Google Patents

Abstract

The utility model provides a kind of solar energy concentration collection heat separating user heat accumulation circulatory system, including solar thermal collector group, water replanishing device, the public circulatory system and divide family insulated water tank, the public circulatory system includes public circulating system controller, and water segregator, low temperature heat medium pipe, return pipe, temperature sensor T4, public is circulated throughout trap valve, circulating pump, safety valve and expansion drum at high temperature heat medium pipe；Described point of family insulated water tank includes the heating coil in water tank, divide the temperature sensor T3 of lower part in the insulated water tank of family, differential temperature controller, tap water circulation and heat cycles outside water tank, hot water in the concentration collection heat separating user heat-accumulation solar system solar thermal collector group only makees heat-transfer working medium use, user uses the water in oneself water tank, heat is effectively used, management is convenient in energy conservation.It can guarantee that the heat in point family insulated water tank is not pulled away simultaneously, each user uses not to be influenced by water temperature in the insulated water tank of other users point family.

Description

Solar energy concentrates the collection heat separating user heat accumulation circulatory system

Technical field

The utility model relates to house central heating systems, concentrate collection heat separating user heat accumulation circulation more particularly to a kind of solar energy System.

Background technique

Solar heating system can provide hot water environmentally friendlyly with very economical for people, currently, existing neighbours living uses There are mainly two types of modes for solar energy: being independently operated, its benefit one is every resident is that installation is simple, and metering is convenient, but installation position To set limited, when user's dilutional hyponatremia, may be unable to satisfy the demand of user, and when some users often travel on business trips or stay out, Water in solar water heater heats repeatedly not to be utilized but, caused by heat waste, in addition, for the user of lowrise layer, The tube side of upper down tube is long when use, and the cold water accumulated in pipeline is more, influence using.Another kind is to concentrate heat production storage heat separating user meter Amount is sent to each user respectively through water pump and is used, benefit is after solar thermal collector group is by the water heating in big water tank Facade, low cost are not influenced, but using effect is bad, the water being used in conjunction in a large water tank, heat losses are fast, are Operating cost of uniting is high, and is not easy to estate management.

Summary of the invention

The technical problem to be solved by the utility model is to provide a kind of energy conservation, safety, the solar energy concentrations of antitheft heat Collect the heat separating user heat accumulation circulatory system.

The utility model uses following technical scheme: a kind of solar energy concentration collection heat separating user heat accumulation circulatory system, including too It is positive can heat collector group 1, water replanishing device, the public circulatory system and divide family insulated water tank 2.

1 concentrated setting of solar thermal collector group is on flat roof or inclined roof, and one end bottom is equipped with water inlet, separately It is equipped with water outlet at the top of one end, is equipped with outlet temperature sensor T1 5 and exhaust valve 6, solar thermal collector group 1 in water outlet Absorb solar energy, be converted into thermal energy for water heating as heat-transfer working medium, a point family insulated water tank 2 be respectively arranged on each point it is indoor.

The water replanishing device and the water inlet pipe of the public circulatory system 7 and the water inlet for being located at 1 bottom of solar thermal collector group It is connected.Water replanishing device includes sequentially connected municipal tap water pipe, hydrotreater 8 and water compensating valve 9, when solar thermal collector group 1 When interior heat-transfer working medium is reduced, opens water compensating valve and it is supplemented.

The public circulatory system includes public circulating system controller 10, water segregator 11, high temperature heat medium pipe 12, low temperature heat medium pipe 13, return pipe 14, temperature sensor T4 15, public be circulated throughout trap valve 16, circulating pump 17, safety valve 18 and expansion drum 19.High temperature Heat medium pipe 12 is communicated with the water outlet of solar thermal collector group 1, and water segregator 11 is located at the high temperature heating agent for dividing 2 top of family insulated water tank On pipe 12, heat-transfer working medium is divided into 1-3 high temperature heat medium pipes 12, the high temperature heat medium pipe of each unit by corresponding dwelling unit 12 are connected by inlet pipeline with the heating coil import of point family insulated water tank 2, heating coil outlet pass through flow out circuit with it is low Warm heat medium pipe 13 is connected, and the bottommost of low temperature heat medium pipe 13 is then connected with return pipe 14, and the top of return pipe 14 is passed equipped with temperature Sensor T4 15 is successively arranged on the pipeline between 1 water inlet of return pipe 14 and solar thermal collector group and public is circulated throughout trap valve 16, circulating pump 17, safety valve 18 and expansion drum 19, the public trap valve 16 that is circulated throughout is two groups be arranged in parallel.

Public circulating system controller 10 by signal wire respectively with temperature sensor T1 5, temperature sensor T4 15 and Circulating pump 17 is connected, and follows for detecting the temperature of temperature sensor T1 and temperature sensor T4, and according to the control of the temperature difference of calculating The start and stop of ring pump 17.

Described point of family insulated water tank 2 includes heating coil, electric heating tube 20 in the water tank, positioned at dividing family insulated water tank The temperature sensor T2 21 of 2 internal upper parts, the temperature sensor T3 22 for dividing lower part in family insulated water tank 2, the temperature outside water tank Difference controller 23, tap water circulation and heat cycles, tap water circulation use general hot water or cold water's turnover pipeline.Heat cycles Temperature sensor T5 24 including being set to 12 house lead in inlet of high temperature heat medium pipe, inlet pipeline, which is equipped with, divides family strainer valve 25 He Normally closed solenoid valve F1 26, heating working medium enters heating coil after being divided family strainer valve 25 and normally closed solenoid valve F1 26, by heat It is transmitted to after point family insulated water tank 2 and exports outflow through heating coil, outflow circuit is equipped with check valve, and divides family in inlet pipeline Bypass solenoid valve F2 27 is arranged between strainer valve 25 and normally closed solenoid valve F1 26 makes inlet pipeline be communicated to the two of outflow circuit Between a check valve, outflow circuit is connected with low temperature heat medium pipe 13.

Differential temperature controller 23 by signal wire respectively with temperature sensor T5, temperature sensor T3, temperature sensor T2, electricity Magnet valve F1 is connected with bypass solenoid valve F2.The temperature of temperature sensor T5, temperature sensor T3 are detected, and according to the temperature difference of calculating Control the switch of solenoid valve F1 and bypass solenoid valve F2.And the temperature according to the T2 detected, control electric heating tube 20 are being set It fixes time and a point family insulated water tank 2 is heated.

The public circulatory system is recycled using automatic temperature difference, when 1 outlet temperature T1 of solar thermal collector group reaches default Temperature, and and return pipe 14 on temperature T4 difference, at 5~10 DEG C of T1-T4 >, circulating pump 17 starts, and the water of return pipe 14 enters Solar thermal collector group 1 continues to heat, and as T1 and T4 temperature difference, 2~5 DEG C of T1-T4 <, circulating pump P1 stops, return pipe 14 water does not recycle.

To avoid the public circulatory system from taking the heat of indoor point of family insulated water tank 2 out of heat dissipation, indoor setting temperature difference control Device 23 controls the opening and closing of solenoid valve, it may be assumed that solenoid valve F126 is normally off, and bypass solenoid valve F2 is normally open.When heat transfer work Matter to high temperature heat medium pipe 12 temperature T5 and divide the difference of 2 temperature of lower T3 of family insulated water tank, at 5~10 DEG C of T5-T3 >；Solenoid valve F126 is opened, while bypass solenoid valve F2 27 is closed, and heat-transfer working medium enters the heat exchange coil divided in family insulated water tank 2 and heats water Water in case, own temperature reduce, and the water after cooling exits into low temperature heating agent from 2 heating coil water outlet of point family insulated water tank Pipe 13.When 2~5 DEG C of T5-T3 <, solenoid valve F1 is closed, while bypass solenoid valve F2 is opened, and stops circulating-heating, heat-transfer working medium Directly flow back to low temperature heat medium pipe 13.When be located at divide the temperature sensor T2 on 2 top of family insulated water tank to show temperature it is lower, no When being able to satisfy the requirement of user, the water in point family insulated water tank 2 is heated in the effect of electric heating tube 20.

The solar thermal collector group 1 is the solar energy of the pressure-bearing types such as flat, glass metal formula, pipe-type vacuum tube-style Heat collector.

Described point of family insulated water tank 2 is Horizontal thermal insulation water tank or vertical insulated water tank.

The utility model has the advantages that the hot water in the concentration collection heat separating user heat-accumulation solar system solar thermal collector group Only make heat-transfer working medium use, user effectively uses heat using the water in oneself water tank, not only energy conservation, convenient for management, Er Qieyou In using two groups of circulating pumps, guarantee operational safety；It is equipped on the inlet pipeline and outflow circuit for entering point family insulated water tank Normally closed solenoid valve F1 and bypass solenoid valve F2, heat-transfer working medium energy when guaranteeing that the family water temperature reaches setting value, in high temperature heat medium pipe Low temperature heat medium pipe smoothly is flowed back to, while can guarantee that the heat in point family insulated water tank is not pulled away, each user is not using by other User divides the influence of water temperature in the insulated water tank of family.It is equipped with electric heating tube in the insulated water tank of family dividing, can guarantee the confession of cloudy hot water It answers.

Detailed description of the invention

Fig. 1 is herein described structural schematic diagram.

Fig. 2 is herein described point of family insulated water tank attachment structure schematic diagram.

In figure: solar thermal collector group 1 divides family insulated water tank 2, outlet temperature sensor T1 5, exhaust valve 6, water inlet pipe 7, hydrotreater 8, water compensating valve 9, public circulating system controller 10, water segregator 11, high temperature heat medium pipe 12, low temperature heat medium pipe 13, Return pipe 14, temperature sensor T4 15 are public to be circulated throughout trap valve 16, circulating pump 17, safety valve 18, expansion drum 19, electric heating tube 20, temperature sensor T2 21, temperature sensor T3 22, differential temperature controller 23, temperature sensor T5 24 divide family strainer valve 25, Normally closed solenoid valve F1 26, bypass solenoid valve F2 27.

Specific embodiment

The present invention will be further described with reference to the accompanying drawings and examples.

Embodiment 1

As shown in Figure 1, 2, a kind of solar energy concentrates the collection heat separating user heat accumulation circulatory system, including solar thermal collector group 1, benefit Water installations, the public circulatory system and divide family insulated water tank 2.

For 1 concentrated setting of solar thermal collector group on flat roof, one end bottom is equipped with water inlet, other end top Equipped with water outlet, it is equipped with outlet temperature sensor T1 5 and exhaust valve 6 in water outlet, solar thermal collector group 1 absorbs the sun Can, be converted into thermal energy for water heating as heat-transfer working medium, a point family insulated water tank 2 be respectively arranged on each point it is indoor.

The water replanishing device and the water inlet pipe of the public circulatory system 7 and the water inlet for being located at 1 bottom of solar thermal collector group It is connected.Water replanishing device includes sequentially connected municipal tap water pipe, hydrotreater 8 and water compensating valve 9, when solar thermal collector group 1 When interior heat-transfer working medium is reduced, opens water compensating valve and it is supplemented.

The public circulatory system includes public circulating system controller 10, water segregator 11, high temperature heat medium pipe 12, low temperature heat medium pipe 13, return pipe 14, temperature sensor T4 15, public be circulated throughout trap valve 16, circulating pump 17, safety valve 18 and expansion drum 19.High temperature Heat medium pipe 12 is communicated with the water outlet of solar thermal collector group 1, and water segregator 11 is located at the high temperature heating agent for dividing 2 top of family insulated water tank On pipe 12, heat-transfer working medium is divided into 1-3 high temperature heat medium pipes 12, the high temperature heat medium pipe of each unit by corresponding dwelling unit 12 are connected by inlet pipeline with the heating coil import of point family insulated water tank 2, heating coil outlet pass through flow out circuit with it is low Warm heat medium pipe 13 is connected, and the bottommost of low temperature heat medium pipe 13 is then connected with return pipe 14, and the top of return pipe 14 is passed equipped with temperature Sensor T4 15 is successively arranged on the pipeline between 1 water inlet of return pipe 14 and solar thermal collector group and public is circulated throughout trap valve 16, circulating pump 17, safety valve 18 and expansion drum 19, the public trap valve 16 that is circulated throughout is two groups be arranged in parallel.

Public circulating system controller 10 by signal wire respectively with temperature sensor T1 5, temperature sensor T4 15 and Circulating pump 17 is connected, and follows for detecting the temperature of temperature sensor T1 and temperature sensor T4, and according to the control of the temperature difference of calculating The start and stop of ring pump 17.

Described point of family insulated water tank 2 includes heating coil, electric heating tube 20 in the water tank, positioned at dividing family insulated water tank The temperature sensor T2 21 of 2 internal upper parts, the temperature sensor T3 22 for dividing lower part in family insulated water tank 2, the temperature outside water tank Difference controller 23, tap water circulation and heat cycles, tap water circulation use general hot water or cold water's turnover pipeline.Heat cycles Temperature sensor T5 24 including being set to 12 house lead in inlet of high temperature heat medium pipe, inlet pipeline, which is equipped with, divides family strainer valve 25 He Normally closed solenoid valve F1 26, heating working medium enters heating coil after being divided family strainer valve 25 and normally closed solenoid valve F1 26, by heat It is transmitted to after point family insulated water tank 2 and exports outflow through heating coil, outflow circuit is equipped with check valve, and divides family in inlet pipeline Bypass solenoid valve F2 27 is arranged between strainer valve 25 and normally closed solenoid valve F1 26 makes inlet pipeline be communicated to the two of outflow circuit Between a check valve, outflow circuit is connected with low temperature heat medium pipe 13.

Differential temperature controller 23 by signal wire respectively with temperature sensor T5, temperature sensor T3, temperature sensor T2, electricity Magnet valve F1 is connected with bypass solenoid valve F2.The temperature of temperature sensor T5, temperature sensor T3 are detected, and according to the temperature difference of calculating Control the switch of solenoid valve F1 and bypass solenoid valve F2.And the temperature according to the T2 detected, control electric heating tube 20 are being set It fixes time and a point family insulated water tank 2 is heated.

The public circulatory system is recycled using automatic temperature difference, when 1 outlet temperature T1 of solar thermal collector group reaches default Temperature, and and return pipe 14 on temperature T4 difference, at 5~10 DEG C of T1-T4 >, circulating pump 17 starts, and the water of return pipe 14 enters Solar thermal collector group 1 continues to heat, and as T1 and T4 temperature difference, 2~5 DEG C of T1-T4 <, circulating pump P1 stops, return pipe 14 water does not recycle.

To avoid the public circulatory system from taking the heat of indoor point of family insulated water tank 2 out of heat dissipation, indoor setting temperature difference control Device 23 controls the opening and closing of solenoid valve, it may be assumed that solenoid valve F126 is normally off, and bypass solenoid valve F2 is normally open.When heat transfer work Matter to high temperature heat medium pipe 12 temperature T5 and divide the difference of 2 temperature of lower T3 of family insulated water tank, at 5~10 DEG C of T5-T3 >；Solenoid valve F126 is opened, while bypass solenoid valve F2 27 is closed, and heat-transfer working medium enters the heat exchange coil divided in family insulated water tank 2 and heats water Water in case, own temperature reduce, and the water after cooling exits into low temperature heating agent from 2 heating coil water outlet of point family insulated water tank Pipe 13.When 2~5 DEG C of T5-T3 <, solenoid valve F1 is closed, while bypass solenoid valve F2 is opened, and stops circulating-heating, heat-transfer working medium Directly flow back to low temperature heat medium pipe 13.When be located at divide the temperature sensor T2 on 2 top of family insulated water tank to show temperature it is lower, no When being able to satisfy the requirement of user, the water in point family insulated water tank 2 is heated in the effect of electric heating tube 20.

The solar thermal collector group 1 is the solar energy of the pressure-bearing types such as flat, glass metal formula, pipe-type vacuum tube-style Heat collector.

Claims (4)

1. a kind of solar energy concentrates the collection heat separating user heat accumulation circulatory system, including it is solar thermal collector group (1), water replanishing device, public The circulatory system and divide family insulated water tank (2), solar thermal collector group (1) concentrated setting on flat roof or inclined roof, One end bottom is equipped with water inlet, and water outlet is equipped at the top of the other end, and a point family insulated water tank (2) is respectively arranged on each point of indoor, spy Sign is: being equipped with outlet temperature sensor T1 (5) and exhaust valve (6) in water outlet；

The water replanishing device and the water inlet pipe (7) of the public circulatory system and the water inlet for being located at solar thermal collector group (1) bottom It is connected；Water replanishing device includes sequentially connected municipal tap water pipe, hydrotreater (8) and water compensating valve (9)；

The public circulatory system includes public circulating system controller (10), water segregator (11), high temperature heat medium pipe (12), low temperature heating agent Pipe (13), temperature sensor T4 (15), public is circulated throughout trap valve (16), circulating pump (17), safety valve (18) at return pipe (14) With expansion drum (19)；High temperature heat medium pipe (12) is communicated with the water outlet of solar thermal collector group (1), and water segregator (11) is located at and divides family On the high temperature heat medium pipe (12) on insulated water tank (2) top, heat-transfer working medium is divided into 1-3 Gao Wenre by corresponding dwelling unit Matchmaker manages (12), and the high temperature heat medium pipe (12) of each unit passes through inlet pipeline and the heating coil import for dividing family insulated water tank (2) Be connected, heating coil outlet by flow out circuit is connected with low temperature heat medium pipe (13), the bottommost of low temperature heat medium pipe (13) then with Return pipe (14) is connected, and the top of return pipe (14) is equipped with temperature sensor T4 (15), return pipe (14) and solar thermal collector Be successively arranged on pipeline between group (1) water inlet it is public be circulated throughout trap valve (16), circulating pump (17), safety valve (18) and expansion Tank (19), the public trap valve (16) that is circulated throughout is two groups be arranged in parallel；

Public circulating system controller (10) by signal wire respectively with temperature sensor T1 (5), temperature sensor T4 (15) It is connected with circulating pump (17)；

Described point of family insulated water tank (2) includes the heating coil in water tank, and the temperature of family insulated water tank (2) interior lower part is divided to pass Sensor T3 (22), differential temperature controller (23), tap water circulation and heat cycles, tap water circulation outside water tank use one As hot water or cold water's turnover pipeline；Heat cycles include the temperature sensor T5 set on high temperature heat medium pipe (12) house lead in inlet (24), inlet pipeline, which is equipped with, divides family strainer valve (25) and normally closed solenoid valve F1 (26), and heating working medium is divided family strainer valve (25) Enter heating coil afterwards with normally closed solenoid valve F1 (26), heat is transmitted to point family insulated water tank (2) by heating coil outlet stream Out, outflow circuit is equipped with check valve, and point setting between family strainer valve (25) and normally closed solenoid valve F1 (26) in inlet pipeline Setting bypass solenoid valve F2 (27) is communicated to inlet pipeline between two check valves in outflow circuit, flows out circuit and Low Temperature Thermal Matchmaker manages (13) and is connected；

Differential temperature controller (23) by signal wire respectively with temperature sensor T5, temperature sensor T3, temperature sensor T2, electromagnetism Valve F1 is connected with bypass solenoid valve F2.

2. solar energy according to claim 1 concentrates the collection heat separating user heat accumulation circulatory system, it is characterised in that: described point of family is protected Reservoir (2) further includes the electric heating tube (20) in water tank, positioned at the temperature sensing for dividing family insulated water tank (2) internal upper part Device T2 (21), differential temperature controller (23) are connected by signal wire with temperature sensor T2.

3. solar energy according to claim 1 or 2 concentrates the collection heat separating user heat accumulation circulatory system, it is characterised in that: it is described too Positive energy heat collector group (1) is the solar thermal collector of the pressure-bearing types such as flat, glass metal formula, pipe-type vacuum tube-style.

4. solar energy according to claim 1 or 2 concentrates the collection heat separating user heat accumulation circulatory system, it is characterised in that: described point Family insulated water tank (2) is Horizontal thermal insulation water tank or vertical insulated water tank.