CN202853137U - Multifunctional solar water heating system - Google Patents

Abstract

The utility model belongs to the technical field of new energy utilization, and relates to a multifunctional solar water heating system. The multifunctional solar water heating system solves the existing technical problems of unreasonable design and the like. The multifunctional solar water heating system comprises a solar heat-collecting module, a shower water tank, a heat exchange boiled water tank and a drinking water tank. A heat exchanger capable of transmitting heat from the heat exchange boiled water tank to the shower tank is arranged between the heat exchange boiled water tank and the shower tank. The heat exchange boiled water tank and the shower tank are respectively connected with the heat exchanger through a fourth control pipeline and a fifth control pipeline. The multifunctional solar water heating system has the advantages that by utilizing the solar energy, not only can the washing and bathing water be produced but also the boiled water can be produced with the boiling water system quality ensured, the multiple functions of solar water production, drinking boiled water and heat recovery and cooling are combined into one, further the waste due to the fact that solar water system producing excessive washing and bathing water in summer is solved, by means of producing boiled water with solar energy, the utilization rate of solar energy and auxiliary energy can be increased and the investment payoff period of solar heat utilization system is shortened.

Description

The multifunction solar hot water system

Technical field

The utility model belongs to the new energy use technology field, relates to solar energy, especially relates to a kind of multifunction solar hot water system.

Background technology

That solar energy has is permanent, spatter property and flexibility three large advantages, and solar utilizing equipment can realize once investing and long-term the use, greatly reduces the cost that uses, and saves mass energy.At present, solar water heating system is widely used in the every field such as industry, agricultural and productive life.Various solar water heating systems and solar energy water-boiling system are arranged in the open source literature.

For example Chinese patent literature a kind of chuck split balcony type solar water heating system [application number: 201010542331.X], the advantage that this device has is simple in structure, stable and reliable operation, thermal-collecting tube are difficult for bombing, easy to clean.Chinese patent literature [application number: ZL201010523903.X] provides a kind of secondary-reflection parabolic-cylinder light face of cylinder daylighting solar water heater, this utility model receives solar energy by the reflective focussing force of large plane mirror and parabolic cylinder reflective mirror, the receiving efficiency of solar energy be can improve, collection and the reception of solar energy under the environment of high light and the low light level can be used to be implemented in.Chinese patent literature [application number: ZL93117799.5] provides a kind of step temp. rising solar boiler, adopts the method for solar energy heating directly to obtain boiling water, need not use any fuel combustion, therefore can definitely avoid producing and pollute.Reach with the method for a plurality of vacuum heat absorbing pipes series connection and to make cool water heating become boiling water, heat loss is few.Chinese patent literature [application number: ZL201010234061.6] has proposed a kind of solar boiler all-in-one machine, and it can solve the problem that prior art exists, and both energy-conserving and environment-protective can be guaranteed quality of drinking water etc. again.

Technique scheme all is single solar water heating system and single solar energy water-boiling system, is not multifunction system, thereby has increased cost of investment and investment payback time.On the other hand, energy utilization rate is lower, and job stability is relatively poor, and it is required to be difficult to satisfy use.Therefore be necessary prior art is improved.

The utility model content

The purpose of this utility model is for the problems referred to above, provides a kind of reasonable in design, simple in structure, and energy utilization rate is high, the multifunction solar hot water system of diverse in function.

For achieving the above object, the utility model has adopted following technical proposal: this multifunction solar hot water system, it is characterized in that, native system comprises solar energy heat collecting module, shower water tank, heat exchange boiled water tank and drink water tank, described shower water tank and heat exchange boiled water tank are connected in parallel on the solar energy heat collecting module by the first control piper and the second control piper respectively, the described water tank of drinking is connected on the heat exchange boiled water tank by the 3rd control piper, be provided with the heat exchanger that the heat that can make in the heat exchange boiled water tank is passed to shower water tank between heat exchange boiled water tank and shower water tank, described heat exchange boiled water tank links to each other with heat exchanger with the 5th control piper by the 4th control piper respectively with shower water tank.

In above-mentioned multifunction solar hot water system, described heat exchange boiled water tank links to each other with air-cooled heat exchanger by the 6th control piper; Described shower water tank is connected with the auxiliary thermal source air source hot pump water heater by the 7th control piper.

In above-mentioned multifunction solar hot water system, the boiling water heat exchanger that links to each other with the first control piper is set in the described heat exchange boiled water tank; Also be provided with auxiliary electric heater unit on the described heat exchange boiled water tank.

In above-mentioned multifunction solar hot water system, the water side of described solar energy heat collecting module and water inlet end are respectively equipped with the first temperature sensor and the second temperature sensor, described heat exchange boiled water tank, shower water tank and drink and be respectively equipped with three-temperature sensor, the 4th temperature sensor and the 5th temperature sensor on the water tank.

In above-mentioned multifunction solar hot water system, described the first control piper comprises the first magnetic valve, the first circulating pump and the second magnetic valve on the pipeline that is connected between solar energy heat collecting module and the shower water tank; Described the second control piper comprises the 3rd magnetic valve and the second circulating pump on the pipeline that is connected between solar energy heat collecting module and the heat exchange boiled water tank; Described the 3rd control piper comprises and is connected to the heat exchange boiled water tank and drinks the 4th magnetic valve and booster pump on the pipeline between the water tank; Described the 4th control piper comprises the 3rd circulating pump on the pipeline that is connected between heat exchange boiled water tank and the heat exchanger; Described the 5th control piper comprises the 4th circulating pump on the pipeline that is connected between shower water tank and the heat exchanger; Described the 6th control piper comprises the 5th circulating pump on the pipeline that is connected between air-cooled heat exchanger and the heat exchange boiled water tank; Described the 7th control piper comprises the 6th circulating pump on the pipeline that is connected between shower water tank and the auxiliary thermal source air source hot pump water heater.

In above-mentioned multifunction solar hot water system, described the first temperature sensor, the second temperature sensor, three-temperature sensor, the 4th temperature sensor, the 5th temperature sensor, the first magnetic valve, the second magnetic valve, the 3rd magnetic valve, the 4th magnetic valve, the first circulating pump, the second circulating pump, the 3rd circulating pump, the 4th circulating pump, the 5th circulating pump, the 6th circulating pump, booster pump all link to each other with control circuit with auxiliary electric heater unit.

In above-mentioned multifunction solar hot water system, be connected with the input unit that arranges for the input parameters on the described control circuit.

In above-mentioned multifunction solar hot water system, described shower water tank is open tank and communicates with outside air by steam vent; Described heat exchange boiled water tank and to drink water tank be closed type water tank and communicate with outside air by the pressure release air bleeding valve.

In above-mentioned multifunction solar hot water system, the bottom that described three-temperature sensor, the 4th temperature sensor and the 5th temperature sensor are separately positioned on heat exchange boiled water tank, shower water tank and drink water tank.Because heat exchange boiled water tank, shower water tank and the delivery port of drinking water tank all are arranged on the bottom, therefore three-temperature sensor, the 4th temperature sensor and the 5th temperature sensor being separately positioned on heat exchange boiled water tank, shower water tank and drinking the bottom of water tank can the thermometric degree of accuracy of Effective Raise.

In above-mentioned multifunction solar hot water system, described shower water tank, heat exchange boiled water tank and drink water tank and be the food-grade attemperater; Described the first circulating pump and the second circulating pump can bear at least and be not less than 180 ℃ high temperature; Described the 5th circulating pump, the 3rd circulating pump and the 4th circulating pump can bear at least and be not less than 120 ℃ high temperature; Described solar energy heat collecting module is any one in ordinary vacuum tube heat collecting module, heat-pipe vacuum-tube heat collecting module, flat heat collecting module and the light-focusing type heat collecting module; Described boiling water heat exchanger is any one in immersion coil heat exchanger, the plate type heat exchanger; Described heat exchanger is plate type heat exchanger.

Compared with prior art, this multifunction solar hot water advantage of system is: can utilize solar energy to produce bathing hot water, can utilize again solar energy to produce boiling water and guarantee boiling system water quality, integrate and produce solar water, drinking water and recuperation of heat cooling several functions, too much produce waste with the bathing that solves solar energy generation in summer in the solar water heating system with hot water, can be by firing boiling water with solar energy, improve solar energy and supplementary energy utilization rate, thereby the Solar Energy Heat Utilization System investment payback time is greatly reduced.

Description of drawings

Fig. 1 is the structural representation that the utility model provides.

Among the figure, solar energy heat collecting module 1, shower water tank 2, heat exchange boiled water tank 3, drink water tank 4, the first control piper 5, the second control piper 6, the 3rd control piper 7, heat exchanger 8, the 4th control piper 9, the 5th control piper 10, the 6th control piper 11, air-cooled heat exchanger 12, the 7th control piper 13, auxiliary thermal source air source hot pump water heater 14, auxiliary electric heater unit 15, control circuit 16, input unit 17, immersion coil heat exchanger 18, the first temperature sensor T1, the second temperature sensor T2, three-temperature sensor T3, the 4th temperature sensor T4, the 5th temperature sensor T5, the first magnetic valve M1, the second magnetic valve M2, the 3rd magnetic valve M3, the 4th magnetic valve M4, the first circulating pump P1, the second circulating pump P2, booster pump P3, the 3rd circulating pump P4, the 4th circulating pump P5, the 5th circulating pump P6, the 6th circulating pump P 7.

The specific embodiment

As shown in Figure 1, this multifunction solar hot water system comprises solar energy heat collecting module 1, shower water tank 2, heat exchange boiled water tank 3 and drinks water tank 4.Shower water tank 2 and heat exchange boiled water tank 3 are connected in parallel on the solar energy heat collecting module 1 by the first control piper 5 and the second control piper 6 respectively, drinking water tank 4 is connected on the heat exchange boiled water tank 3 by the 3rd control piper 7, be provided with the heat exchanger 8 that the heat that can make in the heat exchange boiled water tank 3 is passed to shower water tank 2 between heat exchange boiled water tank 3 and shower water tank 2, heat exchange boiled water tank 3 links to each other with heat exchanger 8 with the 5th control piper 10 by the 4th control piper 9 respectively with shower water tank 2.Heat exchange boiled water tank 3 links to each other with air-cooled heat exchanger 12 by the 6th control piper 11; Shower water tank 2 is connected with auxiliary thermal source air source hot pump water heater 14 by the 7th control piper 13.The boiling water heat exchanger that links to each other with the first control piper 5 is set in the heat exchange boiled water tank 3; Also be provided with auxiliary electric heater unit 15 on the heat exchange boiled water tank 3.Shower water tank 2 communicates with outside air for open tank and by steam vent; Described heat exchange boiled water tank 3 and drink water tank 4 and communicate with outside air for closed type water tank and by the pressure release air bleeding valve.

The utility model can be divided into three parts: first is that solar water collecting system, second portion are that indirect heating type boiling system, third part are that potable water system is reclaimed in the boiling water heat radiation.The utility model solar energy heat collecting module 1 can be used ordinary vacuum tube heat collecting module, heat-pipe vacuum-tube heat collecting module, flat heat collecting module or other light-focusing type heat collecting modules according to user's initial cost is different with the solar collecting performance requirement.In the utility model, different and shower water tank 2 capacity carry out complex optimum and choose solar energy heat collecting module 1 size according to final chilling temperature in required heat exchange boiled water tank 3 capacity of user and the heat exchange boiled water tank 3.Second portion indirect heating type boiling system is closed circulation system in the utility model, because system will bear at least 1.5 times of atmospheric pressures, so connecting water pipe is copper pipe or stainless steel tube, to guarantee security of system and water quality safety.

The water side of solar energy heat collecting module 1 and water inlet end are respectively equipped with the first temperature sensor T1 and the second temperature sensor T2.Heat exchange boiled water tank 3, shower water tank 2 and drink and be respectively equipped with three-temperature sensor T3, the 4th temperature sensor T4 and the 5th temperature sensor T5 on the water tank 4.The bottom that three-temperature sensor T3, the 4th temperature sensor T4 and the 5th temperature sensor T5 are separately positioned on heat exchange boiled water tank 3, shower water tank 2 and drink water tank 4.

The first control piper 5 comprises the first magnetic valve M1, the first circulating pump P1 and the second magnetic valve M2 on the pipeline that is connected between solar energy heat collecting module 1 and the shower water tank 2; Described the second control piper 6 comprises the 3rd magnetic valve M3 and the second circulating pump P2 on the pipeline that is connected between solar energy heat collecting module 1 and the heat exchange boiled water tank 3; Described the 3rd control piper 7 comprises and is connected to heat exchange boiled water tank 3 and drinks the 4th magnetic valve M4 and booster pump P3 on the pipeline between the water tank 4; Described the 4th control piper 9 comprises the 3rd circulating pump P4 on the pipeline that is connected between heat exchange boiled water tank 3 and the heat exchanger 8; Described the 5th control piper 10 comprises the 4th circulating pump P5 on the pipeline that is connected between shower water tank 2 and the heat exchanger 8; Described the 6th control piper 11 comprises the 5th circulating pump P6 on the pipeline that is connected between air-cooled heat exchanger 12 and the heat exchange boiled water tank 3; Described the 7th control piper 13 comprises the 6th circulating pump P 7 on the pipeline that is connected between shower water tank 2 and the auxiliary thermal source air source hot pump water heater 14.

The first temperature sensor T1, the second temperature sensor T2, three-temperature sensor T3, the 4th temperature sensor T4, the 5th temperature sensor T5, the first magnetic valve M1, the second magnetic valve M2, the 3rd magnetic valve M3, the 4th magnetic valve M4, the first circulating pump P1, the second circulating pump P2, the 3rd circulating pump P4, the 4th circulating pump P5, the 5th circulating pump P6, the 6th circulating pump P7, booster pump P 3 all link to each other with control circuit 16 with auxiliary electric heater unit 15.Be connected with on the control circuit 16 and for the input parameters input unit 17 be set.

In the present embodiment, shower water tank 2, heat exchange boiled water tank 3 and drink water tank 4 and be the food-grade attemperater; The first circulating pump P1 and the second circulating pump P2 can bear at least and be not less than 180 ℃ high temperature; The 5th circulating pump P6, the 3rd circulating pump P4 and the 4th circulating pump P5 can bear at least and be not less than 120 ℃ high temperature; Solar energy heat collecting module 1 is any one in ordinary vacuum tube heat collecting module, heat-pipe vacuum-tube heat collecting module, flat heat collecting module and the light-focusing type heat collecting module; The boiling water heat exchanger is any one in immersion coil heat exchanger 18, the plate type heat exchanger; Heat exchanger 8 is plate type heat exchanger.

The bathing that the utility model solves emphatically solar energy generation in summer in the solar water heating system too much produces waste with hot water, can fire boiling water with solar energy, improve solar energy and supplementary energy utilization rate, thereby the Solar Energy Heat Utilization System investment payback time is greatly reduced.The utility model is mainly used in also can be used among the solar heating system engineering of civil buildings among the solar heating system engineerings such as school, hotel, restaurant, bath center, office building.The utility model is coupled into one with solar water heating system, drinking water system and recuperation of heat cooling system, widen the solar thermal utilization scope, the bathing that can solve solar energy generation in summer in the solar water heating system too much produces waste with hot water, utilize solar energy to fire drinking water, can reduce the Solar Energy Heat Utilization System investment payback time; Native system is not that drinking water is dispersed in the air by naturally cooling off, but the heat that utilizes the heat recovery system cooling to reclaim in the drinking water is used for the bathing hot-water heating system, thereby greatly improve solar energy and supplementary energy utilization rate, reach the effect of saving the limited energy.

More particularly, first is the solar water collecting system, and this part is comprised of solar energy heat collecting module 1, shower water tank 2, the first magnetic valve M1, the second magnetic valve M2, the first circulating pump P1, auxiliary thermal source air source hot pump water heater 14, the first temperature sensor T1, the second temperature sensor T2, the 6th circulating pump P7 and various connecting water pipe; Second portion is the indirect heating type boiling system, and this part is comprised of solar thermal collector module 1, immersion coil heat exchanger 18, heat exchange boiled water tank 3, the second circulating pump P2, auxiliary electric heater unit 15 and connecting water pipe; Third part is that potable water system is reclaimed in boiling water heat radiation, this part by heat exchanger 8 and air-cooled heat exchanger 12, drink water tank 4, the 5th circulating pump P6, the 3rd circulating pump P4, the 4th circulating pump P5, booster pump P3, the 4th magnetic valve M4 and connecting water pipe and form.

The utility model heat exchanger 8, air-cooled heat exchanger 12, the 5th circulating pump P6, the 3rd circulating pump P4, the 4th circulating pump P5 and booster pump P3 all tackle water quality and do not pollute; The utility model heat exchanger 8 is mainly used to reclaim the heat energy in the heat exchange boiled water tank 3, boiling water in the heat exchange boiled water tank 3 is cooled to suitable temperature, by air-cooled heat exchanger 12 boiling water in the heat exchange boiled water tank 3 is cooled to lower temperature again, if the water in the heat exchange boiled water tank 3 does not need to be cooled to lower temperature, or drinking water further cools off when having no time to require in the heat exchanging boiled water tank 3, and then air-cooled heat exchanger 12 is not opened.

The utility model mode of operation one, namely the user only requires bathing mode of operation in the hot water situation.Under this mode of operation, the 3rd magnetic valve M3, the 4th magnetic valve M4 close in the utility model system, the first magnetic valve M1, the second magnetic valve M2 open, and the second circulating pump P2, the 6th circulating pump P7, the 3rd circulating pump P4, the 4th circulating pump P5 do not move, and booster pump P3 does not move.When solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and shower water tank 2 inner bottom parts the 4th temperature sensor T4 temperature gap surpass (choosing according to Various Seasonal) when setting value, the first circulating pump P1 operation, when solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and shower water tank 2 bottoms the 4th temperature sensor T4 temperature gap are lower than (choosing according to Various Seasonal) when setting value, the first circulating pump P1 is out of service; Until shower water tank 2 inner bottom parts the 4th temperature sensor T4 water temperature is when equaling set water temperature, the first circulating pump P1 does not restart; If to afternoon during 16:00, shower water tank 2 bottoms the 4th temperature sensor T4 temperature is during also less than design temperature, then start auxiliary thermal source air source hot pump water heater 14 and the 6th circulating pump P7, continuation is heated shower water tank 2 interior water temperatures, until shower water tank 2 inner bottom part water temperatures the 4th temperature sensor T4 temperature equals set water temperature.

The utility model mode of operation two: namely the user not only requires bathing hot water, and requires drinking water, but mode of operation in the drinking water temperature requirement 100 degree situations:

Under this mode of operation, in the utility model system, at first the 3rd magnetic valve M3 opens, the first magnetic valve M1, the second magnetic valve M2 closes, the first circulating pump P1 does not move, when solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and heat exchange boiled water tank 3 inner bottom part three-temperature sensor T 3 temperature gaps surpass (choosing according to Various Seasonal) when setting value, the second circulating pump P2 operation, when solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and heat exchange boiled water tank 3 bottom three-temperature sensor T3 temperature gaps are lower than (choosing according to Various Seasonal) when setting value, the second circulating pump P2 is out of service; Until heat exchange boiled water tank 3 inner bottom part water temperature three-temperature sensor T3 temperature equal at 100 o'clock, the second circulating pump P2 does not restart.If also be less than 16:00 in afternoon this moment, the 3rd magnetic valve M3 closes, and the first magnetic valve M1, the second magnetic valve M2 open, and first's solar water heating system is according to mode of operation one operation; If be 16:00 in afternoon this moment, if shower water tank 2 interior water temperature the 4th temperature sensor T4 temperature also do not reach setting value, then start auxiliary thermal source air source hot pump water heater 14 and the 6th circulating pump P7, continuation is heated shower water tank 2 interior water temperatures, until shower water tank 2 inner bottom part water temperatures the 4th temperature sensor T4 temperature equals set water temperature, open simultaneously the 4th magnetic valve M4, booster pump P3 is pumped into heat exchange boiled water tank 3 interior drinking waters and drinks in the water tank for drinking.

The utility model mode of operation three: the user not only requires bathing hot water, and requires drinking water, but the drinking water temperature requirement surpasses mode of operation in the shower water temperature 3-5 degree situation of setting:

Under this mode of operation, in the utility model system, at first the 3rd magnetic valve M3 opens, the first magnetic valve M1, the second magnetic valve M2 closes, the first circulating pump P1 does not move, when solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and heat exchange boiled water tank 3 inner bottom part three-temperature sensor T 3 temperature gaps surpass (choosing according to Various Seasonal) when setting value, the second circulating pump P2 operation, when solar energy heat collecting module 1 outlet the first temperature sensor T1 temperature and heat exchange boiled water tank 3 bottom three-temperature sensor T 3 temperature gaps are lower than (choosing according to Various Seasonal) when setting value, the second circulating pump P2 is out of service; Until heat exchange boiled water tank 3 inner bottom part water temperature three-temperature sensor T3 temperature equal at 100 o'clock, the second circulating pump P2 does not restart.If also be less than 16:00 in afternoon this moment, the 3rd magnetic valve M3 closes, and the first magnetic valve M1, the second magnetic valve M2 open, and first's solar water heating system is according to mode of operation one operation; The 3rd circulating pump P4, the 4th circulating pump P5 open simultaneously, until heat exchange boiled water tank 3 water temperatures reach set water temperature; If be 16:00 in afternoon this moment, then only open the 3rd circulating pump P4, the 4th circulating pump P5, until heat exchange boiled water tank 3 water temperatures reach set water temperature; When three-temperature sensor T 3 temperature are cooled to set water temperature in the heat exchange boiled water tank 3, if shower water tank 2 interior water temperature the 4th temperature sensor T4 temperature also do not reach setting value, then start auxiliary thermal source air source hot pump water heater 14 and the 6th circulating pump P7, continuation is heated shower water tank 2 interior water temperatures, until shower water tank 2 inner bottom part water temperatures the 4th temperature sensor T4 temperature equals set water temperature, open simultaneously the 4th magnetic valve M4, by booster pump P3 the drinking water of heat exchange boiled water tank 3 interior coolings is pumped into and drinks in the water tank for drinking.

The utility model mode of operation four: namely the user not only requires bathing hot water, and requires drinking water, but the boiling water consumption temperature is lower than mode of operation in the setting shower water temperature situation:

Under this mode of operation, at first by mode of operation two operations, when three-temperature sensor T3 temperature also is higher than the requirement water temperature in the heat exchange boiled water tank 3, unlatching, the 5th circulating pump P6, air-cooled heat exchanger 12 operations simultaneously, make heat exchange boiled water tank 3 interior hot water continue to carry out heat exchange with air-cooled heat exchanger surrounding air, until heat exchange boiled water tank 3 interior water temperature three-temperature sensor T 3 temperature reach setting value; When heat exchange boiled water tank 3 interior water temperature three-temperature sensor T3 temperature reach setting value, close the 5th circulating pump P6, to stop air-cooled heat exchanger 12 operations simultaneously, open simultaneously the 4th magnetic valve M4, by booster pump P3 the drinking water of heat exchange boiled water tank 3 interior coolings is pumped into and drinks in the water tank for drinking.

Specific embodiment described herein only is to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Although this paper has more used solar energy heat collecting module 1, shower water tank 2, heat exchange boiled water tank 3, drink water tank 4, the first control piper 5, the second control piper 6, the 3rd control piper 7, heat exchanger 8, the 4th control piper 9, the 5th control piper 10, the 6th control piper 11, air-cooled heat exchanger 12, the 7th control piper 13, auxiliary thermal source air source hot pump water heater 14, auxiliary electric heater unit 15, control circuit 16, input unit 17, immersion coil heat exchanger 18, the first temperature sensor T1, the second temperature sensor T2, three-temperature sensor T3, the 4th temperature sensor T4, the 5th temperature sensor T5, the first magnetic valve M1, the second magnetic valve M2, the 3rd magnetic valve M3, the 4th magnetic valve M4, the first circulating pump P1, the second circulating pump P2, booster pump P3, the 3rd circulating pump P4, the 4th circulating pump P5, the 5th circulating pump P6, the 6th circulating pump P 7 terms such as grade, but do not get rid of the possibility of using other term.Using these terms only is in order to describe more easily and explain essence of the present utility model; They are construed to any additional restriction all is contrary with the utility model spirit.

Claims (10)

1. multifunction solar hot water system, it is characterized in that, native system comprises solar energy heat collecting module (1), shower water tank (2), heat exchange boiled water tank (3) and drink water tank (4), described shower water tank (2) and heat exchange boiled water tank (3) are connected in parallel on the solar energy heat collecting module (1) by the first control piper (5) and the second control piper (6) respectively, the described water tank (4) of drinking is connected on the heat exchange boiled water tank (3) by the 3rd control piper (7), be provided with the heat exchanger (8) that the heat that can make in the heat exchange boiled water tank (3) is passed to shower water tank (2) between heat exchange boiled water tank (3) and shower water tank (2), described heat exchange boiled water tank (3) links to each other with heat exchanger (8) with the 5th control piper (10) by the 4th control piper (9) respectively with shower water tank (2).

2. multifunction solar hot water according to claim 1 system is characterized in that, described heat exchange boiled water tank (3) links to each other with air-cooled heat exchanger (12) by the 6th control piper (11); Described shower water tank (2) is connected with auxiliary thermal source air source hot pump water heater (14) by the 7th control piper (13).

3. multifunction solar hot water according to claim 2 system is characterized in that, the boiling water heat exchanger that links to each other with the first control piper (5) is set in the described heat exchange boiled water tank (3); Also be provided with auxiliary electric heater unit on the described heat exchange boiled water tank (3)

（15）。

4. multifunction solar hot water according to claim 3 system, it is characterized in that, the water side of described solar energy heat collecting module (1) and water inlet end are respectively equipped with the first temperature sensor (T1) and the second temperature sensor (T2), described heat exchange boiled water tank (3), shower water tank (2) and drink and be respectively equipped with three-temperature sensor (T3), the 4th temperature sensor (T4) and the 5th temperature sensor (T5) on the water tank (4).

5. multifunction solar hot water according to claim 4 system, it is characterized in that described the first control piper (5) comprises the first magnetic valve (M1), the first circulating pump (P1) and the second magnetic valve (M2) on the pipeline that is connected between solar energy heat collecting module (1) and the shower water tank (2); Described the second control piper (6) comprises the 3rd magnetic valve (M3) and the second circulating pump (P2) on the pipeline that is connected between solar energy heat collecting module (1) and the heat exchange boiled water tank (3); Described the 3rd control piper (7) comprises and is connected to heat exchange boiled water tank (3) and drinks the 4th magnetic valve (M4) and booster pump (P3) on the pipeline between the water tank (4); Described the 4th control piper (9) comprises the 3rd circulating pump (P4) on the pipeline that is connected between heat exchange boiled water tank (3) and the heat exchanger (8); Described the 5th control piper (10) comprises the 4th circulating pump (P5) on the pipeline that is connected between shower water tank (2) and the heat exchanger (8); Described the 6th control piper (11) comprises the 5th circulating pump (P6) on the pipeline that is connected between air-cooled heat exchanger (12) and the heat exchange boiled water tank (3); Described the 7th control piper (13) comprises the 6th circulating pump (P 7) on the pipeline that is connected between shower water tank (2) and the auxiliary thermal source air source hot pump water heater (14).

6. multifunction solar hot water according to claim 5 system, it is characterized in that described the first temperature sensor (T1), the second temperature sensor (T2), three-temperature sensor (T3), the 4th temperature sensor (T4), the 5th temperature sensor (T5), the first magnetic valve (M1), the second magnetic valve (M2), the 3rd magnetic valve (M3), the 4th magnetic valve (M4), the first circulating pump (P1), the second circulating pump (P2), the 3rd circulating pump (P4), the 4th circulating pump (P5), the 5th circulating pump (P6), the 6th circulating pump (P7), booster pump (P3) all links to each other with control circuit (16) with auxiliary electric heater unit (15).

7. multifunction solar hot water according to claim 6 system is characterized in that, is connected with on the described control circuit (16) for the input parameters input unit (17) to be set.

8. the described multifunction solar hot water of any one system is characterized in that according to claim 1-7, and described shower water tank (2) communicates with outside air for open tank and by steam vent; Described heat exchange boiled water tank (3) and drink water tank (4) for closed type water tank and communicate with outside air by the pressure release air bleeding valve.

9. according to claim 4 or 5 or 6 or 7 described multifunction solar hot water systems, it is characterized in that described three-temperature sensor (T3), the 4th temperature sensor (T4) and the 5th temperature sensor (T5) are separately positioned on heat exchange boiled water tank (3), shower water tank (2) and drink the bottom of water tank (4).

10. multifunction solar hot water according to claim 9 system is characterized in that, described shower water tank (2), heat exchange boiled water tank (3) and drink water tank (4) and be the food-grade attemperater; Described the first circulating pump (P1) and the second circulating pump (P2) can bear at least and be not less than 180 ℃ high temperature; Described the 5th circulating pump (P6), the 3rd circulating pump (P4) and the 4th circulating pump (P5) can bear at least and be not less than 120 ℃ high temperature; Described solar energy heat collecting module (1) is any one in ordinary vacuum tube heat collecting module, heat-pipe vacuum-tube heat collecting module, flat heat collecting module and the light-focusing type heat collecting module; Described boiling water heat exchanger is any one in immersion coil heat exchanger (18), the plate type heat exchanger; Described heat exchanger (8) is plate type heat exchanger.

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