CN104110902A - Intelligent-control constant temperature solar energy device - Google Patents

Abstract

An intelligent-control constant temperature solar energy device comprises an electric control box, a pond bottom probe, an anti-burning probe, low, medium and high level probes, a hot water tank water incoming electromagnetic valve, an electric heating pipe, a water circulating pump, electric three-way ball valves, temperature sensors, a hot water tank, a heat overflow tank, a solar heat collecting pipe, a heat overflow tank cooling sheet, check valves, ball valves, filters, a tap water incoming pipe, a hot water tank water inlet, a hot water tank water outlet, a hot water tank water discharging pipe, a hot water tank water overflow port, a hot water tank water circulation water inlet, a hot water tank water circulation water outlet, a heat overflowing tank water inlet, a heat overflowing tank water incoming floating ball valve, a heat overflowing tank water circulating water outlet, a heat overflowing tank water circulation water inlet, a solar energy low-temperature region water circulating pipe, a solar high-temperature region water circulating pipe, a heat overflowing tank water overflow port, sewage discharging ports and a grounding wire. The solar energy is utilized fully, the power energy heating function is provided, and the intelligent-control constant temperature solar energy device is an ideal product replacing of an ordinary solar energy device and can be widely applied to large-scale occasions of schools, institutions, hotels and the like.

Description

A kind of intelligence control constant-temperature solar device

Technical field

The present invention relates to a kind of solar energy equipment, is exactly a kind of intelligence control constant-temperature solar device that utilizes solar thermal energy and electric energy to realize specifically.

Background technology

At present, the utilization of solar energy is widely used in China.Because the utilization of solar energy has low-carbon (LC), environmental protection, the feature such as energy-conservation, enjoy people to favor.Because the power at sunshine is directly depended in the heat supply of solar energy, so there is several large hidden danger: the one, when summer, intensity of sunshine is large, light application time is long, and leaving water temperature is often too high, easily scalds people, very dangerous.Especially the place of some universities, middle and primary schools bathrooms or public bathhouse, leaving water temperature is too high adds that hydraulic pressure is unstable, students in middle and primary schools' regulating mixed water valve is incorrect, easily causes the phenomenon of scalding people; The 2nd, the sunshine-duration in winter is short, weak strength, and leaving water temperature is often on the low side, particularly, in the winter of long-term low temperature and less sunshine, seems particularly outstanding, brings very inconvenient to people's life.The 3rd, the equipment of solar energy exposes for a long time in the sun, and outlet pipe soaks very easily aging, damaged for a long time through high water temperature, change trouble.Therefore, be necessary it to be further improved.

Summary of the invention

The present invention just can effectively overcome above-mentioned technical disadvantages.Provide a kind of design science rationally, easy-to-operate, low-carbon energy-saving environmental protection, under the prerequisite that makes full use of solar energy, be aided with if desired a kind of intelligence control constant-temperature solar device of electric energy heating, be the desirable substitute products that replace current regular solar device, be widely used in the large-scale places such as school, office, hotel.

The object of the present invention is achieved like this: a kind of intelligence control constant-temperature solar device, by electric cabinet, ground probe at the bottom of pond, anti-dry probe, low water level probe, middle water level probe, high water level probe, hot-water cylinder entering water electromagnetic valve, electrothermal tube, water-circulating pump, electric three passes ball valve I, electric three passes ball valve II, temperature sensor I, temperature sensor II, hot-water cylinder, hot tank overflows, solar energy heat collection pipe, hot tank fin overflows, check-valves I, check-valves II, check-valves III, ball valve I, ball valve II, ball valve III, filter I, filter II, running water water inlet pipe, hot-water cylinder water inlet, hot-water cylinder delivery port, hot-water cylinder outlet pipe, hot-water cylinder gap, hot-water cylinder water circulation water inlet, hot-water cylinder water circulation delivery port, hot tank water inlet overflows, hot tank water inlet ball-cock assembly overflows, hot tank water circulation delivery port overflows, hot tank water circulation water inlet overflows, solar low-temperature district water-circulating pipe, solar energy high temperature district water-circulating pipe, hot tank gap overflows, sewage draining exit I, sewage draining exit II, grounding terminal forms.Electric cabinet is popped one's head in respectively with at the bottom of pond, anti-dry probe, low water level probe, middle water level probe, high water level probe, electrothermal tube, hot-water cylinder entering water electromagnetic valve, temperature sensor I, water-circulating pump, electric three passes ball valve I, electric three passes ball valve II, temperature sensor II is connected, ground probe at the bottom of pond, anti-dry probe, low water level probe, middle water level probe, high water level is popped one's head in by being upwards arranged on successively in hot-water cylinder at the bottom of tank, hot-water cylinder gap is positioned at hot-water cylinder top, grounding terminal is connected with hot-water cylinder lower end, electrothermal tube is positioned at hot-water cylinder bottom, hot-water cylinder delivery port is positioned at hot-water cylinder bottom and is connected with ball valve I, ball valve I is connected with hot-water cylinder outlet pipe, hot-water cylinder water circulation delivery port is connected with check-valves II, check-valves II respectively with filter I, ball valve II connects, the lower end of ball valve II is sewage draining exit I, filter I is connected with water-circulating pump, water-circulating pump is connected with electric three passes ball valve I, electric three passes ball valve I is connected with solar low-temperature district water-circulating pipe, solar low-temperature district water-circulating pipe is connected with solar energy high temperature district water-circulating pipe through solar energy heat collection pipe, in solar energy high temperature district, water-circulating pipe is provided with temperature sensor II near solar energy heat collection pipe place, electric three passes ball valve II one end is connected with solar energy high temperature district water-circulating pipe, one end is connected with hot-water cylinder water circulation water inlet, one end is connected with excessive hot tank water circulation water inlet, the hot tank water circulation water inlet that overflows is connected with excessive hot tank, the peripheral surrounding of excessive hot tank is provided with the hot tank fin that overflows, excessive hot tank lower end is the hot tank water circulation delivery port that overflows, the hot tank water circulation delivery port that overflows is connected with check-valves III, check-valves III respectively with ball valve III, filter II is connected, ball valve III lower end is sewage draining exit II, filter II is connected with electric three passes ball valve I, the hot tank water inlet ball-cock assembly that overflows is positioned at the hot tank that overflows near its upper position and is connected with excessive hot tank water inlet, one end, excessive hot tank the top is designed with the hot tank gap that overflows, running water water inlet pipe respectively with excessive hot tank water inlet, hot-water cylinder entering water electromagnetic valve is connected, hot-water cylinder entering water electromagnetic valve is connected with check-valves I, check-valves I is connected with hot-water cylinder water inlet.

Described hot-water cylinder, excessive hot tank and solar energy heat collection pipe are installed in parallel.

Described running water water inlet pipe is connected in hot-water cylinder simultaneously, hot tank overflows.Hot-water cylinder entering water electromagnetic valve, check-valves I are installed successively between running water water inlet pipe and hot-water cylinder water inlet.

Described hot-water cylinder is connected with hot-water cylinder water circulation delivery port, the hot tank water circulation delivery port that overflows, solar low-temperature district water-circulating pipe, is connected with electric three passes ball valve I between them.

Between described hot-water cylinder water circulation delivery port and electric three passes ball valve I, check-valves II, filter I, water-circulating pump are installed successively.

Described overflowing is provided with check-valves III, filter II between hot tank water circulation delivery port and electric three passes ball valve I successively.

Described hot-water cylinder water circulation water inlet is connected with excessive hot tank water circulation water inlet and solar energy high temperature district water-circulating pipe through electric three passes ball valve II.

Described solar low-temperature district water-circulating pipe is also connected with solar energy high temperature district water-circulating pipe through solar energy heat collection pipe.

In described hot-water cylinder, pop one's head in by being provided with successively at the bottom of pond to tank deck at the bottom of tank, anti-dry probe, low water level probe, middle water level probe, high water level pop one's head in.

Described electrothermal tube must be arranged on the below of anti-dry probe.

Described temperature sensor I is arranged on the position near hot-water cylinder bottom.

Described temperature sensor II is arranged on solar energy high temperature district water-circulating pipe the position near solar energy heat collection pipe.

The integral installation position of the high-temperature region water-circulating pipe of described solar thermal collector and hot-water cylinder and the hot tank deck face position of overflowing are in same level.

Described electric three passes ball valve I is identical with electric three passes ball valve II specification, has A, B, C tri-holes, and electric three passes ball valve has two kinds of duties: one is to close C hole, and A, B hole communicate, and one is to close A hole, and B, C hole communicate.

Operation principle of the present invention is:

Be mainly by two systemic circulations and be aided with electrical heating, realize the object of intelligence control constant temperature.Two systemic circulations are: the water circulation between hot-water cylinder and solar energy heat collection pipe, the water circulation of overflowing between hot tank and solar energy heat collection pipe.

1, when sun light intensity, solar energy heat collection pipe absorbs solar energy, water circulation between superheated water tank and solar energy heat collection pipe, water temperature in hot-water cylinder is constantly raise, in the time that the water temperature in hot-water cylinder is elevated to preset temperature, as: 60 DEG C, electric cabinet output signal, stop the water circulation between hot-water cylinder and solar energy heat collection pipe, and open the water circulation of overflowing between hot tank and solar energy heat collection pipe simultaneously, the unnecessary light and heat energy that solar energy heat collection pipe is continued absorb is got rid of by the hot tank that overflows.Afterwards, water temperature in hot-water cylinder is because of dissipation of heat, in tank, water temperature reduces, after 60 DEG C, electric cabinet is exported again control signal, automatically open water circulation between hot-water cylinder and solar energy heat collection pipe, close the water circulation of overflowing between hot tank and solar energy heat collection pipe simultaneously, the light and heat energy that solar energy heat collection pipe absorbs is recycled in hot-water cylinder again, and the water temperature in hot-water cylinder raises; When the water temperature in hot-water cylinder reach or slightly exceed preset water temperature as: 60 DEG C time, electric cabinet is closed again the water circulation between hot-water cylinder and solar energy heat collection pipe automatically, open the water circulation of overflowing between hot tank and solar energy heat collection pipe simultaneously, so repeatedly, the water temperature in maintaining heat water pot is preset temperature-resistant.

2, when sunshine is weak, water circulation between hot-water cylinder and solar energy heat collection pipe, solar energy can not make the water temperature in hot-water cylinder reach default water temperature, if water temperature in default tank is 60 DEG C, and actual water temperature can only reach 40 DEG C, differ from 20 DEG C, can not meet the requiring of people's bathing time, will start water temperature in electric heater unit rising hot-water cylinder.In the time reaching electrical heating start-up time of setting, electric cabinet is connected the power supply of electrothermal tube automatically, electrothermal tube heating power, water temperature in hot-water cylinder raises, in the time that water temperature in hot-water cylinder raises and reach preset water temperature as 60 DEG C, electric cabinet cuts off the power supply of electrothermal tube automatically, makes electrothermal tube automatically stop heating.Afterwards, if hot-water cylinder because of dissipation of heat, when water temperature is reduced to a little less than 60 DEG C in tank, control cabinet starts again electrical heating automatically, in hot-water cylinder, water temperature raises, and in the time that water temperature in tank reaches or slightly exceed 60 DEG C of default water temperatures, stops again electrical heating.So repeatedly, the water temperature in maintaining heat water pot is in preset temperature, as: 60 DEG C are constant.

The invention has the beneficial effects as follows:

1, easy to operate, safety, without any hidden danger.The technology that the present invention adopts be electric cabinet respectively to popping one's head at the bottom of pond, anti-dry probe, low water level probe, middle water level probe, high water level probe, electrothermal tube, hot-water cylinder entering water electromagnetic valve, temperature sensor I, water-circulating pump, electric three passes ball valve I, electric three passes ball valve II, temperature sensor II follow the tracks of comprehensively, monitor, command, when installation, need only disposable its technical parameter that edits, just can reach the effective control realizing technically constant temperature.As timing automatic upper water, timing automatic heating, timing automaticly discharge water, upper limit water level control automatically, automatic heat preserving, anti-dry, anti-overflow control, electric leakage power-off, short circuit power-off, overload power-off, ground protection etc.

2, energy-saving and environmental protection, low-carbon (LC).Apparatus of the present invention, if meet solar irradiation when stronger, when the water temperature in hot-water cylinder rises to the temperature of setting, the water temperature in hot-water cylinder no longer continues to rise, but it is DEG C constant to maintain set water temperature ± 2.The unnecessary sunshine heat that thermal-collecting tube absorbs is got rid of through the hot tank that overflows; If a little less than illumination, solar facilities is under the prerequisite that makes full use of luminous energy, and the auxiliary heat of time set electricity, rises to after preset water temperature the water temperature in hot-water cylinder, stops electrical heating, and in hot-water cylinder, water temperature is also invariable.

Brief description of the drawings

Fig. 1 is mounting structure schematic diagram of the present invention and doubles as Figure of abstract

In figure: 1, electric cabinet, 2, ground probe at the bottom of pond, 3, anti-dry probe, 4, low water level probe, 5, middle water level probe, 6, high water level probe, 7, hot-water cylinder entering water electromagnetic valve, 8, electrothermal tube, 9, water-circulating pump, 10, electric three passes ball valve I, 11, electric three passes ball valve II, 12, temperature sensor I, 13, temperature sensor II, 14, hot-water cylinder, 15, excessive hot tank, 16, solar energy heat collection pipe, 17, excessive hot tank fin, 18, check-valves I, 19, check-valves II, 20, check-valves III, 21, ball valve I, 22, ball valve II, 23, ball valve III, 24, filter I, 25, filter II, 26, running water water inlet pipe, 27, hot-water cylinder water inlet, 28, hot-water cylinder delivery port, 29, hot-water cylinder outlet pipe, 30, hot-water cylinder gap, 31, hot-water cylinder water circulation water inlet, 32, hot-water cylinder water circulation delivery port, 33, excessive hot tank water inlet, 34, excessive hot tank water inlet ball-cock assembly, 35, excessive hot tank water circulation delivery port, 36, excessive hot tank water circulation water inlet, 37, solar low-temperature district water-circulating pipe, 38, solar energy high temperature district water-circulating pipe, 39, excessive hot tank gap, 40 sewage draining exit I, 41, sewage draining exit II, 42, grounding terminal.

Detailed description of the invention

By the following examples, the present invention is described in more detail, but as long as within the scope of main idea of the present invention, is not limited in following examples.

A kind of intelligence control constant-temperature solar device, by electric cabinet (1), ground probe (2) at the bottom of pond, anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6), hot-water cylinder entering water electromagnetic valve (7), electrothermal tube (8), water-circulating pump (9), electric three passes ball valve I (10), electric three passes ball valve II (11), temperature sensor I (12), temperature sensor II (13), hot-water cylinder (14), hot tank (15) overflows, solar energy heat collection pipe (16), hot tank fin (17) overflows, check-valves I (18), check-valves II (19), check-valves III (20), ball valve I (21), ball valve II (22), ball valve III (23), filter I (24), filter II (25), running water water inlet pipe (26), hot-water cylinder water inlet (27), hot-water cylinder delivery port (28), hot-water cylinder outlet pipe (29), hot-water cylinder gap (30), hot-water cylinder water circulation water inlet (31), hot-water cylinder water circulation delivery port (32), hot tank water inlet (33) overflows, hot tank water inlet ball-cock assembly (34) overflows, hot tank water circulation delivery port (35) overflows, hot tank water circulation water inlet (36) overflows, solar low-temperature district water-circulating pipe (37), solar energy high temperature district water-circulating pipe (38), hot tank gap (39) overflows, sewage draining exit I (40), sewage draining exit II (41), grounding terminal (42) forms.Electric cabinet (1) respectively with at the bottom of pond, pop one's head in (2), anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6), electrothermal tube (8), hot-water cylinder entering water electromagnetic valve (7), temperature sensor I (12), water-circulating pump (9), electric three passes ball valve I (10), electric three passes ball valve II (11), temperature sensor II (13) is connected, ground probe (2) at the bottom of pond, anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6) is by being upwards arranged on successively at the bottom of tank in hot-water cylinder (14), hot-water cylinder gap (30) is positioned at hot-water cylinder (14) top, grounding terminal (42) is connected with hot-water cylinder (14) lower end, electrothermal tube (8) is positioned at hot-water cylinder (14) bottom, hot-water cylinder delivery port (28) is positioned at hot-water cylinder (14) bottom and is connected with ball valve I (21), ball valve I is connected with hot-water cylinder outlet pipe (29), hot-water cylinder water circulation delivery port (32) is connected with check-valves II (19), check-valves II (19) respectively with filter I (24), ball valve II (22) connects, the lower end of ball valve II (22) is sewage draining exit I (40), filter I (24) is connected with water-circulating pump (9), water-circulating pump (9) is connected with electric three passes ball valve I (10), electric three passes ball valve I (10) is connected with solar low-temperature district water-circulating pipe (37), solar low-temperature district water-circulating pipe (37) is connected with solar energy high temperature district water-circulating pipe (38) through solar energy heat collection pipe (16), locate to be provided with temperature sensor II (13) at solar energy high temperature district water-circulating pipe (38) near solar energy heat collection pipe (16), electric three passes ball valve II (11) one end is connected with solar energy high temperature district water-circulating pipe (38), one end is connected with hot-water cylinder water circulation water inlet (31), one end is connected with excessive hot tank water circulation water inlet (36), the hot tank water circulation water inlet (36) that overflows is connected with excessive hot tank (15), the peripheral surrounding of excessive hot tank (15) is provided with the hot tank fin (17) that overflows, excessive hot tank (15) lower end is the hot tank water circulation delivery port (35) that overflows, the hot tank water circulation delivery port (35) that overflows is connected with check-valves III (20), check-valves III (20) respectively with ball valve III (23), filter II (25) is connected, ball valve III (23) lower end is sewage draining exit II (41), filter II (25) is connected with electric three passes ball valve I (10), the hot tank water inlet ball-cock assembly (34) that overflows is positioned at the hot tank (15) that overflows near its upper position and is connected with excessive hot tank water inlet (33), excessive hot tank (15) one end, the top is designed with the hot tank gap (39) that overflows, running water water inlet pipe (26) respectively with excessive hot tank water inlet (33), hot-water cylinder entering water electromagnetic valve (7) is connected, hot-water cylinder entering water electromagnetic valve (7) is connected with check-valves I (18), check-valves I (18) is connected with hot-water cylinder water inlet (27).

When work, in electric cabinet (1), preset all kinds of technical parameters.

If temperature sensor I (12) detects that the interior water temperature of hot-water cylinder (14) is lower than preset water temperature, as: in preset hot-water cylinder, water temperature is 60 DEG C, electric cabinet (1) is by automatic output control signal controlling electric three passes ball valve I (10) and electric three passes ball valve II (11), and the C hole of these two electrical ball valves is all closed, A hole and B hole are all connected, and make water circulation pipe and other water circulation pipes of excessive hot tank (15) obstructed.And hot-water cylinder (14) is communicated with solar low-temperature district water-circulating pipe (37), solar energy high temperature district water-circulating pipe (38) and hot-water cylinder water circulation water inlet (31) through hot-water cylinder water circulation delivery port (32), water-circulating pump (9), electric three passes ball valve I (10), electric three passes ball valve II (11) etc.Under the irradiation of sunlight, solar energy heat collection pipe (16) is constantly collected solar energy, and solar energy is converted into heat energy.In solar energy heat collection pipe (16), water absorbs heat from solar energy heat collection pipe (16) coating, water temperature raises, and density reduces, and hot water moves upward, and heavy cold water declines, like this, hot cold water produces density contrast because water temperature is different, forms free convection, hot water is positioned at top all the time, in solar energy high temperature district water-circulating pipe (38).Cold water deposits to the bottom of solar energy heat collection pipe (16).After solar radiation a period of time, the water temperature that the water temperature that solar energy high temperature district (38) are located is located than solar low-temperature district (37) is higher.Temperature sensor probe II (13) detects the water temperature that solar energy high temperature district water-circulating pipe (38) is located, and temperature sensor probe I (12) detects the water temperature of hot-water cylinder (14) bottom.Hot-water cylinder (14) bottom water temperature belongs to low-temperature space, in the time that high-temperature region water temperature and low-temperature space water temperature differ and reach predetermined temperature difference value, as: predetermined high-low temperature difference water temperature value is 10 DEG C, and control cabinet starts water-circulating pump (9) automatically, and water-circulating pump rotates and forms water circulation.The path of water circulation is: hot-water cylinder, (14) bottom → hot-water cylinder water circulation delivery port, (32) → check-valves II, (19) → filter I, (24) → water-circulating pump, (9) → electric three passes ball valve I, (10) A hole → electric three passes ball valve I, (10) B hole → solar low-temperature district water-circulating pipe, (37) → solar energy high temperature district water-circulating pipe, (38) → electric three passes ball valve II, (11) B hole → electric three passes ball valve II, (11) A hole → hot-water cylinder water circulation water inlet, (31) in → hot-water cylinder.By continuous water circulation, the water in solar energy high temperature district is brought in hot-water cylinder, the water temperature in hot-water cylinder (14) is constantly raise.Due to water circulation, take away the high-temperature water that solar energy high temperature district (38) locates, add to herein be the water of relative low temperature, like this, after water circulation after a while, solar energy high temperature district water pipe (38) is located water temperature and is reduced, cause the temperature difference between solar energy high temperature district and low-temperature space to be dwindled, in the time that high and low temperature sensor probe II (13) and I (12) detect that the water temperature at two places narrows down to predetermined value, as: high-low temperature difference is 5 DEG C, control cabinet (1) cuts off the power supply of water-circulating pump (9) automatically, it is quit work, water circulation between hot-water cylinder (14) and solar energy heat collection pipe (16) also stops.Because sunlight continues to irradiate solar energy heat collection pipe (16), the water temperature that causes solar energy high temperature district water pipe (38) to be located can raise again, water temperature is high to certain value and make high-temperature region and the high-low temperature difference of low-temperature space arrival predetermined value herein, as: when preset high-low temperature difference is 10 DEG C, control cabinet can start again water-circulating pump (9), and water circulation can be brought the high-temperature water of high-temperature region in hot-water cylinder into again.Like this, through discontinuous ground water circulation repeatedly, the water temperature in hot-water cylinder (14) will slowly raise.

Along with the water circulation repeatedly between sunshine-duration prolongation and hot-water cylinder and solar energy heat collection pipe, the water temperature in hot-water cylinder will constantly raise.In the time that the water temperature in hot-water cylinder rises to preset water temperature, as: 60 DEG C, this temperature signal is passed to control cabinet (1) by temperature sensor I (12), control cabinet (1) output control signal, water-circulating pump (9) is quit work, meanwhile and make electric three passes ball valve I (10) and electric three passes ball valve II (11) all be transformed into another kind of duty, that is: the A hole of these two electrical ball valves is all closed simultaneously, and B hole and C hole are all communicated with simultaneously.Like this, just close the pipeline between hot-water cylinder and solar water pipe, and opened the water circulation path overflowing between hot tank and solar water pipe.After solar energy heat collection pipe (16) continues to absorb solar energy, hot water is mobile to solar energy high temperature district (38).Owing to being connected with check-valves III (20) on the water circulation delivery port (35) of hot tank that overflows, so now the direction of water circulation is certain, can not flow backwards.The flow direction of water circulation is: in the B hole → C hole → hot tank water circulation water inlet (36) that overflows → excessive hot tank (15) of C hole → B hole → solar low-temperature district's water-circulating pipe (37) → solar energy high temperature district water-circulating pipe (38) → electric three passes ball valve II (11) of bottom → hot tank water circulation delivery port (35) → check-valves III (20) → filter II (the 25) → electric three passes ball valve I (10) that overflows of the hot tank body (15) that overflows.The solar thermal energy that solar thermal collector is collected has like this been taken to and has been overflow in hot tank by water circulation.Because the top that has overflow hot tank fin (17) and the hot tank body that overflows on the hot tank wall that overflows is opened wide completely, heat distributes to air rapidly.So, take away in time and dissipate solar energy high temperature district heat by water circulation and the hot tank that overflows, this has just ensured that solar energy heating actuator temperature can be not too high and affect its service life.

Claims (7)

1. an intelligence control constant-temperature solar device, by electric cabinet (1), ground probe (2) at the bottom of pond, anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6), hot-water cylinder entering water electromagnetic valve (7), electrothermal tube (8), water-circulating pump (9), electric three passes ball valve I (10), electric three passes ball valve II (11), temperature sensor I (12), temperature sensor II (13), hot-water cylinder (14), hot tank (15) overflows, solar energy heat collection pipe (16), hot tank fin (17) overflows, check-valves I (18), check-valves II (19), check-valves III (20), ball valve I (21), ball valve II (22), ball valve III (23), filter I (24), filter II (25), running water water inlet pipe (26), hot-water cylinder water inlet (27), hot-water cylinder delivery port (28), hot-water cylinder outlet pipe (29), hot-water cylinder gap (30), hot-water cylinder water circulation water inlet (31), hot-water cylinder water circulation delivery port (32), hot tank water inlet (33) overflows, hot tank water inlet ball-cock assembly (34) overflows, hot tank water circulation delivery port (35) overflows, hot tank water circulation water inlet (36) overflows, solar low-temperature district water-circulating pipe (37), solar energy high temperature district water-circulating pipe (38), hot tank gap (39) overflows, sewage draining exit I (40), sewage draining exit II (41), grounding terminal (42) forms, and it is characterized in that: electric cabinet (1) respectively with at the bottom of pond, pop one's head in (2), anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6), electrothermal tube (8), hot-water cylinder entering water electromagnetic valve (7), temperature sensor I (12), water-circulating pump (9), electric three passes ball valve I (10), electric three passes ball valve II (11), temperature sensor II (13) is connected, ground probe (2) at the bottom of pond, anti-dry probe (3), low water level probe (4), middle water level probe (5), high water level probe (6) is by being upwards arranged on successively at the bottom of tank in hot-water cylinder (14), hot-water cylinder gap (30) is positioned at hot-water cylinder (14) top, grounding terminal (42) is connected with hot-water cylinder (14) lower end, electrothermal tube (8) is positioned at hot-water cylinder (14) bottom, hot-water cylinder delivery port (28) is positioned at hot-water cylinder (14) bottom and is connected with ball valve I (21), ball valve I is connected with hot-water cylinder outlet pipe (29), hot-water cylinder water circulation delivery port (32) is connected with check-valves II (19), check-valves II (19) respectively with filter I (24), ball valve II (22) connects, the lower end of ball valve II (22) is sewage draining exit I (40), filter I (24) is connected with water-circulating pump (9), water-circulating pump (9) is connected with electric three passes ball valve I (10), electric three passes ball valve I (10) is connected with solar low-temperature district water-circulating pipe (37), solar low-temperature district water-circulating pipe (37) is connected with solar energy high temperature district water-circulating pipe (38) through solar energy heat collection pipe (16), locate to be provided with temperature sensor II (13) at solar energy high temperature district water-circulating pipe (38) near solar energy heat collection pipe (16), electric three passes ball valve II (11) one end is connected with solar energy high temperature district water-circulating pipe (38), one end is connected with hot-water cylinder water circulation water inlet (31), one end is connected with excessive hot tank water circulation water inlet (36), the hot tank water circulation water inlet (36) that overflows is connected with excessive hot tank (15), the peripheral surrounding of excessive hot tank (15) is provided with the hot tank fin (17) that overflows, excessive hot tank (15) lower end is the hot tank water circulation delivery port (35) that overflows, overflow hot tank water circulation delivery port (35) be connected with check-valves III (20), check-valves III (20) respectively with ball valve III (23), filter II (25) is connected, ball valve III (23) lower end is sewage draining exit II (41), filter II (25) is connected with electric three passes ball valve I (10), the hot tank water inlet ball-cock assembly (34) that overflows is positioned at the hot tank (15) that overflows near its upper position and is connected with excessive hot tank water inlet (33), overflow hot tank (15) one end, the top is designed with the hot tank gap (39) that overflows, running water water inlet pipe (26) respectively with excessive hot tank water inlet (33), hot-water cylinder entering water electromagnetic valve (7) is connected, and hot-water cylinder entering water electromagnetic valve (7) is connected with check-valves I (18), and check-valves I (18) is connected with hot-water cylinder water inlet (27).

2. a kind of intelligence control constant-temperature solar device according to claim 1, is characterized in that: hot-water cylinder (14), the hot tank (15) that overflows are installed in parallel with solar energy heat collection pipe (16).

3. a kind of intelligence control constant-temperature solar device according to claim 1, it is characterized in that: running water water inlet pipe (26) is connected in hot-water cylinder (14) simultaneously, the hot tank (15) that overflows, and hot-water cylinder entering water electromagnetic valve (7), check-valves I (18) are installed successively between running water water inlet pipe (26) and hot-water cylinder water inlet (27).

4. a kind of intelligence control constant-temperature solar device according to claim 1, it is characterized in that: hot-water cylinder (14) and hot-water cylinder water circulation delivery port (32), the hot tank water circulation delivery port (35) that overflows, solar low-temperature district water follow water and follows pipe (37) and be connected, and are connected with electric three passes ball valve I (10) between them.

5. a kind of intelligence control constant-temperature solar device according to claim 1, is characterized in that: check-valves II (19), filter I (24), water-circulating pump (9) are installed between hot-water cylinder water circulation delivery port (32) and electric three passes ball valve I (10) successively.

6. a kind of intelligence control constant-temperature solar device according to claim 1, is characterized in that: overflow, between hot tank water circulation delivery port (35) and electric three passes ball valve I (10), check-valves III (20), filter II (25) are installed successively.

7. a kind of intelligence control constant-temperature solar device according to claim 1, is characterized in that: electrothermal tube (8) must be arranged on the below of anti-dry probe (3).