CN205403185U - Solar energy magnetic suspension central air conditioning heating system - Google Patents

Abstract

The utility model relates to a solar energy magnetic suspension central air conditioning heating system, including solar water heating system, magnetic suspension central air conditioning heating system and plate heat exchanger, solar water heating system includes solar collector and thermal -arrest water tank, and solar collector is connected to the thermal -arrest water tank, solar water heating system auxiliary heat source is gas -fired hot water boiler, and gas -fired hot water boiler links to each other with the constant temperature water tank, and the side and the thermal -arrest water tank of constant temperature water tank are connected, and the bottom of thermal -arrest water tank is passed through supply water pipeline and is connected with the constant temperature water tank, the bottom of constant temperature water tank is provided with three export, and this three export is connected with gas -fired hot water boiler top, constant temperature water tank top and plate heat exchanger through the pipeline respectively, is connected with the user on the pipeline be connected with the constant temperature water tank top and uses the wetting system. The utility model discloses under the prerequisite of guaranteeing heating effect and user's travelling comfort, have obvious society and economic benefits.

Description

A kind of solar magnetic suspension central air-conditioning heating system

Technical field

This utility model relates to a kind of heating system, and particularly a kind of solar magnetic suspension central air-conditioning heating system, belongs to new forms of energy heating technology field.

Background technology

Conventional center air-conditioning heating is that compressor suction low-pressure gas becomes high temperature and high pressure gas through compressor compresses, and high-temperature gas is improved water temperature by heat exchanger, and High Temperature Gas cognition condensation simultaneously becomes liquid.Liquid enters back into vaporizer and is evaporated, (also there are heat exchange media while evaporator evaporation, also different according to the model structure of the media different machines of heat exchange.Conventional has air-cooled and source, ground.) liquid becomes low-pressure low-temperature gas after evaporator, cryogenic gas is again sucked by compressor and is compressed.Circulation is gone down like this, and air-conditioning side recirculated water reforms into the hot water about 45-55 degree.Hot water delivers to the room needing heating through piping, room be provided with fan coil hot water and air carry out heat exchange realize heat purpose.

Usual central air-conditioning power consumption refers to the motor power consumption driving compressor operating, and the important parameter weighing air-conditioning work ability is COP value, the observable index namely often said.The popular electricity consuming 1KW exactly can produce how many colds or heat, COP is more high, performance is more good, because in Air-conditioner design, the type selecting of usual all parts is selected according to cooling condition, in refrigeration situation, the heat exchange amount of condenser selects to be generally equal to refrigerating capacity and compressor heat loss sum, and evaporator heat exchange amount is equal to unit refrigerating capacity, that is usual condenser is than evaporator heat exchange amount more greatly, therefore the heating capacity of air-conditioning is less better, say, that under declared working condition, and refrigeration COP value is greater than and heats COP value.Visible, 1 degree of electricity of same loss, refrigerating capacity is bigger than heating capacity, or conversely, when refrigerating capacity is identical with heating capacity, when heating, the electricity of consumption is more, therefore, says that heating more power consumption is exactly this reason why.Too low and the little compressor heating capacity deficiency of outdoor temperature is always up the most development bottleneck of air-conditioning heating.

Utility model content

Based on drawbacks described above, the utility model proposes a kind of solar magnetic suspension central air-conditioning heating system, effectively to solve outdoor temperature compressor heating capacity deficiency too low, little and energy waste problem.

The technical solution of the utility model is as follows:

A kind of solar magnetic suspension central air-conditioning heating system, including solar water heating system, magnetic suspension central air-conditioning heating system and plate type heat exchanger；Described solar water heating system includes solar thermal collector and heat collection water tank, and import and the outlet of heat collection water tank connect the export and import of solar thermal collector respectively through the first pipeline and the second pipeline, and described heat collection water tank is also associated with mending cold line；Described solar water heating system has auxiliary thermal source, this auxiliary thermal source is gas-fired water heating boiler, described gas-fired water heating boiler is connected with thermostatic water tank by water outlet pipeline, the side of thermostatic water tank is connected with heat collection water tank by the 3rd pipeline, and the bottom of heat collection water tank is connected with thermostatic water tank top by moisturizing pipeline；The bottom of described thermostatic water tank is provided with three outlets, these three outlets are connected with gas-fired water heating boiler top, thermostatic water tank top and plate type heat exchanger respectively through the 4th pipeline, the 5th pipeline and the 6th pipeline, described 4th pipeline, the 5th pipeline and the 6th pipeline are respectively arranged with boiler circulation pump, water supply booster pump, air-conditioning heat circulation pump, described 6th pipeline is connected with plate type heat exchanger and is connected with the 9th pipeline one end after heat exchange, and the other end of the 9th pipeline is connected with thermostatic water tank top；The 5th pipeline between described water supply booster pump and thermostatic water tank top is connected to user's watering equipment；Described magnetic suspension central air-conditioning heating system includes magnetic suspension central air-conditioning and connected air-conditioning return pipe and air-conditioning feed pipe, being also associated with the 7th pipeline and the 8th pipeline on described air-conditioning feed pipe, described 7th pipeline is connected with plate type heat exchanger and is connected with the 8th pipeline after heat exchange.

Further, described second pipeline is additionally provided with temperature-difference circulation pump.

Further, described first pipeline and the second pipeline are respectively arranged with the first thermometer and the second thermometer.

Further, described benefit cold line is disposed with moisturizing electromagnetic valve and silicon phosphorus product tank.

Further, described heat collection water tank is additionally provided with the 3rd thermometer, the first limnimeter, sewage draining exit and air vent.

Further, described thermostatic water tank is additionally provided with the 4th thermometer and the second limnimeter, moisturizing pipeline is provided with thermostatic water tank small pump.

Further, described user's watering equipment and the 5th pipeline at thermostatic water tank top are additionally provided with the 5th thermometer and backwater electromagnetic valve.

Further, described temperature-difference circulation pump, thermostatic water tank small pump, boiler circulation pump, water supply booster pump and air-conditioning heat circulation pump are two, and are arranged in parallel in the pipeline at its place respectively.

Further, described gas-fired water heating boiler is two, is arranged in parallel.

Further, user's watering equipment is shower or faucet.

The technical solution of the utility model achieves techniques below effect:

By adopting the technical solution of the utility model, its most significant advantage is in that to ensure under the premise of heating effect and user's comfortableness, has obvious social and economic benefits.

Accompanying drawing explanation

Fig. 1 is this utility model solar magnetic suspension central air-conditioning heating system connection diagram；

In figure: L1-the first pipeline；L2-the second pipeline；L3-the 3rd pipeline；L4-the 4th pipeline；L5-the 5th pipeline；L6-the 6th pipeline；L7-the 7th pipeline；L8-the 8th pipeline；L9-the 9th pipeline；LL-mends cold line；LC-water outlet pipeline；LB-moisturizing pipeline；LH-air-conditioning return pipe；LG-air-conditioning feed pipe；T1-the first thermometer；T2-the second thermometer；T3-the 3rd thermometer；T4-the 4th thermometer；T5-the 5th thermometer；H1-the first limnimeter；H2-the second limnimeter；R8-the first electrodynamic valve；R9-the second electrodynamic valve；E1-moisturizing electromagnetic valve；E2-backwater electromagnetic valve；P1-temperature-difference circulation pump；P2-thermostatic water tank small pump；P3-boiler circulation pump；P4-water supply booster pump；P5-air-conditioning heat circulation pump；1-solar thermal collector；2-heat collection water tank；3-gas-fired water heating boiler；4-thermostatic water tank；5-plate type heat exchanger；6-user's watering equipment；7-magnetic suspension central air-conditioning；8-silicon phosphorus product tank.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described further.

As it is shown in figure 1, a kind of solar magnetic suspension central air-conditioning heating system of the present utility model, including solar water heating system, magnetic suspension central air-conditioning heating system and plate type heat exchanger.Solar water heating system includes solar thermal collector 1 and heat collection water tank 2, import and the outlet of heat collection water tank 2 connect the export and import of solar thermal collector 1 respectively through the first pipeline L1 and the second pipeline L2, and the second pipeline L2 is additionally provided with temperature-difference circulation pump P1；Described first pipeline L1 and the second pipeline L2 is respectively arranged with the first thermometer T1 and the second thermometer T2, heat collection water tank 2 is also associated with mending cold line LL, mend and cold line LL is disposed with moisturizing electromagnetic valve E1 and silicon phosphorus product tank 8, heat collection water tank 2 is additionally provided with the 3rd thermometer T3, the first limnimeter H1, sewage draining exit and air vent.

Solar water heating system has auxiliary thermal source, this auxiliary thermal source is gas-fired water heating boiler 3, gas-fired water heating boiler 3 is connected with thermostatic water tank 4 by water outlet pipeline LC, the side of thermostatic water tank 4 is connected with heat collection water tank 2 by the 3rd pipeline L3, the bottom of heat collection water tank 2 is connected with thermostatic water tank 4 top by moisturizing pipeline LB, thermostatic water tank 4 is additionally provided with the 4th thermometer T4 and the second limnimeter H2, moisturizing pipeline LB is provided with thermostatic water tank small pump P2.

The bottom of thermostatic water tank 4 is provided with three outlets, these three outlets are connected with gas-fired water heating boiler 3 top, thermostatic water tank 4 top and plate type heat exchanger 5 respectively through the 4th pipeline L4, the 5th pipeline L5 and the 6th pipeline L6,4th pipeline L4, the 5th pipeline L5 and the 6th pipeline L6 are respectively arranged with boiler circulation pump P3, water supply booster pump P4, air-conditioning heat circulation pump P5,6th pipeline L6 is connected with plate type heat exchanger 5 and is connected with the 9th pipeline L9 one end after heat exchange, and the other end of the 9th pipeline L9 is connected with thermostatic water tank 4 top.The 5th pipeline L5 between water supply booster pump P4 and thermostatic water tank 4 top is connected to user's watering equipment 6, user's watering equipment 6 and the 5th pipeline L5 at thermostatic water tank 4 top are additionally provided with the 5th thermometer T5 and backwater electromagnetic valve E2.

Magnetic suspension central air-conditioning heating system includes magnetic suspension central air-conditioning 7 and connected air-conditioning return pipe LH and air-conditioning feed pipe LG, air-conditioning feed pipe LG is also associated with the 7th pipeline L7 and the eight pipeline L8,7th pipeline L7 is connected with plate type heat exchanger 5, is connected with the 8th pipeline L8 after heat exchange.

Wherein, gas-fired water heating boiler 3 is two, is arranged in parallel, and meanwhile, temperature-difference circulation pump P1, thermostatic water tank small pump P2, boiler circulation pump P3, water supply booster pump P4 and air-conditioning heat circulation pump P5 are also two, and are arranged in parallel in the pipeline at its place respectively.And user's watering equipment 6 can be shower or faucet.

Heat is exported magnetic suspension central air-conditioning 7 by gas-fired water heating boiler assisted solar water heating system by plate type heat exchanger 5 by this system, and heat is exported user side by magnetic suspension central air-conditioning 7 again, thus heating.

The heat supply method of above-mentioned solar magnetic suspension central air-conditioning heating system is as follows:

Step one: go out required hot water amount and hot water temperature according to Heat consumption calculation；

Step 2: determine solar thermal collector 1 area, actual solar thermal collector 1 arrangement and pipeline type of attachment；

Step 3: utilize plate type heat exchanger 5 solar water heating system and magnetic suspension central air-conditioning 7 to be coupled together.

Operation principle of the present utility model is:

(1) temperature difference circulation

When the temperature of solar thermal collector 1 is higher than the temperature of heat collection water tank 2, and the temperature difference is higher than during design temperature (as 8 DEG C adjustable), automatically starts temperature-difference circulation pump P1 work, it is achieved the temperature difference circulates.

(2) water level water inlet is determined, the full automatic stop of water

When heat collection water tank 2 water level is lower than setting value, the moisturizing electromagnetic valve E1 mended on cold line LL opens, to heat collection water tank 2 moisturizing, stop moisturizing when heat collection water tank 2 water level rises to setting value, or water full after stop water inlet, it is achieved determine water level and intake, the full automatic stop of water, also can manual moisturizing.

(3) assisted gas hot-water boiler

When continuous rainy weather, thermostatic water tank 4 temperature can not reach during design temperature (as 60 DEG C adjustable), enabling gas-fired water heating boiler 3 auxiliary heating, when the 4th thermometer T4 reaches setting value, (as 60 DEG C adjustable), gas-fired water heating boiler 3 is automatically switched off.

(4) freezing prevention tubing recycling-guard

When the water temperature in the second pipeline L2 is lower than 5 DEG C (adjustable), automatically temperature-difference circulation pump P1 work is started, hot water in heat collection water tank 2 is inputted the second pipeline L2, and the cold water in the second pipeline L2 is derived and enters heat collection water tank 2, when the second pipeline L2 water temperature reaches design temperature (as 8 DEG C adjustable), temperature-difference circulation pump P1 quits work.

(5) water supply line circulation

5th pipeline L5, namely water return pipeline is provided with the 5th thermometer T5, as the 5th thermometer T5 temperature < 40 DEG C (adjustable), water supply booster pump starts, as the 5th thermometer T5 temperature > 45 DEG C (adjustable), water supply booster pump P4 termination of pumping, it is ensured that use water end (W.E.) instant-heating.

(6) central air-conditioning recuperated cycle

When magnetic suspension central air-conditioning 7 heat supply mode runs, and thermostatic water tank temperature > 60 DEG C (adjustable), the the first electrodynamic valve R8 being positioned on the air-conditioning feed pipe LG between the 7th pipeline L7 and the eight pipeline L8 closes, the the second electrodynamic valve R9 being positioned on the 7th pipeline L7 opens, air-conditioning heat circulation pump P5 opens simultaneously, carry out heating cycle, by plate type heat exchanger 5, thermostatic water tank 4 heat is supplied to magnetic suspension central air-conditioning 7 heating system.As thermostatic water tank 4 temperature < 50 DEG C (adjustable), the second electrodynamic valve R9 closes, and the first electrodynamic valve R8 opens, and closes magnetic suspension central air-conditioning 7 heating cycle.

Being above an exemplary embodiments of the present utility model, enforcement of the present utility model is not limited to this.

Claims (10)

1. a solar magnetic suspension central air-conditioning heating system, it is characterised in that: include solar water heating system, magnetic suspension central air-conditioning heating system and plate type heat exchanger；

Described solar water heating system includes solar thermal collector (1) and heat collection water tank (2), the import of heat collection water tank (2) and outlet connect the export and import of solar thermal collector (1) respectively through the first pipeline (L1) and the second pipeline (L2), and described heat collection water tank (2) is also associated with mending cold line (LL)；

Described solar water heating system has auxiliary thermal source, this auxiliary thermal source is gas-fired water heating boiler (3), described gas-fired water heating boiler (3) is connected with thermostatic water tank (4) by water outlet pipeline (LC), the side of thermostatic water tank (4) is connected with heat collection water tank (2) by the 3rd pipeline (L3), and the bottom of heat collection water tank (2) is connected with thermostatic water tank (4) top by moisturizing pipeline (LB)；

The bottom of described thermostatic water tank (4) is provided with three outlets, these three outlets are respectively through the 4th pipeline (L4), 5th pipeline (L5) and the 6th pipeline (L6) and gas-fired water heating boiler (3) top, thermostatic water tank (4) top and plate type heat exchanger (5) connect, described 4th pipeline (L4), 5th pipeline (L5) and the 6th pipeline (L6) are respectively arranged with boiler circulation pump (P3), water supply booster pump (P4), air-conditioning heat circulation pump (P5), described 6th pipeline (L6) is connected with plate type heat exchanger (5) and is connected with the 9th pipeline (L9) one end after heat exchange, the other end of the 9th pipeline (L9) is connected with thermostatic water tank (4) top；The 5th pipeline (L5) between described water supply booster pump (P4) and thermostatic water tank (4) top is connected to user's watering equipment (6)；

Described magnetic suspension central air-conditioning heating system includes magnetic suspension central air-conditioning (7) and connected air-conditioning return pipe (LH) and air-conditioning feed pipe (LG), being also associated with the 7th pipeline (L7) and the 8th pipeline (L8) on described air-conditioning feed pipe (LG), described 7th pipeline (L7) is connected with plate type heat exchanger (5) and is connected with the 8th pipeline (L8) after heat exchange.

2. solar magnetic suspension central air-conditioning heating system according to claim 1, it is characterised in that: described second pipeline (L2) is additionally provided with temperature-difference circulation pump (P1).

3. solar magnetic suspension central air-conditioning heating system according to claim 2, it is characterised in that: described first pipeline (L1) and the second pipeline (L2) are respectively arranged with the first thermometer (T1) and the second thermometer (T2).

4. solar magnetic suspension central air-conditioning heating system according to claim 3, it is characterised in that: described benefit cold line (LL) is disposed with moisturizing electromagnetic valve (E1) and silicon phosphorus product tank (8).

5. solar magnetic suspension central air-conditioning heating system according to claim 4, it is characterised in that: described heat collection water tank (2) is additionally provided with the 3rd thermometer (T3), the first limnimeter (H1), sewage draining exit and air vent.

6. solar magnetic suspension central air-conditioning heating system according to claim 5, it is characterized in that: described thermostatic water tank (4) is additionally provided with the 4th thermometer (T4) and the second limnimeter (H2), moisturizing pipeline (LB) is provided with thermostatic water tank small pump (P2).

7. solar magnetic suspension central air-conditioning heating system according to claim 6, it is characterised in that: described user's watering equipment (6) and the 5th pipeline (L5) at thermostatic water tank (4) top are additionally provided with the 5th thermometer (T5) and backwater electromagnetic valve (E2).

8. solar magnetic suspension central air-conditioning heating system according to claim 7, it is characterized in that: described temperature-difference circulation pump (P1), thermostatic water tank small pump (P2), boiler circulation pump (P3), water supply booster pump (P4) and air-conditioning heat circulation pump (P5) are two, and are arranged in parallel in the pipeline at its place respectively.

9. solar magnetic suspension central air-conditioning heating system according to claim 1, it is characterised in that: described gas-fired water heating boiler (3) is two, is arranged in parallel.

10. solar magnetic suspension central air-conditioning heating system according to claim 1, it is characterised in that: user's watering equipment (6) is shower or faucet.