CN107062487A - The family expenses air-conditioning system of surge well water cold storage - Google Patents

Abstract

The household air-conditioning system combined with well water cold storage disclosed by the present invention includes a two-stage evaporative cooling air-handling unit communicated with the air-conditioned room, floor radiant coils laid in the air-conditioned room, and also includes an underground water well and a hot water boiler , and the two-stage evaporative cooling air handling unit, underground water well, hot water boiler and floor radiant coil are connected through a water pipe network. The household air-conditioning system of the present invention utilizes underground water wells to store energy, and can be used in both winter and summer with low energy consumption.

Description

Household air-conditioning system combined with well water cold storage

technical field

The invention belongs to the technical field of air-conditioning equipment, and in particular relates to a household air-conditioning system combined with well water cold storage.

Background technique

The energy crisis since the 20th century has caused more and more countries to pay attention to the issue of energy conservation. In real life, buildings consume a lot of energy. According to statistics, the energy consumption of heating, ventilation and air conditioning systems accounts for about 2/3 of the total energy consumption of buildings. Therefore, whether the air conditioning and ventilation system can save energy is of far-reaching significance.

In recent years, due to the requirements of green buildings, various new energy and new technologies have emerged one after another. New energy mainly includes: solar energy, wind energy, tidal energy and nuclear energy, etc.; new cooling technologies mainly include: evaporative cooling technology, ice storage technology and Heat pump technology, etc.; combining these technologies with each other can improve the use effect and expand the use range.

Contents of the invention

The purpose of the present invention is to provide a household air-conditioning system combined with well water cold storage. The air-conditioning system utilizes underground water wells to store energy, and can be used in winter and summer with low energy consumption.

The technical solution adopted in the present invention is that the household air-conditioning system combined with well water cold storage includes a two-stage evaporative cooling air-handling unit connected to the air-conditioned room and floor radiant coils laid in the air-conditioned room, and also includes groundwater Wells and hot water boilers, and two-stage evaporative cooling air handling units, groundwater wells, hot water boilers and floor radiant coils are connected through water pipe networks.

The present invention is also characterized in that:

The two-stage evaporative cooling air handling unit includes an organic unit casing. Fresh air outlets and air supply outlets are respectively arranged on the opposite side walls of the unit casing. To supply air to the air-conditioned room; the unit casing is provided with a surface cooler, a front water baffle, a direct evaporative cooling unit and a blower in sequence according to the flow direction of the air after entering; the direct evaporative cooling unit includes packing, and the top of the packing is provided with Water distribution device, a circulating water tank is installed under the filling, and the water distribution device is connected to the circulating water tank through a water storage pipe, and a circulating water pump and a valve are arranged on the water storage pipe; the surface cooler and the circulating water tank are connected to the underground water well and the hot water boiler , The floor radiant coils are connected through a water pipe network.

A filter unit is arranged between the fresh air outlet and the surface cooler.

The filter unit adopts coarse filter.

The water pipe network structure between the surface cooler and circulating water tank, groundwater well, hot water boiler, and floor radiant coil is as follows:

The surface cooler is connected to the groundwater well through the water supply pipe and the return pipe, and the circulating water tank is connected to the groundwater well through the water supply pipe of the circulating water tank; the water supply pipe passes through the first circulating water pipe, the second circulating water pipe and the third circulating water pipe and the floor radiation coil in turn The connection between the first circulating water pipe and the second circulating water pipe is connected to the hot water boiler through the sixth circulating water pipe, and the connection between the second circulating water pipe and the third circulating water pipe is connected to the hot water boiler through the eighth circulating water pipe The water supply pipe of the circulating water tank is connected to the other port of the floor radiant coil through the fourth circulating water pipe and the fifth circulating water pipe in turn, and the connection between the fourth circulating water pipe and the fifth circulating water pipe is connected to the sixth circulating water pipe through the seventh circulating water pipe .

The water supply pipe is provided with a replenishing water pump; the water supply pipe of the circulating water tank is provided with a winter boiler replenishing water pump; the first circulating water pipe is provided with a valve f; the second circulating water pipe is provided with a valve c; the fourth circulating water pipe is provided with a valve b; The sixth circulating water pipe is provided with a valve e; the seventh circulating water pipe is provided with a valve d; the eighth circulating water pipe is respectively provided with a valve a and a hot water circulating water pump.

The beneficial effects of the present invention are:

(1) Underground water wells have been adopted in the household type air-conditioning system of the present inventor, and rainwater can be collected in rainy days, effectively utilizing natural water resources; Maintain at 15°C to 17°C.

(2) The household type air conditioning system of the present invention provides the water in the groundwater well with the water temperature maintained at 15°C to 17°C to the two-stage evaporative cooling air handling unit, and the fresh air completes cooling and humidification after being processed by the two-stage evaporative cooling air handling unit , forming cold air that meets the air supply conditions.

(3) The household air-conditioning system of the present invention includes a floor radiant coil, and the floor radiant coil is laid in the air-conditioned room to maintain the water temperature at 15° C. to 17° C. The water in the groundwater well directly flows into the floor radiant coil In the middle, the floor radiant coil can take away the sensible heat of the air-conditioned room.

(4) the inventor's household type air-conditioning system also includes a boiler hot water system for heating in winter, and the circulating water in the boiler hot water system is also provided by the groundwater well, and the water in the groundwater well is relatively higher than the tap water temperature in winter, so It can improve the working efficiency of the hot water boiler and reduce the energy consumption of the boiler.

Description of drawings

Fig. 1 is a structural schematic diagram of the household air-conditioning system of the present invention.

In the figure, 1. Fresh air outlet, 2. Surface cooler, 3. Front water deflector, 4. Water distributor, 5. Filler, 6. Circulating water pump, 7. Air blower, 8. Air supply pipe, 9. Air supply outlet , 10. Floor radiant coil, 11. Hot water boiler, 12. Hot water circulating pump, 13. Valve a, 14. Valve b, 15. Valve c, 16. Valve d, 17. Valve e, 18. Valve f , 19. Valve g, 20. Circulating water tank, 21. Boiler water supply pump in winter, 22. Water supply pump, 23. Water supply pipe of circulating water tank, 24. Groundwater well, 25. Return pipe, 26. Water supply pipe, 27. Coarse filter 28. Air-conditioned room, G1. The first circulating water pipe, G2. The second circulating water pipe, G3. The third circulating water pipe, G4. The fourth circulating water pipe, G5. The fifth circulating water pipe, G6. The sixth circulating water pipe, G7 . The seventh circulating water pipe, G8. The eighth circulating water pipe.

detailed description

The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

The household air-conditioning system combined with well water cold storage of the present invention, as shown in Figure 1, includes a two-stage evaporative cooling air handling unit communicated with an air-conditioned room 28 and a floor radiant coil 10 laid in the air-conditioned room 28, and also includes There are groundwater wells 24 and hot water boilers 11, and the two-stage evaporative cooling air handling units, groundwater wells 24, hot water boilers 11 and floor radiant coils 10 are connected through a water pipe network.

The two-stage evaporative cooling air handling unit, as shown in Figure 1, includes an organic unit housing, and the opposite side walls of the unit housing are respectively provided with a fresh air outlet 1 and an air supply outlet 9, and the air supply outlet 9 is connected to the air supply pipe 8, and The air supply pipe 8 extends into the air-conditioning room 28, and is used to supply air to the air-conditioning room 28; the air cooler 2, the front water deflector 3, the direct evaporative cooling unit and Blower 7; direct evaporative cooling unit, including filler 5, water distributor 4 is arranged above filler 5, circulating water tank 20 is arranged below filler 5, water distributor 4 is connected with circulating water tank 20 through water storage pipe, and in The water storage pipe is provided with a circulating water pump 6 and a valve g19; the surface cooler 2 and the circulating water tank 20 are connected to the underground water well 24, the hot water boiler 11 and the floor radiant coil 10 through a water pipe network.

A filter unit is arranged between the fresh air outlet 1 and the surface cooler 2 , and the filter unit adopts a coarse-effect filter 27 .

The water pipe network structure between the surface cooler 2, the circulating water tank 20, the underground water well 24, the hot water boiler 11, and the floor radiant coil 10 is as follows:

The surface cooler 2 is connected to the groundwater well 24 through the water supply pipe 26 and the return pipe 25 respectively, and the circulating water tank 20 is connected to the groundwater well 24 through the water supply pipe 23 of the circulating water tank; the water supply pipe 26 passes through the first circulating water pipe G1 and the second circulating water pipe G2 in sequence and the third circulating water pipe G3 is connected to a port of the floor radiant coil 10, the junction of the first circulating water pipe G1 and the second circulating water pipe G2 is connected to the hot water boiler 11 through the sixth circulating water pipe G6, the second circulating water pipe G2 and The connection of the third circulating water pipe G3 is connected to the hot water boiler 11 through the eighth circulating water pipe G8; the water supply pipe 23 of the circulating water tank is connected to the other port of the floor radiant coil 10 through the fourth circulating water pipe G4 and the fifth circulating water pipe G5 in turn , the junction of the fourth circulating water pipe G4 and the fifth circulating water pipe G5 is connected to the sixth circulating water pipe G6 through the seventh circulating water pipe G7.

The water supply pipe 26 is provided with a supplementary water pump 22, the water supply pipe 23 of the circulating water tank is provided with a winter boiler supplementary water pump 21, the first circulating water pipe G1 is provided with a valve f18, the second circulating water pipe G2 is provided with a valve c15, and the fourth circulating water pipe G4 is provided with a valve b14, the sixth circulating water pipe G6 is provided with a valve e17, the seventh circulating water pipe G7 is provided with a valve d16, and the eighth circulating water pipe G8 is provided with a valve a13 and a hot water circulating pump 12 respectively.

In the household air-conditioning system combined with well water cold storage of the present invention, the groundwater well 24 is used for water source: (1) to provide the cold water needed for cooling in summer, (2) to provide circulating water for the hot water boiler 11 in winter, the groundwater well 24 can collect rainwater, and due to the effect of geothermal energy, it can cool down the collected rainwater, thus utilizing geothermal energy, a renewable resource, to a large extent, reducing the energy waste caused by traditional refrigeration, and at the same time It also solves the problem that the air-conditioned room cannot be cooled and humidified due to lack of water resources in dry areas.

The working process of the household air-conditioning system combined with well water cold storage in the present invention is as follows:

(1) In summer:

The rainwater is collected and stored by the groundwater well 24, and the collected rainwater is cooled by geothermal energy during the period. When the temperature and humidity in the air-conditioned room 28 need to be adjusted in summer, the boiler replenishment water pump 21 and the replenishment water pump 22 are turned on in winter, and at the same time Open valve b14, valve c15, valve f18, and valve g19, and close valve a13, valve d16, and valve e17. At this time, the household air-conditioning system combined with well water cold storage in the present invention is actually an air-water system, and its specific working process is as follows:

The fresh air enters the interior of the two-stage evaporative cooling air handling unit through the fresh air outlet 1, and is filtered by the filter unit (coarse effect filter 27) and the front water baffle 3 to form clean fresh air; the clean fresh air flows through the surface cooler 2 , complete the wet cooling to form the primary cooling air; the primary cooling air continues to flow into the direct evaporative cooling unit, and is heated at the filler 5 with the circulating water (water in the groundwater well 24) sprayed down by the water distributor 4 Wet exchange, further cooling, forming secondary cooling air; the secondary cooling air is sent out through the air supply port 9 under the action of the blower 7 and sent into the air-conditioned room 28 through the air supply pipe 8;

In addition, under the action of the replenishing water pump 22, part of the water is sequentially sent to the floor radiant coil 10 laid in the air-conditioned room 28 through the first circulating water pipe G1, the second circulating water pipe G2 and the third circulating water pipe G3 to take away the air conditioner. Partial residual heat in room 28.

(2) In winter:

The groundwater well 24 has the effect of keeping the water stored inside. In winter, close the two-stage evaporative cooling air handling unit, open the valve a13, valve d16, valve e17 and valve f18, and close the valve b14, valve c15 and valve g19. The specific work The process is as follows:

The water in the groundwater well 24 is supplied to the hot water boiler 11 through the fourth circulating water pipe G4 and the seventh circulating water pipe G7 successively under the action of the boiler replenishment water pump 21 in winter, and is heated by the hot water circulating water pump 12 after the internal heating of the hot water boiler 11. It is transported along the eighth circulating water pipe G8 to the floor radiant coil 10 laid in the air-conditioned room 28, which is used to bring the required heat in the air-conditioned room 28, and then the water in the floor radiant coil 10 passes through the fifth circulating water pipe in turn G5, the seventh circulating water pipe G7 flows back to the hot water boiler 11 for heating; repeat the above cycle; during the period, the groundwater well 24 passes through the water supply pipe 26, the first circulating water pipe G1, the second circulating water pipe G2 and the eighth circulating water pipe G8 in sequence. Hot water boiler 11 replenishes water.

Claims (6)

1. the family expenses air-conditioning system of surge well water cold storage, it is characterised in that include two connected with air-conditioned room (28) Level evaporation cooling air processor group and the flooring radiation coil pipe (10) being layed in air-conditioned room (28), also include underground water Well (24) and hot-water boiler (11), and the double flash evaporation cooling air processor group, underground water well (24), hot-water boiler (11) And connected between flooring radiation coil pipe (10) by grid.

2. family expenses air-conditioning system according to claim 1, it is characterised in that the double flash evaporation cooling air processing Unit, includes and fresh wind port (1), air outlet (9) is respectively arranged with machine unit shell, the relative two side of the machine unit shell, The air outlet (9) connection ajutage (8), and the ajutage (8) stretched into air-conditioned room (28), for air-conditioned room (28) blown in；

In the machine unit shell according to air enter rear flow direction be disposed with surface cooler (2), it is preceding water fender (3), direct Evaporate cooling unit and pressure fan (7)；

The direct evaporating-cooling unit, includes and is provided with water-locator (4) above filler (5), the filler (5), described Cyclic water tank (20) is provided with below filler (5), the water-locator (4) is connected by water pipe with cyclic water tank (20), and Water circulating pump (6) and valve g (19) are provided with the water pipe；

The surface cooler (2) and cyclic water tank (20) and underground water well (24), hot-water boiler (11), flooring radiation coil pipe (10) it Between connected by grid.

3. family expenses air-conditioning system according to claim 2, it is characterised in that the fresh wind port (1) and surface cooler (2) Between be provided with filter element.

4. family expenses air-conditioning system according to claim 3, it is characterised in that the filter element is using thick effect filtering Device (27).

5. family expenses air-conditioning system according to claim 2, it is characterised in that the surface cooler (2) and cyclic water tank (20) the water pipe web frame between underground water well (24), hot-water boiler (11), flooring radiation coil pipe (10) is specific as follows：

The surface cooler (2) is connected by feed pipe (26), return pipe (25) with underground water well (24) respectively, the cyclic water tank (20) it is connected by cyclic water tank feed pipe (23) with underground water well (24)；

The feed pipe (26) passes sequentially through first circulation water pipe (G1), second circulation water pipe (G2) and the 3rd circulating water pipe (G3) It is connected with the Single port of flooring radiation coil pipe (10)；The first circulation water pipe (G1) and the junction of second circulation water pipe (G2) It is connected by the 6th circulating water pipe (G6) with hot-water boiler (11), the second circulation water pipe (G2) and the 3rd circulating water pipe (G3) Junction be connected by the 8th circulating water pipe (G8) with hot-water boiler (11)；

The cyclic water tank feed pipe (23) passes sequentially through the 4th circulating water pipe (G4), the 5th circulating water pipe (G5) and flooring radiation The junction of the another port connection of coil pipe (10), the 4th circulating water pipe (G4) and the 5th circulating water pipe (G5) passes through the 7th Circulating water pipe (G7) is connected with the 6th circulating water pipe (G6).

6. family expenses air-conditioning system according to claim 5, it is characterised in that be provided with benefit on the feed pipe (26) Water water pump (22)；

Winter boiler replenishing water water pump (21) is provided with the cyclic water tank feed pipe (23)；

Valve f (18) is provided with the first circulation water pipe (G1)；

Valve c (15) is provided with the second circulation water pipe (G2)；

Valve b (14) is provided with 4th circulating water pipe (G4)；

Valve e (17) is provided with 6th circulating water pipe (G6)；

Valve d (16) is provided with 7th circulating water pipe (G7)；

Valve a (13), hot-water circulating pump (12) are respectively arranged with 8th circulating water pipe (G8).