CN203928226U - The aircondition of a kind of combination evaporative cooling and water curtain outer wall - Google Patents

Abstract

The aircondition of the disclosed a kind of combination evaporative cooling of the utility model and water curtain outer wall, includes the Evaporative Cooling Air Conditioning unit, room end equipment, contra-flow heat exchanger, cold-storage tank, the water curtain outer wall module that connect by pipe network.Aircondition of the present utility model, the water circulation in daytime water curtain outer wall flows and can take away the solar radiant heat of building surface, reduces the peripheral structure refrigeration duty forming of conducting heat; At night, this system can make full use of night favourable weather condition and carry out cold-storage, the water lower temperature making is stored in to underground cold-storage tank, for daytime; To the ventilation of room cold-storage of lowering the temperature, can postpone the second day time to room cooling with the cold wind of producing, there is energy-saving and environmental protection and economic feature.

Description

The aircondition of a kind of combination evaporative cooling and water curtain outer wall

Technical field

The utility model belongs to operation of air conditioning systems technical field, relates to the aircondition of a kind of combination evaporative cooling and water curtain outer wall.

Background technology

A lot of top-grade buildings adopt glass curtain wall as peripheral structure, in summer, solar radiation is on curtain wall, a solar radiation part is reflected, a part directly sees through glass curtain wall and enters indoorly, and some is absorbed, absorbed part again in the mode of heat wave respectively to indoor and outdoors radiation, this refrigeration duty that makes in building to obtain due to insolation thermosetting is very large, and then has caused air conditioning energy consumption to roll up.

Again due to daytime urban distribution network pressure larger, and daytime, electricity price was higher, air-conditioning system operating cost is high; And night, electric power was at a low ebb, electricity price is also relatively low.For this phenomenon, if utilize open unit when electric power low ebb night, the cold making was stored for daytime, be conducive to like this alleviate electrical network pressure, save operating cost.

And, when summer high temperature weather, when air-conditioning system finishes after operation in a day, outdoor temperature is still very high, and heat imports into indoor by building enclosure, makes indoor waste heat amount very large, when within second day, air-conditioning system is moved again, need to increase refrigerating capacity and eliminate this part waste heat, energy consumption increases.

Utility model content

The purpose of this utility model is to provide the aircondition of a kind of combination evaporative cooling and water curtain outer wall, and the water circulation energy of flow in daytime water curtain outer wall is taken away the solar radiant heat of building surface, reduces the peripheral structure refrigeration duty forming of conducting heat; Carry out cold-storage night, the water at low temperature making is stored in to cold-storage tank, for daytime.

The technical scheme that the utility model adopts is that the aircondition of a kind of combination evaporative cooling and water curtain outer wall, includes the Evaporative Cooling Air Conditioning unit, room end equipment, contra-flow heat exchanger, cold-storage tank, the water curtain outer wall module that connect by pipe network.

Feature of the present utility model is also:

Evaporative Cooling Air Conditioning unit, include machine unit shell, machine unit shell is symmetrically arranged with respectively new wind entrance on relative two side, central authorities in machine unit shell are provided with Air-water Direct Contact countercurrent filling tower, the arranged on left and right sides of Air-water Direct Contact countercurrent filling tower is symmetrically arranged with respectively surface cooler, between the new wind entrance of surface cooler 3 and homonymy, is provided with filter;

Air-water Direct Contact countercurrent filling tower, includes filler, and the top of filler is disposed with water-locator and pressure fan, on machine unit shell roof corresponding to pressure fan top, is provided with air outlet; The below of filler is provided with cyclic water tank, between filler and cyclic water tank, forms air channel;

Two surface coolers, water-locator, cyclic water tanks are connected with room end equipment, contra-flow heat exchanger, cold-storage tank, water curtain outer wall module by pipe network.

Air-water Direct Contact formula countercurrent packed tower is detachable Air-water Direct Contact formula countercurrent packed tower.

The pipe network structure connecting between Evaporative Cooling Air Conditioning unit, room end equipment, contra-flow heat exchanger, cold-storage tank, water curtain outer wall module is:

Cyclic water tank is connected with water pipe G1, water pipe G1 is connected with cold-storage tank with room end equipment by water pipe G2, water pipe G4 respectively, room end equipment is connected with water-locator by water pipe G6, water pipe G3, is provided with valve V1 on water pipe G2, is provided with water circulating pump c on water pipe G6;

Cold-storage tank is connected with water pipe G6 by water pipe G5, and cold-storage tank is also connected with water pipe Y7 by water pipe G8;

The delivery port of two surface coolers is connected with water pipe Y7 by water pipe Y6, water pipe Y5 respectively, and the multiple arms on water pipe Y7 are connected with the multiple water inlets 13 in water curtain outer wall module respectively; The water inlet of two surface coolers is connected with water pipe Y3 by water pipe Y1, water pipe Y2 respectively, water pipe Y3 is connected with contra-flow heat exchanger, water pipe Y3 is connected with water pipe Y4, multiple arms on water pipe Y4 are connected with the multiple delivery ports in water curtain outer wall module respectively, water pipe Y4 is connected with water pipe G6 by water pipe G7, and the two ends of water pipe Y8 are all connected with water pipe Y3.

Room end equipment is various indoor ends, new blower fan group or assembled air-conditioner unit; On contra-flow heat exchanger, be connected with respectively outlet pipe and water inlet pipe.

Cold-storage tank adopts natural layering cold-storage tank or diaphragm type cold-storage groove; Cold-storage tank is embedded in underground; The outer setting of cold-storage tank has heat-insulation layer.

Water curtain outer wall module is made up of polylith water curtain outer wall;

Water curtain outer wall, includes glass wall, and the top of glass wall is provided with water inlet, and the bottom of glass wall is provided with delivery port;

Glass wall, is made up of outer glassy layer and interior glassy layer and enclosing glassy layer, and outer glassy layer and interior glassy layer are set in parallel, and between outer glassy layer and interior glassy layer, form water trapping layer.

In water trapping layer, be provided with polylith deflector, polylith deflector connects successively from top to bottom and is reciprocal collapsible setting, and the end of every deflector is provided with the eyelet that leaks.

On water pipe G1, be provided with valve V6; On water pipe G4, be provided with valve V7; On water pipe G5, be provided with valve V2; On water pipe G6, be provided with valve V9; On water pipe G7, be provided with valve V5; Water pipe G8 is upper is disposed with water circulating pump b11 and valve V4 by water (flow) direction.

On water pipe Y3, be provided with valve V3; On water pipe Y4, be provided with multiple arms; On water pipe Y7, be provided with water circulating pump a10; On water pipe Y8, be provided with valve V8.

The beneficial effects of the utility model are:

1) in aircondition of the present utility model, water curtain outer wall is made to modularization, not only can play the beauty function of traditional glass curtain wall, and can improve insulation and the heat-proof quality of building.

2) in aircondition of the present utility model, the water in water curtain outer wall slowly flows down along deflector, can reduce the refrigeration duty that skin heat transfer forms; In addition, can reclaim the solar energy that water curtain outer wall absorbs by contra-flow heat exchanger, provide domestic hot-water to user.

3) night, wet-bulb temperature was lower, and wet-bulb depression is large, opened the Evaporative Cooling Air Conditioning unit in the utility model aircondition at night, can improve cooling effectiveness; And deflector can make water and surrounding environment carry out sufficient radiation heat transfer, the water that temperature is lower enters Evaporative Cooling Air Conditioning unit refrigeration, makes the leaving water temperature of Evaporative Cooling Air Conditioning unit very low, and cold storage capacity is large.

4) in aircondition of the present utility model, Evaporative Cooling Air Conditioning set structure is simple, and Air-Water adverse current filler can dismantle, and conveniently at transition season, room is ventilated.

5) in aircondition of the present utility model, water curtain outer wall is combined with Evaporative Cooling Air Conditioning unit, the cold storing night, for cooling on daytime, can be alleviated to shortage of electric power on daytime, there is energy-conservation and economic feature.

6) adopt aircondition of the present utility model at night to the aeration-cooling cold-storage in conditioned area, contribute to postpone second day for cool time, reduce air conditioning energy consumption.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model aircondition.

Fig. 2 is the structural representation of water curtain outer wall in the utility model aircondition.

In figure, 1. new wind entrance, 2. filter, 3. surface cooler, 4. cyclic water tank, 5. filler, 6. water-locator, 7. pressure fan, 8. the eyelet that leaks, 9. deflector, 10. water circulating pump a, 11. water circulating pump b, 12. water circulating pump c, 13. water inlets, 14. delivery ports, 15. outer glassy layers, 16. water trapping layers, 17. interior glassy layers, A. Evaporative Cooling Air Conditioning unit, B. room end equipment, C. contra-flow heat exchanger, D. cold-storage tank, E. water curtain outer wall module.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is elaborated.

The utility model is in conjunction with the aircondition of evaporative cooling and water curtain outer wall, and its structure as shown in Figure 1, includes the Evaporative Cooling Air Conditioning unit A, room end equipment B, contra-flow heat exchanger C, cold-storage tank D and the water curtain outer wall module E that connect by pipe network.

Evaporative Cooling Air Conditioning unit A, include machine unit shell, machine unit shell is symmetrically arranged with respectively new wind entrance 1 on relative two side, central authorities in machine unit shell are provided with Air-water Direct Contact countercurrent filling tower, the arranged on left and right sides of Air-water Direct Contact countercurrent filling tower is symmetrically arranged with respectively surface cooler 3, between the new wind entrance 1 of surface cooler 3 and homonymy, is provided with filter 2; Air-water Direct Contact countercurrent filling tower, includes filler 5, and the top of filler 5 is disposed with water-locator 6 and pressure fan 7, on machine unit shell roof corresponding to pressure fan 7 tops, is provided with air outlet; The below of filler 5 is provided with cyclic water tank 4, between filler 5 and cyclic water tank 4, forms air channel.

Two surface coolers 3, water-locator 6, cyclic water tanks 4 are connected with room end equipment B, contra-flow heat exchanger C, cold-storage tank D, water curtain outer wall module E by pipe network.

Air-water Direct Contact formula countercurrent packed tower is detachable Air-water Direct Contact formula countercurrent packed tower.

Pipe network structure between Evaporative Cooling Air Conditioning unit A, room end equipment B, contra-flow heat exchanger C, cold-storage tank D, water curtain outer wall module E is:

Cyclic water tank 4 in Evaporative Cooling Air Conditioning unit A is connected with water pipe G1, water pipe G1 is connected with respectively water pipe G2, water pipe G4, water pipe G2 is upper is connected with valve V1, room end equipment B and water circulating pump c12 in turn by water (flow) direction, water pipe G2 is connected with the water-locator 6 in Evaporative Cooling Air Conditioning unit A by water pipe G6, water pipe G3 successively, and water pipe G4 is connected with cold-storage tank D;

Cold-storage tank D is connected with water pipe G6 by water pipe G5, and cold-storage tank D is also connected with water pipe Y7 by water pipe G8;

The delivery port of two surface coolers 3 is connected with water pipe Y7 by water pipe Y6, water pipe Y5 respectively, multiple arms on water pipe Y7 are connected with the multiple water inlets 13 in water curtain outer wall module E respectively, the water inlet of two surface coolers 3 is connected with water pipe Y3 by water pipe Y1, water pipe Y2 respectively, on water pipe Y3, be connected with contra-flow heat exchanger C, water pipe Y3 is connected with water pipe Y4, and the multiple arms on water pipe Y4 are connected with the multiple delivery ports 14 in water curtain outer wall module E respectively; Water pipe Y4 is connected with water pipe G6 by water pipe G7, and the two ends of water pipe Y8 are all connected with water pipe Y3.

The end equipment B of air-conditioned room can be various indoor ends, new blower fan group or assembled air-conditioner unit.

On contra-flow heat exchanger C, be connected with respectively outlet pipe and water inlet pipe.

Cold-storage tank D can be embedded in underground, and there is Insulation outside; Cold-storage tank D can adopt natural layering cold-storage tank or diaphragm type cold-storage groove.

Water curtain outer wall module E is made up of polylith water curtain outer wall; As shown in Figure 2, water curtain outer wall, includes glass wall, and the top of glass wall is provided with water inlet 13, and the bottom of glass wall is provided with delivery port 14; Glass wall is made up of outer glassy layer 15 and interior glassy layer 17 and enclosing glassy layer, and outer glassy layer 15 and interior glassy layer 17 are set in parallel, and between outer glassy layer 15 and interior glassy layer 17, form water trapping layer 16; In water trapping layer 16, be provided with polylith deflector 9, polylith deflector 9 connects successively from top to bottom and is reciprocal collapsible setting, and the end of every deflector 9 is provided with the eyelet 8 that leaks.Water curtain outer wall module E not only can play the beauty function of traditional glass curtain wall, and can improve insulation, the heat-proof quality of building.

On water pipe G1, be provided with valve V6, on water pipe G4, be provided with valve V7; On water pipe G5, be provided with valve V2; On water pipe G6, be provided with valve V9; On water pipe G7, be provided with valve V5; Water pipe G8 is upper is disposed with water circulating pump b11 and valve V4 by water (flow) direction.

On water pipe Y3, be provided with valve V3; On water pipe Y4, be provided with multiple arms; On water pipe Y7, be provided with water circulating pump a10; On water pipe Y8, be provided with valve V8.

The course of work of the utility model aircondition comprises process of cool and releases cold process:

1) process of cool:

Night is when cold-storage, as shown in Figure 1, Open valve V4, valve V5, valve V6, valve V7, valve V8, valve V9, valve-off V1, valve V2, valve V3, ON cycle water pump a10, water circulating pump b11, close water circulating pump c12; Water in polylith water curtain outer wall in water curtain outer wall module E slowly flows down along deflector 9, carry out sufficient radiation heat transfer with surrounding environment, after being cooled, the new wind of surface cooler 3 precooling that part current enter both sides in machine unit shell along water pipe Y4, water pipe Y8, water pipe Y1, water pipe Y2, then gets back to water curtain outer wall module E along water pipe Y5, water pipe Y6, water pipe Y7; Another part current enter in Evaporative Cooling Air Conditioning unit A along water pipe Y4, water pipe G7, water pipe G3, deliver to water-locator 6 and spray; Through the new wind of precooling in Air-water Direct Contact countercurrent filling tower with filler 5 on moisture film there is the wet exchange of heat, finally make circulating water temperature be reduced to the dew-point temperature that approaches outdoor air, by water pipe G1, water pipe G4, cold is stored in cold-storage tank D; Meanwhile, the outdoor new wind that temperature reduces is sent into air-conditioned room by pressure fan 7, and air-conditioned room is carried out to aeration-cooling cold-storage.

2) release cold process:

A. transition season, disassembles Air-water Direct Contact formula countercurrent packed tower from Evaporative Cooling Air Conditioning unit A;

Open valve V1, valve V2, valve V3, valve V7, valve-off V4, valve V5, valve V6, valve V8, valve V9, ON cycle water pump a10, water circulating pump c12, close water circulating pump b11;

Water circulation in daytime water curtain outer wall module E flows and can take away the solar radiant heat of building surface, the water that temperature is higher enters in contra-flow heat exchanger C along water pipe Y4, after heat-exchange temperature reduces, passes into the new wind of precooling in two surface coolers 3 along water pipe Y3, water pipe Y1, water pipe Y2; Outdoor new wind through filter 2, surface cooler 3 purify, lower the temperature process after send into room by pressure fan 7, carry out aeration-cooling to air-conditioned room; Meanwhile, the cold water in cold-storage tank D is delivered to room end equipment B along water pipe G4, water pipe G2 successively under the effect of water circulating pump c12, and in fan coil, the waste heat of taking away room is remaining wet, then turns back to cold-storage tank D along water pipe G5.

B. summer when scorching temperature, when the cold of depositing as cold-storage tank D can not meet cooling demand, ON cycle water pump a10, water circulating pump c12, close water circulating pump b11; Open valve V1, valve V2, valve V3, valve V6, valve V7, valve V9, valve-off V4, valve V5, valve V8.Water circulation in daytime water curtain outer wall module E flows and can take away the solar radiant heat of building surface, the water that temperature is higher enters in contra-flow heat exchanger C along water pipe Y4, after heat-exchange temperature reduces, passes into the new wind of precooling in surface cooler 3 along water pipe Y3, water pipe Y1, water pipe Y2; Outdoor new wind through filter 2, surface cooler 3 purify, after precooling treatment with Air-water Direct Contact formula countercurrent packed tower on moisture film carry out the wet exchange of heat, make the leaving water temperature of Evaporative Cooling Air Conditioning unit A approach the dew-point temperature of outdoor air; Control valve V6, valve V7, after cold water that Evaporative Cooling Air Conditioning unit A produces is mixed in certain proportion with the water of cold-storage tank D, send air-conditioned room end equipment B along water pipe G2 by water circulating pump c12, takes away room residual heat remaining wet; Control valve V2, valve V9, make a part of backwater return to cold-storage tank D along water pipe G5, and another part arrives water-locator 6 along water pipe G6, water pipe G3 and sprays, and return water temperature is lower, can make the good refrigeration that has of Evaporative Cooling Air Conditioning unit A; The cold wind that Evaporative Cooling Air Conditioning unit A produces is sent to air-conditioned room by pressure fan 7, takes away room residual heat.

Aircondition of the present utility model, the water circulation in daytime water curtain outer wall flows and can take away the solar radiant heat of building surface, reduces the peripheral structure refrigeration duty forming of conducting heat.At night, this system can make full use of night favourable weather condition and carry out cold-storage, the water lower temperature making is stored in to underground cold-storage tank, for daytime.To the ventilation of room cold-storage of lowering the temperature, can postpone the second day time to room cooling with the cold wind of producing, there is energy-saving and environmental protection and economic feature.

Claims (8)

1. the aircondition in conjunction with evaporative cooling and water curtain outer wall, it is characterized in that, include the Evaporative Cooling Air Conditioning unit (A), room end equipment (B), contra-flow heat exchanger (C), cold-storage tank (D), the water curtain outer wall module (E) that connect by pipe network;

Described Evaporative Cooling Air Conditioning unit (A), include machine unit shell, described machine unit shell is symmetrically arranged with respectively new wind entrance (1) on relative two side, central authorities in described machine unit shell are provided with Air-water Direct Contact countercurrent filling tower, the arranged on left and right sides of described Air-water Direct Contact countercurrent filling tower is symmetrically arranged with respectively surface cooler (3), between the new wind entrance (1) of described surface cooler (3) and homonymy, is provided with filter (2);

Described Air-water Direct Contact countercurrent filling tower, include filler (5), the top of described filler (5) is disposed with water-locator (6) and pressure fan (7), on machine unit shell roof corresponding to described pressure fan (7) top, is provided with air outlet; The below of described filler (5) is provided with cyclic water tank (4), between described filler (5) and described cyclic water tank (4), forms air channel;

Described two surface coolers (3), water-locator (6), cyclic water tank (4) are connected with room end equipment (B), contra-flow heat exchanger (C), cold-storage tank (D), water curtain outer wall module (E) by pipe network;

The pipe network structure connecting between described Evaporative Cooling Air Conditioning unit (A), room end equipment (B), contra-flow heat exchanger (C), cold-storage tank (D), water curtain outer wall module (E) is:

Described cyclic water tank (4) is connected with water pipe G1, described water pipe G1 is connected with cold-storage tank (D) with room end equipment (B) by the second water pipe G2, water pipe G4 respectively, room end equipment (B) is connected with water-locator (6) by water pipe G6, water pipe G3, on described water pipe G2, be provided with valve V1, on described water pipe G6, be provided with water circulating pump c (12);

Described cold-storage tank (D) is connected with water pipe G6 by water pipe G5, and described cold-storage tank (D) is also connected with water pipe Y7 by water pipe G8;

The delivery port of described two surface coolers (3) is connected with water pipe Y7 by water pipe Y6, water pipe Y5 respectively, and the multiple arms on described water pipe Y7 are connected with the multiple water inlets (13) in water curtain outer wall module (E) respectively; The water inlet of described two surface coolers (3) is connected with water pipe Y3 by water pipe Y1, water pipe Y2 respectively, described water pipe Y3 is connected with contra-flow heat exchanger (C), described water pipe Y3 is connected with water pipe Y4, multiple arms on described water pipe Y4 are connected with the multiple delivery ports (14) in water curtain outer wall module (E) respectively, described water pipe Y4 is connected with water pipe G6 by water pipe G7, and the two ends of water pipe Y8 are all connected with described water pipe Y3.

2. aircondition according to claim 1, is characterized in that, described Air-water Direct Contact formula countercurrent packed tower is detachable Air-water Direct Contact formula countercurrent packed tower.

3. aircondition according to claim 1, is characterized in that, described room end equipment (B) is various indoor ends, new blower fan group or assembled air-conditioner unit;

On described contra-flow heat exchanger (C), be connected with respectively outlet pipe and water inlet pipe.

4. aircondition according to claim 1, is characterized in that, described cold-storage tank (D) adopts natural layering cold-storage tank or diaphragm type cold-storage groove; Described cold-storage tank (D) is embedded in underground; The outer setting of described cold-storage tank (D) has heat-insulation layer.

5. aircondition according to claim 1, is characterized in that, described water curtain outer wall module (E) is made up of polylith water curtain outer wall;

Described water curtain outer wall, includes glass wall, and the top of described glass wall is provided with water inlet (13), and the bottom of described glass wall is provided with delivery port (14);

Described glass wall, formed by outer glassy layer (15) and interior glassy layer (17) and enclosing glassy layer, described outer glassy layer (15) and interior glassy layer (17) are set in parallel, and between described outer glassy layer (15) and interior glassy layer (17), form water trapping layer (16).

6. aircondition according to claim 5, it is characterized in that, in described water trapping layer (16), be provided with polylith deflector (9), polylith deflector (9) connects and is reciprocal collapsible setting from top to bottom successively, and the end of every deflector (9) is provided with the eyelet that leaks (8).

7. aircondition according to claim 1, is characterized in that, on described water pipe G1, is provided with valve V6; On described water pipe G4, be provided with valve V7; On described water pipe G5, be provided with valve V2; On described water pipe G6, be provided with valve V9; On described water pipe G7, be provided with valve V5; Described water pipe G8 is upper is disposed with water circulating pump b (11) and valve V4 by water (flow) direction.

8. aircondition according to claim 1, is characterized in that, on described water pipe Y3, is provided with valve V3; On described water pipe Y4, be provided with multiple arms; On described water pipe Y7, be provided with water circulating pump a (10); On described water pipe (Y8), be provided with valve V8.