CN203375588U - Evaporative cooling, solar energy and semiconductor integrated air-conditioner - Google Patents

Abstract

The utility model discloses an evaporative cooling, solar energy and semiconductor integrated air-conditioner comprising a split evaporative air-conditioner, a solar heat collector, capillary network modules, a floor radiating tube and a semiconductor refrigerating and heating device which are connected with through a pipe network. The capillary network modules are laid on indoor ceiling, the floor radiating tube is laid under indoor flooring, and the split evaporative air-conditioner, the solar heat collector and the semiconductor refrigerating and heating device are arranged outdoor. The semiconductor refrigerating and heating device assists the split evaporative air-conditioner to generate high-temperature cool water and assists the solar heat collector to generate low-temperature hot water, and the capillary network and the floor radiating tube are utilized at the tail, so that refrigerating and cooling are both achieved.

Description

The air conditioner that a kind of evaporative cooling, solar energy and semiconductor are compound

Technical field

The utility model belongs to air conditioner refrigerating and heating equipment technical field, relate to the air-conditioning system that a kind of evaporative cooling, solar energy combine with semiconductor, be specifically related to a kind of evaporative cooling of split type evaporation air-conditioning device, solar thermal collector, Semi-conductor, capillary network and flooring radiation radiating tube, the top board radiation cooling that solar energy combines with semiconductor, air conditioner of flooring radiation heating of being provided with.

Background technology

Along with economic growth and social progress, people's quality of life also progressively improves.During the broiling summer, live in the people in residential building or villa, need to carry out the humiture in conditioning chamber with air-conditioning.In the winter time too, people need to meet thermal comfort by heating, thereby improve living condition.People need comfortable indoor environment to comprise comfortable indoor thermal environment and good air quality.

Traditional residential air conditioner adopts the mechanical refrigeration technology, uses CFC _sand the HCFC cold-producing medium, can meet indoor cooling and dehumidifying, but recycle indoor return air, can cause indoor fresh air to lack, indoor air quality is reduced; Traditional house arranges radiator, the hot water that passes into 80～90 ℃ winter carries out heating, the bright dress of radiator, and hot-air is up walked, cause room temperature inhomogeneous up and down, give people's's " a warm pin is cool " sensation, and the air drying also can make people's dry mouth and parching tongue, radiator thermal capacity is little simultaneously, area of dissipation is little, and heat conduction is fast, poor heat stability under the condition of intermitting heating.

Split type evaporation air-conditioning device uses indirectly-direct combination Evaporative Cooling Air Conditioning technology, can output cold wind and cold water, and cold wind is sent into indoor by ajutage, meet the indoor fresh air demand; The shower water of recirculated water and evaporative cooling coil pipe outer surface carries out Exchange of apparent heat, release heat, and temperature reduces, and then sends into indoor end, owing to directly not contacting with shower water, water nonpollution, required pump power also decreases.

The capillary cooling is simulation vein and human capillary vessel's mechanism, the capillary that is generally 3.5～5.0mm left and right by external diameter forms, it has great cooling surface area, adopt the required more traditional air-conditioning of cold water temperature of radiation cooling to want high, can effectively utilize the Evaporative Cooling Air Conditioning technology to produce high temperature cold water, reach energy-conservation purpose.

Solar energy is a kind of natural, green natural energy resources, and it is inexhaustible, and the solar energy hot water preparing is a kind of efficient, energy-conservation mode.Nowadays, solar thermal collector can absorb solar radiant energy, by its energy transform into heat energy, and the water in the heating thermal-collecting tube, thereby hot water preparing.

The flooring radiation heating technology adopts the underground buried tube mode, has cancelled room heater sheet and arm thereof, has increased the usable floor area in room, is convenient to finishing and house fitting-up.The hot water heating floor of circulation mainly transfers heat to air by terrestrial surface radiation, the thermograde that indoor formation sole successively decreases gradually to head, thus give the warm cool comfort of pin, there are hygiene and health, comfortable environment-protection, energy-efficient characteristics; Simultaneously the large and large advantage of dissipation heat ratio of floor heat loss through radiation area, just can be used the low-temperature water heating that is less than 60 ℃, thereby utilize hot water that solar energy produces as heating agent.

Semi-conductor, after passing into electric current, cold and hot section forms the temperature difference, reaches the purpose of cooling and warming.Cooling season, because the cooling effectiveness of split type evaporation air-conditioning device is relevant with outdoor climate, its job insecurity, in conjunction with semiconductor cooling device, can assist split type evaporation air-conditioning device to reduce leaving water temperature, realizes cooling; Heating season, due to solar radiation intensity Changes in weather, have unstable characteristics, but, in conjunction with semiconductor heating device assisted solar heat collector hot water preparing, realize heating.

The utility model content

The air conditioner that provides a kind of evaporative cooling, solar energy and semiconductor compound is provided the purpose of this utility model, has not only realized for cold-peace heating Double-working-condition, and has reduced environmental pollution.

The technical scheme that the utility model adopts is, the air conditioner that a kind of evaporative cooling, solar energy and semiconductor are compound, include the split type evaporation air-conditioning device, solar thermal collector, capillary network module, flooring radiation radiating tube and the Semi-conductor that connect by pipe network, the capillary network module is layed on indoor ceiling, the flooring radiation radiating tube is layed under indoor floor, and split type evaporation air-conditioning device, solar thermal collector and Semi-conductor are arranged at outdoor.

Characteristics of the present utility model also are,

Split type evaporation air-conditioning device includes air-conditioner housing, air-conditioner housing is respectively arranged with fresh wind port, air outlet b on relative two side, be set side by side with the evaporative cooling device in air-conditioner housing and with the direct evaporative cooler of evaporative cooling coil pipe, the top of evaporative cooling device is disposed with water fender a and exhaust blower a, top with the direct evaporative cooler of evaporative cooling coil pipe is disposed with water fender b and exhaust blower b, on the corresponding machine unit shell roof of exhaust blower a and exhaust blower b, all is provided with exhaust outlet;

Solar thermal collector is a kind of in flat type solar heat collector, electron tubes type solar thermal collector or solar energy air heat collector;

The capillary network module includes the polylith capillary network, and every capillary network all adopts the capillary that the PVC material of pipe with small pipe diameter is made to form the net grid;

The flooring radiation radiating tube adopts bending type, run-in index or two run-in index to be arranged under indoor floor, and the flooring radiation radiating tube is three type PA tube or heat-resisting polyethylene tubes;

Semi-conductor is provided with one or more, and the type of attachment between a plurality of Semi-conductors is serial or parallel connection; Be arranged with passage a, passage b and passage c in each Semi-conductor from top to bottom in parallel.

Exhaust blower a and exhaust blower b are frequency conversion fan.

The evaporative cooling device, include the indirect evaporation cooling heat exchanger, be provided with filter between fresh wind port and indirect evaporation cooling heat exchanger, the top of indirect evaporation cooling heat exchanger is disposed with filler a and water-locator a, the bottom of indirect evaporation cooling heat exchanger is disposed with air channel and header tank a, be provided with overfiren air port on the corresponding machine unit shell sidewall in air channel, overfiren air port is arranged at the bottom of fresh wind port, be respectively arranged with immersible pump a and water compensating valve a in header tank a, immersible pump a is connected with water-locator a by feed pipe, water compensating valve a is connected with filling pipe, header tank a also is connected with blow-off pipe a,

With the direct evaporative cooler of evaporative cooling coil pipe, include filler b, the top of filler b is provided with water-locator b, and the bottom of filler b is disposed with evaporative cooling coil pipe, air channel and header tank b, and the water inlet of evaporative cooling coil pipe is connected with return pipe G ₄, the delivery port of evaporative cooling coil pipe is connected with feed pipe G ₁be provided with water fender c near air-conditioner housing sidewall air outlet b place in air channel, be provided with pressure fan between water fender c and air outlet b, be respectively arranged with immersible pump b and water compensating valve b in header tank b, immersible pump b is connected with water-locator b by water pipe, water compensating valve b is connected with filling pipe, and header tank b also is connected with blow-off pipe b.

The indirect evaporation cooling heat exchanger is a kind of in plate fin type indirect evaporative cooling heat exchanger, tubular indirect evaporative cooling heat exchanger or dew point formula indirect evaporation cooling heat exchanger;

Filler a and filler b are a kind of in papery, metal, porous ceramics or PVC material;

Pressure fan is frequency conversion fan;

Immersible pump a and immersible pump b are variable frequency pump;

Water compensating valve a and water compensating valve b are ball-cock assembly or magnetic valve.

Pipe network structure between split type evaporation air-conditioning device, solar thermal collector, capillary network module, flooring radiation radiating tube and Semi-conductor is:

The air outlet b of split type evaporation air-conditioning device is communicated with indoor by ajutage, and the indoor mouth of pipe place of ajutage is provided with air outlet a;

In split type evaporation air-conditioning device, the delivery port of evaporative cooling coil pipe is by feed pipe G ₁, feed pipe G ₂, feed pipe G ₃be connected feed pipe G with the polylith capillary network in the capillary network module ₃on be provided with stop valve P ₁; The water inlet of evaporative cooling coil pipe is by return pipe G ₄be connected return pipe G with the polylith capillary network in the capillary network module ₄on be provided with water circulating pump a;

The thermal-collecting tube water inlet of solar energy catchment device is successively by water pipe G ₁₁, water pipe G ₁₂be connected water pipe G with the delivery port of flooring radiation radiating tube ₁₂on be provided with water circulating pump b, the thermal-collecting tube delivery port of solar energy catchment device is successively by water pipe G ₁₀, water pipe G ₁₃be connected water pipe G with the water inlet of flooring radiation radiating tube ₁₃on be provided with stop valve P ₂;

Feed pipe G ₁on be connected with water pipe G ₅, water pipe G ₅on be provided with three-way valve P ₃, water pipe G ₅by three-way valve P ₃be connected with respectively water pipe G ₈, tube connector a, water pipe G _{, 8}with water pipe G ₁₀connect, two arms on tube connector a are connected with passage a, passage c mono-end of Semi-conductor respectively, between the other end of passage a, passage c, by tube connector b, connect, and tube connector b is also by three-way valve P ₅be connected with respectively water pipe G ₁₄, water pipe G ₆, water pipe G ₁₄with water pipe G ₁₃connect water pipe G ₆with feed pipe G ₃connect return pipe G ₄on be connected with water pipe G ₇, water pipe G ₇by three-way valve P ₄be connected with respectively tube connector c, water pipe G ₉, tube connector c(32) and be connected water pipe G with passage b mono-end of Semi-conductor ₉with water pipe G ₁₁connect, the passage b other end is connected with tube connector a by tube connector d.

The compound air conditioner of evaporative cooling of the present utility model, solar energy and semiconductor also has following characteristics:

(1) air conditioner of the present utility model utilizes natural energy source " water " as cold-producing medium, produces cold water and cold wind and meets the indoor thermal comfort requirement; Utilizing natural energy source " solar energy " hot water preparing, is a kind of resources conservation and environmentally friendly air-conditioning system, and the in short supply and environmental contamination reduction of alleviating conventional energy resource is had certain effect.

(2) air conditioner of the present utility model, adopt the top board radiation cooling in summer, end is comprised of capillary network, and supply water temperature is 16～18 ℃, the high temperature cold water that can utilize split type evaporation air-conditioning device to produce replaces conventional handpiece Water Chilling Units, reaches energy-efficient purpose.

(3) air conditioner of the present utility model, adopt in the winter time the flooring radiation heating, end is comprised of radiating tube, supply water temperature can be used the low-temperature water heating that is less than 60 ℃, can utilize solar absorber plate to absorb solar radiant energy, then convert low-temperature water heating to, meet the air-conditioning demand, reach energy-efficient purpose.

(4) air conditioner of the present utility model is in conjunction with Semi-conductor, realizes refrigeration and heats passing under certain electric current; In cooling season, auxiliary split type evaporation air-conditioning device is produced high temperature cold water, heating season, and the assisted solar heat collector is produced low-temperature water heating, with semiconductor, combines, and increases the stability of air-conditioning system.

(5) air conditioner of the present utility model, lay capillary network in indoor ceiling, pass into the high temperature cold water that split type evaporation air-conditioning device is produced summer, simulation vein and human capillary vessel's mechanism are carried out radiation cooling, have the space of saving and the uniform characteristics of indoor temperature.

(6) air conditioner of the present utility model, lay radiating tube at indoor floor, pass into the hot water that solar thermal collector is produced winter, circulate, heating floor, mainly with the heat transfer type of radiation, add hot-air by ground and carry out heating, there are noiselessness, pollution-free, moist, the uniform characteristics of indoor temperature.

(7) the split type evaporation air-conditioning device in air conditioner of the present utility model, simultaneously output cold wind and cold water, through filter and etc. the outdoor air of wet cooling, by ajutage, deliver to indoorly, meet new wind demand, prevent " air conditioner comprehensive disease "; Wherein recirculated water is the enclosed water circuit system, utilizes the evaporative cooling coil pipe, makes high temperature cold water directly not contact with shower water, has pollution-free, not blocking pipe and the little characteristics of water circulating pump wasted work rate.

The accompanying drawing explanation

Fig. 1 is the structural representation of the utility model air conditioner;

Fig. 2 is the structural representation of split type evaporation air-conditioning device in air conditioner of the present utility model;

Fig. 3 is the side view of split type evaporation air-conditioning device in air conditioner of the present utility model;

Fig. 4 is the structural representation of the semiconductor cooling passage of heat in air conditioner of the present utility model.

In figure, A. split type evaporation air-conditioning device, B. solar thermal collector, C. capillary network module, D. flooring radiation radiating tube, E. Semi-conductor, 1. filter, 2. indirect evaporation cooling heat exchanger, 3. filler a, 4. water-locator a, 5. water fender a, 6. exhaust blower a, 7. exhaust blower b, 8. water fender b, 9. water-locator b, 10. filler b, 11. evaporative cooling coil pipe, 12. pressure fan, 13. water fender c, 14. water compensating valve a, 15. header tank a, 16. immersible pump a, 17. blow-off pipe a, 18. header tank b, 19. immersible pump b, 20. water compensating valve b, 21. blow-off pipe b, 22. air outlet a, 23. water circulating pump a, 24. water circulating pump b, 25. air outlet b, 26. passage a, 27. passage b, 28. passage c, 29. ajutage, 30. tube connector a, 31. tube connector b, 32. tube connector c, 33. tube connector d, 34. fresh wind port, 35. overfiren air port.

The specific embodiment

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

The air conditioner that evaporative cooling of the present utility model, solar energy and semiconductor are compound, its structure as shown in Figure 1, include split type evaporation air-conditioning device A, the solar thermal collector B, capillary network module C, flooring radiation radiating tube D and the Semi-conductor E that connect by pipe network, capillary network module C is layed on indoor ceiling, flooring radiation radiating tube D is layed under indoor floor, and split type evaporation air-conditioning device A, solar thermal collector B and Semi-conductor E are arranged at outdoor.

Split type evaporation air-conditioning device A, its structure as shown in Figure 2, include air-conditioner housing, air-conditioner housing is respectively arranged with fresh wind port 34 on relative two side, air outlet b25, be set side by side with the evaporative cooling device in air-conditioner housing and with the direct evaporative cooler of evaporative cooling coil pipe, the top of evaporative cooling device is disposed with water fender a5 and exhaust blower a6, top with the direct evaporative cooler of evaporative cooling coil pipe is disposed with water fender b8 and exhaust blower b7, all be provided with exhaust outlet on the corresponding machine unit shell roof of exhaust blower a6 and exhaust blower b7.

Wherein, the evaporative cooling device, its structure as shown in Figure 2, include indirect evaporation cooling heat exchanger 2, be provided with filter 1 between fresh wind port 34 and indirect evaporation cooling heat exchanger 2, the top of indirect evaporation cooling heat exchanger 2 is disposed with filler a3 and water-locator a4, the bottom of indirect evaporation cooling heat exchanger 2 is disposed with air channel and header tank a15, be provided with overfiren air port 35 on the corresponding machine unit shell sidewall in air channel, as shown in Figure 3, overfiren air port 35 is arranged at the bottom of fresh wind port 34, be respectively arranged with immersible pump a16 and water compensating valve a14 in header tank a15, immersible pump a16 is connected with water-locator a4 by feed pipe, water compensating valve a14 is connected with filling pipe, header tank a15 also is connected with blow-off pipe a17.

Direct evaporative cooler with the evaporative cooling coil pipe, include filler b10, the top of filler b10 is provided with water-locator b9, and the bottom of filler b10 is disposed with evaporative cooling coil pipe 11, air channel and header tank b18, and the water inlet of evaporative cooling coil pipe 11 is connected with return pipe G ₄, the delivery port of evaporative cooling coil pipe 11 is connected with feed pipe G ₁be provided with water fender c13 near air-conditioner housing sidewall air outlet b25 place in air channel, be provided with pressure fan 12 between water fender c13 and air outlet b25, be respectively arranged with immersible pump b19 and water compensating valve b20 in header tank b18, immersible pump b19 is connected with water-locator b9 by water pipe, water compensating valve b20 is connected with filling pipe, and header tank b18 also is connected with blow-off pipe b21.

Indirect evaporation cooling heat exchanger 2 is plate fin type indirect evaporative cooling heat exchanger, tubular indirect evaporative cooling heat exchanger or dew point formula indirect evaporation cooling heat exchanger; Filler a3 and filler b10 are papery, metal, porous ceramics or PVC filler.

Exhaust blower a6, exhaust blower b7 and pressure fan 12 are frequency conversion fan, by changing the frequency of blower fan, meet the variation of indoor refrigerating capacity demand, reach energy-saving effect.

Immersible pump a16 and immersible pump b19 are variable frequency pump, and by changing the water pump frequency, regulating pondage, reach energy-conservation purpose.

Water compensating valve a14 and water compensating valve b20 are ball-cock assembly or magnetic valve.

Blow-off pipe a17 can regularly discharge the water of the dirt in header tank a15, and blow-off pipe b21 can regularly discharge water dirty in header tank b18, to guarantee the shower water water quality requirement.

Solar thermal collector B includes absorber plate, the two ends of absorber plate respectively connect a thermal-collecting tube, solar thermal collector B is the liquid for heat collection device, using water as medium, scribble the black heat absorbing coating on its absorber plate, its function is to absorb solar radiant energy, and transfers heat to medium, thereby the water in the heating thermal-collecting tube, thereby output hot water.Solar thermal collector B can be flat type solar heat collector, electron tubes type solar thermal collector or solar energy air heat collector.

Capillary network module C includes the polylith capillary network, every all adopts the capillary of pipe with small pipe diameter to form the net grid, capillary all adopts the PVC material to be prepared from, the simulation human body capillary, in the utility model by the capillary network modularization, can be according to the room load demand, select the piece number of capillary network, the cold of cold water in capillary is carried and passed to space air with the form of radiation, and capillary network has the characteristics of " the large wall of face is thin ", and cold water temperature is generally 16 ℃～18 ℃.

Flooring radiation radiating tube D adopts the radiating tube of pipe with small pipe diameter to be laid under indoor floor, flooring radiation radiating tube D employing good in thermal property, the material that thermoplasticity is strong are made, can adopt PP-R pipe (three type PA tubes) or PE-RT pipe (heat-resisting polyethylene tube), its arrangement is divided into: bending type, run-in index or two run-in index are arranged.In flooring radiation radiating tube D, the heat of hot water carries and passes to the air in room with the form of radiation, and the hot water temperature can adopt the hot water that is less than 60 ℃.

Semi-conductor E, as shown in Figure 4, can be according to the size of cooling and heating load, be provided with two or morely, the type of attachment between a plurality of Semi-conductor E is serial or parallel connection; Each Semi-conductor E includes the passage of three of be arrangeding in parallel, passage a26, passage b27 and passage c28 from top to bottom.After Semi-conductor E passes into electric current, form hot and cold passage, cooling season, passage a26 and passage c28 are cold passage, and passage b27 is the passage of heat; Heating season, passage a26 and passage c28 are the passage of heat, passage b27 is cold passage, thereby realizes freezing and heating.

Pipe network structure between split type evaporation air-conditioning device A, solar thermal collector B, capillary network module C, flooring radiation radiating tube D and Semi-conductor E is, as shown in Figure 1:

The air outlet b25 of split type evaporation air-conditioning device A is communicated with indoor by ajutage 29, and the indoor mouth of pipe place of ajutage 29 is provided with air outlet a22;

In split type evaporation air-conditioning device A, the delivery port of evaporative cooling coil pipe 11 is successively by feed pipe G ₁, feed pipe G ₂, feed pipe G ₃be connected feed pipe G with the polylith capillary network in capillary network module 3 ₃on be provided with stop valve P ₁; The water inlet of evaporative cooling coil pipe 11 is by return pipe G ₄be connected return pipe G with the polylith capillary network in capillary network module 3 ₄on be provided with water circulating pump a23;

The thermal-collecting tube water inlet of solar energy catchment device B is successively by water pipe G ₁₁, water pipe G ₁₂be connected water pipe G with the delivery port of flooring radiation radiating tube 4 ₁₂on be provided with water circulating pump b24, the thermal-collecting tube delivery port of solar energy catchment device B is successively by water pipe G ₁₀, water pipe G ₁₃be connected water pipe G with the water inlet of flooring radiation radiating tube 4 ₁₃on be provided with stop valve P ₂;

Feed pipe G ₁on be connected with water pipe G ₅, water pipe G ₅on be provided with three-way valve P ₃, water pipe G ₅by three-way valve P ₃be connected with respectively water pipe G ₈, tube connector a30, water pipe G _{, 8}with water pipe G ₁₀connect, two arms on tube connector a30 are connected with passage a26, passage c28 mono-end of Semi-conductor 5 respectively, between the other end of passage a26, passage c28, by tube connector b31, connect, and tube connector b31 is also by three-way valve P ₅be connected with respectively water pipe G ₁₄, water pipe G ₆, water pipe G ₁₄with water pipe G ₁₃connect water pipe G ₆with feed pipe G ₃connect return pipe G ₄on be connected with water pipe G ₇, water pipe G ₇by three-way valve P ₄be connected with respectively tube connector c32, water pipe G ₉, tube connector c32 is connected with passage b27 mono-end of Semi-conductor 5, water pipe G ₉with water pipe G ₁₁connect, the passage b27 other end is connected with tube connector a30 by tube connector d33.

The air conditioner that evaporative cooling of the present utility model, solar energy and semiconductor are compound, its low-temperature receiver is from split type evaporation air-conditioning device A and Semi-conductor E, split type evaporation air-conditioning device A is based on the closed system of evaporative cooling air-conditioning technical and evaporative cooling coil pipe composition, simultaneously output cold water and cold wind, not outer with the pipe shower water of recirculated water in evaporative cooling coil pipe 11 directly contacts, water quality is not contaminated, and water circulating pump power reduces; Cold wind meets the demand of indoor fresh air, can improve indoor air quality; After Semi-conductor E passes into electric current, form respectively hot and cold passage, cold passage is for refrigeration.End is used capillary network module C, and based on top board radiation cooling technology, cold transmits from the top down, and indoor temperature is even, meets the human thermal comfort requirement.Thermal source is from solar thermal collector B and Semi-conductor E, and solar thermal collector B can be directly changed into the principle of heat energy based on solar radiant energy, and thermal-collecting tube absorbs the solar energy hot water preparing; Semi-conductor E passes into electric current and forms hot and cold passage, and the passage of heat heats; End is used ground to lay radiating tube D, and based on the flooring radiation heating technology, heat transmits from bottom to top, and indoor temperature is even, meets the thermal comfort of " warm of pin is cool " of people's requirement.The air conditioner that evaporative cooling of the present utility model, solar energy and semiconductor are compound, have energy-conserving and environment-protective, high-efficiency and economic and resource-effective characteristics.

In split type evaporation air-conditioning device A, indirect evaporation cooling heat exchanger 2 is horizontally disposed, is divided into wet channel and dry passage, walk primary air in heat exchanger tube, the outer Sprayer Circulation water of heat exchanger tube, logical auxiliary air, by with water, carrying out the wet exchange of heat, to wet coolings such as primary air carry out.Adopt evaporative cooling coil pipe 11, shower water carries out the wet exchange of heat with air outside evaporative cooling coil pipe 11, then carries out Exchange of apparent heat by water in tube wall and pipe, and in pipe, the circulating water temperature reduction, deliver to indoor end, forms a closed Water System.

Regularly discharge the sewage in header tank a15, header tank b18 by blow-off pipe a17, blow-off pipe b21, guarantee spray water quality requirement and evaporative cooling efficiency; Cold wind is transported to indoor by ajutage 29, meet new wind demand.Capillary network module 3, be transported to high temperature cold water in each capillary channel, absorbs heat, recycles back in split type evaporation air-conditioning device A.Flooring radiation radiating tube D, be transported to low-temperature water heating in each root radiating tube, and release heat, recycle back solar thermal collector B.

In the compound air conditioner of evaporative cooling of the present utility model, solar energy and semiconductor, the course of work of split type evaporation air-conditioning device is:

The dry passage that an outdoor new wind part enters indirect evaporation cooling heat exchanger 2 through filter 1 becomes primary air, and it is auxiliary air that another part enters wet channel.The wet exchange of moisture film heat that the water of auxiliary air and water-locator a4 spray forms on indirect evaporation cooling heat exchanger 2 surfaces, temperature reduces, then cold is passed to the primary air in heat exchanger tube, and the wet coolings such as primary air quilt, deliver to the air-conditioner right side; Auxiliary air upwards with filler a3 on the wet exchange of moisture film heat, the precooling shower water, under exhaust blower a6 effect, outside process water fender a5 discharge chamber; Shower water finally falls into the header tank a15 that below arranges, and through immersible pump a16, with water-locator a4, is connected, and forms loop, and header tank a15 can carry out moisturizing by water compensating valve a14, by blow-off pipe a17 sewage effluent.

Enter the air that air-conditioner right side temperature reduces, a part is delivered to indoor by water fender c13 and pressure fan 12 by ajutage 29, indoor backwater sprays on filler b10 through water-locator b9, fall again the surface of evaporative cooling coil pipe 11, form uniform water film, on another part air and evaporative cooling coil pipe 11, moisture film carries out the wet exchange of heat, take away the shower water heat, shower water passes to the recirculated water in evaporative cooling coil pipe 11 pipes by this part cold, recirculated water is transmitted back to indoor end by pipeline, the air heated up continues upwards, the wet exchange of moisture film heat with filler b10 surface, backwater in fore-cooling room, outside water fender b8 and exhaust blower b7 discharge chamber, shower water finally falls into below header tank b18, through immersible pump b19, with water-locator b9, be connected, form loop, header tank b18 can carry out moisturizing by water compensating valve b20, by blow-off pipe b21 sewage effluent.

The air conditioner course of work that evaporative cooling of the present utility model, solar energy and semiconductor are compound:

The cooling operating mode:

When the water temperature that split type evaporation air-conditioning device A produces meets the demands, split type evaporation air-conditioning device A opens, and produces cold wind and cold water:

Cold wind is transported to indoor air outlet a22 by ajutage 29, and process air outlet a22 evenly delivers to indoor, meets new wind demand; ON cycle water pump a23 and stop valve P ₁, high temperature cold water is transported to by feed pipe 29 in the capillary network module C of indoor ceiling setting, and heat in absorption chamber, by return pipe G ₄loop back split type evaporation air-conditioning device A.

When the water temperature that split type evaporation air-conditioning device A produces does not meet the demands, split type evaporation air-conditioning device A and Semi-conductor E open:

Cold wind is transported to air outlet a22 by ajutage 29, and process air outlet a22 evenly delivers to indoor, meets new wind demand; ON cycle water pump a23, regulating three-way valve door P ₃, three-way valve P ₅with open stop valve P ₁, as shown in Fig. 1 and Fig. 4, high temperature cold water is first successively by feed pipe G ₁, water pipe G ₅, tube connector a30 is transported in refrigerating channel a26, the passage c28 of Semi-conductor 5, the not cold passage of passage a26 and passage c28 now, after further reducing temperature, by tube connector b31, water pipe G ₆, feed pipe G ₃be transported in the capillary network of indoor ceiling setting, heat in absorption chamber, by return pipe G ₄recycle back split type evaporation air-conditioning device A.This course of work has realized that humiture independently controls.

The heating operating mode:

When solar thermal collector B produces low-temperature water heating and meets: solar thermal collector B absorbs solar radiant energy, and energy transform into heat energy, hot water preparing; ON cycle water pump b24 and stop valve P ₂, successively by water pipe G ₁₀, water pipe G ₁₃low-temperature water heating is transported in the flooring radiation radiating tube D of indoor floor setting, release heat, more successively by water pipe G ₁₂, water pipe G ₁₁get back to solar thermal collector B.

When solar thermal collector B produces low-temperature water heating and does not meet: open Semi-conductor E, ON cycle water pump b24, regulating three-way valve door P ₄, three-way valve P ₅with open stop valve P ₂, solar thermal collector B absorbs the hot water that solar radiant energy is produced, and hot water is through water pipe G ₁₀, water pipe G ₈, tube connector a30 first delivers to passage a26 in Semi-conductor E, passage c28, now passage a26 and passage c28 are the passage of heat, water temperature raises, then by tube connector b31, water pipe G ₁₄, water pipe G ₁₃be transported in the flooring radiation radiating tube 4 of indoor floor setting, after release heat, by water pipe G ₁₂loop back solar water heater B.

The air conditioner that evaporative cooling of the present utility model, solar energy and semiconductor are compound, be provided with split type evaporation air-conditioning device, solar thermal collector, Semi-conductor, capillary network and flooring radiation radiating tube.In cooling season, the cold wind that split type evaporation air-conditioning device is produced and cold water meet indoor fresh air demand and top board radiation cooling, and the cold deficiency is opened semiconductor cooling device, the auxiliary high temperature cold water of producing satisfied temperature; At heating season, the hot water that solar thermal collector is produced meets the demand of floor radiant heating, and shortage of heat is opened the semiconductor heating device, and the assisted solar hot water device is produced the low-temperature water heating of satisfied temperature.Air conditioner of the present utility model is a kind of energy-conserving and environment-protective, high-efficiency and economic and the resource-effective air-conditioning of realizing for cold-peace heating Double-working-condition.

Claims (6)

1. the air conditioner that evaporative cooling, solar energy and semiconductor are compound, it is characterized in that, include the split type evaporation air-conditioning device (A), solar thermal collector (B), capillary network module (C), flooring radiation radiating tube (D) and the Semi-conductor (E) that connect by pipe network, capillary network module (C) is layed on indoor ceiling, flooring radiation radiating tube (D) is layed under indoor floor, and split type evaporation air-conditioning device (A), solar thermal collector (B) and Semi-conductor (E) are arranged at outdoor.

2. evaporative cooling according to claim 1, the air conditioner that solar energy and semiconductor are compound, it is characterized in that, described split type evaporation air-conditioning device (A) includes air-conditioner housing, described air-conditioner housing is respectively arranged with fresh wind port (34) on relative two side, air outlet b(25), be set side by side with the evaporative cooling device in described air-conditioner housing and with the direct evaporative cooler of evaporative cooling coil pipe, the top of described evaporative cooling device is disposed with water fender a(5) and exhaust blower a(6), the top of the described direct evaporative cooler with the evaporative cooling coil pipe is disposed with water fender b(8) and exhaust blower b(7), described exhaust blower a(6) and exhaust blower b(7) all be provided with exhaust outlet on corresponding machine unit shell roof,

Described solar thermal collector (B) is a kind of in flat type solar heat collector, electron tubes type solar thermal collector or solar energy air heat collector;

Described capillary network module (C) includes the polylith capillary network, and every capillary network all adopts the capillary that the PVC material of pipe with small pipe diameter is made to form the net grid;

Described flooring radiation radiating tube (D) adopts bending type, run-in index or two run-in index to be arranged under indoor floor, and described flooring radiation radiating tube (D) is three type PA tube or heat-resisting polyethylene tubes;

Described Semi-conductor (E) is provided with one or more, and the type of attachment between a plurality of Semi-conductors (E) is serial or parallel connection; Be arranged with passage a(26 from top to bottom in parallel in described each Semi-conductor (E)), passage b(27) and passage c(28).

3. the compound air conditioner of evaporative cooling according to claim 2, solar energy and semiconductor, is characterized in that, described exhaust blower a(6) and exhaust blower b(7) be frequency conversion fan.

4. evaporative cooling according to claim 2, the air conditioner that solar energy and semiconductor are compound, it is characterized in that, described evaporative cooling device, include indirect evaporation cooling heat exchanger (2), be provided with filter (1) between described fresh wind port (34) and indirect evaporation cooling heat exchanger (2), the top of described indirect evaporation cooling heat exchanger (2) is disposed with filler a(3) and water-locator a(4), the bottom of described indirect evaporation cooling heat exchanger (2) is disposed with air channel and header tank a(15), be provided with overfiren air port (35) on the corresponding machine unit shell sidewall in described air channel, described overfiren air port (35) is arranged at the bottom of described fresh wind port (34), described header tank a(15) in, be respectively arranged with immersible pump a(16) and water compensating valve a(14), described immersible pump a(16) by feed pipe and described water-locator a(4) be connected, described water compensating valve a(16) with filling pipe, be connected, described header tank a(15) also be connected with blow-off pipe a(17),

The described direct evaporative cooler with the evaporative cooling coil pipe, include filler b(10), described filler b(10) top is provided with water-locator b(9), described filler b(10) bottom is disposed with evaporative cooling coil pipe (11), air channel and header tank b(18), the water inlet of described evaporative cooling coil pipe (11) is connected with return pipe G ₄, the delivery port of described evaporative cooling coil pipe (11) is connected with feed pipe G ₁close air-conditioner housing sidewall air outlet b(25 in described air channel) locate to be provided with water fender c(13), described water fender c(13) and described air outlet b(25) between be provided with pressure fan (12), described header tank b(18) in, be respectively arranged with immersible pump b(19) and water compensating valve b(20), described immersible pump b(19) by water pipe and described water-locator b(9) be connected, described water compensating valve b(20) be connected with filling pipe, described header tank b(18) also be connected with blow-off pipe b(21).

5. the compound air conditioner of evaporative cooling according to claim 4, solar energy and semiconductor, it is characterized in that, described indirect evaporation cooling heat exchanger (2) is a kind of in plate fin type indirect evaporative cooling heat exchanger, tubular indirect evaporative cooling heat exchanger or dew point formula indirect evaporation cooling heat exchanger;

Described filler a(3) and filler b(10) be a kind of in papery, metal, porous ceramics or PVC material;

Described pressure fan (13) is frequency conversion fan;

Described immersible pump a(16) and immersible pump b(19) be variable frequency pump;

Described water compensating valve a(14) and water compensating valve b(20) be ball-cock assembly or magnetic valve.

6. the compound air conditioner of evaporative cooling according to claim 4, solar energy and semiconductor, it is characterized in that, the pipe network structure between described split type evaporation air-conditioning device (A), solar thermal collector (B), capillary network module (C), flooring radiation radiating tube (D) and Semi-conductor (E) is:

The air outlet b(25 of described split type evaporation air-conditioning device (A)) by ajutage (29), with indoor, be communicated with, the indoor mouth of pipe place of ajutage (29) is provided with air outlet a(22);

The delivery port of the interior evaporative cooling coil pipe of described split type evaporation air-conditioning device (A) (11) is by feed pipe G ₁, feed pipe G ₂, feed pipe G ₃be connected described feed pipe G with the polylith capillary network in described capillary network module (C) ₃on be provided with stop valve P ₁; The water inlet of described evaporative cooling coil pipe (11) is by return pipe G ₄be connected described return pipe G with the polylith capillary network in described capillary network module (C) ₄on be provided with water circulating pump a(23);

The thermal-collecting tube water inlet of described solar energy catchment device (B) is successively by water pipe G ₁₁, water pipe G ₁₂be connected described water pipe G with the delivery port of described flooring radiation radiating tube (4) ₁₂on be provided with water circulating pump b(24), the thermal-collecting tube delivery port of described solar energy catchment device (B) is successively by water pipe G ₁₀, water pipe G ₁₃be connected described water pipe G with the water inlet of described flooring radiation radiating tube (4) ₁₃on be provided with stop valve P ₂;

Described feed pipe G ₁on be connected with water pipe G ₅, described water pipe G ₅on be provided with three-way valve P ₃, described water pipe G ₅by three-way valve P ₃be connected with respectively water pipe G ₈, tube connector a(30), described water pipe G _{, 8}with described water pipe G ₁₀connect, described tube connector a(30) two arms on respectively with the passage a(26 of described Semi-conductor E), passage c(28) end is connected, described passage a(26), between other end passage c(28), pass through tube connector b(31) connect described tube connector b(31) also by three-way valve P ₅be connected with respectively water pipe G ₁₄, water pipe G ₆, described water pipe G ₁₄with described water pipe G ₁₃connect described water pipe G ₆with described feed pipe G ₃connect described return pipe G ₄on be connected with water pipe G ₇, described water pipe G ₇by three-way valve P ₄be connected with respectively tube connector c(32), water pipe G ₉, described tube connector c(32) with the passage b(27 of described Semi-conductor (E)) end is connected, described water pipe G ₉with described water pipe G ₁₁connect described passage b(27) other end is by tube connector d(33) with described tube connector a(30) be connected.

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