CN103759360B - Multi-state is combined indirect air processing means and air-conditioning method thereof - Google Patents

Abstract

The present invention relates to HVAC and field of energy-saving technology, it is that a kind of multi-state is combined indirect air processing means and air-conditioning method thereof, multi-state composite indirect evaporation air processor includes housing, pressure fan, exhaust blower, wall-type heat exchange device and surface-type heat-exchanger rig, housing is provided with on indoor wind the first entrance point, indoor wind the second entrance point, air outlet end, technique wind inlet end and exhaust outlet end, indoor wind the first entrance point and indoor wind the second entrance point and is respectively equipped with the first valve and the second valve that can regulate aperture size.Present configuration is reasonable and compact, easy to use, it is switched by wall-type heat exchange device and surface-type heat-exchanger rig or collaborative process indoor return air, the problem solving air filtration difficulty, achieve the solution of ventilation and air conditioning system under annual weather conditions, more extensive owing to using complex method to process air, range of application and the field of use, there is feature safe and environment-friendly, easy, efficient.

Description

Multi-state is combined indirect air processing means and air-conditioning method thereof

Technical field

The present invention relates to HVAC and field of energy-saving technology, be a kind of multi-state be combined indirect air processing means and Air-conditioning method.

Background technology

Along with economic fast development, the industrial building that caloric value is big also gets more and more, in order to meet manufacturing technique requirent, Need to arrange ventilation or air conditioning system in this type of is built.In the winter time or transition season is owing to filtering and the asking of airduct condensation and dewfall Topic, it is impossible to directly use outdoor Cryogenic air to take away the heat of indoor；This type of building of summer or transition season ventilation or The feature of air conditioning system is that ventilation is the biggest, therefore to energy-conservation, the ventilation and air conditioning system of this type of building is general all Use direct evaporation Refrigeration Technique, it has been found that when using direct evaporation Refrigeration Technique, owing to the air used is all by room The new wind of outer introduction, the resh air requirement so processed is big, during Fresh air handing, the problem that air filtration difficulty can be run into, when When airfiltering precision is higher, filter will be blocked, cause cleaning filter frequent；Will make when filtering accuracy is relatively low Become the float in air can not effectively filter hence in direct evaporation refrigeration filler, affect refrigerating efficiency the most stifled Plug filler so that whole filler is scrapped.

Summary of the invention

The invention provides a kind of multi-state and be combined indirect air processing means and air-conditioning method thereof, overcome above-mentioned existing The deficiency of technology, it can effectively solve to meet different field air conditioning system whole year operation and existing industrial building air conditioning system The cleaning filter existed is frequent, filler holds susceptible to plugging problem.

One of technical scheme is realized by following measures: a kind of multi-state is combined indirect air and processes Device, including housing, pressure fan, exhaust blower, wall-type heat exchange device and surface-type heat-exchanger rig, housing is provided with indoor wind the One entrance point, indoor wind the second entrance point, air outlet end, technique wind inlet end and exhaust outlet end, indoor wind the first entrance point and It is respectively equipped with the first valve and the second valve that can regulate aperture size, wall-type heat exchange device on indoor wind the second entrance point Output wind inlet communicated with indoor by indoor wind the first entrance point, the air inlet of surface-type heat-exchanger rig and wall-type heat exchange The output wind outlet of device communicates, and the air inlet of surface-type heat-exchanger rig is communicated with indoor by indoor wind the second entrance point, table The air outlet of facial heat-exchanger rig is communicated with indoor by air outlet end, and the technique wind inlet of wall-type heat exchange device passes through technique Wind inlet end communicates with outdoor, and the technique wind outlet of wall-type heat exchange device is communicated with outdoor by exhausting duct and exhaust outlet end； Wherein: at the air outlet of surface-type heat-exchanger rig, be serially connected with pressure fan, in the technique wind exit of wall-type heat exchange device or It is serially connected with exhaust blower at the technique wind inlet of wall-type heat exchange device.

Further optimization and/or improvements to foregoing invention technical scheme one of are presented herein below:

Above-mentioned housing can be located at indoor, and technique wind inlet end is communicated with outdoor by blast pipe, and exhaust outlet end passes through air draft Pipe communicates with outdoor, and indoor wind the first entrance point, indoor wind the second entrance point and air outlet end directly communicate with indoor；Or, Housing can be located at outdoor, technique wind inlet end and exhaust outlet end and directly communicates with outdoor, indoor wind the first entrance point and indoor wind Second entrance point is communicated with indoor by backwind tube respectively, and air outlet end is communicated with indoor by ajutage.

Above-mentioned wall-type heat exchange device can be air-to-air heat exchanger.

Above-mentioned wall-type heat exchange device can be indirect evaporation cooler；Indirect evaporation cooler can include indirect evaporation heat exchange Device, spray equipment, Sprayer Circulation water tank and Sprayer Circulation water pump, indirect evaporation heat-exchanger rig be arranged over spray equipment, The lower section of indirect evaporation heat-exchanger rig is provided with Sprayer Circulation water tank, and the outlet of Sprayer Circulation water tank is by with Sprayer Circulation water The Sprayer Circulation pipeline of pump communicates with the water inlet of spray equipment.

Above-mentioned surface-type heat-exchanger rig is vaporizer, is provided with air cooled condenser, described air-cooled condensation in exhausting duct Having the air-cooled passage communicated with exhausting duct on device, the refrigerant exit of described air cooled condenser is by the refrigerant pipe with choke valve Road communicates with the coolant import of vaporizer, the coolant import of described air cooled condenser by with compressor refrigerant pipeline with The refrigerant exit of vaporizer communicates；Or, surface-type heat-exchanger rig is vaporizer, is provided with water cooled condenser, institute in the housing Stating and have water-cooling channel on water cooled condenser, the cooling water inlet of described water-cooling channel is by the pipeline with Sprayer Circulation water pump Being connected with Sprayer Circulation water tank, the coolant outlet of described water-cooling channel is connected by pipeline with the water inlet of spray equipment Logical, the refrigerant exit of described water cooled condenser by communicating with the coolant import of vaporizer with the refrigerant pipeline of choke valve, The coolant import of described water cooled condenser is by communicating with the refrigerant exit of vaporizer with the refrigerant pipeline of compressor.

Direct evaporation refrigeration filler can be provided with between above-mentioned indirect evaporation heat-exchanger rig and spray equipment.

Technique air port surface cooler can be provided with at above-mentioned technique wind inlet end；The water inlet of described technique air port surface cooler passes through Pipeline with Sprayer Circulation water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and water-cooled The cooling water inlet of the water-cooling channel of condenser is connected by pipeline.

Above-mentioned surface-type heat-exchanger rig can be surface cooler, and the water inlet of surface cooler communicates with feed pipe, the water outlet of surface cooler Mouth communicates with return pipe.

Above-mentioned housing is positioned at indoor, and blast pipe can be provided with indoor wind triple feed inlet end, and technique wind inlet end is by indoor Wind triple feed inlet end communicates with indoor, and indoor wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, air intake The air inlet of pipe is provided with the 5th valve that can regulate aperture size；Or, housing is positioned at outdoor, and housing can be provided with indoor Wind triple feed inlet end, the technique wind inlet of wall-type heat exchange device is by indoor wind triple feed inlet end and backwind tube and indoor phase Logical, indoor wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and technique wind inlet end is provided with can be adjusted 5th valve of joint aperture size；Or, housing can be provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device Being communicated with outdoor by unit fresh wind port end, unit fresh wind port end is provided with the 3rd valve that can regulate aperture size.

The two of technical scheme are realized by following measures: a kind of use above-mentioned multi-state compound between Connecing the air-conditioning method of air processor, it can include three kinds of operational modes, and wherein the first operational mode is: opens the first valve Door also closes the second valve, makes wall-type heat exchange plant running, outdoor new wind enter wall-type heat exchange by technique wind inlet end The technique wind inlet of device enters the product of wall-type heat exchange device as technique wind, indoor return air by indoor wind the first entrance point Going out wind inlet and also cool down output wind as output wind, technique wind entrance wall-type heat exchange device inside, technique wind and output wind begin Keep isolation eventually, outside technique wind is by exhausting duct and exhaust outlet end discharge chamber afterwards, entered by the output wind after technique air cooling To surface-type heat-exchanger rig and after being further cooled, sent into indoor by pressure fan by air outlet end；The second operational mode For: closing the first valve and open the second valve, making wall-type heat exchange device not run, indoor return air is entered by indoor wind second Mouth end enters in housing, after being cooled down by surface-type heat-exchanger rig, is sent into indoor by pressure fan by air outlet end；The third fortune Row mode is: open the first valve and the second valve simultaneously, by regulating the aperture size of the first valve and the second valve, respectively Control to enter indoor wind the first entrance point and the indoor return air amount of indoor wind the second entrance point, enter indoor wind the first entrance point The output wind inlet of indoor return air entrance wall-type heat exchange device, as output wind, is entered wall-type heat exchange by technique wind inlet end The outdoor new wind of device technique wind inlet is as technique wind, and output wind is by after technique air cooling, and by indoor wind the second import The indoor return air that end enters in housing is cooled down by surface-type heat-exchanger rig together, is sent into room by pressure fan by air outlet end afterwards In.

Be presented herein below to foregoing invention technical scheme two further optimization and/or improvements:

The output wind inlet of above-mentioned wall-type heat exchange device passes through the unit fresh wind port end with the 3rd valve and outdoor phase Logical, by regulating the aperture size of the 3rd valve, control to enter the outdoor resh air requirement of unit fresh wind port end, enter wall-type heat exchange The outdoor new wind of the output wind inlet of device is as output wind, by after technique air cooling in wall-type heat exchange device, then by Surface-type heat-exchanger rig cools down further, is sent into indoor by pressure fan by air outlet end afterwards.

Above-mentioned technique wind inlet end is communicated with indoor by the indoor wind triple feed inlet end with the 4th valve, and technique wind enters Mouth end is communicated with outdoor by the 5th valve, by regulation the 4th valve and the aperture size of the 5th valve, controls to enter technique The indoor return air amount of wind inlet end and outdoor air quantity, enter indoor return air amount and the room of the technique wind inlet of wall-type heat exchange device Exogenous wind, as technique wind, cools down after output wind in wall-type heat exchange device, by exhausting duct and exhaust outlet end discharge chamber outside.

Above-mentioned surface-type heat-exchanger rig is vaporizer, is provided with air cooled condenser, described air-cooled condensation in exhausting duct Having the air-cooled passage communicated with exhausting duct on device, make in air cooled condenser when technique wind is by exhausting duct and air-cooled passage is cold Matchmaker cools down, and the coolant after cooling flows into vaporizer by the refrigerant pipeline with compressor, cools down the air by vaporizer.

Above-mentioned surface-type heat-exchanger rig is vaporizer, is provided with water cooled condenser, described water cooled condenser in the housing On have water-cooling channel, the cooling water inlet of described water-cooling channel is by pipeline and the Sprayer Circulation water tank with Sprayer Circulation water pump Being connected, the coolant outlet of described water-cooling channel is connected by pipeline with the water inlet of spray equipment, Sprayer Circulation water tank Interior water makes the coolant in water cooled condenser cool down, and the coolant after cooling flows into evaporation by the refrigerant pipeline with compressor Device, cools down the air by vaporizer.

Direct evaporation refrigeration filler can be provided with, by the row of technique wind between above-mentioned indirect evaporation heat-exchanger rig and spray equipment Wind cools down the shower water through direct evaporation refrigeration filler, and thus the Water spray after cooling is right on indirect evaporation heat-exchanger rig Output wind cools down.

Technique air port surface cooler can be provided with at above-mentioned technique wind inlet end；The water inlet of described technique air port surface cooler passes through Pipeline with Sprayer Circulation water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and water-cooled The cooling water inlet of the water-cooling channel of condenser is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously Flow through in the water-cooling channel of water access water cooled condenser of technique air port surface cooler.

Present configuration is reasonable and compact, easy to use, and it is cut by wall-type heat exchange device and surface-type heat-exchanger rig Change or collaborative process indoor return air, the problem solving air filtration difficulty, and in air-treatment, carry out composite air Processing, relatively with single air handling process, use region bigger, the field of use is the most extensive, has safety, ring Guarantor, feature easy, efficient.

Accompanying drawing explanation

Accompanying drawing 1 is the main TV structure schematic diagram of the embodiment of the present invention 1.

Accompanying drawing 2 is the main TV structure schematic diagram of the embodiment of the present invention 2.

Accompanying drawing 3 is the main TV structure schematic diagram of the embodiment of the present invention 3.

Accompanying drawing 4 is the main TV structure schematic diagram of the embodiment of the present invention 4.

Accompanying drawing 5 is the main TV structure schematic diagram of the embodiment of the present invention 5.

Accompanying drawing 6 is the main TV structure schematic diagram of the embodiment of the present invention 6.

Accompanying drawing 7 is the main TV structure schematic diagram of the embodiment of the present invention 7.

Accompanying drawing 8 is the main TV structure schematic diagram of the embodiment of the present invention 8.

Accompanying drawing 9 is the main TV structure schematic diagram of the embodiment of the present invention 9.

Accompanying drawing 10 is the main TV structure schematic diagram of the embodiment of the present invention 10.

Accompanying drawing 11 is the main TV structure schematic diagram of the embodiment of the present invention 11.

Accompanying drawing 12 is the main TV structure schematic diagram of the embodiment of the present invention 12.

Accompanying drawing 13 is the main TV structure schematic diagram of the embodiment of the present invention 13.

Accompanying drawing 14 is the main TV structure schematic diagram of the embodiment of the present invention 14.

Accompanying drawing 15 is the main TV structure schematic diagram of the embodiment of the present invention 15.

Accompanying drawing 16 is the main TV structure schematic diagram of the embodiment of the present invention 16.

Accompanying drawing 17 is the main TV structure schematic diagram of the embodiment of the present invention 17.

Accompanying drawing 18 is the main TV structure schematic diagram of the embodiment of the present invention 18.

It is housing that coding in accompanying drawing is respectively as follows: 1, and 2 is pressure fan, and 3 is exhaust blower, and 4 is wall-type heat exchange device, and 5 are Indoor wind the first entrance point, 6 is indoor wind the second entrance point, and 7 is air outlet end, and 8 is technique wind inlet end, and 9 is exhaust outlet end, 10 is the first valve, and 11 is the second valve, and 12 is exhausting duct, and 13 is blast pipe, and 14 is exhaust duct, and 15 is backwind tube, and 16 for sending Airduct, 17 is unit fresh wind port end, and 18 is the 3rd valve, and 19 is surface cooler, and 20 is feed pipe, and 21 is return pipe, and 22 is evaporation Device, 23 is air cooled condenser, and 24 is choke valve, and 25 is compressor, and 26 is indirect evaporation heat-exchanger rig, and 27 is spray equipment, 28 is Sprayer Circulation water tank, and 29 is Sprayer Circulation water pump, and 30 is indoor wind triple feed inlet end, and 31 is the 4th valve, and 32 is the 5th Valve, 33 is water cooled condenser, and 34 is direct evaporation refrigeration filler, and 35 is technique air port surface cooler, and A is technique wind, and B is for producing Air-out.

Detailed description of the invention

The present invention is not limited by following embodiment, can determine specifically according to technical scheme and practical situation Embodiment.

Below in conjunction with embodiment and accompanying drawing, one of technical solution of the present invention is further described:

Embodiment 1: as shown in Figure 1, this multi-state is combined indirect air processing means and includes housing 1, pressure fan 2, row Blower fan 3, wall-type heat exchange device 4 and surface-type heat-exchanger rig, housing 1 is provided with indoor wind the first entrance point 5, indoor wind second Entrance point 6, air outlet end 7, technique wind inlet end 8 and exhaust outlet end 9, indoor wind the first entrance point 5 and indoor wind the second import It is respectively equipped with the first valve 10 and the second valve 11 that can regulate aperture size, the output wind of wall-type heat exchange device 4 on end 6 Import is communicated with indoor by indoor wind the first entrance point 5, the air inlet of surface-type heat-exchanger rig and wall-type heat exchange device 4 The outlet of output wind communicates, and the air inlet of surface-type heat-exchanger rig is communicated with indoor by indoor wind the second entrance point 6, and surface-type changes The air outlet of thermal is communicated with indoor by air outlet end 7, and the technique wind inlet of wall-type heat exchange device 4 is entered by technique wind Mouth end 8 communicates with outdoor, and the technique wind outlet of wall-type heat exchange device 4 is communicated with outdoor by exhausting duct 12 and exhaust outlet end 9； Wherein: at the air outlet of surface-type heat-exchanger rig, be serially connected with pressure fan 2, in the technique wind exit of wall-type heat exchange device 4 Or it is serially connected with exhaust blower 3 at the technique wind inlet of wall-type heat exchange device 4.The present invention, based on indirect evaporation refrigerating technology, passes through Wall-type heat exchange device 4 and the switching of surface-type heat-exchanger rig or work in coordination with the return air in process chamber, it is to avoid air filtration difficulty Problem, and the processing procedure of composite air is set in air processor, use different process in different seasons Journey or the processing procedure that both combine, relatively with single air handling process, this compound air handling process Using region bigger, the field of use is the most extensive.

Above-mentioned multi-state can be combined indirect air processing means and makes further optimization and/or improvements according to actual needs:

According to actual needs, housing 1 is positioned at indoor, and technique wind inlet end 8 is communicated with outdoor by blast pipe 13, exhaust outlet End 9 is communicated with outdoor by exhaust duct 14, and indoor wind the first entrance point 5, indoor wind the second entrance point 6 and air outlet end 7 are direct Communicate with indoor；Or, housing 1 is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 and directly communicates with outdoor, indoor wind the One entrance point 5 and indoor wind the second entrance point 6 are communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is by ajutage 16 Communicate with indoor.

According to actual needs, wall-type heat exchange device 4 is air-to-air heat exchanger.

According to actual needs, wall-type heat exchange device 4 is indirect evaporation cooler；Indirect evaporation cooler includes indirectly steaming Send out heat-exchanger rig 26, spray equipment 27, Sprayer Circulation water tank 28 and Sprayer Circulation water pump 29, indirect evaporation heat-exchanger rig 26 upper Side is provided with spray equipment 27, and the lower section of indirect evaporation heat-exchanger rig 26 is provided with Sprayer Circulation water tank 28, Sprayer Circulation water tank 28 Outlet is by communicating with the water inlet of spray equipment 27 with the Sprayer Circulation pipeline of Sprayer Circulation water pump 29.According to actual need , indirect evaporation cooler can be tubular type or board-like or the indirect evaporation cooler of heat pipe-type.

According to actual needs, surface-type heat-exchanger rig is vaporizer 22, is provided with air cooled condenser 23 in exhausting duct 12, Having the air-cooled passage communicated with exhausting duct 12 on described air cooled condenser 23, the refrigerant exit of described air cooled condenser 23 leads to Cross the refrigerant pipeline with choke valve 24 to communicate with the coolant import of vaporizer 22, the coolant import of described air cooled condenser 23 By communicating with the refrigerant exit of the refrigerant pipeline of compressor 25 with vaporizer 22.

According to actual needs, surface-type heat-exchanger rig is vaporizer 22, is provided with water cooled condenser 33, institute within the case 1 Stating and have water-cooling channel on water cooled condenser 33, the cooling water inlet of described water-cooling channel is by with Sprayer Circulation water pump 29 Pipeline is connected with Sprayer Circulation water tank 28, and the coolant outlet of described water-cooling channel passes through pipe with the water inlet of spray equipment 27 Road is connected, and the refrigerant exit of described water cooled condenser 33 is cold by refrigerant pipeline and the vaporizer 22 with choke valve 24 Matchmaker's import communicates, and the refrigerant pipeline with compressor 25 and vaporizer 22 are passed through in the coolant import of described water cooled condenser 33 Refrigerant exit communicates.

According to actual needs, direct evaporation refrigeration filler it is provided with between indirect evaporation heat-exchanger rig 26 and spray equipment 27 34。

According to actual needs, technique air port surface cooler 35 it is provided with at technique wind inlet end 8；Described technique air port surface cooler 35 Water inlet by being connected with Sprayer Circulation water tank 28 with the pipeline of Sprayer Circulation water pump 29, described technique air port surface cooler The outlet of 35 is connected by pipeline with the cooling water inlet of the water-cooling channel of water cooled condenser 33.

According to actual needs, surface-type heat-exchanger rig is surface cooler 19, and the water inlet of surface cooler 19 communicates with feed pipe 20, The outlet of surface cooler 19 communicates with return pipe 21.

According to actual needs, housing 1 is positioned at indoor, and blast pipe 13 is provided with indoor wind triple feed inlet end 30, and technique wind enters Mouthful end 8 is communicated with indoor by indoor wind triple feed inlet end 30, and indoor wind triple feed inlet end 30 is provided with that can to regulate aperture big The 4th little valve 31, the air inlet of blast pipe 13 is provided with the 5th valve 32 that can regulate aperture size；Or, housing 1 Being positioned at outdoor, housing 1 is provided with indoor wind triple feed inlet end 30, and the technique wind inlet of wall-type heat exchange device 4 is by indoor wind Triple feed inlet end 30 and backwind tube 15 communicate with indoor, and indoor wind triple feed inlet end 30 is provided with and can regulate the of aperture size Four valves 31, technique wind inlet end 8 is provided with the 5th valve 32 that can regulate aperture size；Or, housing 1 is provided with unit Fresh wind port end 17, the output wind inlet of wall-type heat exchange device 4 is communicated with outdoor by unit fresh wind port end 17, unit fresh wind port End 17 is provided with the 3rd valve 18 that can regulate aperture size.

As shown in Figure 1, housing 1 is positioned at indoor, and technique wind inlet end 8 is communicated with outdoor by blast pipe 13, exhaust outlet End 9 is communicated with outdoor by exhaust duct 14, and indoor wind the first entrance point 5, indoor wind the second entrance point 6 and air outlet end 7 are direct Communicate with indoor.

Embodiment 2: as shown in Figure 2, embodiment 2 is with the difference of embodiment 1: the dividing wall type of embodiment 2 changes Thermal 4 is indirect evaporation cooler；Indirect evaporation cooler includes indirect evaporation heat-exchanger rig 26, spray equipment 27, spray Cyclic water tank 28 and Sprayer Circulation water pump 29, indirect evaporation heat-exchanger rig 26 be arranged over spray equipment 27, indirect evaporation changes The lower section of thermal 26 is provided with Sprayer Circulation water tank 28, and the outlet of Sprayer Circulation water tank 28 is by with Sprayer Circulation water pump 29 Sprayer Circulation pipeline communicate with the water inlet of spray equipment 27.Indoor return air is entered by indoor wind the first entrance point 5 indirectly The output wind inlet of vapotron is as output wind B, and outdoor new wind enters indirect evaporation cooler by technique wind inlet end 8 Technique wind inlet as technique wind A, by arranging spray equipment 27 to indirect evaporation heat-exchanger rig 26 shower water, technique wind A Lower the temperature after indirect evaporation heat-exchanger rig 26 contacts with water and cool down output wind B, in some relatively dry region or seasons, Can greatly reduce the temperature of technique wind A, so that technique wind A is the most abundant with the heat exchange of output wind B so that It is lower that the temperature of output wind B drops.

Embodiment 3: as shown in Figure 3, embodiment 3 is with the difference of embodiment 2: the surface-type of embodiment 3 changes Hot charging is set to vaporizer 22, is provided with water cooled condenser 33 within the case 1, described water cooled condenser 33 has water-cooling channel, The cooling water inlet of described water-cooling channel is connected with Sprayer Circulation water tank 28 by the pipeline with Sprayer Circulation water pump 29, institute The water inlet of the coolant outlet and spray equipment 27 of stating water-cooling channel is connected by pipeline, described water cooled condenser 33 Refrigerant exit by communicating with the coolant import of vaporizer 22 with the refrigerant pipeline of choke valve 24, described water cooled condenser 33 Coolant import by communicating with the refrigerant exit of the refrigerant pipeline of compressor 25 with vaporizer 22.Pass through indirect evaporating-cooling Water in the Sprayer Circulation water tank 28 of device cools down water cooled condenser 33, it is possible to effectively utilize water in Sprayer Circulation water tank 28 Cold.

Embodiment 4: as shown in Figure 4, embodiment 4 is with the difference of embodiment 3: the indirect evaporation of embodiment 4 Direct evaporation refrigeration filler 34 it is provided with between heat-exchanger rig 26 and spray equipment 27.When actually used, Sprayer Circulation water tank 28 Water flow into water cooled condenser 33 by pipeline after flow into spray equipment 27, the temperature of water after water cooled condenser 33 Can raise, the water that temperature raises is sprayed onto on direct evaporation refrigeration filler 34 by spray equipment 27 and fills with through indirect evaporation heat exchange The air draft of the technique wind A putting 26 carries out caloic exchange, it is possible to reduce the water temperature of shower water through direct evaporation refrigeration filler 34, Water spray after this cooling is on indirect evaporation heat-exchanger rig 26, and the technique wind A entered with technique wind inlet end 8 directly contacts and sends out Calorifacient exchange cools down output wind B, it is possible to the temperature making the output wind B after being processed by indirect evaporation heat-exchanger rig 26 is lower Some.

Embodiment 5: as shown in Figure 5, embodiment 5 is with the difference of embodiment 4: the technique wind of embodiment 5 enters It is provided with technique air port surface cooler 35 at mouth end 8；The water inlet of described technique air port surface cooler 35 is by with Sprayer Circulation water pump The pipeline of 29 is connected with Sprayer Circulation water tank 28, the outlet of described technique air port surface cooler 35 and water cooled condenser 33 The cooling water inlet of water-cooling channel is connected by pipeline.Water in Sprayer Circulation water tank 28 first passes through pipeline and enters technique air port Flowing into spray equipment 27 after flowing into water cooled condenser 33 by pipeline after surface cooler 35, surface cooler 35 pre-cooling of technique air port is led to Crossing the technique wind A at technique wind inlet end 8, the temperature flowing through the water after water cooled condenser 33 can raise, the water that temperature raises It is sprayed onto on direct evaporation refrigeration filler 34 and the air draft of the technique wind A through indirect evaporation heat-exchanger rig 26 by spray equipment 27 Carry out caloic exchange, it is possible to reduction exists through the water temperature of the shower water of direct evaporation refrigeration filler 34, the Water spray after this cooling On indirect evaporation heat-exchanger rig 26, straight with the technique wind A precooled by technique air port surface cooler 35 that technique wind inlet end 8 enters Contact occurs caloic exchange to cool down output wind B, it is possible to make the product after being processed by indirect evaporation heat-exchanger rig 26 further The temperature of air-out B reduces.

Embodiment 6: as shown in Figure 6, embodiment 6 is with the difference of embodiment 2: the surface-type of embodiment 6 changes Hot charging is set to vaporizer 22, is provided with air cooled condenser 23, described air cooled condenser 23 has and air draft in exhausting duct 12 The air-cooled passage that road 12 communicates, the refrigerant exit of described air cooled condenser 23 passes through the refrigerant pipeline with choke valve 24 and steaming Send out device 22 coolant import communicate, the coolant import of described air cooled condenser 23 by with compressor 25 refrigerant pipeline with The refrigerant exit of vaporizer 22 communicates.Condenser 23 is arranged in exhausting duct 12, the technique discharged by wall-type heat exchange device 4 Wind A cools down air cooled condenser 23, and the temperature of the technique wind A that wall-type heat exchange device 4 is discharged is relative to outdoor air Temperature is low, therefore so that air cooled condenser 23 in hgher efficiency.

Embodiment 7: as shown in Figure 7, embodiment 7 is with the difference of embodiment 2: the surface-type of embodiment 7 changes Hot charging is set to surface cooler 19, and the water inlet of surface cooler 19 communicates with feed pipe 20, the outlet of surface cooler 19 and return pipe 21 phase Logical.In surface cooler 19, it is passed through cold water to cool down air, according to actual needs, can be passed through by indirect evaporation in surface cooler 19 High temperature cold water prepared by handpiece Water Chilling Units, it is also possible to be passed through the low-temperature cold water prepared by conventional rack.

Embodiment 8: as shown in Figure 8, embodiment 8 is with the difference of embodiment 3: set on the housing 1 of embodiment 8 Having unit fresh wind port end 17, the output wind inlet of wall-type heat exchange device 4 is communicated with outdoor by unit fresh wind port end 17, unit Fresh wind port end 17 is provided with the 3rd valve 18 that can regulate aperture size.Unit fresh wind port end 17 can by fresh air pipeline with Outdoor communicates, and introduces the outdoor new wind output wind B as part by unit fresh wind port end 17, can be by regulation the 3rd valve 18 control the outdoor resh air requirement introduced, to ensure that some specific air conditioning area needs to introduce outdoor new wind and meets personnel's health Particular demands, relative to all using outdoor new wind as output wind B, the resh air requirement that the present invention processes is less, therefore air mistake The difficulty of filter is relative the least.

Embodiment 9: as shown in Figure 9, embodiment 9 is with the difference of embodiment 8: the blast pipe 13 of embodiment 9 Being provided with indoor wind triple feed inlet end 30, technique wind inlet end 8 is communicated with indoor by indoor wind triple feed inlet end 30, indoor wind Triple feed inlet end 30 is provided with the 4th valve 31 that can regulate aperture size, and the air inlet of blast pipe 13 is provided with and can regulate 5th valve 32 of aperture size.By regulation the 4th valve 31 and the aperture of the 5th valve 32, control to enter indoor wind the 3rd The air quantity of the indoor return air of entrance point 30, make part indoor return air as technique wind A, when indoor temperature is less than outdoor temperature, Be equivalent to reclaim the return air that the cold of indoor return air comes in cooling chamber, it is possible to reduce energy consumption；Additionally, in some outdoor airs The region that floating dust is bigger, when outdoor air easily blocks the technique wind passage of wall-type heat exchange device 4, it is also possible to utilize indoor Return air is as the technique wind A of wall-type heat exchange device 4.

Embodiment 10: as shown in Figure 10, embodiment 10 is with the difference of embodiment 1: the housing 1 of embodiment 10 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 11: as shown in Figure 11, embodiment 11 is with the difference of embodiment 2: the housing 1 of embodiment 11 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 12: as shown in Figure 12, embodiment 12 is with the difference of embodiment 3: the housing 1 of embodiment 12 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.Unit fresh wind port End 17 can directly communicate with outdoor.

Embodiment 13: as shown in Figure 13, embodiment 13 is with the difference of embodiment 4: the housing 1 of embodiment 13 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 14: as shown in Figure 14, embodiment 14 is with the difference of embodiment 5: the housing 1 of embodiment 14 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 15: as shown in Figure 15, embodiment 15 is with the difference of embodiment 6: the housing 1 of embodiment 15 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 16: as shown in Figure 16, embodiment 16 is with the difference of embodiment 7: the housing 1 of embodiment 16 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 17: as shown in Figure 17, embodiment 17 is with the difference of embodiment 8: the housing 1 of embodiment 17 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16.

Embodiment 18: as shown in Figure 18, embodiment 18 is with the difference of embodiment 9: the housing 1 of embodiment 18 It is positioned at outdoor, technique wind inlet end 8 and exhaust outlet end 9 directly to communicate with outdoor, indoor wind the first entrance point 5 and indoor wind second Entrance point 6 is communicated with indoor by backwind tube 15 respectively, and air outlet end 7 is communicated with indoor by ajutage 16；Housing 1 is provided with Indoor wind triple feed inlet end 30, the technique wind inlet of wall-type heat exchange device 4 is by indoor wind triple feed inlet end 30 and backwind tube 15 communicate with indoor, and indoor wind triple feed inlet end 30 is provided with the 4th valve 31 that can regulate aperture size, technique wind inlet End 8 is provided with the 5th valve 32 that can regulate aperture size.

It is further described the two of technical solution of the present invention below in conjunction with embodiment and accompanying drawing:

As shown in accompanying drawing 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18, the above-mentioned multiplexing of this use Condition is combined the air-conditioning method of indirect air processing means, and including three kinds of operational modes, wherein the first operational mode is: open the One valve 10 also closes the second valve 11, makes wall-type heat exchange device 4 run, and outdoor new wind is entered by technique wind inlet end 8 The technique wind inlet of wall-type heat exchange device 4 enters partition as technique wind A, indoor return air by indoor wind the first entrance point 5 The output wind inlet of formula heat-exchanger rig 4 enters wall-type heat exchange device 4 inside as output wind B, technique wind A and cools down output wind B, technique wind A and output wind B remain isolation, outside technique wind A is by exhausting duct 12 and exhaust outlet end 9 discharge chamber afterwards, and quilt After output wind B after technique wind A cooling enters into surface-type heat-exchanger rig and is further cooled, by pressure fan 2 by blowing Mouth end 7 sends into indoor；The second operational mode is: closes the first valve 10 and opens the second valve 11, making wall-type heat exchange fill Putting 4 not run, indoor return air enters in housing 1 by indoor wind the second entrance point 6, after being cooled down by surface-type heat-exchanger rig, Indoor are sent into by air outlet end 7 by pressure fan 2；The third operational mode is: open the first valve 10 and the second valve simultaneously 11, by regulating the first valve 10 and aperture size of the second valve 11, control respectively to enter indoor wind the first entrance point 5 and room The indoor return air amount of endogenous wind the second entrance point 6, the indoor return air entering indoor wind the first entrance point 5 enters wall-type heat exchange device The output wind inlet of 4, as output wind B, is entered the outdoor new of wall-type heat exchange device 4 technique wind inlet by technique wind inlet end 8 After wind is cooled down by technique wind A as technique wind A, output wind B, enter the indoor in housing 1 with by indoor wind the second entrance point 6 Return air is cooled down by surface-type heat-exchanger rig together, is sent into indoor by pressure fan 2 by air outlet end 7 afterwards.By different Season select uses different operational modes, such as, at outdoor temperature ratio time relatively low, may have only to open wall-type heat exchange dress Putting 4, outdoor Cryogenic air and indoor return air heat exchange reduce the temperature of indoor return air thus just can meet indoor temperature and want Ask；When the requirement of indoor can not be met after outdoor air with indoor return air heat exchange, wall-type heat exchange device 4 can opened Open the second valve 11 utilizes the return air in surface-type heat-exchanger rig process chamber to deliver to indoor simultaneously, or closes dividing wall type and change Thermal 4, only opens the second valve 11 and utilizes surface-type heat-exchanger rig cooling indoor return air to send into indoor.Thus well solve The air-conditioning device of industrial site or civilian place, the particularly power plant contour polluted place that caloric value is bigger is airfiltering asks Topic, by switching wall-type heat exchange device 4 and surface-type heat-exchanger rig duty or making the two collaborative work, utilizes outdoor wind Cooling indoor return air, sends the indoor return air after cooling into indoor afterwards, and therefore the foreign material in outside air will not enter air-conditioning Unit, may be used for the place that the Cleanliness requirements such as data center are higher, and disclosure satisfy that the application requirement in winter.

Can according to actual needs, above-mentioned use multi-state is combined indirect air processing means air-conditioning method make into one Step optimizes or/and improve:

As shown in accompanying drawing 8,9,17,18, the output wind inlet of wall-type heat exchange device 4 is by the machine with the 3rd valve 18 Group fresh wind port end 17 communicates with outdoor, by regulating the aperture size of the 3rd valve 18, controls to enter unit fresh wind port end 17 Outdoor resh air requirement, the new wind in outdoor of the output wind inlet entering wall-type heat exchange device 4 is as output wind B, at wall-type heat exchange After being cooled down by technique wind A in device 4, then cooled down further by surface-type heat-exchanger rig, afterwards by pressure fan 2 by air outlet End 7 feeding indoor.

As shown in accompanying drawing 9,18, technique wind inlet end 8 by with the 4th valve 31 indoor wind triple feed inlet end 30 with Indoor communicate, and technique wind inlet end 8 is communicated with outdoor by the 5th valve 32, by regulation the 4th valve 31 and the 5th valve 32 Aperture size, control to enter the indoor return air amount of technique wind inlet end 8 and outdoor air quantity, enter wall-type heat exchange device 4 The indoor return air amount of technique wind inlet and outdoor wind are as technique wind A, after cooling down output wind B in wall-type heat exchange device 4, logical Cross outside exhausting duct 12 and exhaust outlet end 9 discharge chamber.

As shown in accompanying drawing 6,15, surface-type heat-exchanger rig is vaporizer 22, is provided with air cooled condenser in exhausting duct 12 23, described air cooled condenser 23 has the air-cooled passage communicated with exhausting duct 12, technique wind A is by exhausting duct 12 and air-cooled logical Making the coolant in air cooled condenser 23 cool down during road, the coolant after cooling steams by flowing into the refrigerant pipeline of compressor 25 Send out device 22, cool down the air by vaporizer 22.

As shown in accompanying drawing 3,4,5,8,9,12,13,14,17,18, surface-type heat-exchanger rig is vaporizer 22, within the case 1 Being provided with water cooled condenser 33, described water cooled condenser 33 has water-cooling channel, the cooling water inlet of described water-cooling channel leads to Cross the pipeline with Sprayer Circulation water pump 29 to be connected with Sprayer Circulation water tank 28, the coolant outlet of described water-cooling channel and spray The water inlet of shower device 27 is connected by pipeline, and the water in Sprayer Circulation water tank 28 makes the coolant in water cooled condenser 33 cold But, the coolant after cooling flows into vaporizer 22 by the refrigerant pipeline with compressor 25, cools down the air by vaporizer 22.

As shown in accompanying drawing 4,5,13,14, direct evaporation between indirect evaporation heat-exchanger rig 26 and spray equipment 27, can be provided with Refrigeration filler 34, is cooled down the shower water through direct evaporation refrigeration filler 34, the thus water after cooling by the air draft of technique wind A Output wind B is cooled down on indirect evaporation heat-exchanger rig 26 by spray.

As shown in accompanying drawing 5,14, at above-mentioned technique wind inlet end 8, technique air port surface cooler 35 can be provided with；Described technique air port The water inlet of surface cooler 35 is connected with Sprayer Circulation water tank 28 by the pipeline with Sprayer Circulation water pump 29, described technique wind The outlet of oral thermometer cooler 35 is connected by pipeline with the cooling water inlet of the water-cooling channel of water cooled condenser 33；Pass through work Ethics and practice oral thermometer cooler 35 pre-cooling technique wind A, the water simultaneously flowing through technique air port surface cooler 35 accesses the water of water cooled condenser 33 In cold passage.

Above technical characteristic constitutes embodiments of the invention, and it has stronger adaptability and implementation result, can basis It is actually needed the non-essential technical characteristic of increase and decrease, meets the demand of different situations.

Claims (46)

1. a multi-state is combined indirect air processing means, it is characterised in that include housing, pressure fan, exhaust blower, dividing wall type Heat-exchanger rig and surface-type heat-exchanger rig, housing is provided with indoor wind the first entrance point, indoor wind the second entrance point, air outlet It is respectively equipped with and can adjust on end, technique wind inlet end and exhaust outlet end, indoor wind the first entrance point and indoor wind the second entrance point First valve of joint aperture size and the second valve, the output wind inlet of wall-type heat exchange device is by indoor wind the first entrance point Communicating with indoor, the air inlet of surface-type heat-exchanger rig exports with the output wind of wall-type heat exchange device and communicates, surface-type heat exchange The air inlet of device is communicated with indoor by indoor wind the second entrance point, and the air outlet of surface-type heat-exchanger rig passes through air outlet end Communicating with indoor, the technique wind inlet of wall-type heat exchange device is communicated with outdoor by technique wind inlet end, and wall-type heat exchange fills The technique wind outlet put is communicated with outdoor by exhausting duct and exhaust outlet end；Wherein: at the air outlet of surface-type heat-exchanger rig It is serially connected with pressure fan, concatenates at the technique wind exit of wall-type heat exchange device or the technique wind inlet of wall-type heat exchange device There is exhaust blower.

Multi-state the most according to claim 1 is combined indirect air processing means, it is characterised in that housing is positioned at indoor, work Ethics and practice entrance point is communicated with outdoor by blast pipe, and exhaust outlet end is communicated with outdoor by exhaust duct, indoor wind the first entrance point, Indoor wind the second entrance point and air outlet end directly communicate with indoor；Or, housing is positioned at outdoor, technique wind inlet end and air draft Mouth end directly communicates with outdoor, and indoor wind the first entrance point and indoor wind the second entrance point are respectively by backwind tube and indoor phase Logical, air outlet end is communicated with indoor by ajutage.

Multi-state the most according to claim 1 and 2 is combined indirect air processing means, it is characterised in that wall-type heat exchange fills It is set to air-to-air heat exchanger.

Multi-state the most according to claim 1 and 2 is combined indirect air processing means, it is characterised in that wall-type heat exchange fills It is set to indirect evaporation cooler；Indirect evaporation cooler include indirect evaporation heat-exchanger rig, spray equipment, Sprayer Circulation water tank and Sprayer Circulation water pump, indirect evaporation heat-exchanger rig be arranged over spray equipment, the lower section of indirect evaporation heat-exchanger rig is provided with spray Drenching cyclic water tank, the outlet of Sprayer Circulation water tank passes through the Sprayer Circulation pipeline with Sprayer Circulation water pump and spray equipment Water inlet communicates.

Multi-state the most according to claim 3 is combined indirect air processing means, it is characterised in that surface-type heat-exchanger rig For vaporizer, exhausting duct is provided with air cooled condenser, described air cooled condenser has communicate with exhausting duct air-cooled logical Road, the refrigerant exit of described air cooled condenser by communicating with the coolant import of vaporizer with the refrigerant pipeline of choke valve, The coolant import of described air cooled condenser is by communicating with the refrigerant exit of vaporizer with the refrigerant pipeline of compressor.

Multi-state the most according to claim 4 is combined indirect air processing means, it is characterised in that surface-type heat-exchanger rig For vaporizer, exhausting duct is provided with air cooled condenser, described air cooled condenser has communicate with exhausting duct air-cooled logical Road, the refrigerant exit of described air cooled condenser by communicating with the coolant import of vaporizer with the refrigerant pipeline of choke valve, The coolant import of described air cooled condenser is by communicating with the refrigerant exit of vaporizer with the refrigerant pipeline of compressor；Or Person, surface-type heat-exchanger rig is vaporizer, is provided with water cooled condenser in the housing, described water cooled condenser has water-cooled lead to Road, the cooling water inlet of described water-cooling channel by being connected with Sprayer Circulation water tank with the pipeline of Sprayer Circulation water pump, institute The water inlet of the coolant outlet and spray equipment of stating water-cooling channel is connected by pipeline, the coolant of described water cooled condenser Export by communicating with the coolant import of vaporizer with the refrigerant pipeline of choke valve, the coolant import of described water cooled condenser By communicating with the refrigerant exit of vaporizer with the refrigerant pipeline of compressor.

Multi-state the most according to claim 6 is combined indirect air processing means, it is characterised in that indirect evaporation heat exchange fills Put and be provided with direct evaporation refrigeration filler between spray equipment.

Multi-state the most according to claim 7 is combined indirect air processing means, it is characterised in that at technique wind inlet end It is provided with technique air port surface cooler；The water inlet of described technique air port surface cooler passes through the pipeline with Sprayer Circulation water pump and spray Cyclic water tank is connected, the outlet of described technique air port surface cooler and the cooling water inlet of the water-cooling channel of water cooled condenser It is connected by pipeline.

Multi-state the most according to claim 1 and 2 is combined indirect air processing means, it is characterised in that surface-type heat exchange fills Being set to surface cooler, the water inlet of surface cooler communicates with feed pipe, and the outlet of surface cooler communicates with return pipe.

Multi-state the most according to claim 3 is combined indirect air processing means, it is characterised in that surface-type heat-exchanger rig For surface cooler, the water inlet of surface cooler communicates with feed pipe, and the outlet of surface cooler communicates with return pipe.

11. multi-states according to claim 4 are combined indirect air processing means, it is characterised in that surface-type heat-exchanger rig For surface cooler, the water inlet of surface cooler communicates with feed pipe, and the outlet of surface cooler communicates with return pipe.

12. multi-states according to claim 1 and 2 are combined indirect air processing means, it is characterised in that housing is positioned at room In, blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, room Endogenous wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate out 5th valve of degree size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet communicated with indoor by indoor wind triple feed inlet end and backwind tube, indoor wind triple feed inlet end is provided with can 4th valve of regulation aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, unit Fresh wind port end is provided with the 3rd valve that can regulate aperture size.

13. multi-states according to claim 3 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

14. multi-states according to claim 4 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

15. multi-states according to claim 5 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

16. multi-states according to claim 6 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

17. multi-states according to claim 7 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

18. multi-states according to claim 8 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

19. multi-states according to claim 9 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

20. multi-states according to claim 10 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

21. multi-states according to claim 11 are combined indirect air processing means, it is characterised in that housing is positioned at indoor, Blast pipe is provided with indoor wind triple feed inlet end, and technique wind inlet end is communicated with indoor by indoor wind triple feed inlet end, indoor Wind triple feed inlet end is provided with the 4th valve that can regulate aperture size, and the air inlet of blast pipe is provided with and can regulate aperture 5th valve of size；Or, housing is positioned at outdoor, and housing is provided with indoor wind triple feed inlet end, wall-type heat exchange device Technique wind inlet is communicated with indoor by indoor wind triple feed inlet end and backwind tube, and indoor wind triple feed inlet end is provided with and can adjust 4th valve of joint aperture size, technique wind inlet end is provided with the 5th valve that can regulate aperture size；Or, on housing Being provided with unit fresh wind port end, the output wind inlet of wall-type heat exchange device is communicated with outdoor by unit fresh wind port end, and unit is new Air port end is provided with the 3rd valve that can regulate aperture size.

22. 1 kinds use claim 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9 or 10 or 11 or 12 or 13 or 14 or 15 or 16 Or the multi-state described in 17 or 18 or 19 or 20 or 21 is combined the air-conditioning method of indirect air processing means, it is characterised in that include Three kinds of operational modes, wherein the first operational mode is: opens the first valve and closes the second valve, making wall-type heat exchange device Operation, the technique wind inlet that outdoor new wind enters wall-type heat exchange device by technique wind inlet end returns as technique wind, indoor The output wind inlet that wind enters wall-type heat exchange device by indoor wind the first entrance point enters partition as output wind, technique wind Formula heat-exchanger rig is internal and cools down output wind, technique wind and output wind and remains isolation, afterwards technique wind by exhausting duct and Outside exhaust outlet end discharge chamber, after being entered into surface-type heat-exchanger rig by the output wind after technique air cooling and be further cooled, Indoor are sent into by air outlet end by pressure fan；The second operational mode is: closes the first valve and opens the second valve, between making Wall type heat-exchanger rig does not runs, and indoor return air enters in housing by indoor wind the second entrance point, by surface-type heat-exchanger rig After cooling, sent into indoor by pressure fan by air outlet end；The third operational mode is: open the first valve and the second valve simultaneously Door, by regulating the aperture size of the first valve and the second valve, controls to enter indoor wind the first entrance point and indoor wind respectively The indoor return air amount of the second entrance point, the indoor return air entering indoor wind the first entrance point enters the output of wall-type heat exchange device Wind inlet, as output wind, is entered the outdoor new wind of wall-type heat exchange device technique wind inlet as technique by technique wind inlet end Wind, output wind is by after technique air cooling, by surface together with entering the indoor return air in housing by indoor wind the second entrance point Formula heat-exchanger rig cools down, and is sent into indoor by pressure fan by air outlet end afterwards.

23. use multi-states according to claim 22 are combined the air-conditioning method of indirect air processing means, and its feature exists Output wind inlet in wall-type heat exchange device is communicated with outdoor by the unit fresh wind port end with the 3rd valve, by regulation The aperture size of the 3rd valve, controls to enter the outdoor resh air requirement of unit fresh wind port end, enters the output of wall-type heat exchange device The outdoor new wind of wind inlet is as output wind, by after technique air cooling in wall-type heat exchange device, then by surface-type heat exchange Device cools down further, is sent into indoor by pressure fan by air outlet end afterwards.

24. are combined the air-conditioning method of indirect air processing means according to the multi-state that uses described in claim 22 or 23, and it is special Levying and be that technique wind inlet end is communicated with indoor by the indoor wind triple feed inlet end with the 4th valve, technique wind inlet end leads to Cross the 5th valve to communicate with outdoor, by regulation the 4th valve and the aperture size of the 5th valve, control to enter technique wind inlet The indoor return air amount of end and outdoor air quantity, the indoor return air amount and the outdoor wind that enter the technique wind inlet of wall-type heat exchange device are made For technique wind, after cooling down output wind in wall-type heat exchange device, by exhausting duct and exhaust outlet end discharge chamber outside.

25. are combined the air-conditioning method of indirect air processing means according to the multi-state that uses described in claim 22 or 23, and it is special Levy and be that surface-type heat-exchanger rig is vaporizer, exhausting duct is provided with air cooled condenser, described air cooled condenser has The air-cooled passage communicated with exhausting duct, makes the coolant in air cooled condenser cold when technique wind is by exhausting duct and air-cooled passage But, the coolant after cooling flows into vaporizer by the refrigerant pipeline with compressor, cools down the air by vaporizer.

26. use multi-states according to claim 24 are combined the air-conditioning method of indirect air processing means, and its feature exists It is vaporizer in surface-type heat-exchanger rig, exhausting duct is provided with air cooled condenser, described air cooled condenser has and row The air-cooled passage that air channel communicates, makes the coolant in air cooled condenser cool down when technique wind is by exhausting duct and air-cooled passage, cold But the coolant after flows into vaporizer by the refrigerant pipeline with compressor, cools down the air by vaporizer.

27. are combined the air-conditioning method of indirect air processing means according to the multi-state that uses described in claim 22 or 23, and it is special Levy and be that surface-type heat-exchanger rig is vaporizer, be provided with water cooled condenser in the housing, described water cooled condenser has water Cold passage, the cooling water inlet of described water-cooling channel is connected with Sprayer Circulation water tank by the pipeline with Sprayer Circulation water pump Logical, the coolant outlet of described water-cooling channel is connected by pipeline with the water inlet of spray equipment, in Sprayer Circulation water tank Water makes the coolant in water cooled condenser cool down, and the coolant after cooling flows into vaporizer by the refrigerant pipeline with compressor, Cool down the air by vaporizer.

28. use multi-states according to claim 24 are combined the air-conditioning method of indirect air processing means, and its feature exists It is vaporizer in surface-type heat-exchanger rig, is provided with water cooled condenser in the housing, described water cooled condenser has water-cooled lead to Road, the cooling water inlet of described water-cooling channel by being connected with Sprayer Circulation water tank with the pipeline of Sprayer Circulation water pump, institute The water inlet of the coolant outlet and spray equipment of stating water-cooling channel is connected by pipeline, and the water in Sprayer Circulation water tank makes water Coolant cooling in air-cooled condenser, the coolant after cooling is by flowing into vaporizer with the refrigerant pipeline of compressor, and cooling is logical The air of pervaporation device.

29. are combined the air-conditioning method of indirect air processing means according to the multi-state that uses described in claim 22 or 23, and it is special Levy and be between indirect evaporation heat-exchanger rig and spray equipment to be provided with direct evaporation refrigeration filler, the air draft of technique wind cool down Through the shower water of direct evaporation refrigeration filler, thus output wind is entered on indirect evaporation heat-exchanger rig by the Water spray after cooling Row cooling.

30. use multi-states according to claim 24 are combined the air-conditioning method of indirect air processing means, and its feature exists Between indirect evaporation heat-exchanger rig and spray equipment, it is provided with direct evaporation refrigeration filler, the air draft of technique wind cools down process The shower water of direct evaporation refrigeration filler, thus output wind is carried out cold on indirect evaporation heat-exchanger rig by the Water spray after cooling But.

31. use multi-states according to claim 25 are combined the air-conditioning method of indirect air processing means, and its feature exists Between indirect evaporation heat-exchanger rig and spray equipment, it is provided with direct evaporation refrigeration filler, the air draft of technique wind cools down process The shower water of direct evaporation refrigeration filler, thus output wind is carried out cold on indirect evaporation heat-exchanger rig by the Water spray after cooling But.

32. use multi-states according to claim 26 are combined the air-conditioning method of indirect air processing means, and its feature exists Between indirect evaporation heat-exchanger rig and spray equipment, it is provided with direct evaporation refrigeration filler, the air draft of technique wind cools down process The shower water of direct evaporation refrigeration filler, thus output wind is carried out cold on indirect evaporation heat-exchanger rig by the Water spray after cooling But.

33. use multi-states according to claim 27 are combined the air-conditioning method of indirect air processing means, and its feature exists Between indirect evaporation heat-exchanger rig and spray equipment, it is provided with direct evaporation refrigeration filler, the air draft of technique wind cools down process The shower water of direct evaporation refrigeration filler, thus output wind is carried out cold on indirect evaporation heat-exchanger rig by the Water spray after cooling But.

34. use multi-states according to claim 28 are combined the air-conditioning method of indirect air processing means, and its feature exists Between indirect evaporation heat-exchanger rig and spray equipment, it is provided with direct evaporation refrigeration filler, the air draft of technique wind cools down process The shower water of direct evaporation refrigeration filler, thus output wind is carried out cold on indirect evaporation heat-exchanger rig by the Water spray after cooling But.

35. are combined the air-conditioning method of indirect air processing means according to the multi-state that uses described in claim 22 or 23, and it is special Levy and be at technique wind inlet end to be provided with technique air port surface cooler；The water inlet of described technique air port surface cooler is by with spray The pipeline of water circulating pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and water cooled condenser The cooling water inlet of water-cooling channel is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique The water of air port surface cooler accesses in the water-cooling channel of water cooled condenser.

36. use multi-states according to claim 24 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

37. use multi-states according to claim 25 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

38. use multi-states according to claim 26 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

39. use multi-states according to claim 27 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

40. use multi-states according to claim 28 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

41. use multi-states according to claim 29 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

42. use multi-states according to claim 30 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

43. use multi-states according to claim 31 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

44. use multi-states according to claim 32 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

45. use multi-states according to claim 33 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.

46. use multi-states according to claim 34 are combined the air-conditioning method of indirect air processing means, and its feature exists Technique air port surface cooler it is provided with at technique wind inlet end；The water inlet of described technique air port surface cooler is by with Sprayer Circulation The pipeline of water pump is connected with Sprayer Circulation water tank, the outlet of described technique air port surface cooler and the water-cooled of water cooled condenser The cooling water inlet of passage is connected by pipeline；By technique air port surface cooler pre-cooling technique wind, simultaneously flow through technique air port The water of surface cooler accesses in the water-cooling channel of water cooled condenser.