CN109084386A - Air conditioning system - Google Patents

Abstract

The invention discloses an air conditioning system which comprises a dehumidification subsystem and a drying subsystem, wherein one side of a dehumidification chamber of the dehumidification subsystem is provided with a first air inlet, the top of the dehumidification chamber is provided with a first air outlet, the bottom of the dehumidification chamber is provided with a first drying agent storage chamber, the first drying agent storage chamber is filled with drying agent, a first bypass channel is arranged at one side of the dehumidification chamber, the first air inlet is communicated with the first bypass channel, the first bypass channel is communicated with the first air outlet, the bottom of the first drying agent storage chamber is communicated with a first pipeline, the first pipeline is provided with a first circulating pump, the top end of the first pipeline is communicated with the top of the dehumidification chamber, and the top end of the first pipeline is provided with a plurality of first nozzles; the drying subsystem is similar in structure to the dehumidifying subsystem. The invention effectively adjusts the indoor temperature to be proper.

Description

A kind of air handling system

Technical field

The present invention relates to air-conditioning technique field more particularly to air handling systems.

Background technique

Air-conditioning (HVAC) system is house, and commercial and industrial building provides temperature and humidity controlled air.By HVAC system The air that system provides may be needed in specific temperature or humidification or be dehumidified to meet the comfort level of occupancy, or be set in electronics In the standby range waited.If usually being dehumidified and being cooled down to outside air, if using heating system using air-conditioning system It is humidified and is heated.Temperature and humidity mechanism can be integrated or separated.For example, for some traditional air-conditionings System makes air setting go out air by bypassing air through cooling coil, and air is cooled to its dew point or less.This is typically resulted in Air themperature is lower than comfort zone temperature.Then heating air reaches required comfort zone temperature, method be by its with Warmer air in cooling space mixes or is passed through heating coil.The cooling reduction of excess for dehumidifying to air Efficiency.If desiccant removes water with the air in part of dehumidifying within air-conditioning systems using dry dosage form dehumidifier.So Cooling coil can be used afterwards, dry air is cooled to required comfort zone temperature.Desiccant is regenerated in regenerating section, Middle water is removed from desiccant.Then desiccant can be reused in dehumidifying part.According to the capacity of dehumidifying and regenerating section And type, desiccant can be blown out into part under upper air current speed.Flow through the high flow rate air of the chamber containing desiccant with Desiccant contact, carries desiccant drop or steam secretly, and desiccant is caused to lose from HVAC system.

Summary of the invention

The purpose of the present invention is to provide a kind of air handling systems, to solve the problems mentioned in the above background technology.

To achieve the above object, the invention provides the following technical scheme:

A kind of air handling system, the air handling system includes dehumidifying subsystem and dry subsystem, described to remove Wet subsystem includes moist chamber, desiccant storage room one, desiccant, pipeline one, nozzle one, circulating pump one and bypass channel One, the side of the moist chamber is provided with air inflow aperture one, and air outflow port one, the dehumidifying are provided at the top of the moist chamber The bottom of room, which is equipped in the desiccant storage room one and the desiccant storage room one, is filled with the desiccant, the bypass Channel one is located at the side of the moist chamber and the air inflow aperture one is connected to the bypass channel one, the bypass channel One is connected to the air outflow port one, and the bottom of the desiccant storage room one is communicated on pipeline one and the pipeline one and sets There is a circulating pump one, the top that the top of the pipeline one is communicated to the top of the moist chamber and the pipeline one is equipped with more A nozzle one；The dry subsystem includes hothouse, desiccant storage room two, desiccant, pipeline two, nozzle two, circulating pump Two and bypass channel two, the side of the hothouse be provided with air inflow aperture two, be provided with air stream at the top of the moist chamber Outlet two, the bottom of the hothouse are equipped in the desiccant storage room two and the desiccant storage room two filled with described Desiccant, the bypass channel two is located at the side of the hothouse and the air inflow aperture two and the bypass channel two connect Logical, the bypass channel two is connected to the air outflow port two, and the bottom of the desiccant storage room two is communicated with pipeline two And the pipeline two is equipped with the circulating pump two, the top of the pipeline two is communicated to the top of the hothouse and the pipe The top in road two is equipped with multiple nozzles two.

Preferably, the air inflow aperture one and air inflow aperture two go out to be equipped with damper one；One He of bypass channel The bottom end of bypass channel two is equipped with damper two.

Preferably, the air handling system further includes steam circulation subsystem, and the steam circulation subsystem includes pressure Contracting machine, the first condenser, the second condenser, throttle valve, evaporator, first heat exchanger and second heat exchanger, described One condenser is located on the pipeline two, and second condenser is located on air inflow aperture two, and the first heat exchanger is set On pipeline one, the second heat exchanger is located on the bypass channel one and the input terminal of the evaporator be communicated to it is described First heat exchanger, second heat exchanger and the second condenser, second condenser is connected to first condenser, described The input terminal of first condenser is communicated to the compressor, and the input terminal of the compressor is communicated to the output of the evaporator End, the output end of the evaporator also pass through throttle valve and are communicated to first heat exchanger and second heat exchanger.

Preferably, the air inflow aperture one is communicated to air-conditioner air-outlet.

Preferably, the air inflow aperture two is communicated to air-conditioner air-outlet.

Preferably, pass through connection component connection between the desiccant storage room one and desiccant storage room two.

Preferably, the connection component includes circulating pump three and diffuser, and the diffuser is communicated to described dry Between drying prescription storage room one and desiccant storage room two, the circulating pump three is located inside the diffuser.

Compared with prior art, beneficial effects of the present invention: the working principle for the subsystem that dehumidifies is as follows: humid air passes through Air inflow aperture one enters moist chamber, and the permission of bypass channel one is provided higher air velocity and flowed through by air outflow port one is System.The addition of bypass channel one, which provides, makes the drying of outflow obtain higher overall flow rate at air outflow port one, protects simultaneously It holds air and moist chamber is flowed through with lower flow velocity, desiccant is sent to series of spray nozzles from desiccant storage room one by circulating pump one One, desiccant is ejected into the inside of moist chamber by nozzle one.Moist chamber can be filled with cellulosic sponge material, be filled out by the material It fills, desiccant penetrates into downwards desiccant storage room one, is connect by the humid air part that air inflow aperture one enters moist chamber Desiccant drop is touched, the vapor that hygroscopicity desiccant absorbs in humid air makes the air relatively dried leave moist chamber 1, with It mixes from the bypass air of bypass channel one, and is discharged by air outflow port one, to make to enter indoor air more Comfortably；

The working principle of dry subsystem is as follows: dry air enters hothouse, bypass channel by air inflow aperture two Two allow to provide higher air velocity by air outflow port two and flow through system.The addition of bypass channel two, which provides, to be made to flow out Wet air higher overall flow rate is obtained at air outflow port two, while air being kept to flow through drying with lower flow velocity Desiccant is sent to series of spray nozzles two from desiccant storage room two by room, circulating pump two, and desiccant is ejected into drying by nozzle two The inside of room.Hothouse can be filled with cellulosic sponge material, be filled by the material, and desiccant penetrates into downwards desiccant storage Room two is deposited, the dry air part contact drying agent drop of hothouse is entered by air inflow aperture two, dry air absorbs dry Moisture in drying prescription, so that dry air be made to become wet, to make to enter indoor air more comfortable

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention；

In figure: 1, moist chamber；2, desiccant storage room one；3, desiccant；4, pipeline one；5, nozzle one；6, circulating pump one； 7, bypass channel one；8, air inflow aperture one；9, air outflow port one；10, hothouse；11, desiccant storage room two；12, it manages Road two；13, nozzle two；14, circulating pump two；15, bypass channel two；16, air inflow aperture two；17, air outflow port two；18, Damper one；19, damper two；20, compressor；21, the first condenser；22, the second condenser；23, first heat exchanger； 24, second heat exchanger；25, throttle valve；26, evaporator；27, diffuser；28, circulating pump three.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Such as Fig. 1, it is proposed that following embodiments:

A kind of air handling system, the air handling system includes dehumidifying subsystem and dry subsystem, described to remove Wet subsystem includes moist chamber 1, desiccant storage room 1, desiccant 3, pipeline 1, nozzle 1, circulating pump 1 and bypass Channel 1, the side of the moist chamber 1 are provided with air inflow aperture 1, and the top of the moist chamber 1 is provided with air outflow port one 9, the bottom of the moist chamber 1 is equipped in the desiccant storage room 1 and the desiccant storage room 1 filled with described dry Drying prescription 3, the bypass channel 1 are located at the side of the moist chamber 1 and the air inflow aperture 1 and the bypass channel one 7 connections, the bypass channel 1 are connected to the air outflow port 1, and the bottom of the desiccant storage room 1 is communicated with Pipeline 1 and the pipeline 1 are equipped with the circulating pump 1, and the top of the pipeline 1 is communicated to the moist chamber 1 Top and the top of the pipeline 1 are equipped with multiple nozzles 1；The dry subsystem includes hothouse 10, desiccant storage Room 2 11, desiccant 3, pipeline 2 12, nozzle 2 13, circulating pump 2 14 and bypass channel 2 15, the one of the hothouse 10 Side is provided with air inflow aperture 2 16, and the top of the hothouse 10 is provided with air outflow port 2 17, the bottom of the hothouse 10 Equipped with the desiccant 3 is filled in the desiccant storage room 2 11 and the desiccant storage room 2 11, the bypass is logical Road 2 15 is located at the side of the hothouse 10 and the air inflow aperture 2 16 is connected to the bypass channel 2 15, the side Paths 2 15 are connected to the air outflow port 2 17, the bottom of the desiccant storage room 2 11 be communicated with pipeline 2 12 and The pipeline 2 12 be equipped with the circulating pump 2 14, the top of the pipeline 2 12 be communicated to the top of the hothouse 10 and The top of the pipeline 2 12 is equipped with multiple nozzles 2 13.

In the present embodiment, the air inflow aperture 1 and air inflow aperture 2 16 go out to be equipped with damper 1；The side The bottom end of paths 1 and bypass channel 2 15 is equipped with damper 2 19.

In the present embodiment, the air handling system further includes steam circulation subsystem, the steam circulation subsystem Including compressor 20, the first condenser 21, the second condenser 22, throttle valve 25, evaporator 26, first heat exchanger 23 and Two heat exchangers 24, first condenser 21 are located on the pipeline 2 12, and second condenser 22 is located at air inflow On mouth 2 16, the first heat exchanger 23 is located on pipeline 1, and the second heat exchanger 24 is located at the bypass channel one On 7 and the input terminal of the evaporator 26 is communicated to the first heat exchanger 23, second heat exchanger 24 and the second condenser 22, second condenser 22 is connected to first condenser 21, and the input terminal of first condenser 21 is communicated to described Compressor 20, the input terminal of the compressor 20 are communicated to the output end of the evaporator 26, the output end of the evaporator 26 First heat exchanger 23 and second heat exchanger 24 are also communicated to by throttle valve 25.It enables air to dry or more wet Enter in hothouse 10 or moist chamber 1.

In the present embodiment, the air inflow aperture 1 is communicated to air-conditioner air-outlet；The air inflow aperture 2 16 is connected to To air-conditioner air-outlet.

In the present embodiment, connected between the desiccant storage room 1 and desiccant storage room 2 11 by connection component It is logical；The connection component includes circulating pump 3 28 and diffuser 27, and the diffuser 27 is communicated to the desiccant storage It deposits between room 1 and desiccant storage room 2 11, the circulating pump 3 28 is located inside the diffuser 27.Make desiccant 3 It can quickly be lived again.

Working principle: the working principle for the subsystem that dehumidifies is as follows: humid air enters moist chamber by air inflow aperture 1 1, bypass channel 1 allows to provide higher air velocity by air outflow port 1 and flows through system.Bypass channel 1 adds Adding to provide makes the drying of outflow obtain higher overall flow rate at air outflow port 1, while keeping air with lower stream Speed flows through moist chamber 1, and desiccant is sent to series of spray nozzles 1 from desiccant storage room 1 by circulating pump 1, and nozzle 1 will be done Drying prescription is ejected into the inside of moist chamber 1.Moist chamber 1 can be filled with cellulosic sponge material, be filled by the material, desiccant 3 Desiccant storage room 1 is penetrated into downwards, the humid air part contact drying of moist chamber 1 is entered by air inflow aperture 1 Agent drop, the vapor that hygroscopicity desiccant absorbs in humid air make the air relatively dried leave moist chamber 1, bypass with coming from The bypass air in channel 1 mixes, and is discharged by air outflow port 1, to make to enter indoor air more comfortable；

The working principle of dry subsystem is as follows: dry air enters hothouse 10, bypass by air inflow aperture 2 16 Channel 2 15 allows to provide higher air velocity by air outflow port 2 17 and flows through system.The addition of bypass channel 2 15 mentions It has supplied the wet air for making outflow to obtain higher overall flow rate at air outflow port 2 17, while having kept air with lower stream Speed flows through hothouse 10, and desiccant is sent to series of spray nozzles 2 13, nozzle two from desiccant storage room 2 11 by circulating pump 2 14 13 are ejected into desiccant the inside of hothouse 10.Hothouse 10 can be filled with cellulosic sponge material, be filled by the material, Desiccant 3 penetrates into downwards desiccant storage room 2 11, and the dry air portion of hothouse 10 is entered by air inflow aperture 2 16 Tap touches desiccant drop, the moisture in dry air absorption dehydration agent, to make dry air become wet, to make to enter It is more comfortable to indoor air.

Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, It is still possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is carried out etc. With replacement, all within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in this Within the protection scope of invention.

Claims (7)

1. a kind of air handling system, it is characterised in that: the air handling system includes dehumidifying subsystem and dry subsystem System, the dehumidifying subsystem includes moist chamber (1), desiccant storage room one (2), desiccant (3), pipeline one (4), nozzle one (5), the side of circulating pump one (6) and bypass channel one (7), the moist chamber (1) is provided with air inflow aperture one (8), described Air outflow port one (9) is provided at the top of moist chamber (1), the bottom of the moist chamber (1) is equipped with the desiccant storage room one (2) and in the desiccant storage room one (2) desiccant (3) are filled with, the bypass channel one (7) is located at the dehumidifying The side of room (1) and the air inflow aperture one (8) is connected to the bypass channel one (7), the bypass channel one (7) and institute Air outflow port one (9) connection is stated, the bottom of the desiccant storage room one (2) is communicated with pipeline one (4) and the pipeline one (4) it is equipped with the circulating pump one (6), the top of the pipeline one (4) is communicated to the top of the moist chamber (1) and the pipe The top in road one (4) is equipped with multiple nozzles one (5)；The dry subsystem includes hothouse (10), desiccant storage room two (11), desiccant (3), pipeline two (12), nozzle two (13), circulating pump two (14) and bypass channel two (15), the drying The side of room (10) is provided with air inflow aperture two (16), is provided with air outflow port two (17), institute at the top of the hothouse (10) The bottom for stating hothouse (10), which is equipped in the desiccant storage room two (11) and the desiccant storage room two (11), to be filled with The desiccant (3), the bypass channel two (15) are located at the side of the hothouse (10) and the air inflow aperture two (16) it is connected to the bypass channel two (15), the bypass channel two (15) is connected to the air outflow port two (17), institute The bottom for stating desiccant storage room two (11) is communicated with pipeline two (12) and the pipeline two (12) is equipped with the circulating pump two (14), the top of the pipeline two (12) is communicated to the top of the hothouse (10) and the top of the pipeline two (12) and is equipped with Multiple nozzles two (13).

2. a kind of air handling system according to claim 1, it is characterised in that: the air inflow aperture one (8) and sky Air flow inlet two (16) goes out to be equipped with damper one (18)；The bottom end of the bypass channel one (7) and bypass channel two (15) is equipped with Damper two (19).

3. a kind of air handling system according to claim 1, it is characterised in that: the air handling system further includes steaming Vapour cycle subsystem, the steam circulation subsystem include compressor (20), the first condenser (21), the second condenser (22), Throttle valve (25), evaporator (26), first heat exchanger (23) and second heat exchanger (24), first condenser (21) It is located on the pipeline two (12), second condenser (25) is located on air inflow aperture two (16), first heat exchange Device (23) is located on pipeline one (4), and the second heat exchanger (24) is located on the bypass channel one (7) and the evaporator (26) input terminal is communicated to the first heat exchanger (23), second heat exchanger (24) and the second condenser (22), described Second condenser (22) is connected to first condenser (21), and the input terminal of first condenser (21) is communicated to the pressure Contracting machine (20), the input terminal of the compressor (20) are communicated to the output end of the evaporator (26), the evaporator (26) Output end also passes through throttle valve (25) and is communicated to first heat exchanger (23) and second heat exchanger (24).

4. a kind of air handling system according to claim 3, it is characterised in that: air inflow aperture one (8) connection To air-conditioner air-outlet.

5. a kind of air handling system according to claim 1, it is characterised in that: air inflow aperture two (16) connection To air-conditioner air-outlet.

6. a kind of air handling system according to claim 1, it is characterised in that: the desiccant storage room one (2) and Pass through connection component connection between desiccant storage room two (11).

7. a kind of air handling system according to claim 6, it is characterised in that: the connection component includes circulating pump three (28) and diffuser (27), the diffuser (27) are communicated to the desiccant storage room one (2) and desiccant storage Between room two (11), it is internal that the circulating pump three (28) is located at the diffuser (27).