CN205448163U - Air -conditioner regulating system - Google Patents

Abstract

The utility model relates to an air -conditioner regulating system, including the full heat recovery unit of solution, solution regenerating unit, solution dehumidification unit, the return air wind channel, the condenser, fresh air inlet, the evaporimeter, the surface cooler, the heat exchanger, the compressor, the expansion valve, the full heat recovery unit of solution, the return air wind channel connects gradually the full heat recovery unit upper portion of solution, and first solution regenerating unit, second solution regenerating unit, fresh air inlet connect gradually the full heat recovery unit lower part of solution, first solution dehumidification unit, second solution dehumidification unit and surface cooler are linked together, the utility model discloses an air -conditioner regulating system, it does not increase the processing energy consumption again to increase the amount of wind, cancels moist cold surface, reduces power consumption consumption to heat energy is power, carries out the solution humidifying through setting up the full heat exchange unit of solution, improves dehumidification efficiency, need not to cool down the air to the dew point dehumidification, has avoided dehumidification back air temperature low excessively.

Description

A kind of air conditioning system

Technical field

This utility model relates to air conditioning system, particularly to a kind of air conditioning system.

Background technology

nullAt present，Realize the air conditioning mode of Summer Indoor environmental Kuznets Curves be by indoor feeding through the air of cool-down dehumidification，Realize the control of indoor temperature，And existing most air conditioning system bypasses air through cold surface that it is carried out cooling and dehumidification，The low-temperature receiver using same low temperature processes sensible heat and latent heat，The coefficient of performance causing refrigeration machine is low，Cause the waste of energy，Dehumidification by condensation causes the cold surface in system to become moist surface even producing hydrops，Strengthening outdoor resh air requirement is to get rid of indoor volatile organic compounds，Reduce indoor CO2 concentration，And introduce the cool-down dehumidification process that outdoor air is accomplished by consuming the realization of a large amount of cold to outdoor air in a large number，Existing air-conditioning processed by dehumidification by condensation after air，Its latent heat absorbed is difficult to adapt to indoor heat moisture ratio，Wind pushing temperature can not be too low，Thus need bigger circulating ventilation amount，Often result in the biggest indoor air flowing，Habitant is made to produce the blowing feeling of discomfort，Room air distribution design will be improved by the position and form of improving air outlet for reducing this blowing feeling，This often to reduce in layout air channel, indoor interior net storey height or strengthen floor gap away from，The biggest ventilation easily causes airborne noise，And it is difficult to effectively eliminate.

Utility model content

Causing the biggest indoor air flowing to solve air-conditioning of the prior art, the problem producing uncomfortable blowing feeling, this utility model provides one to add Wind Volume does not the most increase process energy consumption, cancels moist cold surface, the air conditioning system of minimizing electric consumption.

nullConcrete scheme of the present utility model is as follows: a kind of air conditioning system，Including solution total heat recovery unit，Solution regeneration unit，Solution dehumidification unit，Return airway，Condenser，New wind air channel，Vaporizer，Heat exchanger，Compressor，Expansion valve and surface cooler，Described solution total heat recovery unit，It is equipped with solution cavity inside solution dehumidification unit and solution regeneration unit，Described solution cavity is built with solution，Described solution total heat recovery unit includes solution total heat recovery unit top and solution total heat recovery unit bottom，Described solution total heat recovery unit top is connected with solution total heat recovery unit bottom，Described solution regeneration unit includes the first solution regeneration unit and the second solution regeneration unit，Described first solution regeneration unit and the second solution regeneration unit are equipped with water compensating valve，Described condenser includes the first condenser and the second condenser，Described first condenser connects the first solution regeneration unit，Described second condenser connects the second solution regeneration unit，Described return airway is sequentially connected with solution total heat recovery unit top，First solution regeneration unit and the second solution regeneration unit；

Described solution dehumidification unit includes the first solution dehumidification unit and the second solution dehumidification unit, described vaporizer includes the first vaporizer and the second vaporizer, described first vaporizer is connected to the first solution dehumidification unit, described second vaporizer connects the second solution dehumidification unit, described first condenser and the second condenser, first vaporizer and the second vaporizer connect compressor and expansion valve respectively, described new wind air channel is sequentially connected with solution total heat recovery unit bottom, first solution dehumidification unit, the second solution dehumidification unit is connected with surface cooler.

Affiliate program the most of the present utility model:

As preferably, described first solution dehumidification unit, the second solution dehumidification unit and the first solution regeneration unit, the second solution regeneration unit are respectively provided with multiple.

As preferably, described solution total heat recovery unit, first solution regeneration unit and the second solution regeneration unit, first solution dehumidification unit and the second solution dehumidification unit are respectively mounted solution water circulating pump, described solution total heat recovery unit top and solution total heat recovery unit bottom are provided with the first solution water circulating pump, described first solution regeneration unit is provided with the second solution water circulating pump, second solution regeneration unit is provided with the 3rd solution water circulating pump, described first solution dehumidification unit is mounted with the 4th solution water circulating pump, second solution dehumidification unit is mounted on the 5th solution water circulating pump.

As preferably, described water compensating valve includes that the second water compensating valve and the first water compensating valve, described first water compensating valve and the first solution regeneration unit are connected, and described second water compensating valve and the second solution regeneration unit are connected.

As preferably, described first solution dehumidification unit, the bottom of the second solution dehumidification unit respectively with the second solution regeneration unit, the bottom connection of the first solution regeneration unit, its equal connectivity part is provided with pipeline, it is respectively the first pipeline and the second pipeline, heat exchanger is installed in described first pipeline and the second pipeline, described heat exchanger includes First Heat Exchanger and the second heat exchanger, described First Heat Exchanger is arranged in the first pipeline, it connects the second solution regeneration unit and the first solution dehumidification unit respectively, described second heat exchanger is arranged in the second pipeline, it connects the first solution regeneration unit and the second solution dehumidification unit respectively.

The beneficial effects of the utility model: a kind of air conditioning system of the present utility model, add Wind Volume and the most do not increase process energy consumption, cancel moist cold surface, minimizing electric consumption, with heat energy as power, carry out solution humidifying by arranging solution full heat exchange unit, improve dehumidification rate, without air cooling-down to dew point is dehumidified, it is to avoid too low air temperature after dehumidifying.

Accompanying drawing explanation

The structural representation of Fig. 1 a kind of air conditioning system of the present utility model.

nullIn figure: solution total heat recovery unit 1，Solution total heat recovery unit top 11，Solution total heat recovery unit bottom 12，Solution dehumidification unit 2，First solution dehumidification unit 21，Second solution dehumidification unit 22，Solution regeneration unit 3，First solution regeneration unit 31，Second solution regeneration unit 32，Surface cooler 4，Return airway 5，Heat exchanger 6，First Heat Exchanger 61，Second heat exchanger 62，Compressor 7，Expansion valve 8，Pipeline 9，First pipeline 91，Second pipeline 92，New wind air channel 100，Water compensating valve 200，Second water compensating valve 201，First water compensating valve 202，Vaporizer 30，First vaporizer 301，Second vaporizer 302，Condenser 40，First condenser 401，Second condenser 402. solution water circulating pump 50，First solution water circulating pump 501，Second solution water circulating pump 502，3rd solution water circulating pump 503，4th solution water circulating pump 504，5th solution water circulating pump 505，Solution cavity 60.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described further.

nullAs shown in Figure 1，A kind of air conditioning system of the present utility model，Including solution total heat recovery unit 1，Solution dehumidification unit 2，Solution regeneration unit 3，Return airway 5，New wind air channel 100，Surface cooler 4，Heat exchanger 6，Compressor 7，Expansion valve 8，Described solution total heat recovery unit 1，The inside of solution dehumidification unit 2 and solution regeneration unit 3 is equipped with solution cavity 60，Solution cavity 60 is built with solution，Described solution total heat recovery unit 1 is provided with solution total heat recovery unit top 11 and solution total heat recovery unit bottom 12，Described solution dehumidification unit 2 includes the first solution dehumidification unit 21 and the second solution dehumidification unit 22，Described solution regeneration unit 3 includes the first solution regeneration unit 31 and the second solution regeneration unit 32，Described first solution regeneration unit 31 and the second solution regeneration unit 32 are equipped with water compensating valve，Described water compensating valve 200 includes the first water compensating valve 201 and the second water compensating valve 202，Described first water compensating valve 201 is interconnected with the first solution regeneration unit 31，Described second water compensating valve 202 is interconnected with the second solution regeneration unit 32.So arranging, water compensating valve is for controlling the solution concentration in solution regeneration unit.Described solution total heat recovery unit, first and second solution regeneration units, first and second solution dehumidification regeneration units are respectively mounted solution water circulating pump 50, described solution total heat recovery unit top 11 and solution total heat recovery unit bottom 12 are provided with the first solution water circulating pump 501, described first solution regeneration unit 31 is provided with the second solution water circulating pump 502, second solution regeneration unit 32 is provided with the 3rd solution water circulating pump 503, described first solution dehumidification unit 21 is mounted with the 4th solution water circulating pump 504, second solution dehumidification unit 22 is mounted on the 5th solution water circulating pump 504, so arrange, form solution to circulate up and down.Described first solution dehumidification unit the 21, second solution dehumidification unit 22 and first solution regeneration unit the 31, second solution regeneration unit 32 are respectively provided with multiple, so arrange, return air after recuperation of heat is successively with first, after weak solution heat exchange that in second solution regeneration unit, temperature is higher absorbent solution moisture, rear row is to outdoor；Pretreated new wind enters in the first, the second solution dehumidification unit, delivers to indoor after its concentrated solution heat exchange relatively low with temperature dehumidifying after surface cooler is lowered the temperature.Described return airway 5 is sequentially connected with solution total heat recovery unit top 11, the first solution regeneration unit 31 and the second solution regeneration unit 32, so arranges, it is simple to lead to outdoor.nullDescribed new wind air channel 100 is sequentially connected with solution total heat recovery unit bottom，First solution dehumidification unit 21，Second solution dehumidification unit 22 is connected with surface cooler 4，So arrange，It is easy to lead to indoor，Form the circulation of solution，Fresh air handing is to utilize solution dehumidification unit concentrated solution to cool down，With the latent heat discharged during strengthening solution dehumidification ability absorption dehumidifying，Regeneration weak solution is heated，Again with total heat recovery after return air carry out Total heat exchange，Solution is i.e. concentrated regeneration，Return airway directly contacts total heat recovery unit with new wind air channel respectively through gas-liquid and carries out total heat recovery，Solution is through the conveying from the bottom to top of water circulating pump，It successively directly contacts with the new wind in new wind air channel and the return air of return airway，Return air after recuperation of heat is successively with first、After weak solution heat exchange that in second solution regeneration unit, temperature is higher absorbent solution moisture, row is to outdoor，Pretreated new wind then enters in the first and second solution dehumidification unit，After the concentrated solution heat exchange relatively low with temperature dehumidifying，Indoor are delivered to after surface cooler is lowered the temperature.Described first solution dehumidification unit 21, the bottom of the second solution dehumidification unit 22 respectively with the first solution regeneration unit 31, the bottom connection of the second solution regeneration unit 32, its connectivity part is provided with pipeline 9, it is respectively the first pipeline 91 and the second pipeline 92, described first and second pipelines are respectively mounted heat exchanger 6, described heat exchanger 6 includes First Heat Exchanger 61 and the second heat exchanger 62, described First Heat Exchanger 61 is arranged in the first pipeline 91, it connects the second solution regeneration unit and the first solution recovery unit respectively, described second heat exchanger 62 is arranged in the second pipeline 92, it connects the first solution regeneration unit and the second solution recovery unit respectively.So arrange, first solution regeneration unit and the first solution dehumidification unit, second solution regeneration unit is the most corresponding with the second solution dehumidification unit, arranging the second heat exchanger between the higher concentrated solution of temperature that flows out from the first solution regeneration unit and the relatively low weak solution of the temperature flowed out from the first solution dehumidification unit and reclaim heat, between the second solution regeneration unit and the second solution dehumidification unit, the solution of circulation uses First Heat Exchanger to reclaim heat.nullDescribed vaporizer 30 includes the first vaporizer 301 and the second vaporizer 302，Described first vaporizer 301 connects the first solution dehumidification unit 21，Described second vaporizer 302 connects the second solution dehumidification unit 22，So arrange，Make the hygroscopic solution in the first and second solution dehumidification unit flow through the first and second heat exchangers and form the circulation up and down of solution，Described first condenser 201 and the second condenser 202 connect the first and second solution regeneration units respectively，So arrange，The hygroscopic solution making the first and second solution regeneration units flows through the first and second condensers，Form the circulation up and down of solution，Described first solution dehumidification unit 21，Second solution dehumidification unit 22，First solution regeneration unit 31，Second solution regeneration unit 32，Connected by compressor 7 and expansion valve 8 respectively，So arrange，Form refrigerant circulation.

A kind of air conditioning system of the present utility model, in concrete processing procedure, first, return airway carries out total heat recovery through solution total heat recovery unit, carry from the bottom to top through solution water circulating pump and successively directly contact with new wind and return air, the weak solution heat exchange that return air after recuperation of heat is the highest with temperature in first, second solution regeneration unit, and after absorbent solution moisture, row arrives outdoor；nullNew wind is by the new wind air channel of new wind entrance after solution total heat recovery to System Solution Dehumidifying element，The concentrated solution contact that it is lowered the temperature by the first and second vaporizers realizes dehumidifying，Indoor are delivered to after surface cooler is lowered the temperature by high temperature cold water，Between the higher concentrated solution of temperature that flows out from the second solution regeneration unit and the relatively low weak solution of the temperature flowed out from the first solution dehumidification unit, First Heat Exchanger is set and reclaims heat，Between first solution regeneration unit and the second solution dehumidification unit, the solution of circulation uses the second heat exchanger to reclaim heat，After the weak solution of the second solution dehumidification unit mixes with the solution in the first solution regeneration unit bottom solution groove，With the high-temperature refrigeration working medium heat exchange flowed out from compressor in the first condenser，Delivered to the top spray regeneration of solution regeneration unit by solution water circulating pump after solution is heated，After releasing moisture, concentration raises，Concentrated solution after regeneration flows back to the second solution regeneration unit，After it mixes with the solution of the bottom solution groove of the second solution dehumidification unit，Again with the second vaporizer in from expansion valve flow out cryogenic refrigeration working medium heat exchange，The first solution regeneration unit top spray dehumidifying is delivered to by solution circulation pump after solution is cooled，After absorbing the moisture in air, solution concentration is thinning，It is then sent through in the first solution regeneration unit concentrating，So circulation.It addition, the process of the new wind of system, the vaporizer of heat pump is on the one hand utilized dehumidifying concentrated solution to be cooled down, with the latent heat discharged during strengthening solution dehumidification ability absorption dehumidifying；Regeneration weak solution is heated by the condenser on the other hand utilizing heat pump, then carries out Total heat exchange with the return air after total heat recovery, and solution is i.e. concentrated regeneration.

Further, a kind of air conditioning system of the present utility model, make use of the characteristic of solution efficient absorbent, the cool-down dehumidification process to air is realized in conjunction with multi-stage solution dehumidifying regeneration unit, solution total heat recovery unit, surface cooler, by regulating the cold of refrigeration system the first and second vaporizer, the temperature of dehumidification solution at different levels can be regulated, the concentration of dehumidification solution at different levels is controlled by the moisturizing of water compensating valve, realize the dehumidifying to new wind and cooling, to reduce the irreversible loss of process, improve system and process the Energy Efficiency Ratio of new wind；Meanwhile, the surface cooler of system only processes sensible heat load, uses high-temperature water to reduce the energy consumption producing chilled water.

A kind of air conditioning system of the present utility model, control respectively and conditioning chamber humidity and temperature, thus avoid the energy waste and the reduction of air quality that in conventional system, epidemic disaster Combined Treatment is brought, conditioning chamber humidity is carried out by new wind, sensible heat end regulation indoor temperature, the requirement that room heat moisture ratio is continually changing can be met, it is to avoid indoor humidity too high too low phenomenon.

A kind of air conditioning system of the present utility model, 1. utilizes solution dehumidification to produce dry fresh air, and new wind utilizes cold water realization to lower the temperature after mix with return air, improves the evaporating temperature of system thus is remarkably improved refrigerating efficiency；2. the surface cooler by being provided with uses the cold water of higher temperatures, generates without solidifying water, reduces bacteria breed；3. multistage for solution dehumidification treatments system and heat pump are combined, it is utilized respectively the heat pump of different evaporating temperature, the cold of vaporizer cools down solution dehumidification process step by step, the heat pump heat exhaust using different condensation temperature realizes the concentrating regenerative of solution, it is difficult to meet heat and mass with solution air with liquid inventory ratio simultaneously, reduce the irreversible loss of air handling process, increase substantially treatment effeciency；4. by solution total heat recovery unit recyclable air draft energy；5 have significant regulation advantage by being provided with solution water circulating pump.

A kind of air conditioning system of the present utility model, add Wind Volume and the most do not increase process energy consumption, cancel moist cold surface, minimizing electric consumption, solution humidifying is carried out for power by arranging gas-liquid full heat exchange unit with heat energy, improve dehumidification rate, it is not necessary to dehumidified by air cooling-down to dew point, it is to avoid too low air temperature after dehumidifying.It is to be noted; above-mentioned preferred embodiment only illustrates technology of the present utility model design and feature; its object is to allow person skilled in the art will appreciate that content of the present utility model and to implement according to this, protection domain of the present utility model can not be limited with this.All equivalence changes made according to this utility model spirit or modification, all should contain within protection domain of the present utility model.

Claims (5)

1. null1. an air conditioning system，It is characterized in that: include solution total heat recovery unit，Solution regeneration unit，Solution dehumidification unit，Return airway，Condenser，New wind air channel，Vaporizer，Heat exchanger，Compressor，Expansion valve and surface cooler，Described solution total heat recovery unit，It is equipped with solution cavity inside solution dehumidification unit and solution regeneration unit，Described solution cavity is built with solution，Described solution total heat recovery unit includes solution total heat recovery unit top and solution total heat recovery unit bottom，Described solution total heat recovery unit top is connected with solution total heat recovery unit bottom，Described solution regeneration unit includes the first solution regeneration unit and the second solution regeneration unit，Described first solution regeneration unit and the second solution regeneration unit are equipped with water compensating valve，Described condenser includes the first condenser and the second condenser，Described first condenser connects the first solution regeneration unit，Described second condenser connects the second solution regeneration unit，Described return airway is sequentially connected with solution total heat recovery unit top，First solution regeneration unit and the second solution regeneration unit；

   Described solution dehumidification unit includes the first solution dehumidification unit and the second solution dehumidification unit, described vaporizer includes the first vaporizer and the second vaporizer, described first vaporizer is connected to the first solution dehumidification unit, described second vaporizer connects the second solution dehumidification unit, described first condenser and the second condenser, first vaporizer and the second vaporizer connect compressor and expansion valve respectively, described new wind air channel is sequentially connected with solution total heat recovery unit bottom, first solution dehumidification unit, the second solution dehumidification unit is connected with surface cooler.
2. 2. a kind of air conditioning system as claimed in claim 1, it is characterised in that: described first solution dehumidification unit, the second solution dehumidification unit and the first solution regeneration unit, the second solution regeneration unit are respectively provided with multiple.
3. 3. a kind of air conditioning system as claimed in claim 1, it is characterized in that: described solution total heat recovery unit, first solution regeneration unit and the second solution regeneration unit, first solution dehumidification unit and the second solution dehumidification unit are respectively mounted solution water circulating pump, described solution total heat recovery unit top and solution total heat recovery unit bottom are provided with the first solution water circulating pump, described first solution regeneration unit is provided with the second solution water circulating pump, second solution regeneration unit is provided with the 3rd solution water circulating pump, described first solution dehumidification unit is mounted with the 4th solution water circulating pump, second solution dehumidification unit is mounted on the 5th solution water circulating pump.
4. 4. a kind of air conditioning system as claimed in claim 1, it is characterized in that: described water compensating valve includes the second water compensating valve and the first water compensating valve, described first water compensating valve and the first solution regeneration unit are connected, and described second water compensating valve and the second solution regeneration unit are connected.
5. 5. a kind of air conditioning system as claimed in claim 1, it is characterized in that: described first solution dehumidification unit, the bottom of the second solution dehumidification unit respectively with the second solution regeneration unit, the bottom connection of the first solution regeneration unit, its equal connectivity part is provided with pipeline, it is respectively the first pipeline and the second pipeline, heat exchanger is installed in described first pipeline and the second pipeline, described heat exchanger includes First Heat Exchanger and the second heat exchanger, described First Heat Exchanger is arranged in the first pipeline, it connects the second solution regeneration unit and the first solution dehumidification unit respectively, described second heat exchanger is arranged in the second pipeline, it connects the first solution regeneration unit and the second solution dehumidification unit respectively.