CN205403017U - Air conditioning system - Google Patents

Abstract

The utility model relates to an air conditioning system, this air conditioning system contain hybrid chamber and exhaust cavity that air intake, many heat exchange tubes and interval set up. Wherein, it has the supply -air outlet to open on the hybrid chamber, the one end and the air intake connection of heat exchange tube, and the other end passes exhaust cavity and stretches into in the hybrid chamber. The return air inlet has still been opened to the lateral part of hybrid chamber, and exhaust cavity's lateral wall is opened has the entry of airing exhaust, the return air inlet and the pipe shaft to the heat exchange tube of just entering the mouth all of airing exhaust. The hybrid chamber is reachd from air inlet income through the heat exchange tube to outdoor new trend. Indoor return air mixes the merge pass supply -air outlet with outdoor new trend and gets into indoorly behind the outer wall of heat exchange tube. Indoor airing exhaust from the entry entering exhaust cavity that airs exhaust is outwards discharged from exhaust cavity through the outer wall of heat exchange tube. Compare with prior art, because this air conditioning system is at the in -process of operation, indoor return air and indoor airing exhaust need earlier through many heat exchange tubes to to carry out the laggard income of cold and hot exchange indoor with outdoor new trend, consequently can reduce air conditioning system's power consumption.

Description

Air conditioning system

Technical field

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

Background technology

In daily life or commercial Application, in the modern life, air-conditioning quilt is widely used in various occasion, to meet the demand of various live and work.

But, due to frequently occurring of haze weather, healthy impact to be paid close attention to by people, the air quality requirements of office work environment and daily life residence is also improved constantly by people.Along with expanding economy, the anxiety of energy supply and the impact of greenhouse effect, country formulates a series of energy-conserving and environment-protective policies and accelerates to promote, and the consciousness of energy-conserving and environment-protective is improved by people.Further, along with expanding economy, people's living standard improves, the concern to own health, it is proposed to high air quality requirements.

But, in the prior art, the power consumption of traditional air conditioning system is higher, and has part indoor return air to discharge from air conditioning system, so that air conditioning system needs the outdoor new wind to entering air-conditioning freeze or heat, causes the waste of the energy.Further, the temperature of air is only processed by traditional air conditioning system, for instance, in summer, air is after traditional air conditioner is lowered the temperature, humidity is low, air drying, and comfortableness is bad, and to winter, air is after traditional air conditioner heats up, and without humidification function, air also dries, and comfortableness is bad.

Therefore, how to reduce the power consumption of air conditioning system, and the humidity of air can be processed, it is ensured that the comfortableness of room air, be problem to be solved in the utility model.

Summary of the invention

The purpose of this utility model is in that to provide a kind of air conditioning system, and this air conditioning system reduces the power consumption of air conditioning system, and can the humidity of air be processed, it is ensured that the comfortableness of room air.

For solving above-mentioned technical problem, this utility model provides a kind of air conditioning system, and this air conditioning system is included into air port, N bar heat exchanger tube and spaced hybrid chamber and air draft chamber, and wherein, described N is natural number, and described hybrid chamber has air outlet；

One end of described heat exchanger tube is connected with described air inlet, the other end is through described air draft chamber and stretches in described hybrid chamber, the sidepiece of described hybrid chamber also has return air inlet, and the sidewall in described air draft chamber has air draft entrance, described return air inlet and described air draft entrance all just pipe shaft to described heat exchanger tube；

Outdoor new wind enters from described air inlet, arrives described hybrid chamber by described heat exchanger tube；

Indoor return air enters hybrid chamber from described return air inlet, mixes in air outlet inlet chamber described in merga pass with the new wind in described outdoor after the outer wall of described heat exchanger tube；

Indoor exhaust wind enters air draft chamber from described air draft entrance, through the outer wall of described heat exchanger tube and discharge from described air draft chamber.

Embodiment of the present utility model is in terms of existing technologies, owing to this air conditioning system is in the process run, the indoor return air and the indoor exhaust wind that flow out from return air inlet and air draft entrance need to first pass through a plurality of heat exchanger tube and just respectively enter in hybrid chamber and air draft chamber, and in the process of practical application, there is certain temperature contrast in indoor return air and the new wind of indoor exhaust wind and outdoor, therefore when heat exchanger tube has passed into outdoor new wind, and there is temperature difference with indoor return air and indoor exhaust wind in the new wind in outdoor, make outdoor new wind can produce cold and hot exchange by the tube wall of heat exchanger tube with indoor exhaust wind and indoor return air, and then can promote or be lowered into the temperature of the new wind in the outdoor in hybrid chamber, during to ensure that the outdoor new wind in hybrid chamber mixes with outdoor return, reduce the variations in temperature of indoor return air after mixing, therefore the power consumption of air conditioning system is reduced.

Further, described hybrid chamber comprises the vaporization chamber for regulating described indoor return air temperature and for mixing the mixing chamber of the indoor return air after homoiothermic, described return air inlet is positioned at the sidewall of described vaporization chamber, being connected by connector between described vaporization chamber with described mixing chamber, described connector is just to described return air inlet；Wherein, described heat exchanger tube runs through described vaporization chamber and described heat exchanger tube is at least part of between described air outlet and described return air inlet.Vaporization chamber and mixing chamber is comprised due to hybrid chamber, and heat exchanger tube runs through vaporization chamber, and it is at least part of between air outlet and return air inlet, get a promotion so that indoor return air enters vaporization chamber temperature through heat exchanger tube or reduce, expand the temperature difference of indoor return air and evaporation chamber temperature, and then the heat exchange efficiency between indoor return air and vaporization chamber can be promoted, effectively reduce energy consumption.

Further, described air draft intracavity heat exchanger tube after air draft entrance also comprise through place regulate described indoor return air temperature Heat Room, and air draft chamber is provided with wind exhausting outlet；Wherein, described heat exchanger tube runs through described Heat Room and described heat exchanger tube is at least part of between described wind exhausting outlet and described air draft entrance.Owing to outdoor air draft enters air draft chamber from air draft entrance through heat exchanger tube, outdoor new wind within heat exchanger tube produces cold and hot exchange by the tube wall of heat exchanger tube with indoor exhaust wind, thus can effectively utilizing indoor exhaust wind to promote or reducing the temperature of outdoor new wind, and then can reduce because indoor exhaust wind is from the energy waste caused after wind exhausting outlet discharge chamber.

Further, described air conditioning system also comprises that air humidity processes device, compressor, cross valve and described air humidity process the main control device that device is electrically connected, described air inlet is to the inlet channel between described heat exchanger tube air outlet, described air draft entrance to the exhaust passage between described air humidity process device air outlet, wherein, described heat exchanger tube is connected with described air inlet by described inlet channel；Described air draft chamber is connected with described wind exhausting outlet by described exhaust passage；Air intake part and the air-outlet part of described air humidity process device lay respectively in described inlet channel and exhaust passage；Described main control device processes the device outdoor new wind to entering described inlet channel by described air humidity and dehumidifies or humidify.Also comprising air humidity due to air conditioning system and process device, and the air humidity being positioned at inlet channel processes device and the outdoor new wind entering heat exchanger tube can be dehumidified or be humidified, the humidity to guarantee outdoor new wind disclosure satisfy that the requirement of comfortableness.

Further, described air humidity process device comprises solution humidity process device；Described solution humidity process device comprises and solution humidity processes assembly and regeneration of waste liquor assembly, and connects solution loop and the regenerative circuit of described solution humidity process assembly and described regeneration of waste liquor assembly；Described humidity processes assembly and comprises and be arranged in the first jet of described inlet channel, solution collection groove, be arranged on the regeneration pump of described regenerative circuit；Described regeneration of waste liquor assembly comprises the second nozzle being positioned at described exhaust passage and regeneration of waste liquor groove, is arranged on the described solution pump of described solution loop；Described first jet, described second nozzle, described regeneration pump, described solution pump are all electrically connected with described main control device；Wherein, described first jet discharges solution after being opened by described main control device and the new wind in described outdoor is carried out humidity process, and described solution flows in described solution collection groove after the new wind in described outdoor is carried out humidity process；Described solution in described solution collection groove is sent in described regeneration of waste liquor assembly by described regenerative circuit by described solution pump after being opened by described main control device；Described second nozzle discharges described solution after being opened by described main control device and indoor exhaust wind carries out humidity process, and described solution flows into formation actified solution in described regeneration of waste liquor groove after described indoor exhaust wind is processed；Described actified solution in described regeneration of waste liquor groove is sent into described solution humidity by described solution loop after being opened by described main control device and is processed in assembly by described regeneration pump.

Further, described solution humidity process device also comprises solution cooler and solution heater；Wherein, described solution cooler is connected with described solution loop, and described solution heater is connected with described regenerative circuit；Described compressor and described cross valve are all electrically connected with described main control device.Owing to solution cooler and solution heater are when being controlled the concentration of solution and temperature, it are effectively utilized the energy of indoor exhaust wind, thus the energy consumption of air conditioning system can be reduced further.

Further, described air humidity process device comprises runner humidity process device；Described runner humidity processes device and comprises runner and the runner blower fan of described main control device electric connection；Wherein, described inlet channel is connected with described exhaust passage；A part for described runner is arranged in described inlet channel, and another part is arranged in described exhaust passage；Described inlet channel and described exhaust passage are additionally provided with for separating described inlet channel and the sealing member of described exhaust passage；Described main control device drives described runner to rotate, and the new wind in described outdoor is dehumidified by described runner when rotating.Thus in actual application, when runner is accompanied with hygroscopic material, in the process that runner rotates, in summer, the moisture of new wind outside the hygroscopic material absorption chamber on runner can be passed through, reach the effect to outdoor fresh air dehumidification, and in the winter time, can pass through the hygroscopic material on runner absorbs the moisture in indoor exhaust wind, in the process rotated, the moisture of the moisture absorption on runner is absorbed by the new wind in outdoor, thus reaching the effect to the new wind humidification in outdoor.

Further, described air conditioning system also comprises and described main control device electric connection oxygen generating plant, and on the described inlet channel that described oxygen generating plant is between described air inlet and described heat exchanger tube；Wherein, the outdoor new wind entered in described inlet channel is supplemented negative oxygen ion or oxygen by described oxygen generating plant after being opened by described main control device.

Further, described N bar heat exchanger tube forms at least two row's heat exchanger tubes in the horizontal direction；Wherein, stagger mutually in two adjacent row heat exchanger tube positions in the height direction.Owing to staggering mutually in two adjacent row heat exchanger tube positions in the height direction, so that indoor return air and indoor exhaust wind are through heat exchanger tube, can by repeated segmentation, indoor return air can repeatedly be contacted with heat exchanger tube with indoor exhaust wind, thus improving heat exchange efficiency, reduce the energy consumption of air conditioning system.

Further, more than the distance between described heat exchanger tube two ends described in the length of described heat exchanger tube.Owing to the length of heat exchanger tube more than the distance between heat exchanger tube two ends, thus increasing the contact area of heat exchanger tube and indoor return air and indoor exhaust wind, and then can also can further improve heat exchange efficiency, having reduced energy consumption.

Further, described heat exchanger tube connect one end of described air inlet be provided with connect pipe box, one end of connecting described hybrid chamber is provided with fixing pipe box, connects described connection pipe box and the sealing pipeline of described fixing pipe box；Described connection pipe box with described fixing pipe box is equipped with M the identical axis hole for inserting described heat exchanger tube of quantity, wherein M is natural number；Wherein, described heat exchanger tube is positioned at the confined space that described connection pipe box, described fixing pipe box and described sealing pipeline are constituted；The sidewall of described sealing pipeline is further opened with the first opening, and described first opening is connected with described return air inlet and described air draft entrance by seal connector, and the other side of correspondence offers the second opening.It can thus be appreciated that, connect pipe box, fixing pipe box owing to heat exchanger tube is positioned at and seals the confined space that pipeline is constituted, make indoor return air can carry out fully with heat exchanger tube contacting and being cut with indoor exhaust wind, greatly improve heat exchange efficiency, reduce further the energy consumption of air conditioning system, serve energy-conservation effect.

Accompanying drawing explanation

Fig. 1 is the structural representation of the air conditioning system of this utility model the first embodiment；

Fig. 2 is the schematic cross-section of the heat exchanger tube of this utility model the first embodiment；

Fig. 3 is the top view of the runner of this utility model the first embodiment；

Fig. 4 is the structural representation of the runner of this utility model the first embodiment；

Fig. 5 is the structural representation of the heat exchanger tube of this utility model the second embodiment；

Fig. 6 is the assembling schematic diagram of the heat exchanger tube of this utility model the second embodiment；

Fig. 7 is the structural representation connecting pipeline of this utility model the second embodiment；

Fig. 8 is the structural representation of the air conditioning system of this utility model the second embodiment；

Fig. 9 is the structural representation of the solution humidity process device of this utility model the second embodiment.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, each embodiment of the present utility model is explained in detail.But, it will be understood by those skilled in the art that in each embodiment of this utility model, propose many ins and outs in order to make reader be more fully understood that the application.But, even without these ins and outs with based on the many variations of following embodiment and amendment, it is also possible to realize the application each claim technical scheme required for protection.

First embodiment of the present utility model relates to a kind of air conditioning system, as it is shown in figure 1, this air conditioning system is included into air port 12, a plurality of heat exchanger tube 10 and spaced hybrid chamber 16 and air draft chamber 17, wherein, hybrid chamber 16 has air outlet 11.

And in the present embodiment, only enumerating 4 heat exchanger tubes 10 explains, as it is shown in figure 1, one end of heat exchanger tube 10 is all connected with air inlet 12, and the other end through air draft chamber 17 and stretches in hybrid chamber 16.And the sidepiece of hybrid chamber 16 also has return air inlet 13, the sidewall in air draft chamber 17 has air draft entrance 14, return air inlet 13 and air draft entrance 14 and is all just exchanging the pipe shaft of heat pipe 10.

When practical application, operationally, outdoor new wind enters air conditioning system from air inlet 12, arrives hybrid chamber 16 by heat exchanger tube 10.And indoor return air enters hybrid chamber 16 from return air inlet 13, mix in merga pass air outlet 11 inlet chamber with the new wind in outdoor after the outer wall of heat exchanger tube 10.Accordingly, indoor exhaust wind enters air draft chamber 17 from air draft entrance 14, through the outer wall of heat exchanger tube 10 and discharge from air draft chamber 17.

nullBy foregoing，Owing to this air conditioning system is in the process run，The indoor return air and the indoor exhaust wind that flow out from return air inlet 13 and air draft entrance 14 need to first pass through a plurality of heat exchanger tube 10 and just respectively enter in hybrid chamber 16 and air draft chamber 17，And in the process of practical application，There is certain temperature contrast in indoor return air and the new wind of indoor exhaust wind and outdoor，Therefore when heat exchanger tube 10 has passed into outdoor new wind，And there is temperature difference with indoor return air and indoor exhaust wind in the new wind in outdoor，Make outdoor new wind can produce cold and hot exchange by the tube wall of heat exchanger tube 10 with indoor exhaust wind and indoor return air，And then can promote or be lowered into the temperature of the new wind in the outdoor in hybrid chamber 16，During to ensure that the outdoor new wind in hybrid chamber 16 mixes with outdoor return，Reduce the variations in temperature of indoor return air after mixing，Therefore the power consumption of air conditioning system is reduced.

Specifically, in actual applications, as it is shown in figure 1, air conditioning system comprises is sequentially connected with, by compressor 1, cross valve 5, heat exchanger 2, choke valve 3, vaporizer 4, the loop constituted.And air conditioning system also comprises pressure fan 7 and the air path system of exhaust blower 6 composition, wherein, choke valve 3, compressor 1 and cross valve 5 are all electrically connected with main control device.

Wherein, air conditioning system can be passed through the commutation of cross valve 5 and change the heat exchange agent flow direction in the loop, thus obtaining refrigeration or the effect heated.It should be noted that, in the present embodiment, heat exchanger 2 and exhaust blower are arranged in air draft chamber 17, vaporizer 4 and pressure fan 7 are arranged in hybrid chamber 16, pressure fan 7 can by mixed to indoor return air and indoor fresh air indoor return air inlet chamber when air conditioning system is run, and exhaust blower can by outside indoor exhaust wind discharge chamber.

Additionally, in the present embodiment, as shown in Figure 1, the hybrid chamber 16 of air conditioning system also comprise in conditioning chamber return air temperature vaporization chamber 16-1 and for mixing the mixing chamber 16-2 of the indoor return air after homoiothermic, return air inlet 13 is positioned at the sidewall of vaporization chamber 16-1, being connected by connector 18 between vaporization chamber 16-1 with mixing chamber 16-2, connector 18 is just to return air inlet 13.Wherein, heat exchanger tube 10 runs through vaporization chamber 16-1 and heat exchanger tube 10 is at least part of between air outlet 11 and return air inlet 13.

It can thus be appreciated that, vaporization chamber 16-1 and mixing chamber 16-2 is comprised due to hybrid chamber 16, and heat exchanger tube 10 runs through vaporization chamber 16-1, and it is at least part of between air outlet 11 and return air inlet 13, get a promotion so that indoor return air enters vaporization chamber 16-1 temperature through heat exchanger tube 10 or reduce, expand the temperature difference of indoor return air and vaporization chamber 16-1 internal temperature, and then the heat exchange efficiency between indoor return air and vaporization chamber 16-1 can be promoted, reduce energy consumption further.

It should be noted that in the present embodiment, as it is shown in figure 1, vaporizer 4 is arranged in vaporization chamber 16-1, pressure fan 7 is arranged in mixing chamber 16-2.

Further, in the present embodiment, as it is shown in figure 1, heat exchanger tube 10 also comprises the Heat Room of return air temperature in conditioning chamber through place after the inherent air draft entrance 14 in the air draft chamber 17 of air conditioning system, and air draft chamber 17 is provided with wind exhausting outlet 15.Wherein, heat exchanger tube 10 runs through Heat Room and heat exchanger tube 10 is at least part of between wind exhausting outlet 15 and air draft entrance 14.

It can thus be appreciated that, due to outdoor air draft from air draft entrance 14 when heat exchanger tube 10 enters air draft chamber 17, outdoor new wind within heat exchanger tube 10 produces cold and hot exchange by the tube wall of heat exchanger tube 10 with indoor exhaust wind, thus can effectively utilizing indoor exhaust wind to promote or reducing the temperature of outdoor new wind, and then can reduce because indoor exhaust wind is from the energy waste caused after wind exhausting outlet 15 discharge chamber.

Further, in the present embodiment, a plurality of heat exchanger tube 10 forms at least two row's heat exchanger tubes 10 in the horizontal direction.And in the present embodiment, as in figure 2 it is shown, only explain with 8 heat exchanger tubes 10, as in figure 2 it is shown, 8 heat exchanger tubes 10 form four row's heat exchanger tubes 10 in the horizontal direction.Wherein, stagger mutually in two adjacent row heat exchanger tube 10 positions in the height direction.

It can thus be appreciated that, owing to staggering mutually in two adjacent row heat exchanger tube 10 positions in the height direction, the distribution so that heat exchanger tube 10 spatially hockets, so that indoor return air and indoor exhaust wind are when through heat exchanger tube 10, can by repeated segmentation, indoor return air can repeatedly be contacted with heat exchanger tube 10 with indoor exhaust wind, so that when the outdoor new wind in heat exchanger tube 10 carries out cold and hot exchange by the tube wall of heat exchanger tube 10 with indoor return air and indoor exhaust wind, improve heat exchange efficiency, reduce the energy consumption of air conditioning system.

It should be noted that in the present embodiment, heat exchanger tube 10 is straight tube, and, heat exchanger tube 10 can also adopt the mode being parallel to each other to be distributed in space except adopting aforesaid way and arranging.

Additionally, in the present embodiment, as shown in Figure 1, air conditioning system also comprises that air humidity processes device, compressor 1, cross valve 5 and air humidity process main control device (not marking in figure) that device is electrically connected, described air inlet 12 processes the exhaust passage between device air outlet to the inlet channel between described heat exchanger tube 10 air outlet, described air draft entrance 14 to described air humidity, wherein, as it is shown in figure 1, heat exchanger tube 10 is connected with air inlet 12 by inlet channel.Air draft chamber 17 is connected with wind exhausting outlet 15 by exhaust passage.

Wherein, air humidity processes the air intake part of device and air-outlet part lays respectively in inlet channel and exhaust passage.Main control device processes the device outdoor new wind to entering inlet channel by air humidity and dehumidifies or humidify.

It can thus be appreciated that, also comprise air humidity due to air conditioning system and process device, and the air humidity being positioned at inlet channel processes device and the outdoor new wind entering heat exchanger tube 10 can be dehumidified or be humidified, the humidity to guarantee outdoor new wind disclosure satisfy that the requirement of comfortableness.

It addition, shown in as shown in Figure 1, Figure 3 and Figure 4, in the present embodiment, air humidity processes device and also comprises runner humidity process device 19.

Wherein, runner humidity process device 19 comprises runner 191 and the runner blower fan (not marking in figure) of main control device electric connection.Further, inlet channel is connected with exhaust passage.A part for runner 191 is arranged in inlet channel, and another part is arranged in exhaust passage.Inlet channel and exhaust passage are additionally provided with the sealing member for separating inlet channel and exhaust passage.And main control device drives runner blower fan to drive runner 191 to rotate, and the new wind in outdoor is dehumidified or dehumidifies when rotating by runner.

It can thus be appreciated that, in the process of practical application, runner is accompanied with hygroscopic material, therefore, in summer, the humidity of outdoor new wind is higher, at the new wind in outdoor by time in inlet channel inlet chamber, runner can the moisture in new wind outside absorption chamber, thus reducing the humidity after in outdoor new wind inlet chamber, the runner blower fan driving runner to rotate also is comprised owing to runner humidity processes device 19, so that under the rotary action of runner blower fan, runner is adsorbed with the part of moisture when by exhaust passage, by indoor exhaust wind, the moisture on runner is taken out of to outdoor, it is achieved thereby that the new wind in outdoor is dehumidified.And in the winter time, owing to indoor exhaust wind is after heat exchanger, its temperature is relatively low and humidity is bigger, indoor exhaust wind is through exhaust passage, and runner can inhale the moisture in indoor exhaust wind, and, under the rotary action of runner blower fan, being adsorbed with the part of moisture on runner when by inlet channel, on runner, the moisture of absorption is absorbed by the new wind in outdoor, it is achieved thereby that the humidification to the new wind in outdoor.

Furthermore, it is desirable to illustrate, runner comprises multiple fan blade being made up of hygroscopic material and fan blade semicircular in shape, and in the present embodiment, only with four fan blade explanations for example, as shown in Figure 4.

It addition, in the present embodiment, as it is shown in figure 1, air conditioning system also comprises is electrically connected oxygen generating plant 9 with main control device, and on the inlet channel that oxygen generating plant 9 is between air inlet 12 and heat exchanger tube 10.Wherein, the outdoor new wind entered in inlet channel is supplemented negative oxygen ion or oxygen by oxygen generating plant 9 after being opened by main control device.

It follows that negative oxygen ion row amount and the oxygen content of indoor the supplementary negative oxygen ion of the new wind in outdoor or oxygen can be improved by oxygen generating plant 9, to promote the air quality of indoor and indoor comfort level.It should be noted that in the present embodiment, oxygen generating plant 9 is negative oxygen ion machine.

Second embodiment of the present utility model relates to a kind of air conditioning system, second embodiment of the present utility model is the further improvement to the first embodiment, it thes improvement is that, in the present embodiment, as it is shown in figure 5, the length of heat exchanger tube 10 can also more than the distance between heat exchanger tube 10 two ends.

It follows that owing to the length of heat exchanger tube 10 more than the distance between heat exchanger tube 10 two ends, thus increasing the contact area of heat exchanger tube 10 and indoor return air and indoor exhaust wind, and then can also can further improve heat exchange efficiency, having reduced energy consumption.

Specifically, the section of tubing on heat exchanger tube 10 can be helical form, wavy, bending-like etc., and certainly, in the present embodiment, heat exchanger tube 10 can also is that other shapes in addition, and this is not described in detail by present embodiment.

Further, in the present embodiment, as shown in Figure 6, heat exchanger tube 10 connect one end of air inlet 12 be additionally provided with connect pipe box 21, one end of connecting hybrid chamber 16 is provided with fixing pipe box 22, connects the pipe box 21 sealing pipeline 23 with fixing pipe box 22.

Further, the axis hole 20 for inserting heat exchanger tube 10 that pipe box is identical with being equipped with multiple quantity on fixing pipe box is connected, in the present embodiment, as it is shown in fig. 7, only illustrate for 8 axis holes.Wherein, heat exchanger tube 10 is positioned at and connects pipe box 21, fixing pipe box 22 and seal the confined space that pipeline 23 is constituted.Seal and the sidewall of pipeline 23 is further opened with the first opening (not marking in figure), and the first opening is connected with return air inlet 13 and air draft entrance 14 by seal connector, and the other side of correspondence offers the second opening (not marking in figure).

It can thus be appreciated that, connect pipe box 21, fixing pipe box 22 owing to heat exchanger tube 10 is positioned at and seals the confined space that pipeline 23 is constituted, make indoor return air can carry out fully with heat exchanger tube 10 contacting and being cut with indoor exhaust wind, greatly improve heat exchange efficiency, reduce further the energy consumption of air conditioning system, serve energy-conservation effect.

Additionally, in the present embodiment, as shown in Figure 8 and Figure 9, air humidity processes device and comprises solution humidity process device 8, and solution humidity processes device 8 and comprises and solution humidity process assembly 8-1 and regeneration of waste liquor assembly 8-2, and connect the solution loop 8-2-3 and regenerative circuit 8-1-3 of solution humidity process assembly 8-1 and regeneration of waste liquor assembly 8-2.

As it is shown in figure 9, in the present embodiment, humidity processes assembly and comprises and be arranged in the first jet 8-1-4 of inlet channel, solution collection groove 8-1-5, be arranged on the regeneration pump 8-1-2 of regenerative circuit 8-1-3.And regeneration of waste liquor assembly 8-2 comprises the second nozzle 8-2-4 being positioned at exhaust passage and regeneration of waste liquor groove 8-2-5, is arranged on the solution pump 8-2-2 of solution loop 8-2-3.First jet 8-1-4, second nozzle 8-2-4, regeneration pump 8-1-2, solution pump 8-2-2 are all electrically connected with main control device.Further, first jet 8-1-4 and second nozzle 8-2-4 comprises multiple shower nozzle respectively, and in the present embodiment, only to comprise 5 shower nozzle explanations for example.

Wherein, first jet 8-1-4 discharges solution after being opened by main control device and the new wind in outdoor is carried out humidity process, and solution flows in solution collection groove 8-1-5 after the new wind in outdoor is carried out humidity process.Solution in solution collection groove 8-1-5 is sent in regeneration of waste liquor assembly 8-2 by regenerative circuit 8-1-3 by solution pump 8-2-2 after being opened by main control device.

Second nozzle 8-2-4 discharges solution after being opened by main control device and indoor exhaust wind carries out humidity process, and solution flows into formation actified solution in regeneration of waste liquor groove 8-2-5 after indoor exhaust wind is processed.Actified solution in regeneration of waste liquor groove 8-2-5 is sent into solution humidity by solution loop 8-2-3 after being opened by main control device and is processed in assembly 8-1 by regeneration pump 8-1-2.

By analyzing, in summer, solution is when contacting with indoor exhaust wind, can pass through to absorb the temperature of the heat lift actified solution of indoor exhaust wind, and then when the new wind in outdoor is contacted, the temperature of outdoor new wind can being promoted, thus being effectively utilized the energy of indoor exhaust wind, thus the energy consumption of air conditioning system can be reduced further.And in the winter time, solution is when contacting with indoor exhaust wind, owing to can be reduced the temperature of actified solution by indoor exhaust wind, and then when the new wind in outdoor is contacted, the new wind in outdoor can be cooled down, thus being effectively utilized the energy of indoor exhaust wind, thus the energy consumption of air conditioning system can be reduced further.

And, in actual applications, when the new wind in outdoor enters inlet channel, by the concentration change of solution, the new wind in outdoor can be humidified or dehumidifies, it is however generally that, when the concentration height of actified solution, the effect of dehumidifying to the moisture of wind new outside absorption chamber, can be reached, when the concentration of actified solution is low, can so that the moisture of new wind outside outdoor new wind absorption chamber, the humidity to guarantee outdoor new wind is maintained in rational scope.

Additionally, in the present embodiment, as it is shown in figure 9, control accuracy in order to promote the concentration to actified solution and temperature, humidity to guarantee outdoor new wind is maintained in rational scope, and solution humidity processes device 8 and also comprises solution cooler 8-1-1 and solution heater 8-2-1.Wherein, solution cooler 8-1-1 is connected with solution loop 8-2-3, and solution heater 8-2-1 is connected with regenerative circuit 8-1-3.And within air-conditioning systems, compressor 1, cross valve 5, solution cooler 8-1-1, heat exchanger 2, choke valve 3, vaporizer 4, solution heater 8-2-1 are sequentially connected with and constitute closed circuit.

From analyzing, in summer, due to solution heater 8-2-1 can utilize absorb in indoor return air the heat exchange agent of heat in solution is heated, so that the concentration of actified solution changes, it is easy to actified solution the new wind in outdoor is humidified or dehumidified, and solution cooler 8-1-1 can utilize the heat exchange agent after discharging heat that actified solution is cooled down, and then ensure that the temperature of actified solution is unlikely to too high, thus reduce the energy consumption of air-conditioning.And in the winter time, the effect contrast of solution heater 8-2-1 and solution cooler 8-1-1.

It will be understood by those skilled in the art that the respective embodiments described above are to realize specific embodiment of the utility model, and in actual applications, it is possible in the form and details it is done various change, without departing from spirit and scope of the present utility model.

Claims (10)

1. an air conditioning system, it is characterised in that: being included into air port, N bar heat exchanger tube and spaced hybrid chamber and air draft chamber, wherein, described N is natural number, and described hybrid chamber has air outlet；

One end of described heat exchanger tube is connected with described air inlet, the other end is through described air draft chamber and stretches in described hybrid chamber, the sidepiece of described hybrid chamber also has return air inlet, and the sidewall in described air draft chamber has air draft entrance, described return air inlet and described air draft entrance all just pipe shaft to described heat exchanger tube；

Outdoor new wind enters from described air inlet, arrives described hybrid chamber by described heat exchanger tube；

Indoor return air enters hybrid chamber from described return air inlet, mixes in air outlet inlet chamber described in merga pass with the new wind in described outdoor after the outer wall of described heat exchanger tube；

Indoor exhaust wind enters air draft chamber from described air draft entrance, through the outer wall of described heat exchanger tube and discharge from described air draft chamber.

2. air conditioning system according to claim 1, it is characterized in that: described hybrid chamber comprises the vaporization chamber for regulating described indoor return air temperature and for mixing the mixing chamber of the indoor return air after homoiothermic, described return air inlet is positioned at the sidewall of described vaporization chamber, being connected by connector between described vaporization chamber with described mixing chamber, described connector is just to described return air inlet；

Wherein, described heat exchanger tube runs through described vaporization chamber and described heat exchanger tube is at least part of between described air outlet and described return air inlet.

3. air conditioning system according to claim 2, it is characterised in that: described air draft intracavity heat exchanger tube after air draft entrance also comprises, through place, the Heat Room regulating described indoor return air temperature, and air draft chamber is provided with wind exhausting outlet；

Wherein, described heat exchanger tube runs through described Heat Room and described heat exchanger tube is at least part of between described wind exhausting outlet and described air draft entrance.

4. air conditioning system according to claim 3, it is characterized in that: described air conditioning system also comprises that air humidity processes device, compressor, cross valve and described air humidity process the main control device that device is electrically connected, described air inlet is to the inlet channel between described heat exchanger tube air outlet, described air draft entrance to the exhaust passage between described air humidity process device air outlet, wherein, described heat exchanger tube is connected with described air inlet by described inlet channel；Described air draft chamber is connected with described wind exhausting outlet by described exhaust passage；

Air intake part and the air-outlet part of described air humidity process device lay respectively in described inlet channel and exhaust passage；Described main control device processes the device outdoor new wind to entering described inlet channel by described air humidity and dehumidifies or humidify；

Described compressor and described cross valve are all electrically connected with described main control device.

5. air conditioning system according to claim 4, it is characterised in that: described air humidity processes device and comprises solution humidity process device；

Described solution humidity processes device and comprises solution humidity process assembly and regeneration of waste liquor assembly, and connects solution loop and the regenerative circuit of described solution humidity process assembly and described regeneration of waste liquor assembly；

Described humidity processes assembly and comprises and be arranged in the first jet of described inlet channel, solution collection groove, be arranged on the regeneration pump of described regenerative circuit；Described regeneration of waste liquor assembly comprises the second nozzle being positioned at described exhaust passage and regeneration of waste liquor groove, is arranged on the solution pump of described solution loop；Described first jet, described second nozzle, described regeneration pump, described solution pump are all electrically connected with described main control device；

Wherein, described first jet discharges solution after being opened by described main control device and the new wind in described outdoor is carried out humidity process, and described solution flows in described solution collection groove after the new wind in described outdoor is carried out humidity process；Described solution in described solution collection groove is sent in described regeneration of waste liquor assembly by described regenerative circuit by described solution pump after being opened by described main control device；

Described second nozzle discharges described solution after being opened by described main control device and indoor exhaust wind carries out humidity process, and described solution flows into formation actified solution in described regeneration of waste liquor groove after described indoor exhaust wind is processed；Described actified solution in described regeneration of waste liquor groove is sent into described solution humidity by described solution loop after being opened by described main control device and is processed in assembly by described regeneration pump.

6. air conditioning system according to claim 5, it is characterised in that: described solution humidity processes device and also comprises solution cooler and solution heater；

Wherein, described solution cooler is connected with described solution loop, and described solution heater is connected with described regenerative circuit.

7. air conditioning system according to claim 4, it is characterised in that: described air humidity processes device and comprises runner humidity process device；

Described runner humidity processes device and comprises runner and the runner blower fan of described main control device electric connection；

Wherein, described inlet channel is connected with described exhaust passage；A part for described runner is arranged in described inlet channel, and another part is arranged in described exhaust passage；Described inlet channel and described exhaust passage are additionally provided with for separating described inlet channel and the sealing member of described exhaust passage；

Described main control device drives described runner to rotate, and the new wind in described outdoor is dehumidified or humidifies when rotating by described runner.

8. according to air conditioning system arbitrarily described in claim 4, it is characterised in that: described air conditioning system also comprises and described main control device electric connection oxygen generating plant, and on the described inlet channel that described oxygen generating plant is between described air inlet and described heat exchanger tube；

Wherein, the outdoor new wind entered in described inlet channel is supplemented negative oxygen ion or oxygen by described oxygen generating plant after being opened by described main control device.

9. air conditioning system according to claim 1, it is characterised in that: described N bar heat exchanger tube formed in the horizontal direction at least two row heat exchanger tubes, described heat exchanger tube length more than the distance between described heat exchanger tube two ends；

Wherein, stagger or parallel mutually in two adjacent row heat exchanger tube positions in the height direction.

10. air conditioning system according to claim 1, it is characterised in that: described heat exchanger tube connect one end of described air inlet be provided with connect pipe box, one end of connecting described hybrid chamber is provided with fixing pipe box, connects described connection pipe box and the sealing pipeline of described fixing pipe box；

Described connection pipe box with described fixing pipe box is equipped with M the identical axis hole for inserting described heat exchanger tube of quantity, wherein M is natural number；

Wherein, described heat exchanger tube is positioned at the confined space that described connection pipe box, described fixing pipe box and described sealing pipeline are constituted；The sidewall of described sealing pipeline is further opened with the first opening, and described first opening is connected with described return air inlet and described air draft entrance by seal connector, and the other side of correspondence offers the second opening.