CN205066049U - humidity control system - Google Patents

Abstract

The utility model discloses a humidity control system, main technical scheme is: the humidity adjusting system comprises at least two air channels, and each air channel is provided with a first air inlet for enabling fresh air to enter the air channel, a second air inlet for enabling return air to enter the air channel, a first air outlet for communicating the indoor space and a second air outlet for exhausting air; the solid dehumidification module is arranged in the air duct. The opening and closing of the air opening are controlled by controlling the air door, so that a flow channel between the first air inlet and the first air outlet or the second air outlet passes through the solid dehumidification module; and a flow passage between the second air inlet and the first air outlet or the second air outlet passes through the solid dehumidification module. The utility model discloses mainly used provides a humidity control system with mode of regulation such as take a breath, take a breath dehumidification, take a breath humidification, dehumidification and humidification.

Description

Humidity control system

Technical field

The utility model relates to an electro-technical field, is specifically related to humidity regulation technical field, particularly relates to a kind of humidity control system.

Background technology

Relative air humidity is the key factor of impact production and living environment.Wherein, when relative air humidity is more than 75%, the corrosion ratio trend straight line of machinery equipment, steel products rises, and gives to produce to cause damage with material storage; In addition, people's life easily suffers from the diseases such as arthritis in a humid environment.Therefore, in the industry and utility buildings environmental Kuznets Curves of humidity, air dewetting has become an indispensable part.

At present, conventional dehumidification system mainly contains dehumidification by condensation system and solid dehumidifying system.Wherein, air themperature is mainly dropped to below dew-point temperature by evaporimeter by dehumidification by condensation, to be separated out by the water vapor condensation in air.Solid dehumidifying system is the adsorptivity utilizing the solid moisture absorbent such as silica gel, molecular sieve, dehumidifies to air, and has good effect on moisture extraction.

But inventor of the present utility model finds that above-mentioned dehumidification system of the prior art only can dehumidify to new wind or dehumidify to indoor circulation air; Cannot realize can dehumidifying to new wind, can dehumidify to indoor circulation air again, thus the comfortableness that impact is indoor.In addition, above-mentioned dehumidification system of the prior art cannot realize adding wet process to indoor, also can affect indoor comfortableness when making dry in the winter time.

Utility model content

In view of this, the utility model embodiment provides a kind of humidity control system and humidity regulation method, and main purpose is to provide one and can dehumidifies to new wind or indoor circulation air, and has humidity control system and the method for humidification function.

For achieving the above object, the utility model mainly provides following technical scheme:

On the one hand, the utility model embodiment provides a kind of humidity control system, and described humidity control system comprises:

At least two air channels, each described air channel be provided with for make new wind enter air channel the first air inlet, for make return air enter air channel the second air inlet, for the first air outlet in communication chamber and the second air outlet for air draft;

Solid dehumidifying module, described solid dehumidifying module is placed in described air channel;

Air door, by controlling described air door to control the opening and closing in air port, make runner between described first air inlet and the first air outlet or the second air outlet through solid dehumidifying module, the runner between described second air inlet and the first air outlet or the second air outlet is through solid dehumidifying module.

Preferably, described humidity control system also comprises refrigeration system; Described refrigeration system is connected with the first air inlet in described air channel, the second air inlet, for carrying out cooling process or hyperthermic treatment to the new wind of described first air inlet, carries out hyperthermic treatment or cooling process to the return air of described second air inlet.

Preferably, described refrigeration system comprises compressor, First Heat Exchanger, the second heat exchanger, and described First Heat Exchanger, the second heat exchanger are connected with described compressor;

Described First Heat Exchanger is connected with the first air inlet in described air channel;

Described second heat exchanger is connected with the second air inlet in described air channel.

Preferably, described refrigeration system also comprises cross valve, wherein,

Two interfaces of described cross valve are connected with described compressor, and one of them interface of remaining two interfaces is connected with described First Heat Exchanger, and another interface is connected with described second heat exchanger;

Wherein, by controlling cross valve, make described First Heat Exchanger be condenser, the second heat exchanger is evaporimeter; Or making described First Heat Exchanger be evaporimeter, the second heat exchanger is condenser.

Preferably, described refrigeration system also comprises electric expansion valve, and described electric expansion valve is connected with described First Heat Exchanger, the second heat exchanger;

Preferably, described first air outlet is connected with the first blower fan, for the new wind or return air that flow through the first air outlet are delivered to indoor;

Described second air outlet is connected with the second blower fan, for outside the new wind that will flow through the second air outlet or return air discharge chamber.

Preferably, described second air inlet is used in communication chamber, and indoor return air is entered in described air channel.

Preferably, described air channel is two, and one of them air channel is air channel, upper strata, and another air channel is lower floor air channel.

Preferably, the first air inlet, the second air inlet, the first air outlet and the second air outlet in air channel, described upper strata and lower floor air channel are corresponding up and down to be arranged.

Preferably, described humidity control system comprises the first shutter, the second shutter, first goes out air door and second and go out air door; Wherein,

Described first shutter is used for closing first air inlet in air channel, upper strata or first air inlet in closed lower floor air channel;

Described second shutter is used for closing second air inlet in air channel, upper strata or second air inlet in closed lower floor air channel;

Described first goes out first air outlet of air door for air channel, closed upper strata or first air outlet in closed lower floor air channel;

Described second goes out second air outlet of air door for air channel, closed upper strata or second air outlet in closed lower floor air channel.

Preferably, the first air inlet on described air channel is provided with temperature sensor and/or relative humidity sensor, for measuring temperature and/or the relative humidity of new wind;

And/or the second air inlet on described air channel is provided with temperature sensor and/or relative humidity sensor, for measuring temperature and/or the relative humidity of return air.

On the other hand, the utility model embodiment also provides a kind of method utilizing foregoing humidity control system to carry out humidity regulation.

Preferably, described humidity regulation method comprises at least two kinds in following shaping modes: ventilation dehumidification mode, ventilation humidifying mode, dehumidification mode, humidifying mode and ventilatory pattern; And described at least two kinds of shaping modes can switch mutually.

Preferably, the new wind after described ventilation dehumidification mode comprises the steps: cooling process is delivered to indoor by the first air outlet after described solid dehumidifying module dehumidifying; Return air after hyperthermic treatment is discharged by the second air outlet after carrying out regeneration process to described solid dehumidifying module.

Preferably, the new wind after described ventilation humidifying mode comprises the steps: hyperthermic treatment is delivered to indoor by the first air outlet after carrying out regeneration process to described solid dehumidifying module; Return air after cooling process is discharged by the second air outlet after described solid dehumidifying module dehumidifying.

Preferably, the return air after described dehumidification mode comprises the steps: cooling process is delivered to indoor by the first air outlet after described solid dehumidifying module dehumidifying; New wind after hyperthermic treatment is discharged by the second air outlet after carrying out regeneration process to described solid dehumidifying module.

Preferably, the return air after described humidifying mode comprises the steps: hyperthermic treatment is delivered to indoor by the first air outlet after carrying out regeneration process to described solid dehumidifying module; New wind after cooling process is discharged by the second air outlet after described solid dehumidifying module dehumidifying.

Preferably, described ventilatory pattern comprises the steps: new wind to be delivered to indoor by first air inlet in described air channel, the first air outlet; Return air is passed through outside second air inlet in air channel, the second air outlet discharge chamber.

Preferably, when described air channel comprises air channel, upper strata and lower floor air channel, the new wind alternating current in described arbitrary shaping modes is through air channel, upper strata or lower floor air channel; Wherein,

When newly distinguished and admirable in described arbitrary shaping modes is through air channel, upper strata, the return in this shaping modes is through lower floor air channel; When newly distinguished and admirable in described arbitrary shaping modes is through lower floor air channel, in this shaping modes, return is through air channel, upper strata.

Compared with prior art, the utility model embodiment propose a kind of humidity control system and humidity regulation method at least there is following beneficial effect:

The humidity control system that the utility model embodiment proposes and humidity regulation method, comprise the air channel for making new wind, return air alternating current warp, solid dehumidifying module and refrigeration system, air channel is combined with refrigeration system, by arranging refrigeration system, make First Heat Exchanger, the function of the second heat exchanger exchanges, and then make humidity control system have at least two kinds of shaping modes in ventilation, ventilation dehumidifying, ventilation humidification, dehumidifying and humidification.On the other hand, the solid dehumidifying module that can hocket in each air channel under any one shaping modes dehumidifies, regenerates two steps to solid dehumidifying module, so constantly regeneration process is carried out to the solid dehumidifying module after moisture absorption, ensure that the performance of solid dehumidifying module, prevent its situation causing moisture pick-up properties to decline due to heat of adsorption from occurring, and then guarantee the humidity regulation performance of wettability regulating system.

Accompanying drawing explanation

Fig. 1 is in the schematic diagram under ventilation dehumidification mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 2 is in another schematic diagram under ventilation dehumidification mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 3 is in the schematic diagram under ventilation humidifying mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 4 is in another schematic diagram under ventilation humidifying mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 5 is in the schematic diagram under dehumidification mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 6 is in another schematic diagram under dehumidification mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 7 is in the schematic diagram under humidifying mode for a kind of humidity control system that the utility model embodiment provides;

Fig. 8 is in another schematic diagram under humidifying mode for a kind of humidity control system that the utility model embodiment provides;

The duct cross-section schematic diagram of a kind of dehumidification system that Fig. 9 provides for the utility model embodiment.

Detailed description of the invention

For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with preferred embodiment, to according to a kind of humidity control system that the utility model proposes and humidity regulation method detailed description of the invention, feature and effect thereof, be described in detail as follows.

Below in conjunction with embodiment, the utility model is described in further detail.

Embodiment 1

As shown in Figures 1 to 8, the present embodiment provides a kind of humidity control system, for dehumidifying to the recyclegas introducing indoor new wind or indoor or add wet process.Particularly, this humidity control system comprises: at least two air channels, solid dehumidifying module 21 and control assemblies.Wherein, each air channel is provided with for making new wind enter the first air inlet 11 in air channel, for making return air enter the second air inlet 12 in air channel, for the first air outlet 13 in communication chamber and for wind being discharged to the second outdoor air outlet 14.

Solid dehumidifying module 21 is arranged in air channel; The opening and closing in different air port is controlled by controlling air door, the wind entering the first air inlet 11 can be discharged from the first air outlet 13 or the second air outlet 14, and the air flow channel between the first air inlet 11 and the first air outlet 13 or the second air outlet 14 is through solid dehumidifying module 21; The wind entering the second air inlet 12 can be discharged from the first air outlet 13 or the second air outlet 14, and the air flow channel between the second air inlet 12 and the first air outlet 13 or the second air outlet 14 is through solid dehumidifying module 21.

Preferably, the humidity control system in the present embodiment also comprises refrigeration system; Wherein refrigeration system is connected with the first air inlet 11, second air inlet 12 in each air channel, for carrying out cooling process or hyperthermic treatment to the new wind at the first air inlet 11 place, carries out hyperthermic treatment or cooling process to the return air at the second air inlet 12 place.

" new wind " in the present embodiment refers to for during to indoor air-changing, is delivered to indoor new air-flow from the external world." return air " in the present embodiment refers to for during to indoor air-changing, the air-flow (that is, return air or air draft) of outwardly discharging indoor.

Preferably, the first air outlet 13 in the present embodiment is connected with the first blower fan 4, for the new wind or return air that flow through the first air outlet 13 are delivered to indoor; Second air outlet 14 is connected with the second blower fan 5, for outside the new wind that will flow through the second air outlet 14 or return air discharge chamber.Second air inlet 12, in communication chamber, makes indoor return air enter in described air channel.

Preferably, as shown in Figure 1, refrigeration system comprises compressor 31, First Heat Exchanger 32, second heat exchanger 33.Wherein, First Heat Exchanger 32, second heat exchanger 33 is connected with compressor 31 respectively; First Heat Exchanger 32 is connected with the first air inlet 11 in each air channel; Second heat exchanger 33 is connected with the second air inlet 12 in each air channel.

Preferably, refrigeration system also comprises cross valve 35, and two interfaces of cross valve 35 are connected with compressor 31, and one of them interface of remaining two interfaces is connected with First Heat Exchanger 32, and another interface is connected with the second heat exchanger 33.Wherein, by controlling cross valve 35 (making cross valve commutate), make First Heat Exchanger 32 be condenser, the second heat exchanger 33 is evaporimeter, realize carrying out hyperthermic treatment to the new wind at the first air inlet 11 place, cooling process is carried out to the return air at the second air inlet 12 place.Or making First Heat Exchanger 32 be evaporimeter by controlling cross valve 35, the second heat exchanger 33 is condenser, realizes carrying out cooling process to the new wind at the first air inlet 11 place, carries out hyperthermic treatment to the return air at the second air inlet 12 place.

Preferably, described refrigeration system also comprises electric expansion valve 34, and electric expansion valve 34 is connected with First Heat Exchanger 32, second heat exchanger 33 respectively.

Preferably, humidity control system in the present embodiment is at one of at least place of the first air inlet, the second air inlet, be respectively arranged with temperature sensor and/or relative humidity sensor, for measuring temperature and/or the relative humidity of the new wind of the first air inlet, and/or, the temperature of the second air inlet return air and/or relative humidity.

The humidity control system that the present embodiment provides, by being arranged to said structure, can realize following shaping modes, such as:

(1) ventilation dehumidification mode

Fig. 1 is the schematic diagram of humidity control system under ventilation dehumidification mode in the present embodiment, and Fig. 2 is humidity control system another schematic diagram under ventilation dehumidification mode in the present embodiment.

As shown in Figure 2, the first blower fan 4, first air inlet 11, first air outlet 13 opened in refrigeration system and air channel is opened, and the second air inlet 12, second air outlet 14 is in sealed condition.Regulate cross valve, make the new wind at the first air inlet 11 place through First Heat Exchanger 32 lower the temperature process laggard enter in air channel, flow through solid dehumidifying module 21 and be delivered to indoor (flowing through shown in filled arrows that route refers in Fig. 2 of new wind, and the dotted arrow in Fig. 2 represents return air in now other a certain air channels flow through route) by the first blower fan 4 after dehumidifying.

As shown in Figure 1, after the solid dehumidifying module 21 in this air channel has certain humidity or is saturated, the second shutter 12, second opened in this air channel goes out air door 14, shutoff first shutter 11, first goes out air door 13, open the second blower fan 5 in this air channel, return air is entered in this air channel side indoor after the second heat exchanger hyperthermic treatment, flow through solid dehumidifying module 21 it is carried out regenerating process after the second blower fan 5 through the second air outlet 14 place be discharged to outside (flowing through shown in filled arrows that route refers in Fig. 1 of return air).

In order to realize indoor continuous print ventilation dehumidifying, air channel is at least two, wherein one or more air channels be used for making newly distinguished and admirable through time, other air channels are used for making return warp.Further, return air and new wind can be made in arbitrary air channel alternately to flow through.

(2) ventilatory pattern

As depicted in figs. 1 and 2, open the first blower fan 4, do not open refrigeration system, make first air inlet of new wind in wherein one or more air channel, the first blower fan in the first air outlet enters indoor.Second air inlet of return air through other air channel, the second air outlet are discharged.

(3) ventilation humidifying mode

Fig. 3 is in the schematic diagram under ventilation humidifying mode for humidity control system that the present embodiment provides, and Fig. 4 is in another schematic diagram under ventilation humidifying mode for humidity control system that the present embodiment provides.

As shown in Figure 3, open refrigeration system, open the second blower fan 5 in air channel, the second shutter 12, second opened in this air channel goes out air door 14, and first shutter 11, first of closing in this air channel goes out air door 13.Commutated by cross valve 35, make return air indoor side through second heat exchanger 33 lower the temperature process after, flow through after solid dehumidifying module 21 in air channel dehumidifies, be discharged to outdoor (route in Fig. 3 shown in filled arrows is that return air flows through route in air channel) by the second blower fan 5.

As described in Figure 4, after the solid dehumidifying module in this air channel has certain humidity or be saturated, open the first blower fan 4 in this air channel, the first shutter 11, first opened on this air channel goes out air door 13, and shutoff second shutter 12, second goes out air door 14.The solid dehumidifying module that new wind is flowed through in air channel after First Heat Exchanger hyperthermic treatment regenerates it, and carries moisture and be delivered to indoor by the first blower fan 4 and carry out humidification (in this air channel, route in Fig. 4 shown in filled arrows is referred in the direction that flows through of new wind) to indoor.

In this mode: new wind, return air alternately flow through in same air channel.In order to realize indoor continuous print ventilation humidification, air channel is at least two, wherein one or more air channels be used for making newly distinguished and admirable through time, other air channels are used for making return warp, and return air and new wind alternately flow through any one air channel.

In this pattern, solid dehumidifying module dehumidifies to the return air after cooling process, makes moisture stay solid dehumidifying module.New wind after hyperthermic treatment carries out regeneration process to solid dehumidifying module, is carried by moisture, enters the effect that humidification is played in indoor.

(4) dehumidification mode

Fig. 5 is in the schematic diagram under dehumidification mode for humidity control system that the present embodiment provides, Fig. 6 is in another schematic diagram under dehumidification mode for humidity control system that the present embodiment provides.

As shown in Figure 6, open refrigeration system, open first air inlet 11, second air outlet 14 in air channel.Commutated by cross valve 35, make new wind outdoor side through First Heat Exchanger 32 hyperthermic treatment laggard enter in air channel, and flow through solid dehumidifying module 21 to its regeneration process, discharged (new wind flowing through shown in filled arrows that route refers in Fig. 6 in air channel) by the second blower fan after carrying the moisture in solid dehumidifying module 21.

As shown in Figure 5, after new wind is to solid dehumidifying module regeneration process, first air inlet 11, second air outlet 14 in this air channel of shutoff, opens the second air inlet 12, first air outlet 13 in this air channel.Make return air through the second heat exchanger 33 lower the temperature process laggard enter in air channel, after solid dehumidifying module 21 dehumidifies, deliver to indoor (return air flowing through shown in filled arrows that route refers in Fig. 5 in air channel) by the first blower fan 4.

In order to dehumidify continuously, air channel is at least two, wherein one or more air channels be used for making newly distinguished and admirable through time, other air channels are used for making return warp, and return air and new wind alternately flow through any one air channel.

This pattern achieves and dehumidifies to indoor circulation air.

(5) humidifying mode

Fig. 7 is in the schematic diagram under humidifying mode for humidity control system that the present embodiment provides, Fig. 8 is in another schematic diagram under humidifying mode for humidity control system that the present embodiment provides.

As shown in Figure 8, open refrigeration system, open the first air inlet 11, second air outlet 14 in air channel.Regulate cross valve 35, make new wind through First Heat Exchanger 32 lower the temperature process laggard enter in air channel, and flow through after moisture stayed solid dehumidifying module 21 by solid dehumidifying module 21, discharge (new wind flowing through shown in filled arrows that route refers in Fig. 8 in air channel) through the second air outlet 14.

As shown in Figure 7, after solid dehumidifying module 21 has certain humidity or be saturated, open the second air inlet 12, first air outlet 13 in this air channel, the first air inlet 11, second air outlet 14 in this air channel of shutoff.Make indoor return air after the second heat exchanger 33 hyperthermic treatment, flow through solid dehumidifying module 21 to its regeneration process, and carry moisture and enter indoor (return air flowing through shown in filled arrows that route refers in Fig. 7 in air channel) through the first air outlet 13.

In order to carry out humidification continuously, air channel is at least two, wherein one or more air channels be used for making newly distinguished and admirable through time, other air channels are used for making return warp, and return air and new wind alternately flow through any one air channel.

This pattern achieves carries out humidification to indoor circulation air.

Preferably, humidity control system of the present utility model adopts solid dehumidifying module to dehumidify, and utilizes the condensation heat of heat pump to regenerate solid dehumidifying module.Preferably, in humidity control system, evaporimeter and condenser all adopt small-sized finned tube exchanger, wherein evaporimeter can reduce the temperature of processed air, improve the effect on moisture extraction of solid dehumidifying material, and the condensation heat of condenser release can be regenerated solid dehumidifying material by the processed air of heating, can recycle.Because refrigeration system does not dehumidify, without the need to air is dropped to below dew point, the dehumidification by condensation system evaporating pressure that therefore evaporating pressure is more conventional is high, and the coefficient of performance of system improves.

Embodiment 2

There is provided a kind of humidity control system in the present embodiment, compared with above-described embodiment, as shown in Figure 9, the air channel in the present embodiment is two, and one of them air channel is air channel, upper strata 1, and another air channel is lower floor air channel 2.

Preferably, the first air inlet, the second air inlet, the first air outlet and the second air outlet in air channel, upper strata and lower floor air channel are corresponding up and down to be arranged.

Preferably, as shown in Figure 9, humidity control system comprises the first shutter 8, second shutter (not shown), first and goes out air door (not shown) and second and go out air door 9.Wherein, first air inlet of the first shutter 8 for air channel, closed upper strata 1 or first air inlet 11 in closed lower floor air channel 2.Second shutter is used for closing second air inlet in air channel, upper strata 1 or second air inlet in closed lower floor air channel 2; First goes out first air outlet of air door for air channel, closed upper strata 1 or first air outlet in closed lower floor air channel 2; Second goes out second air outlet 14 of air door 9 for air channel, closed upper strata 1 or second air outlet in closed lower floor air channel 2.

Switched by air door, realize the corresponding air port in its air channel, shutoff upper strata or the corresponding air port in lower floor air channel.

Such as, when carrying out ventilation humidifying mode: by the switching of air door, make newly distinguished and admirable through air channel, upper strata, return is through lower floor air channel, after the solid dehumidifying module in air channel, upper strata has certain humidity or is saturated, again through the switching of air door, make return through air channel, upper strata, newly distinguished and admirable through lower floor air channel.

Preferably, utilize stepper motor, drive air door to switch in levels air channel by transmission device.

Embodiment 3

The present embodiment provides a kind of humidity control system utilizing above-described embodiment to provide to carry out the method for humidity regulation, particularly, the method comprises at least two kinds in following shaping modes: ventilation dehumidification mode, ventilation humidifying mode, dehumidification mode, humidifying mode and ventilatory pattern; And described at least two kinds of shaping modes can switch mutually.

Preferably, the new wind after described ventilation dehumidification mode comprises the steps: cooling process is delivered to indoor by the first air outlet after described solid dehumidifying module dehumidifying; Return air after hyperthermic treatment is discharged by the second air outlet after carrying out regeneration process to described solid dehumidifying module.

Preferably, the new wind after described ventilation humidifying mode comprises the steps: hyperthermic treatment is delivered to indoor by the first air outlet after carrying out regeneration process to described solid dehumidifying module; Return air after cooling process is discharged by the second air outlet after described solid dehumidifying module dehumidifying.

Preferably, the return air after described dehumidification mode comprises the steps: cooling process is delivered to indoor by the first air outlet after described solid dehumidifying module dehumidifying; New wind after hyperthermic treatment is discharged by the second air outlet after carrying out regeneration process to described solid dehumidifying module.

Preferably, the return air after described humidifying mode comprises the steps: hyperthermic treatment is delivered to indoor by the first air outlet after carrying out regeneration process to described solid dehumidifying module; New wind after cooling process is discharged by the second air outlet after described solid dehumidifying module dehumidifying.

Preferably, described ventilatory pattern comprises the steps: new wind to be delivered to indoor by first air inlet in described air channel, the first air outlet; Return air is passed through outside second air inlet in air channel, the second air outlet discharge chamber.

Preferably, humidity regulation method comprises above five kinds of shaping modes, and five kinds of shaping modes can switch mutually.

Preferably, when described air channel comprises air channel, upper strata and lower floor air channel, the new wind alternating current in described arbitrary shaping modes is through air channel, upper strata or lower floor air channel; Wherein,

When newly distinguished and admirable in described arbitrary shaping modes is through air channel, upper strata, the return in this shaping modes is through lower floor air channel; When newly distinguished and admirable in described arbitrary shaping modes is through lower floor air channel, in this shaping modes, return is through air channel, upper strata.

To sum up, the humidity control system that the utility model embodiment proposes and humidity regulation method, comprise the air channel for making new wind, return air alternating current warp, solid dehumidifying module and refrigeration system, air channel is combined with refrigeration system, by arranging refrigeration system, make First Heat Exchanger, the function of the second heat exchanger exchanges, and then at least two kinds that make humidity control system have in ventilation, ventilation dehumidifying, ventilation humidification, dehumidifying and humidification five kinds of shaping modes.On the other hand, the solid dehumidifying module that can hocket in each air channel under any one shaping modes dehumidifies, regenerates two steps to solid dehumidifying module, so constantly regeneration process is carried out to the solid dehumidifying module after moisture absorption, ensure that the performance of solid dehumidifying module, prevent its situation causing moisture pick-up properties to decline due to heat of adsorption from occurring, and then guarantee the humidity regulation performance of wettability regulating system.

Those skilled in the art are it is easily understood that under the prerequisite of not conflicting, and above-mentioned each advantageous manner freely can combine, superpose.

The above; be only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (11)

1. a humidity control system, is characterized in that, described humidity control system comprises:

At least two air channels, each described air channel be provided with for make new wind enter air channel the first air inlet, for make return air enter air channel the second air inlet, for the first air outlet in communication chamber and the second air outlet for air draft;

Solid dehumidifying module, described solid dehumidifying module is placed in described air channel;

Air door, by controlling described air door to control the opening and closing in air port, make runner between described first air inlet and the first air outlet or the second air outlet through solid dehumidifying module, the runner between described second air inlet and the first air outlet or the second air outlet is through solid dehumidifying module.

2. humidity control system according to claim 1, is characterized in that, described humidity control system also comprises refrigeration system; Described refrigeration system is connected with the first air inlet in described air channel, the second air inlet, for carrying out cooling process or hyperthermic treatment to the new wind of described first air inlet, carries out hyperthermic treatment or cooling process to the return air of described second air inlet.

3. humidity control system according to claim 2, is characterized in that, described refrigeration system comprises compressor, First Heat Exchanger, the second heat exchanger, and described First Heat Exchanger, the second heat exchanger are connected with described compressor;

Described First Heat Exchanger is connected with the first air inlet in described air channel;

Described second heat exchanger is connected with the second air inlet in described air channel.

4. humidity control system according to claim 3, is characterized in that, described refrigeration system also comprises cross valve, wherein,

Two interfaces of described cross valve are connected with described compressor, and one of them interface of remaining two interfaces is connected with described First Heat Exchanger, and another interface is connected with described second heat exchanger;

By controlling described cross valve, make described First Heat Exchanger be condenser, the second heat exchanger is evaporimeter; Or making described First Heat Exchanger be evaporimeter, the second heat exchanger is condenser.

5. humidity control system according to claim 4, is characterized in that, described refrigeration system also comprises:

Electric expansion valve, described electric expansion valve is connected with described First Heat Exchanger, the second heat exchanger.

6. humidity control system according to claim 1, is characterized in that, described first air outlet is connected with the first blower fan, for the new wind or return air that flow through the first air outlet are delivered to indoor;

Described second air outlet is connected with the second blower fan, for outside the new wind that will flow through the second air outlet or return air discharge chamber.

7. humidity control system according to claim 1, is characterized in that, described second air inlet is used in communication chamber, and indoor return air is entered in described air channel.

8. humidity control system according to claim 1, is characterized in that, described air channel is two, and one of them air channel is air channel, upper strata, and another air channel is lower floor air channel.

9. humidity control system according to claim 8, is characterized in that, the first air inlet, the second air inlet, the first air outlet and the second air outlet in air channel, described upper strata and lower floor air channel are corresponding up and down to be arranged.

10. humidity control system according to claim 9, is characterized in that, described humidity control system comprises the first shutter, the second shutter, first goes out air door and second and goes out air door; Wherein,

Described first shutter is used for closing first air inlet in air channel, upper strata or first air inlet in closed lower floor air channel;

Described second shutter is used for closing second air inlet in air channel, upper strata or second air inlet in closed lower floor air channel;

Described first goes out first air outlet of air door for air channel, closed upper strata or first air outlet in closed lower floor air channel;

Described second goes out second air outlet of air door for air channel, closed upper strata or second air outlet in closed lower floor air channel.

11. humidity control systems according to any one of claim 1-10, it is characterized in that, the first air inlet on described air channel is provided with temperature sensor and/or relative humidity sensor;

And/or the second air inlet on described air channel is provided with temperature sensor and/or relative humidity sensor.