CN107152746A - A kind of method and apparatus for controlling indoor humidity - Google Patents
A kind of method and apparatus for controlling indoor humidity Download PDFInfo
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- CN107152746A CN107152746A CN201610121260.3A CN201610121260A CN107152746A CN 107152746 A CN107152746 A CN 107152746A CN 201610121260 A CN201610121260 A CN 201610121260A CN 107152746 A CN107152746 A CN 107152746A
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- based dehumidification
- dehumidification membranes
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Abstract
A kind of method for controlling indoor humidity, including:Into mode of operation, the mode of operation includes humidification and dehumidified;Detect indoor humidity RH1, relatively more described RH1 and setting humidity RH2 size;If the RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<The RH2 and the mode of operation are humidification, then:Moisture removal is determined according to the RH1 and the RH2;According to the moisture removal, it is determined that the supply voltage U for controlling based Dehumidification Membranes gap d;Powered to the based Dehumidification Membranes and its gap is adjusted to the d.In addition, a kind of device of control indoor humidity is also provided herein.Methods described and device according to indoor humidity, can control the flow of the gap length, supply voltage and booster pump of based Dehumidification Membranes;The operating mode needed according to user, total tune control is carried out to indoor humidity.
Description
Technical field
The invention belongs to air-conditioning technical field, more particularly to a kind of method and apparatus for controlling indoor humidity.
Background technology
The time that people have 80% or so in all one's life is spent indoors, as the improvement of people's living standards, room
Interior air quality has obtained more and more extensive attention.The capital equipment that air-conditioning regulates and controls as thermal and humidity environment,
Have become the daily necessities of people.According to statistics, to have accounted for the energy total for current China's air conditioning energy consumption
15% or so of consumption.Particularly in south China high-temperature high humidity climate area, the energy consumption of dehumidifying is accounted for
20%~40%.Solution dehumidification film is a kind of independent humidity control technology, with no condensing droplet, it is to avoid grown
The advantages of endophytic bacteria.Dehumidified using solution dehumidification film, it is necessary to based Dehumidification Membranes carry out heating reduction,
Reduction is heated to it, it is necessary to be powered to outdoor based Dehumidification Membranes under refrigeration/dehumidification pattern, mould is being heated
, it is necessary to be powered to indoor dehumidification film under formula;Further, since indoor apparatus of air conditioner and outdoor unit have peace
Difference in height is filled, therefore the solution of outdoor based Dehumidification Membranes reduction needs just return to indoor dehumidification by booster pump
In film.In existing technology, based Dehumidification Membranes are powered with civil power after starting of air conditioner, set when reaching
Determine humidity or powered off when stopping work, although control process is simple, but not only high energy consumption, and not
The flexibly dehumidifying of control based Dehumidification Membranes or humidification speed can be needed according to operating mode.
The content of the invention
In view of this, in order to solve to exist in the prior art control wet process simple and crude, high energy consumption, nothing
Method needs dehumidifying or the humidification speed issue of based Dehumidification Membranes in flexible control room, mesh of the invention according to operating mode
Be propose it is a kind of control indoor humidity method.Have one for some aspects of the embodiment to disclosure
Individual basic understanding, shown below is simple summary.The summarized section is not extensive overview, not yet
It is key/critical component to be determined or describes the protection domain of these embodiments.Its sole purpose
It is that some concepts are presented with simple form, in this, as the preamble of following detailed description.
In some optional embodiments, the method for the control indoor humidity, including:
Into mode of operation, the mode of operation includes humidification and dehumidified;
Detect indoor humidity RH1, relatively more described RH1 and setting humidity RH2 size;If described
RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<The RH2 and institute
It is humidification to state mode of operation, then:
Moisture removal is determined according to the RH1 and the RH2;
According to the moisture removal, the supply voltage U of the gap d of based Dehumidification Membranes is determined;
Powered to the based Dehumidification Membranes and its gap is adjusted to the d.
Another object of the present invention is to provide a kind of device of control indoor humidity;
In some optional embodiments, the device of the control indoor humidity, including:
Start unit, for entering mode of operation, the mode of operation includes humidification and dehumidified;
Judging unit, for detecting indoor humidity RH1, relatively more described RH1 and setting humidity RH2
Size;If the RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<
The RH2 and the mode of operation are humidification, then:
Determining unit, for determining moisture removal according to the RH1 and the RH2;
First computing unit, for according to the moisture removal, determining the power supply electricity of the gap d of based Dehumidification Membranes
Press U;
Control unit, for being powered to the based Dehumidification Membranes and its gap being adjusted into the d.
Using above-described embodiment, following effect can reach:
According to indoor humidity, the gap length of based Dehumidification Membranes and the flow of booster pump are controlled;
The operating mode that can be needed according to user, carries out total tune control to dehumidifying/humidifying speed, makes it
Cyclic balance.
For above-mentioned and related purpose, one or more embodiments include will be explained in below simultaneously
The feature being particularly pointed out in the claims.Following explanation and accompanying drawing describe in detail some exemplary
One in aspect, and the only utilizable various modes of principle of each embodiment of its instruction
A little modes.Other benefits and novel features will be considered in conjunction with the accompanying with following detailed description and
Become obvious, the disclosed embodiments are to include all these aspects and they are equal.
Brief description of the drawings
Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the one of the application
Part, schematic description and description of the invention is used to explain the present invention, does not constitute to this hair
Bright improper restriction.In the accompanying drawings:
Fig. 1 shows a kind of schematic flow sheet of the method for control indoor humidity of the embodiment of the present invention;
Fig. 2 shows a kind of idiographic flow signal of the method for control indoor humidity of the embodiment of the present invention
Figure;
Fig. 3 shows a kind of functional block diagram of the device of control indoor humidity of the embodiment of the present invention.
Embodiment
The following description and drawings fully show specific embodiments of the present invention, so that the skill of this area
Art personnel can put into practice them.Other embodiments can include structure, logic, it is electric,
Process and other changes.Embodiment only represents possible change.Unless explicitly requested, otherwise
Single components and functionality is optional, and the order operated can change.Some embodiments
Part and feature can be included in or replace part and the feature of other embodiments.The reality of the present invention
Applying the scope of scheme includes the gamut of claims, and all of claims obtain
Equivalent.Herein, these embodiments of the invention can individually or generally be used term
" invention " is represented, this is just for the sake of convenient, and if in fact disclose the invention more than one,
The scope for being not meant to automatically limit the application is any single invention or inventive concept.
Fig. 1 shows a kind of schematic flow sheet for the method for controlling indoor humidity, as shown in figure 1, bag
Include following steps:
Step S101, into mode of operation, the mode of operation includes humidification and dehumidified;
It should be noted that mode of operation described herein is for the regulation direction of indoor humidity
, it is in real work, such as empty under air-conditioning is refrigeration or dehumidification mode for air-conditioning
Adjusting needs to dehumidify to reduce indoor humidity;Under air-conditioning is heating mode, it needs humidification, to avoid
The dry-out phenomenon because of caused by room temperature increase;
Step S102, detects that indoor humidity RH1's, relatively more described RH1 and setting humidity RH2 is big
It is small;
If the RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<Institute
State RH2 and the mode of operation is humidification, then into step S103;The RH2 can be entered
According to the operating and setting of user after mode of operation, if user does not set, the value of last time setting is enabled
As RH2, if user reminds user to be configured or choose pre- when dispatching from the factory from the value was not provided with
If value be used as RH2;
Step S103, moisture removal is determined according to the RH1 and the RH2;
No matter need to dehumidify or humidify, moisture removal described here refers to that dehumidifying dehumidified
Amount to be processed needed for film;Include indoor dehumidification film and outdoor based Dehumidification Membranes, refrigeration or dehumidifying in air-conditioning
When, dehumidified by indoor dehumidification film, heat the water carried out by outdoor based Dehumidification Membranes in dehumidifying absorption air
Based Dehumidification Membranes in then supply chamber are divided to be humidified;Based Dehumidification Membranes described here refer to the side for dehumidifying
Film, the moisture removal, which also refers to the film, needs the amount of work;
Step S104, according to the moisture removal, it is determined that the supply voltage for controlling based Dehumidification Membranes gap d
U;
For air conditioner, including indoor set and outdoor unit, it is interior positioned at the based Dehumidification Membranes of indoor set
Film, the based Dehumidification Membranes of outdoor unit are outdoor film;The circulation of solution needs to pass through between indoor film and outdoor film
Booster pump;
Step S105, powers its gap being adjusted to the d to the based Dehumidification Membranes;
Powered with the supply voltage U to the based Dehumidification Membranes, based Dehumidification Membranes will therebetween according to supply voltage U
Gap is adjusted to d;
The based Dehumidification Membranes have multi-layer film structure, and air duct is the gap of two-layer film configuration, is generally gone out
The gap of film is its nominal clearance during factory;According to nominal clearance, i.e. maximal clearance, then in dehumidifying or
, can be because gap is big and make it that dehumidifying or humidification speed are uncontrollable and too fast during humidification
Dehumidifying or humidification speed human body would generally be caused uncomfortable, for improve user comfort level, it is necessary to according to
Moisture removal sets the gap of suitable indoor film, so as to reach the control to dehumidifying or humidifying process, makes
Its cyclic balance;
Air-conditioning after supply voltage U is calculated, it is necessary to corresponding electric energy is supplied into the based Dehumidification Membranes,
So that it produces electromagnetic force and then produces the gap between film;Therefore different supply voltage U can cause
The gap of film is different, and then the speed according to needed for operating conditions are humidified or dehumidified;
In some optional embodiments, before being powered to the based Dehumidification Membranes, in addition to:
According to the moisture removal, the flow q of booster pump is determined;
Usual booster pump is to pump the solution of metered flow (maximum pump discharge) from outdoor based Dehumidification Membranes
To indoor dehumidification film, but when needing humidity amount to be processed less, this pumping mode is obviously super negative
Lotus is operated, and the q can be determined according to the moisture removal by the present embodiment, i.e., according to operating mode needs
Determine that the booster pump needs the flow pumped;
In some optional embodiments, the RH1 and the RH2 are the percentages that it accounts for saturated humidity
Than;The moisture removal is the absolute value △ RH of the RH1 and RH2 difference;It follows that
RH1 and RH2 value is between 0-1, and △ RH value is between 0-1;If air conditioner refrigerating
Or dehumidifying, then △ RH=RH1-RH2, if air-conditioning heating, △ RH=RH2-RH1;
The operation for determining the supply voltage U, including:
The U is calculated according to following formula:
U=(1- △ RH) * Un, Un is the rated voltage needed for the based Dehumidification Membranes adjust gap;
Corresponding to the d=Dn* △ RH of the U, Dn is the based Dehumidification Membranes nominal clearance;
As described above, the based Dehumidification Membranes are electromagnetic membrane, and its gap each other is by electricity each other
Magnetic force is maintained, and voltage is bigger, and electromagnetic force is bigger, and absorption affinity is bigger, and gap is just smaller;Therefore it is wet
Degree difference is bigger, and gap is bigger, and required supply voltage U is smaller;
In some optional embodiments, the operation of the flow q for determining booster pump, including:
The q is calculated according to following formula:Q=Q* △ RH, Q are the metered flow of the booster pump;
Wherein, the flow q of booster pump is directly proportional to handling the amount of humidity;
In some optional embodiments, after being powered to the based Dehumidification Membranes, in addition to:
As RH1=RH2, stop to power and monitor the RH1;
I.e. during being powered to based Dehumidification Membranes, continue to monitor indoor humidity, set when indoor humidity reaches
Determine after humidity, stop power supply, that is, stop dehumidifying or humidification process, and continue to monitor indoor humidity;If
Now still in mode of operation, then all judge whether to need to be removed after indoor humidity has been monitored every time
Wet or humidification, specific operation can embodiment as the aforementioned.
Fig. 2 shows a kind of idiographic flow schematic diagram for the method for controlling indoor humidity;With reference to Fig. 2,
Flow described in Fig. 2 is specifically addressed:
Step S201, air-conditioning enters mode of operation;
, it is necessary to be dehumidified under refrigeration or dehumidification mode after air-conditioning start;Air-conditioning in a heating mode,
Need to be humidified;
Step S202, indoor humidity sensor detection indoor humidity RH1, is transmitted to master control borad;
Indoor humidity sensor detection indoor humidity RH1, humidity is passed into master control borad;
Step S203, master control borad judges to need to dehumidify or humidify, and sends control signal and give power supply mould
Block;
Master control borad, calculates indoor humidity RH1 and setting humidity RH2Difference △ RH, and by its
It is sent to based Dehumidification Membranes power module;If desired dehumidify, then △ RH=RH1-RH2, if desired humidify,
Then △ RH=RH2-RH1;
Wherein, the RH1 and the RH2 are the percentage that it accounts for saturated humidity;RH1、RH2
And △ RH value is between 0-1;
Step S204, power module calculates voltage U, the flow q of booster pump needed for based Dehumidification Membranes;
Power module calculates the U according to following formula:
U=(1- △ RH) * Un, Un is the rated voltage needed for the based Dehumidification Membranes adjust gap;
Power module calculates the q according to following formula simultaneously:
Q=Q* △ RH, Q are the metered flow of the booster pump;
Step S205, power module exports U to based Dehumidification Membranes, and q is sent into booster pump;
Power module exports corresponding supply voltage U according to the signal △ RH of receiving to be used for described
The based Dehumidification Membranes dehumidified;Under refrigeration or dehumidification mode, the based Dehumidification Membranes are indoor dehumidification film, room
Interior based Dehumidification Membranes are adjusted according to U to its gap, humid air in adsorption chamber;Under heating mode, institute
It is outdoor based Dehumidification Membranes to state based Dehumidification Membranes, and outdoor based Dehumidification Membranes are adjusted according to U to its gap, adsorption chamber
Outer humid air, is humidified by indoor dehumidification film again so as to provide moisture for indoor dehumidification film;
Voltage module is by the q calculated while booster pump is sent to, so that the stream needed with total system
Amount circulation matching;
Step S206, based Dehumidification Membranes adjust gap according to U, and booster pump adjusts its flow according to q;
When the voltage of the based Dehumidification Membranes is U, corresponding to d=Dn* the △ RH, Dn of the U
For the based Dehumidification Membranes nominal clearance;
Step S207, after RH1 reaches setting humidity, interruption of power supply simultaneously continues to detect RH1.
In the above-described embodiment, by adjusting the gap of based Dehumidification Membranes and the flow of booster pump, adapt to work as
Moisture removal under preceding humidity, the two unification controls the humidity of interior;Under refrigeration or dehumidification mode,
Not only control the dehumidifying speed of indoor dehumidification film, also simultaneously because control booster pump flow and then
Control the reduction rate of outdoor based Dehumidification Membranes;In a heating mode, by controlling removing for outdoor based Dehumidification Membranes
The flow of wet speed and booster pump, so in control room based Dehumidification Membranes humidification speed and reduction rate.
Fig. 3 shows a kind of functional block diagram of the device of control indoor humidity of the embodiment of the present invention;
As shown in figure 3, described device 300, including:
Start unit 301, for entering mode of operation, the mode of operation includes humidification and dehumidified;
Judging unit 302, for detecting indoor humidity RH1, relatively more described RH1 and setting humidity RH2
Size;If the RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<
The RH2 and the mode of operation are humidification, then:
Determining unit 303, for determining moisture removal according to the RH1 and the RH2;
First computing unit 304, for according to the moisture removal, it is determined that the gap for controlling based Dehumidification Membranes
D supply voltage U;
Control unit 305, the d is adjusted to for being powered to the based Dehumidification Membranes by gap;
In some illustrative embodiments, described device 300, in addition to:
Second computing unit 306, before being powered for described control unit 305 to the based Dehumidification Membranes, according to
The moisture removal, determines the flow q of the booster pump of the based Dehumidification Membranes;
In some illustrative embodiments, the RH1 and the RH2 be that it accounts for saturated humidity hundred
Divide ratio;The moisture removal is the absolute value △ RH of the RH1 and RH2 difference;
First computing unit, including:
First computation subunit, for calculating the U according to following formula:
U=(1- △ RH) * Un, Un is the rated voltage needed for the based Dehumidification Membranes adjust gap;
Corresponding to the d=Dn* △ RH of the U, Dn is the based Dehumidification Membranes nominal clearance;
In some illustrative embodiments, second computing unit 306, including:
Second computation subunit 3061, for calculating the q according to following formula:
Q=Q* △ RH, Q are the metered flow of the booster pump.
In some illustrative embodiments, if current mode of operation is dehumidifying, the control is single
Member 305 is powered to the outdoor film of the based Dehumidification Membranes;If current mode of operation is humidification, the control
Unit 305 processed is powered to the indoor film of the based Dehumidification Membranes;Described device 300, in addition to:
Monitoring unit 307, after being powered for described control unit 305 to the based Dehumidification Membranes, RH1=RH2
When, stop to power and monitor the RH1.
In summary, using method and apparatus of the present invention, it may be such that:
According to indoor humidity, the gap length of based Dehumidification Membranes and the flow of booster pump are controlled;
The operating mode that can be needed according to user, carries out total tune control to dehumidifying/humidifying speed, makes it
Cyclic balance.
It should also be appreciated by one skilled in the art that the preferred embodiments of the present invention are the foregoing is only,
Be not intended to limit the invention, for those skilled in the art, the present invention can have it is various more
Change and change.Within the spirit and principles of the invention, any modification for being made, equivalent substitution,
Improve etc., it should be included in the scope of the protection.
Claims (10)
1. a kind of method for controlling indoor humidity, it is characterised in that including:
Into mode of operation, the mode of operation includes humidification and dehumidified;
Detect indoor humidity RH1, relatively more described RH1 and setting humidity RH2 size;If described
RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<The RH2 and institute
It is humidification to state mode of operation, then:
Moisture removal is determined according to the RH1 and the RH2;
According to the moisture removal, it is determined that the supply voltage U for controlling based Dehumidification Membranes gap d;
Powered to the based Dehumidification Membranes and its gap is adjusted to the d.
2. the method as described in claim 1, it is characterised in that before being powered to the based Dehumidification Membranes,
Also include:
According to the moisture removal, the flow q of the booster pump of the based Dehumidification Membranes is determined.
3. method as claimed in claim 2, it is characterised in that the RH1 and RH2
It is the percentage that it accounts for saturated humidity;The moisture removal is absolute for the RH1 and RH2 difference
Value △ RH;The operation of the supply voltage U is determined, including:
The U is calculated according to following formula:
U=(1- △ RH) * Un, Un is the rated voltage needed for the based Dehumidification Membranes adjust gap;
Corresponding to the d=Dn* △ RH of the U, Dn is the based Dehumidification Membranes nominal clearance.
4. method as claimed in claim 3, it is characterised in that the stream of the determination booster pump
Q operation is measured, including:
The q is calculated according to following formula:Q=Q* △ RH, Q are the metered flow of the booster pump.
5. the method as any one of claim 1-4, it is characterised in that removed to described
After wet film is powered, in addition to:
As RH1=RH2, stop to power and monitor the RH1.
6. a kind of device of control indoor humidity, it is characterised in that including:
Start unit, for entering mode of operation, the mode of operation includes humidification and dehumidified;
Judging unit, for detecting indoor humidity RH1, relatively more described RH1 and setting humidity RH2
Size;If the RH1>The RH2 and the mode of operation are dehumidifying, if or, the RH1<
The RH2 and the mode of operation are humidification, then:
Determining unit, for determining moisture removal according to the RH1 and the RH2;
First computing unit, for according to the moisture removal, it is determined that for controlling based Dehumidification Membranes gap d
Supply voltage U;
Control unit, for being powered to the based Dehumidification Membranes and its gap being adjusted into the d.
7. device as claimed in claim 6, it is characterised in that also include:
Second computing unit, before being powered for described control unit to the based Dehumidification Membranes, is removed according to described
Moisture, determines the flow q of the booster pump of the based Dehumidification Membranes.
8. device as claimed in claim 2, it is characterised in that the RH1 and RH2
It is the percentage that it accounts for saturated humidity;The moisture removal is absolute for the RH1 and RH2 difference
Value △ RH;First computing unit, including:
First computation subunit, for calculating the U according to following formula:
U=(1- △ RH) * Un, Un is the rated voltage needed for the based Dehumidification Membranes adjust gap;
Corresponding to the d=Dn* △ RH of the U, Dn is the based Dehumidification Membranes nominal clearance.
9. device as claimed in claim 3, it is characterised in that second computing unit,
Including:
Second computation subunit, for calculating the q according to following formula:
Q=Q* △ RH, Q are the metered flow of the booster pump.
10. the device as any one of claim 6-9, it is characterised in that also include:
Monitoring unit, after being powered for described control unit to the based Dehumidification Membranes, during RH1=RH2, in
Only power and monitor the RH1.
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