CN107121991B - A kind of intelligent humidity control method based on region division - Google Patents

Abstract

The intelligent humidity control method based on region division that the invention discloses a kind of, comprising the following steps: target area S1, is divided into multiple subregions, is denoted as A₁、A₂、A₃……A_n；S2, acquisition A₁、A₂、A₃……A_nHumidity in region, is denoted as W₁、W₂、W₃……W_n；S3, to A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, and based on the analysis results to A₁、A₂、A₃……A_nHumidity in region is adjusted.The present invention carries out region division to the region for needing to carry out humidity regulation first, then the humidity information in different zones is acquired respectively, the actual humidity information humidity range corresponding with the region in single region is compared again, it is finally that damping strategy is formulated in the region according to comparison result, improve the specific aim and effect of humidity regulation, humidity regulation is carried out to the areas adjacent region simultaneously, the speed for accelerating target area humidity regulation, further increases the effect and efficiency of target area humidity regulation.

Description

A kind of intelligent humidity control method based on region division

Technical field

The present invention relates to humidity grading control technical field more particularly to a kind of intelligent humidity controls based on region division Method processed.

Background technique

Relative air humidity is the key factor for influencing production and living environment.In different application scenarios, to humidity Requirement it is also not identical.For example, when moisture management is applied to the field of warehouse item storage, due to the object of different location other side Product are different, and the function of different articles is different with effect, and the requirement to humidity is not also identical, then needs the humidity to different location It is individually detected and is considered, so that the result of humidity regulation is more matched with practical application scene.For another example, work as moisture management When being applied in house, requirement of the different locations to humidity be not also identical between toilet, room, kitchen, storage etc., if sharp at this time Humidity regulation is carried out to entire house with conventional humidity regulation method, is not only difficult to ensure the effect of humidity regulation, but also The problem that humidity regulation speed is slow, effect is undesirable can be caused since the area of residence is larger, region is more, while will also result in money The problem of source wastes.Based on the above situation, existing humidity regulation method it is not strong to the specific aim of humidity regulation, it is intelligent compared with It is low, it is difficult to be adapted to the demand in people's production and life to humidity regulation, not can guarantee people's production and life offer is comfortable Humidity environment.

Summary of the invention

Technical problems based on background technology, the intelligent humidity control based on region division that the invention proposes a kind of Method processed.

Intelligent humidity control method proposed by the present invention based on region division, comprising the following steps:

S1, target area is divided into multiple subregions, is denoted as A₁、A₂、A₃……A_n；

S2, acquisition A₁、A₂、A₃……A_nHumidity in region, is denoted as W₁、W₂、W₃……W_n；

S3, to A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, and right based on the analysis results A₁、A₂、A₃……A_nHumidity in region is adjusted.

Preferably, step S3 is specifically included:

Respectively multiple subregions are preset with suitable humidity range, are denoted as [W_1min,W_1max]、[W_2min,W_2max]、[W_3min, W_3max]……[W_nmin,W_nmax]；

To A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, works as W_j≤aW_jminWhen, to A_jRegion Start the first damping mode, and to A_jThe adjacent region A in region_i、A_k……A_xStart the second damping mode；

Work as W_j≥bW_jmaxWhen, to A_jRegion starts third damping mode, and to A_jThe adjacent region A in region_i、A_k……A_x Start the 4th damping mode；

Under the first damping mode, A_jThe corresponding j moisture adjustment module in region is aerated operation, and j humidity regulation mould The operating power of block remains P₁；Under the second damping mode, A_i、A_k……A_xCorresponding i, k ... x the humidity regulation mould in region Block is aerated operation, and the operating power of i, k ... x moisture adjustment module remains P₂；

Under third damping mode, A_jThe corresponding j moisture adjustment module in region is aerated and heating operation, and j humidity The operating power of adjustment module remains P₁；Under the 4th damping mode, A_i、A_k……A_xCorresponding i, k ... x humidity in region Adjustment module is aerated and heating operation, and the operating power of i, k ... x moisture adjustment module remains P₂；

Wherein, 0 < a < 1, bWjmax > aWjmin, 1≤j≤n, P₁>P₂。

Preferably, step S3 further include:

Respectively multiple subregions are preset with standard humidity range, are denoted as [W₁₀,W₁₁]、[W₂₀,W₂₁]、[W₃₀,W₃₁]…… [W_n0,W_n1]；

Work as W_j0≤W_j≤W_j1When, by A_j、A_i、A_k……A_xCorresponding j, i, k ... x moisture adjustment module in region is adjusted to Stop working state.

Preferably, step S2 is specifically included:

Equipped with n humidity detecting module, n humidity detecting module and A₁、A₂、A₃……A_nRegion corresponds, and n wet Degree detection module is respectively used to acquisition A₁、A₂、A₃……A_nHumidity information in region, any one humidity detecting module include more The installation site of a humidity sensor, multiple humidity sensors is all different.

The present invention carries out region division to the region for needing to carry out humidity regulation first, then acquires in different zones respectively Humidity information, then the actual humidity information humidity range corresponding with the region in single region is compared, last root It is that damping strategy is formulated in the region according to comparison result, improves the specific aim and effect of humidity regulation, while to the areas adjacent area Domain carry out humidity regulation, accelerate target area humidity regulation speed, further increase target area humidity regulation effect and Efficiency.Specifically: the present invention is that each single region is set with suitable humidity range, is carried out to the humidity in single region When analysis, when the humidity in the region overruns, then different damping strategies is used, according to the actual situation with targetedly Humidity regulation is carried out to target area；To the areas adjacent when humidity value of the present invention in target area deviates preset range simultaneously Region equally carries out humidity regulation, within a short period of time adjust the humidity value in target area to the general level of the health, not only The specific aim of humidity regulation is improved, and ensure that the timeliness of humidity regulation.Further, the present invention sets that there are two types of different Operating mode the damping strategy in target area and close-proximity target zone region controlled, pass through different Working moulds Formula reinforces the regulating effect to humidity in target area, improves the precision of humidity regulation in target area, provides for user strong The humidity environment of Kang Shiyi.

Detailed description of the invention

Fig. 1 is a kind of step schematic diagram of intelligent humidity control method based on region division.

Specific embodiment

As shown in FIG. 1, FIG. 1 is a kind of intelligent humidity control methods based on region division proposed by the present invention.

Referring to Fig.1, the intelligent humidity control method proposed by the present invention based on region division, comprising the following steps:

S1, target area is divided into multiple subregions, is denoted as A₁、A₂、A₃……A_n；By the way that target area is divided into Multiple zonules can reduce the range of humidity collection, to improve the acquisition precision to humidity value in each cell domain.

S2, acquisition A₁、A₂、A₃……A_nHumidity in region, is denoted as W₁、W₂、W₃……W_n；In present embodiment, it is equipped with n A humidity detecting module, n humidity detecting module and A₁、A₂、A₃……A_nRegion corresponds, n humidity detecting module difference For acquiring A₁、A₂、A₃……A_nHumidity information in region, for each sub-regions set a humidity detecting module come into Row Humidity Detection can effectively guarantee the accuracy of Humidity Detection result；Meanwhile any one humidity detecting module includes multiple The installation site of humidity sensor, multiple humidity sensors is all different, and passes through different location in acquisition each cell domain Humidity value calculates the actual humidity value in the region based on the humidity value of above-mentioned different location, further improves The accuracy that actual humidity value in each cell domain is acquired.

S3, to A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, and right based on the analysis results A₁、A₂、A₃……A_nHumidity in region is adjusted.

Step S3 is specifically included:

Respectively multiple subregions are preset with suitable humidity range, are denoted as [W_1min,W_1max]、[W_2min,W_2max]、[W_3min, W_3max]……[W_nmin,W_nmax]；

To A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, works as W_j≤aW_jminWhen, show A_jArea The actual humidity value in domain deviates from the preset humidity range in the region, at this time to A_jRegion starts the first damping mode, i.e. A_jRegion Corresponding j moisture adjustment module is aerated operation, and the operating power of j moisture adjustment module remains P₁, and to A_jRegion phase Adjacent region A_i、A_k……A_xStart the second damping mode, i.e. A_i、A_k……A_xCorresponding i, k ... x moisture adjustment module in region It is aerated operation, and the operating power of i, k ... x moisture adjustment module remains P₂；Work as A_jActual humidity value is relatively low in region When, show that air is more dry in the region, for A_jHumidity in region is adjusted, and is carried out using j moisture adjustment module Ventilation operation, and the operating power of j moisture adjustment module is larger, puts forth effort to improve A_jHumidity in region, meanwhile, utilize A_jRegion Adjacent A_i、A_k……A_xCorresponding i, k ... x moisture adjustment module in region is aerated operation, and i, k ... x humidity regulation Module is worked using lesser operating power, is on the one hand prevented to A_i、A_k……A_xHumidity in region impacts, another party Face can be assisted to A_jHumidity in region is adjusted, to reach ideal humidity regulation effect；

Work as W_j≥bW_jmaxWhen, show A_jThe actual humidity value in region is higher, for by A_jActual humidity value adjustment in region To optimum range, at this time to A_jRegion starts third damping mode, i.e. A_jThe corresponding j moisture adjustment module in region is aerated And heating operation, and the operating power of j moisture adjustment module remains P₁, and to A_jThe adjacent region A in region_i、A_k……A_xIt opens Dynamic 4th damping mode, i.e. A_i、A_k……A_xCorresponding i, k ... x moisture adjustment module in region is aerated and heating operation, The operating power of and i, k ... x moisture adjustment module remains P₂；Work as A_jWhen actual humidity value is higher in region, show the region Interior air is more moist, to adjust the actual humidity value in the region to the general level of the health, is led to using j moisture adjustment module Wind and heating operation, to accelerate the humidity value regulated efficiency in the region, and the operating power of j moisture adjustment module is larger, Power improves A_jHumidity in region, meanwhile, utilize A_jThe adjacent A in region_i、A_k……A_xCorresponding i, k ... x humidity regulation in region Module is aerated and heating operation, and i, k ... x moisture adjustment module are worked using lesser operating power, can be effectively Assist j moisture adjustment module to A_jHumidity in region is adjusted, and is being accelerated to A_jIt is mentioned on the basis of the humidity regulation speed of region Height is to A_jThe effect of region humidity regulation；

Wherein, 0 < a < 1, bWjmax > aWjmin, 1≤j≤n, P₁>P₂。

During humidity regulation, idle work, step are caused to avoid the moisture adjustment module in work from continuing sex work S3 further include:

Respectively multiple subregions are preset with standard humidity range, are denoted as [W₁₀,W₁₁]、[W₂₀,W₂₁]、[W₃₀,W₃₁]…… [W_n0,W_n1]；

Work as W_j0≤W_j≤W_j1When, show A_jActual humidity in region has been adjusted to standard humidity range, at this time for The waste for avoiding resource, by A_j、A_i、A_k……A_xCorresponding j, i, k ... x moisture adjustment module in region is adjusted to stop working State, and the operation is conducive to A_j、A_i、A_k……A_xActual humidity value in region is maintained within the scope of stable health.

Present embodiment carries out region division to the region for needing to carry out humidity regulation first, then acquires not same district respectively Humidity information in domain, then the actual humidity information humidity range corresponding with the region in single region is compared, most It is afterwards that damping strategy is formulated in the region according to comparison result, improves the specific aim and effect of humidity regulation, while attached to the region Near field carries out humidity regulation, accelerates the speed of target area humidity regulation, further increases the effect of target area humidity regulation Fruit and efficiency.Specifically: present embodiment is that each single region is set with suitable humidity range, in single region When humidity is analyzed, when the humidity in the region overruns, then different damping strategies is used according to the actual situation, with Humidity regulation targetedly is carried out to target area；When humidity value of the present embodiment in target area deviates preset range simultaneously Humidity regulation is equally carried out to the areas adjacent region, within a short period of time adjust the humidity value in target area to strong Kang Shuiping, not only increases the specific aim of humidity regulation, and ensure that the timeliness of humidity regulation.Further, this implementation Mode controls the damping strategy in target area and close-proximity target zone region equipped with two different operating modes, Reinforce the regulating effect to humidity in target area by different operating modes, improves the essence of humidity regulation in target area Degree provides health suitable humidity environment for user.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (3)

1. a kind of intelligent humidity control method based on region division, which comprises the following steps:

S1, target area is divided into multiple subregions, is denoted as A₁、A₂、A₃……A_n；

S2, acquisition A₁、A₂、A₃……A_nHumidity in region, is denoted as W₁、W₂、W₃……W_n；

S3, to A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, and based on the analysis results to A₁、A₂、 A₃……A_nHumidity in region is adjusted；

Step S3 is specifically included:

Respectively multiple subregions are preset with suitable humidity range, are denoted as [W_1min,W_1max]、[W_2min,W_2max]、[W_3min, W_3max]……[W_nmin,W_nmax]；

To A₁、A₂、A₃……A_nHumidity W in region₁、W₂、W₃……W_nIt is analyzed, works as W_j≤aW_jminWhen, to A_jRegion starting First damping mode, and to A_jThe adjacent region A in region_i、A_k……A_xStart the second damping mode；

Work as W_j≥bW_jmaxWhen, to A_jRegion starts third damping mode, and to A_jThe adjacent region A in region_i、A_k……A_xStarting the Four damping modes；

Under the first damping mode, A_jThe corresponding j moisture adjustment module in region is aerated operation, and the work of j moisture adjustment module The rate of doing work remains P₁；Under the second damping mode, A_i、A_k……A_xCorresponding i, k ... x moisture adjustment module in region carries out Ventilation operation, and the operating power of i, k ... x moisture adjustment module remains P₂；

Under third damping mode, A_jThe corresponding j moisture adjustment module in region is aerated and heating operation, and j humidity regulation mould The operating power of block remains P₁；Under the 4th damping mode, A_i、A_k……A_xCorresponding i, k ... x the humidity regulation mould in region Block is aerated and heating operation, and the operating power of i, k ... x moisture adjustment module remains P₂；

Wherein, 0 < a < 1, bWjmax > aWjmin, 1≤j≤n, P₁>P₂。

2. the intelligent humidity control method according to claim 1 based on region division, which is characterized in that step S3 is also Include:

Respectively multiple subregions are preset with standard humidity range, are denoted as [W₁₀,W₁₁]、[W₂₀,W₂₁]、[W₃₀,W₃₁]……[W_n0, W_n1]；

Work as W_j0≤W_j≤W_j1When, by A_j、A_i、A_k……A_xCorresponding j, i, k ... x moisture adjustment module in region is adjusted to stop Working condition.

3. the intelligent humidity control method according to claim 1 based on region division, which is characterized in that step S2 tool Body includes:

Equipped with n humidity detecting module, n humidity detecting module and A₁、A₂、A₃……A_nRegion corresponds, n Humidity Detection Module is respectively used to acquisition A₁、A₂、A₃……A_nHumidity information in region, any one humidity detecting module include multiple humidity The installation site of sensor, multiple humidity sensors is all different.