CN112032869B - Basement air humidity detection method - Google Patents

Abstract

The application discloses a basement air humidity detection method which comprises the following steps of starting a dehumidifier of a basement, and recording a humidity value X displayed by the dehumidifier; dividing the space in the basement into a plurality of virtually independent and parallel sub-measuring planes, wherein each sub-measuring plane is parallel to the floor and the ceiling of the basement; taking a plurality of independent detection points on each sub-measurement plane, placing a humidity detector on each detection point, recording the detection value measured by each humidity detector, removing the maximum value and the minimum value in the detection values, averaging the rest detection values, and taking the average value as the sub-measurement humidity value M; the invention has the following beneficial effects: the calibration of the display value of the dehumidifier and the actual value of the environment is realized by testing the difference value between the display value and the actual value of the dehumidifier.

Description

Basement air humidity detection method

Technical Field

The invention relates to the field of detection, in particular to a basement air humidity detection method.

Background

The basement has higher humidity throughout the year, so that a plurality of families generally only use the basement as a storage room, and in recent years, along with the development of science and technology, particularly the emergence of a dehumidifier, the basement has more purposes, and a plurality of families like to decorate the basement into a guest room, an entertainment activity room, a home theater and the like after installing the dehumidifier in the basement, so that the basement has more functions.

The current dehumidifier types are roughly classified into two types, one is a ceiling type and the other is a floor type, and the two types of the dehumidifier have respective advantages and disadvantages, which are stated below.

The dehumidifier with the humidity detector is generally installed by decoration companies when decorating customers, the dehumidifier is provided with the humidity detector, the humidity detector is generally installed at the position close to an air outlet of the dehumidifier in an integrated mode, so that the air humidity near a basement ceiling is actually measured by the dehumidifier, but the humidity of the basement closer to the ground is higher, so that the air humidity of the basement measured by the dehumidifier is far lower than an actual value, if the humidity of the basement is displayed by the detector provided with the dehumidifier to be 50%, the working power of the dehumidifier is 70W, but the actual humidity of the basement is higher than 50%, and if the humidity of the basement can reach 50%, the working power of the dehumidifier needs to be increased.

For a floor-standing dehumidifier, the dehumidifier is generally placed on the ground, and the floor-standing dehumidifier is also provided with a humidity detector for detecting the temperature near the floor of a room, and since the molecular weight of water is 18 and the relative molecular weight of air is 29, water molecules are constantly moving upward, therefore, the dehumidifier only removes the moisture near the floor, but cannot absorb the moisture near the ceiling, therefore, the data actually measured by the humidity detector of the dehumidifier is lower than the actual humidity, for example, the detector of the dehumidifier displays that the humidity of the basement is 50 percent and the working power of the dehumidifier is 30W, however, the humidity in the actual basement is more than 50%, and if the humidity in the basement can reach 50%, the working power of the dehumidifier needs to be increased.

The inherent defects of the two dehumidifiers give a lot of merchants a false propaganda loophole, for example, some merchants often publicize that the produced dehumidifiers can reduce the air humidity to 50% in a certain space, but only one watt hour is consumed in 24 hours, and many families cannot scientifically and effectively dehumidify basements after being misled by the false propaganda, so that the basements are moldy and the like.

Therefore, based on the inherent leak of the existing ceiling type dehumidifier and the floor type dehumidifier, a more scientific basement humidity detection method is required, and the data measured by the detection method scientifically and reasonably guides the family to use the dehumidifier to dehumidify.

Disclosure of Invention

The invention provides a basement air humidity detection method aiming at the problems.

The technical scheme adopted by the invention is as follows:

the invention needs to be explained, and the scheme is suitable for household practical ceiling type dehumidifiers and vertical type dehumidifiers.

A basement air humidity detection method comprises the following steps,

s1: starting a dehumidifier of the basement, and recording a humidity value X displayed by the dehumidifier;

s2: dividing the space in the basement into a plurality of virtually independent and parallel sub-measuring planes, wherein each sub-measuring plane is parallel to the floor and the ceiling of the basement;

s3: taking a plurality of independent detection points on each sub-measurement plane, placing a humidity detector on each detection point, recording the detection value measured by each humidity detector, removing the maximum value and the minimum value in the detection values, averaging the rest detection values, and taking the average value as the sub-measurement humidity value M;

s4: making a difference between the measured sub-humidity value M and the measured sub-humidity value X on each sub-measurement plane, recording the difference value as D, and recording the D value of each sub-measurement plane;

in the step, D is M-X, and the value of D can be positive or negative;

s5: adjusting the power of the dehumidifier, recording the humidity value X displayed by the dehumidifier, repeating the steps S2-S4, recording the value X again when the power of the dehumidifier is adjusted, and repeating the steps S2-S4 when the power of the dehumidifier is adjusted.

The working description of the present detection scheme is as follows, and it can be known from the description in the background art that the humidity value displayed by the dehumidifier at present is deviated from the detection value of each place in the room, so the present scheme is to measure the difference between the display value and the actual value at a certain height under each specific display value of the dehumidifier, and record the difference, and when the dehumidifier is turned on next time, only the humidity value displayed by the dehumidifier needs to be checked, then the difference corresponding to each sub-measurement plane under the display value is checked, and the specific difference is added, namely the actual humidity value of the sub-measurement plane.

Therefore, after the home finishes decorating the basement, a third-party detection company can measure the difference between the display value and the actual value of the dehumidifier on the plane at a certain height from the floor by using the method, a plurality of display values are set, a plurality of groups of difference values can be measured, and the third-party detection company classifies and assembles the specific difference values corresponding to each display value into a table. When the household is normally used, only the difference value is measured, and only the difference value corresponding to the display value is added to the display value by referring to the table, so that the actual humidity value is obtained.

The method realizes the calibration of the display value of the dehumidifier and the actual value of the environment by testing the difference between the display value and the actual value of the dehumidifier, and the actual humidity value in the environment can be accurately obtained only by adding the corresponding difference to the display value when the dehumidifier is used again after the calibration data is classified and gathered.

Optionally, the distance between two adjacent sub-measuring planes is 0.5m to 0.8 m.

Optionally, the distance between two adjacent detection sites on each sub-measurement plane is 1.5m to 2 m.

Optionally, the humidity detector is an electrically controlled humidity detector, and the humidity detector is electrically connected to the computer.

The electrically controlled humidity detector and the computer are used for collecting data.

Optionally, the humidity detector further comprises a rod, the rod is vertically fixed on the ground, and the humidity detector is hung on the rod.

Optionally, the rod is an engineering plastic rod.

The engineering plastics are used for avoiding the water vapor from condensing on the rod, so that the detection result is influenced.

Optionally, the rod and the humidity detector are fixed together by a magic tape.

Optionally, the height of the basement is 3m to 6 m.

Optionally, a humidity detector is arranged in the distance of 0.5m between each side wall of the basement.

Optionally, the distance between two adjacent measuring planes is less than the width of the measuring plane.

The above arrangement is to avoid the generation of dead monitoring angles.

The invention has the beneficial effects that: the display value and the actual value of the environment are calibrated by testing the difference between the display value and the actual value of the dehumidifier, and after the calibration data are classified and gathered, the actual humidity value on a certain plane of the environment can be accurately obtained by adding the corresponding difference to the display value when the dehumidifier is used again.

The specific implementation mode is as follows:

the present invention is described in detail below.

In the embodiment, a basement with an area of 100 square meters and a height of 3 meters is taken as an example, the height value of each sub-measurement plane is 0.5m, so that 5 sub-measurement planes are taken altogether, and the 5 sub-measurement planes are sequentially recorded as a first sub-measurement plane, a second sub-measurement plane, a third sub-measurement plane, a fourth sub-measurement plane and a fifth sub-measurement plane from bottom to top, and the floor and the ceiling are not measured, so that the beneficial effects of the method are elaborated.

Firstly, the dehumidifier is started, and then the humidity value X is set₁When the humidity value is reached, the humidity values of 5 measuring planes are measured respectively and recorded as M from bottom to top₁₁，M₁₂，M₁₃，M₁₄，M₁₅Then, the difference between X and M is made to obtain the difference D between the actual value and the displayed value of 5 measured planes₁₁，D₁₂，D₁₃，D₁₄，D₁₅。

After the above steps are completed, readjusting the set humidity value X₂(X₂>X₁) When the humidity value is reached, the humidity values of 5 measuring planes are measured respectively and recorded as M from bottom to top₂₁，M₂₂，M₂₃，M₂₄，M₂₅Then, the difference between X and M is made to obtain the difference D between the actual value and the displayed value of 5 measured planes₂₁，D₂₂，D₂₃，D₂₄，D₂₅。

After the above steps are completed, readjusting the set humidity value X₃(X₃>X₂) When the humidity value is reached, the humidity values of 5 measuring planes are measured respectively and recorded as M from bottom to top₃₁，M₃₂，M₃₃，M₃₄，M₃₅Then, the difference between X and M is made to obtain the difference D between the actual value and the displayed value of 5 measured planes₃₁，D₃₂，D₃₃，D₃₄，D₃₅。

Repeating the above steps N times, recording the difference between each specific display value and the actual value of 5 measured planes in the following summary table,

summary table

Because the humidity range value which is most comfortable for human body feeling is 35-65%, the value of N is only large, the difference value between two adjacent display values is small, a third-party detection company can detect a complete and detailed summary table, and the display value of the dehumidifier (the display value is a set value) can be completely set according to the requirement when the dehumidifier is used at home.

For example, when a basement is decorated into a bedroom by a family, the sleeping of a person is basically near the first measuring plane, and if the most comfortable humidity value of the human body is 50%, the required set value of the dehumidifier is 50% -D₁₁Then consult the display value to see which display value is closest to 50% -D₁₁And then the display value is set as the set value of the dehumidifier.

For example, when a basement is decorated into a bedroom by a family, the movement of people is basically on the second measuring plane, and if the most comfortable humidity value of the human body of a certain person is 50%, the set value of the required dehumidifier is 50% -D₂₁Then consult the display values to see which display value is closest to 50% -D₂₁And then the display value is set as the set value of the dehumidifier.

The above is only a simple example, and the corresponding setting value can be set according to the specific use requirement and referring to the summary table.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, which is defined by the claims and their equivalents, and can be directly or indirectly applied to other related fields of technology.

Claims (10)

1. A basement air humidity detection method is characterized by comprising the following steps,

s1: starting a dehumidifier of the basement, and recording a humidity value X displayed by the dehumidifier;

s2: dividing the space in the basement into a plurality of virtually independent and parallel sub-measuring planes, wherein each sub-measuring plane is parallel to the floor and the ceiling of the basement;

s3: taking a plurality of independent detection points on each sub-measurement plane, placing a humidity detector on each detection point, recording the detection value measured by each humidity detector, removing the maximum value and the minimum value in the detection values, averaging the rest detection values, and taking the average value as the sub-measurement humidity value M;

s4: making a difference between the measured sub-humidity value M and the measured sub-humidity value X on each sub-measurement plane, recording the difference value as D, and recording the D value of each sub-measurement plane;

s5: and adjusting the power of the dehumidifier, recording the humidity value X displayed by the dehumidifier, repeating the steps S2-S4, recording the value of X again when the power of the dehumidifier is adjusted each time, and repeating the steps S2-S4 when the power of the dehumidifier is adjusted each time.

2. The basement air humidity detection method of claim 1, wherein the distance between two adjacent sub-planes is 0.5m to 0.8 m.

3. The basement air humidity detection method of claim 1, wherein the distance between two adjacent detection sites on each of the measuring planes is 1.5m to 2 m.

4. The basement air humidity detection method of claim 1, further comprising a computer, wherein the humidity detector is an electronically controlled humidity detector, and wherein the humidity detector is electrically coupled to the computer.

5. The basement air humidity detection method of claim 4, further comprising a rod vertically fixed to the ground, wherein the humidity detector is hung on the rod.

6. The basement air humidity detection method of claim 5, wherein the rod is an engineering plastic rod.

7. The basement air humidity detection method of claim 5, wherein the rod and the humidity detector are fixed together by magic tape.

8. The basement air humidity detection method of claim 1, wherein the basement is 3m to 6m in height.

9. The basement air humidity detection method of claim 1, wherein a humidity detector is arranged in each side wall of the basement within 0.5m of the distance.

10. The basement air humidity detection method of claim 2, wherein the distance between two adjacent measuring planes is 0.5 m.