CN112460746A - Temperature and humidity control method, system and device and storage medium - Google Patents

Abstract

The application relates to a temperature and humidity control method, a system, a device and a storage medium, wherein the temperature and humidity control method is based on a first detection device, a second detection device and a control and regulation device which are arranged in a region to be detected, and comprises the steps that the first detection device acquires and stores first collected data of the temperature and humidity of the region to be detected; comparing the first acquired data with preset reference data, and calculating to obtain a comparison result data signal; the control and regulation device receives and responds to the comparison result data signal, regulates the temperature and humidity in the area to be detected, and regulates the temperature and humidity in the area to be detected to be in a proper range; after the temperature and humidity of the area to be detected are adjusted, the second detection device collects temperature and humidity data in a specific area in the area to be detected again and outputs second collected data; and the control and regulation device receives and analyzes the second acquired data, outputs a control signal and controls the temperature and the humidity in the area to be detected again. This application has the high effect of atmospheric control accuracy.

Description

Temperature and humidity control method, system and device and storage medium

Technical Field

The present disclosure relates to the field of temperature control systems, and in particular, to a temperature and humidity control method, system, device, and storage medium.

Background

Along with the improvement of the living standard of people, people pay more and more attention to the quality of life and pay more and more attention to indoor temperature and humidity. An air conditioner is one of electric appliances commonly used in daily life, is used for processing the temperature, the humidity, the purity and the airflow speed of air, and is often used for adjusting the indoor temperature and humidity to be in a range suitable for people to live in.

In the related art, a sensor built in an air conditioner is generally used for detecting indoor temperature and humidity, a starting program is recorded in a controller in the air conditioner in advance, and when the air conditioner detects that the indoor temperature and humidity are not within a temperature and humidity range suitable for a human body, the air conditioner is started and adjusts the indoor temperature and humidity.

However, when the air conditioner adjusts the indoor temperature and humidity to the normal range, because the difference of the indoor and outdoor temperature and humidity or the indoor water vapor increases, water drops are easily generated on the indoor ceramic tile or mirror surface, which is inconvenient for the daily life of indoor personnel.

Disclosure of Invention

In order to solve the problem of poor temperature and humidity regulation accuracy, the application provides a temperature and humidity control method, a temperature and humidity control system, a temperature and humidity control device and a storage medium.

In a first aspect, the temperature and humidity control method provided by the present application adopts the following technical scheme: a temperature and humidity control method is based on a first detection device, a second detection device and a control and regulation device which are arranged in a region to be detected and is characterized by comprising the following steps of,

the first detection device acquires and stores first acquisition data of temperature and humidity of an area to be detected;

comparing the first acquired data with preset reference data, and calculating to obtain a comparison result data signal;

the control and regulation device receives and responds to the comparison result data signal, regulates the temperature and humidity in the area to be detected, and regulates the temperature and humidity in the area to be detected to be in a proper range;

after the temperature and humidity of the area to be detected are adjusted, the second detection device collects temperature and humidity data in the specific area of the area to be detected again and outputs second collected data;

and the control and regulation device receives and analyzes the second acquired data, outputs a control signal and controls the temperature and the humidity in the area to be detected again.

Through adopting above-mentioned technical scheme, wait the humiture data collection in the detection zone by first detection adjusting device detection, after detecting to wait to detect the region and need carry out the regulation of humiture, wait to detect the humiture in the specific region in the region again by second detection adjusting device, because the specific region receives the humiture influence great, treat the actual humiture in the detection zone through twice detection confirmation, help improving and wait to detect the accuracy of regional humiture regulation.

Preferably, the acquiring and storing of the first acquisition data of the temperature and humidity of the area to be detected by the first detection device includes:

acquiring first acquisition data of temperature and humidity of an area to be detected for multiple times;

inputting each first acquisition data, and calculating an average value of the first acquisition data based on a correlation algorithm;

and storing the first acquired data after the average value is calculated.

Through adopting above-mentioned technical scheme, gather the humiture in waiting to detect the region many times to the humiture data that will gather many times are got the average value, help improving the accuracy of gathering and waiting to detect regional humiture data.

Preferably, the first collected data is compared with preset reference data, and a comparison result data signal is calculated:

calling first collected data and preset reference data;

comparing the reference data with first collected data based on a correlation algorithm, and outputting difference data;

D/A conversion is carried out on the difference data to obtain a comparison result data signal.

By adopting the technical scheme, the digital quantity of the difference data is converted into the analog quantity, so that the difference data can be conveniently and accurately transmitted.

Preferably, after the temperature and humidity of the area to be detected are adjusted, the second detection device collects the temperature and humidity data in the specific area in the area to be detected again, and outputs second collected data, including:

arranging the second detection device in a specific area in an area to be detected, wherein the specific area comprises an area which is easily affected by temperature and humidity changes;

and acquiring and storing the second acquisition data for multiple times.

Through adopting above-mentioned technical scheme, among the actual conditions, because treat that the specific area in the detection area is easily influenced by the humiture, if the ceramic tile wall receives the influence of humiture will leave the drop of water on the wall, gather the humiture data in the specific area many times through second detection device, help treating according to the actual conditions detection and treat that whether the humiture adjustment is suitable in the detection area, improved temperature and humidity detection's accuracy nature.

In a second aspect, the present application provides a temperature and humidity control system, which adopts the following technical scheme:

a temperature and humidity control system comprises an acquisition and storage module, a temperature and humidity control module and a temperature and humidity control module, wherein the acquisition and storage module comprises a sensor and a storage, the signal output end of the sensor is connected with the signal input end of the storage, and the sensor acquires temperature and humidity data in a region to be detected and stores the acquired data in the storage;

the comparison module comprises a comparison processor, the data input end of the comparison processor is in data connection with the data output end of the memory, the acquired data is compared with reference data stored in the comparison processor, and a comparison result signal is obtained based on an algorithm built in the comparison processor;

and the execution module is configured to be in signal connection with the output end of the comparison processor and controls the temperature and the humidity in the area to be detected based on the comparison result signal.

By adopting the technical scheme, the acquisition and storage module acquires and stores the temperature and humidity data in the area to be detected, which is beneficial to conveniently acquiring and storing the data; and the comparison processor is used for comparing the acquired data with the reference data, so that the temperature and humidity change in the area to be detected can be fed back in time according to the actual condition.

Preferably, the execution module comprises a dust removal unit, a dehumidification unit and a temperature control unit, and signal input ends of the dust removal unit, the dehumidification unit and the temperature control unit are in signal connection with an output end of the comparison processor, receive and respond to the comparison result signal, and adjust and control the temperature and humidity in the region to be detected.

Through adopting above-mentioned technical scheme, treat the dust volume in the detection area, humidity and temperature respectively with the help of dust removal unit, dehumidification unit and temperature control unit and control, reduce the influence that the personnel that the humiture caused in treating the detection area caused.

In a third aspect, the present application provides a temperature and humidity control apparatus, which adopts the following technical scheme:

the utility model provides a temperature and humidity control device is including detecting the lamp, detecting mirror surface, photo resistor and memory, it sets up with detecting mirror surface interval to detect the lamp, photo resistor receives and detects the lamp and shines to the measuring beam that detects the mirror surface and reflect, the collection data input that the light will acquire is to record and storage in the memory.

Through adopting above-mentioned technical scheme, because the detection lamp shines on detecting the mirror surface, when treating the humiture in the detection area too high, produce the drop of water on detecting the mirror surface easily, the measuring beam shines and will produce the refraction on the drop of water, and the chromatogram and the luminance of measuring beam will change, and photo resistor's resistance will change, helps in time acquireing the humiture change of treating in the detection area.

Preferably, still include the installation sleeve pipe, the installation sleeve pipe is hugged closely the setting with the detection mirror surface, photoresistor is located the installation sleeve pipe, detection light passes through to be established and shines to photoresistor on.

By adopting the technical scheme, the mounting sleeve with the photoresistor is arranged to be attached to the detection mirror surface, so that on one hand, the stability of the mounting sleeve is improved; on the other hand, the photoresistor is convenient to receive the detection light beam.

Preferably, the mounting sleeve is a humidity-sensitive mounting sleeve, and the humidity-sensitive mounting sleeve is deformed by the humidity around the detection mirror surface.

Through adopting above-mentioned technical scheme, when indoor humidity was too high, will produce the drop of water on the detection mirror surface, the moisture sensitive installation sleeve pipe absorbs the drop of water and takes place the inflation, and the light that photosensitive resistor received changes, leads to photosensitive resistor's resistance to change, helps photosensitive resistor in time to carry out the feedback to the humiture change.

In a fourth aspect, the temperature and humidity control storage medium provided by the present application adopts the following technical scheme:

preferably, a computer program is stored which can be loaded by a processor and which performs the method.

By adopting the technical scheme, the operation of the whole method is controlled by a computer program, and the stability and the accuracy of the operation of the whole method are improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the temperature and humidity acquisition data in the area to be detected are detected by the first detection and adjustment device, and when the temperature and humidity of the area to be detected are detected to be required to be adjusted, the temperature and humidity in the specific area in the area to be detected are detected again by the second detection and adjustment device;

because treat that the specific area in the detection area is easily influenced by the humiture, if the ceramic tile wall surface receives the influence of humiture and will leave the drop of water on the wall, gather the humiture data in the specific area many times through the second detection device, help detecting according to actual conditions whether the humiture adjusts in the detection area is suitable, improved temperature and humidity detection's accuracy nature.

Shine on detecting the mirror surface by the detection lamp, when treating the humiture in the detection area too high, produce the drop of water on detecting the mirror surface easily, the measuring beam shines and will produce the refraction on the drop of water, and the chromatogram and the luminance of measuring beam will change, and photoresistor's resistance will change, helps in time acquireing the humiture change in treating the detection area.

Drawings

Fig. 1 is a block diagram of a flow chart of a temperature and humidity control method according to an embodiment of the present disclosure;

FIG. 2 is a block diagram of a flow chart showing the substep of S100;

FIG. 3 is a block diagram of a flow chart mainly embodying the substep of S200 in the present embodiment;

FIG. 4 is a block diagram of a flowchart illustrating the substep of S400;

fig. 5 is a schematic diagram of a temperature and humidity control system mainly embodied in the present embodiment.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

In order to improve the accuracy of temperature and humidity regulation of a to-be-detected area, the embodiment of the application discloses a temperature and humidity control method, a temperature and humidity control system, a temperature and humidity control device and a storage medium.

Wait to be provided with first detection device, second detection device and control adjusting device in advance in the region, wherein first detection device and second detection device all with control adjusting device signal connection, control adjusting device and wait to detect the air conditioner controller control connection that sets up in the region for control air conditioner treats the atmospheric control in the detection region.

Referring to fig. 1, a temperature and humidity control method includes step S100, a first detection device obtains and stores first collected data of temperature and humidity of an area to be detected, where the first collected data may be temperature data and humidity data, and stores the temperature data and the humidity data in a storage module provided in the first detection device, so as to store the first collected data.

S200, comparing the first collected data with preset reference data, and calculating to obtain a comparison result data signal, wherein the reference data is preset in the first detection device. And an algorithm program arranged in the first detection device compares the first acquisition data with preset reference data.

And S300, controlling the adjusting device to receive and respond to the comparison result data signal, adjusting the temperature and humidity in the area to be detected, and adjusting the temperature and humidity in the area to be detected to be in a proper range.

If the acquired data exceed the reference data, a signal input end of an adjusting control device arranged in the area to be detected receives a comparison result data signal, and the temperature and humidity in the area to be detected are reduced;

and if the acquired data is smaller than the reference data, receiving the comparison result data signal by a signal input end of an adjusting control device arranged in the area to be detected, and increasing the temperature and humidity in the area to be detected.

And S400, after the temperature and humidity of the area to be detected are adjusted, the second detection device collects the temperature and humidity data in the specific area in the area to be detected again and outputs second collected data.

And S500, controlling the adjusting device to receive and analyze the second acquired data, outputting a control signal, and controlling the temperature and the humidity in the area to be detected again.

Referring to fig. 2, further, the step S100 further includes a plurality of sub-steps:

s101, acquiring first temperature and humidity acquisition data of an area to be detected for multiple times. And collecting and storing the temperature and humidity in the area to be detected twice by using the first detection device.

And S102, recording each first acquisition data, and calculating an average value of the first acquisition data based on a correlation algorithm. The algorithm program may be a computer program algorithm, and the first acquisition number acquired for multiple times is calculated and averaged.

S103, storing the first acquired data after the average value is calculated.

Referring to fig. 3, the S200 step further includes a plurality of sub-steps:

s201, first acquisition data and preset reference data are called.

S202, comparing the reference data with the first collected data based on a correlation algorithm, and outputting difference data. In this embodiment, the algorithm may be implemented by using a comparator built in the first detection device or implemented by using a comparison algorithm program.

And S203, D/A conversion is carried out on the difference data to obtain a comparison result data signal.

Referring to fig. 4, the S400 step further includes a plurality of sub-steps:

s401, arranging the second detection device in a specific area in an area to be detected, wherein the specific area comprises an area which is easily affected by temperature and humidity changes. For example, when the humidity in the area to be detected is high, the smooth surface in the area to be detected: if water drops are easily generated on the tile surface and the glass mirror surface, the second detection device detects the temperature and the humidity in a specific area in real time, and the actual condition and the accuracy of temperature and humidity detection are improved.

S402, acquiring and storing the second acquisition data for multiple times.

The embodiment of the application also discloses a temperature and humidity control system, refer to fig. 5, including gathering storage module, comparison module and execution module, gather storage module signal output part and compare the signal input part signal connection of module, execution module and comparison module signal connection.

The acquisition and storage module comprises a first sensor, a second sensor and a storage, and the number output ends of the first sensor and the second sensor are connected with the signal input end of the storage. Preferably, the first sensor is arranged in the air conditioner and used for collecting temperature and humidity data in a region to be detected around the air conditioner and storing the collected data in the memory. The second sensor sets up and waits to detect in regional specific area, if wait to detect on the smooth surface in region for whether receive the humiture influence on the smooth surface and produce the drop of water.

And the comparison module comprises a comparison processor. The data input end of the comparison processor is in data connection with the data output end of the memory, the acquired data is compared with the reference data stored in the comparison processor, and a comparison result data signal is obtained through calculation based on a comparison algorithm program or a comparator built in the comparison processor.

The execution module comprises a dust removal unit, a dehumidification unit and a temperature control unit. It should be noted that the attachment of water vapor to the dust can accelerate the water vapor gathering rate, reduce the dust amount in the region to be detected, and contribute to improving the temperature and humidity regulation rate in the region to be detected; after the dust amount in the area to be detected is adjusted, adjusting the humidity in the area to be detected, and adjusting the humidity by an air conditioner arranged in the area to be detected; when waiting to detect regional humidity when higher, the rising waits to detect the temperature in the region, when waiting to detect regional humidity lower, reduces and waits to detect the temperature in the region.

The embodiment of the application also discloses a temperature and humidity control device, which comprises a detection lamp, a detection mirror surface, a photoresistor and a memory. The detection lamp bracket is arranged on the detection mirror surface, the detection mirror surface is closely provided with an installation sleeve, and the photosensitive resistor is arranged in the sleeve.

The photoresistor receives the detection light beam reflected by the detection lamp to the detection mirror surface, and the photoresistor inputs the acquired acquisition data into the memory for recording and storing. In practice, the detection lamp shines on detecting the mirror surface, when treating the humiture in the detection area too high, produces the drop of water on detecting the mirror surface easily, and the measuring beam shines and will produce the refraction on the drop of water, and the chromatogram and the luminance of measuring beam will produce the change, and photoresistor's resistance will change.

In order to further improve the pipeline irradiation change of the photoresistor, the installation sleeve is a humidity-sensitive installation sleeve, when the indoor humidity is too high, water drops can be generated on the detection mirror surface, the humidity-sensitive installation sleeve absorbs the water drops to expand, light received by the photoresistor changes, the resistance value of the photoresistor changes, and the photoresistor is favorable for feeding back the temperature and humidity change in time to acquire the temperature and humidity change in the region to be detected.

The embodiment of the application also discloses a temperature and humidity control storage medium which stores a computer program capable of being loaded by the processor and executing the temperature and humidity control method. A random access memory, also called main memory, may be used, which is an internal memory that exchanges data directly with the CPU. It can be read and written at any time, and is quick in speed, and can be extensively used as temporary data storage medium of operation system or other running program.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A temperature and humidity control method is based on a first detection device, a second detection device and a control and regulation device which are arranged in a region to be detected and is characterized by comprising the following steps of,

the first detection device acquires and stores first acquisition data of temperature and humidity of an area to be detected;

comparing the first acquired data with preset reference data, and calculating to obtain a comparison result data signal;

the control and regulation device receives and responds to the comparison result data signal, regulates the temperature and humidity in the area to be detected, and regulates the temperature and humidity in the area to be detected to be in a proper range;

after the temperature and humidity of the area to be detected are adjusted, the second detection device collects temperature and humidity data in a specific area in the area to be detected again and outputs second collected data;

and the control and regulation device receives and analyzes the second acquired data, outputs a control signal and controls the temperature and the humidity in the area to be detected again.

2. The temperature and humidity control method according to claim 1, wherein the acquiring and storing of the first acquisition data of the temperature and humidity of the area to be detected by the first detection device comprises:

acquiring first acquisition data of temperature and humidity of an area to be detected for multiple times;

inputting each first acquisition data, and calculating an average value of the first acquisition data based on a correlation algorithm;

and storing the first acquired data after the average value is calculated.

3. The temperature and humidity control method according to claim 1, wherein the first collected data is compared with preset reference data, and a comparison result data signal is calculated:

calling first collected data and preset reference data;

comparing the reference data with first collected data based on a correlation algorithm, and outputting difference data;

D/A conversion is carried out on the difference data to obtain a comparison result data signal.

4. The temperature and humidity control method according to claim 1, wherein after the temperature and humidity of the area to be detected are adjusted, the second detection device collects temperature and humidity data in a specific area in the area to be detected again, and outputs second collected data, including:

arranging the second detection device in a specific area in an area to be detected, wherein the specific area comprises an area which is easily affected by temperature and humidity changes;

and acquiring and storing the second acquisition data for multiple times.

5. A temperature and humidity control system is characterized by comprising,

the acquisition and storage module comprises a sensor and a memory, wherein the signal output end of the sensor is connected with the signal input end of the memory, and the sensor acquires temperature and humidity data in a region to be detected and stores the acquired data into the memory;

the comparison module comprises a comparison processor, the data input end of the comparison processor is in data connection with the data output end of the memory, the acquired data is compared with reference data stored in the comparison processor, and a comparison result data signal is obtained based on an algorithm built in the comparison processor;

and the execution module is configured to be in signal connection with the output end of the comparison processor and controls the temperature and the humidity in the area to be detected based on the comparison result signal.

6. The temperature and humidity control system according to claim 4, wherein the execution module comprises a dust removal unit, a dehumidification unit and a temperature control unit, signal input ends of the dust removal unit, the dehumidification unit and the temperature control unit are in signal connection with an output end of the comparison processor, receive and respond to the comparison result data signal, and adjust and control the temperature and humidity in the area to be detected.

7. The temperature and humidity control device is characterized by comprising a detection lamp, a detection mirror surface, a photoresistor and a memory, wherein the detection lamp and the detection mirror surface are arranged at intervals, the photoresistor receives detection light beams reflected by the detection mirror surface and irradiated by the detection lamp, and the photoresistor inputs acquired acquisition data into the memory for recording and storing.

8. The temperature and humidity control device according to claim 6, further comprising an installation sleeve, wherein the installation sleeve is tightly attached to the detection mirror, the photoresistor is located in the installation sleeve, and the detection light beam penetrates through the photoresistor and irradiates the photoresistor.

9. The temperature and humidity control device according to claim 7, wherein the mounting sleeve is a moisture sensitive mounting sleeve, and the moisture sensitive mounting sleeve is deformed by humidity around the detection mirror.

10. A temperature and humidity control storage medium storing a computer program that can be loaded by a processor and that executes the method according to any one of claims 1 to 4.

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