CN111043717A - Building automation environment temperature control method and system - Google Patents

Abstract

The invention discloses a building automation environment temperature control method and a system thereof, relating to the technical field of building automation. The invention comprises a CPU processor, ventilation equipment and a data acquisition device; the signal receiving end of the CPU processor is connected with the data acquisition device, and the signal output end of the CPU processor is connected with the ventilation equipment; the data acquisition device comprises a temperature sensor A, a temperature sensor B, an air speed sensor A, an air speed sensor B and a temperature setting controller; the ventilation equipment comprises an intelligent door and window, a ventilation fan and an air conditioner. The intelligent control system realizes intelligent control of building ambient temperature, and simultaneously has the characteristic of energy conservation and is beneficial to improving the indoor ambient air quality of the building through combined adjustment of the air conditioner, the ventilation fan and the intelligent window.

Description

Building automation environment temperature control method and system

Technical Field

The invention belongs to the technical field of building automation, and particularly relates to a building automation environment temperature control method and a building automation environment temperature control system.

Background

The building automatic control refers to electrical equipment in the building, such as an elevator, a water pump, a fan, an air conditioner and the like, and the main working property of the building automatic control is strong electric drive. Usually, these devices are in an open operating state, i.e. do not form a closed loop. As long as the power is switched on, the equipment works, and as for the working state, the process, the energy consumption and the like, the data cannot be obtained on line in time, so that reasonable use and energy conservation are not mentioned.

No matter how the temperature changes all the year round, the temperature control of the existing building is basically realized by adopting the form of an air conditioner, and the control mode is not only unfavorable for saving energy, but also unfavorable for the circulation of indoor air in the building, thus leading to poor air quality in the building.

Disclosure of Invention

The invention aims to provide a building automation environment temperature control method and a system thereof, which aim to solve the problems in the background technology.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a building automation environment temperature control system, which comprises a CPU processor, an intelligent door and window, a ventilation fan, an air conditioner, a temperature sensor A, a temperature sensor B, an air speed sensor A, an air speed sensor B and a temperature setting controller, wherein the intelligent door and window is arranged on the upper part of the building;

the signal receiving end of the CPU processor is in communication connection with the temperature sensor A, the temperature sensor B, the wind speed sensor A and the wind speed sensor B, and the CPU processor is connected with the temperature setting controller through a communication network; and the signal output end of the CPU processor is electrically connected with the intelligent door and window, the ventilation fan and the air conditioner through leads.

Further, the wind speed sensor A is used for detecting the air flow speed passing through the intelligent door and window;

the wind speed sensor B is used for detecting the flow speed of air at the outlet of the ventilation fan;

the temperature sensor A is used for detecting the indoor temperature;

the temperature sensor B is used for detecting the outdoor environment temperature;

the temperature setting controller is used for setting a comfortable temperature desired by a user.

Furthermore, the temperature setting controller comprises a microprocessor and a camera, the signal output end of the camera is connected with a GPU, the GPU is connected with the microprocessor, and the microprocessor is also connected with a database;

the microprocessor is also used for generating a comfortable temperature value according to the comprehensive analysis result of the GPU and the database; the specific mode is as follows:

the method comprises the following steps: firstly, acquiring indoor temperature through a temperature sensor A;

step two: adjusting the temperature to a certain initial value, and judging whether the temperature is in a comfortable range, wherein the specific method comprises the following steps:

s1: adjusting the temperature to a lower initial value T1 by means of an air conditioner;

s2: then, judging whether the crowd is comfortable or not by means of the camera, firstly, acquiring a picture of clothes of all people by means of the camera, marking the picture as an initial picture, and numbering and distinguishing each person;

s3: optionally selecting one person, acquiring the clothes picture again after the preset time X1, and marking the clothes picture as a back picture;

s4: comparing the later picture with the initial picture, and generating a negative signal if the later picture is consistent with the initial picture; otherwise, generating a positive signal;

s5: optionally selecting the next person, and repeating the steps S3-S5 until the comparison of all persons is completed;

s6: when the ratio of the times of generating the negative signal to the total times exceeds a certain value, generating an adjusting signal; otherwise, generating a comfort signal;

step three: when the adjusting signal is generated, the temperature adjustment is increased by T2 ℃; repeating the second step until a comfort signal is generated; and the current temperature is designated as the comfort temperature.

Furthermore, a signal output end of the CPU processor is connected with a display.

A building automation environment temperature control method is characterized by comprising the following steps:

s01, detecting the indoor temperature through the temperature sensor A, generating a comfortable temperature through the temperature setting controller, and when the indoor temperature is in a comfortable temperature range, not performing any operation; when the indoor temperature is not within the comfort temperature range, the process proceeds to S02;

s02, detecting the outdoor environment temperature through a temperature sensor B; judging whether the indoor temperature can be adjusted to be within the comfortable temperature range through ventilation or not, and entering S03; can proceed to S04;

s03, controlling the air conditioner to adjust the indoor temperature to a comfortable temperature range through the CPU;

s04, ventilation is conducted indoors by opening the intelligent door and window and/or the ventilation fan, and therefore the indoor environment temperature is adjusted to be within the range of comfortable temperature.

Further, still include:

when the intelligent door and window and/or the ventilation fan are adopted to ventilate and regulate the temperature indoors, the air inlet speed detected by the air inlet temperature and the air speed sensor A and the air speed sensor B is detected, so that the time required for regulating the indoor environment temperature to the comfortable temperature range is predicted by the temperature control prediction module.

The invention has the following beneficial effects:

the intelligent control system realizes intelligent control on the building environment temperature, and simultaneously has the characteristic of energy saving through combined adjustment of the air conditioner, the ventilation fan and the intelligent window, and is beneficial to improving the indoor environment air quality of the building; according to the invention, different comfortable temperatures which are in accordance with corresponding different adjustments can be generated in real time according to the ratio change of people through the comfortable temperature generating module.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of an automated ambient temperature control system of the present invention;

fig. 2 is a block diagram of a comfort temperature generation system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, the present invention is a building automation environment temperature control system, including a CPU processor, an intelligent door and window, a ventilation fan, an air conditioner, a temperature sensor a, a temperature sensor B, an air speed sensor a, an air speed sensor B, and a temperature setting controller;

the signal receiving end of the CPU processor is in communication connection with the temperature sensor A, the temperature sensor B, the wind speed sensor A and the wind speed sensor B, and the CPU processor is connected with the temperature setting controller through a communication network; and the signal output end of the CPU processor is electrically connected with the intelligent door and window, the ventilation fan and the air conditioner through leads.

The wind speed sensor A is used for detecting the air flow speed passing through the intelligent door and window;

the wind speed sensor B is used for detecting the flow speed of air at the outlet of the ventilation fan;

the temperature sensor A is used for detecting the indoor temperature;

the temperature sensor B is used for detecting the outdoor environment temperature;

the temperature setting controller is used for setting a comfortable temperature desired by a user.

The temperature setting controller comprises a microprocessor and a camera, the signal output end of the camera is connected with a GPU, the GPU is connected with the microprocessor, and the microprocessor is also connected with a database;

the microprocessor is also used for generating a comfortable temperature value according to the comprehensive analysis result of the GPU and the database; the specific mode is as follows:

the method comprises the following steps: firstly, acquiring indoor temperature through a temperature sensor A;

step two: adjusting the temperature to a certain initial value, and judging whether the temperature is in a comfortable range, wherein the specific method comprises the following steps:

s1: adjusting the temperature to a lower initial value T1 by means of an air conditioner;

s2: then, judging whether the crowd is comfortable or not by means of the camera, firstly, acquiring a picture of clothes of all people by means of the camera, marking the picture as an initial picture, and numbering and distinguishing each person;

s3: optionally selecting one person, acquiring the clothes picture again after the preset time X1, and marking the clothes picture as a back picture;

s4: comparing the later picture with the initial picture, and generating a negative signal if the later picture is consistent with the initial picture; otherwise, generating a positive signal;

s5: optionally selecting the next person, and repeating the steps S3-S5 until the comparison of all persons is completed;

s6: when the ratio of the times of generating the negative signal to the total times exceeds a certain value, generating an adjusting signal; otherwise, generating a comfort signal;

step three: when the adjusting signal is generated, the temperature adjustment is increased by T2 ℃; repeating the second step until a comfort signal is generated; and the current temperature is designated as the comfort temperature.

And the signal output end of the CPU processor is connected with a display.

A building automation environment temperature control method is characterized by comprising the following steps:

s01, detecting the indoor temperature through the temperature sensor A, generating a comfortable temperature through the temperature setting controller, and when the indoor temperature is in a comfortable temperature range, not performing any operation; when the indoor temperature is not within the comfort temperature range, the process proceeds to S02;

s02, detecting the outdoor environment temperature through a temperature sensor B; judging whether the indoor temperature can be adjusted to be within the comfortable temperature range through ventilation or not, and entering S03; can proceed to S04;

s03, controlling the air conditioner to adjust the indoor temperature to a comfortable temperature range through the CPU;

s04, ventilation is conducted indoors by opening the intelligent door and window and/or the ventilation fan, and therefore the indoor environment temperature is adjusted to be within the range of comfortable temperature.

Further comprising:

when the intelligent door and window and/or the ventilation fan are adopted to ventilate and regulate the temperature indoors, the air inlet speed detected by the air inlet temperature and the air speed sensor A and the air speed sensor B is detected, so that the time required for regulating the indoor environment temperature to the comfortable temperature range is predicted by the temperature control prediction module.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a building automation ambient temperature control system which characterized in that: the intelligent air conditioner comprises a CPU processor, an intelligent door and window, a ventilation fan, an air conditioner, a temperature sensor A, a temperature sensor B, an air speed sensor A, an air speed sensor B and a temperature setting controller;

the signal receiving end of the CPU processor is in communication connection with the temperature sensor A, the temperature sensor B, the wind speed sensor A and the wind speed sensor B, and the CPU processor is connected with the temperature setting controller through a communication network; and the signal output end of the CPU processor is electrically connected with the intelligent door and window, the ventilation fan and the air conditioner through leads.

2. A building automation environment temperature control system as claimed in claim 1 where the wind speed sensor a is used to detect the air flow speed through the smart door window;

the wind speed sensor B is used for detecting the flow speed of air at the outlet of the ventilation fan;

the temperature sensor A is used for detecting the indoor temperature;

the temperature sensor B is used for detecting the outdoor environment temperature;

the temperature setting controller is used for setting a comfortable temperature desired by a user.

3. The building automation environment temperature control system of claim 1, wherein the temperature setting controller comprises a microprocessor and a camera, a signal output end of the camera is connected with a GPU, the GPU is connected with the microprocessor, and the microprocessor is further connected with a database;

the microprocessor is also used for generating a comfortable temperature value according to the comprehensive analysis result of the GPU and the database; the specific mode is as follows:

the method comprises the following steps: firstly, acquiring indoor temperature through a temperature sensor A;

step two: adjusting the temperature to a certain initial value, and judging whether the temperature is in a comfortable range, wherein the specific method comprises the following steps:

s1: adjusting the temperature to a lower initial value T1 by means of an air conditioner;

s2: then, judging whether the crowd is comfortable or not by means of the camera, firstly, acquiring a picture of clothes of all people by means of the camera, marking the picture as an initial picture, and numbering and distinguishing each person;

s3: optionally selecting one person, acquiring the clothes picture again after the preset time X1, and marking the clothes picture as a back picture;

s4: comparing the later picture with the initial picture, and generating a negative signal if the later picture is consistent with the initial picture; otherwise, generating a positive signal;

s5: optionally selecting the next person, and repeating the steps S3-S5 until the comparison of all persons is completed;

s6: when the ratio of the times of generating the negative signal to the total times exceeds a certain value, generating an adjusting signal; otherwise, generating a comfort signal;

step three: when the adjusting signal is generated, the temperature adjustment is increased by T2 ℃; repeating the second step until a comfort signal is generated; and the current temperature is designated as the comfort temperature.

4. A building automation environment temperature control system as claimed in claim 1 where the signal output of the CPU processor is connected to a display.

5. A building automation environment temperature control method is characterized by comprising the following steps:

s01, detecting the indoor temperature through the temperature sensor A, generating a comfortable temperature through the temperature setting controller, and when the indoor temperature is in a comfortable temperature range, not performing any operation; when the indoor temperature is not within the comfort temperature range, the process proceeds to S02;

s02, detecting the outdoor environment temperature through a temperature sensor B; judging whether the indoor temperature can be adjusted to be within the comfortable temperature range through ventilation or not, and entering S03; can proceed to S04;

s03, controlling the air conditioner to adjust the indoor temperature to a comfortable temperature range through the CPU;

s04, ventilation is conducted indoors by opening the intelligent door and window and/or the ventilation fan, and therefore the indoor environment temperature is adjusted to be within the range of comfortable temperature.

6. The building automation environmental temperature control method of claim 5, further comprising:

when the intelligent door and window and/or the ventilation fan are adopted to ventilate and regulate the temperature indoors, the air inlet speed detected by the air inlet temperature and the air speed sensor A and the air speed sensor B is detected, so that the time required for regulating the indoor environment temperature to the comfortable temperature range is predicted by the temperature control prediction module.

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