Method for intelligent control over operation of air conditioner through human physiological parameters

A technology of human physiology and air conditioning, applied in heating and ventilation control systems, heating methods, space heating and ventilation, etc., can solve the problems of not fundamentally solving air conditioning, not really intelligent control, etc.

Inactive Publication Date: 2016-08-10
福建福伦德电器有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In terms of control methods and means, although there are remote control, wire control, weekly timing, centralized control, network control, cloud control, mobile APP control technology, etc., all these control methods or technologies only improve or expand or enrich the air conditioning system. However, it does not fundamentally solve the core problem of intelligent control of the air conditioner to meet the comfort of the human body: the temperature sensor installed at the return air outlet of the indoor unit of the air conditioner detects only the ambient air temperature in the room, not the temperature that the human body feels comfortable, because the human body The evaluation parameters of comfort include not only environmental parameters (air temperature, air humidity, air speed, etc.), but also body surface temperature, human physiological parameters (heartbeat, blood pressure, exercise, etc.), people's age group (children, Adults, the elderly), body temperature, etc.; moreover, the set temperature of the room must be set manually through various control methods, which is not a real intelligent control
However, this technology is only used to remind users to pay attention to physical health and exercise to maintain good health. It has not yet used the collected physiological data to control the operation of the air conditioner to meet the needs of people in different health states.

Method used

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  • Method for intelligent control over operation of air conditioner through human physiological parameters
  • Method for intelligent control over operation of air conditioner through human physiological parameters

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0042] Step 1: Initialization of wearable device parameter settings.

[0043] When the wearable device is used for the first time, the age, gender, occupation and resting heart rate of the wearer are input through the voice module function. When the voice module receives heart rate information that does not know the normal resting state, the system automatically sets the heart rate default value according to the person's age group, gender and occupation information.

[0044] Step 2: Air conditioner power-on mode.

[0045] When the indoor control system receives the information and data sent back by the wearable device, and the information and data show the person's heart rate and its changes, the state of human motion and its changes, it means that there are people in the air-conditioned room. At this time, the air conditioner is powered on, Enter the power-on mode, and the air conditioner starts.

[0046] Step 3: Determine the operating mode of the air conditioner.

[0047...

example 2

[0059] Step 1: Initialization of wearable device parameter settings.

[0060] When the wearable device is used for the first time, the age, gender, occupation and resting heart rate of the wearer are input through the voice module function.

[0061] When the voice module receives heart rate information that does not know the normal resting state, the system automatically sets the heart rate default value according to the person's age group, gender and occupation information.

[0062] Step 2: Air conditioner power-on mode.

[0063] When the indoor control system receives the information and data sent back by the wearable device, and the information and data show the person's heart rate and its changes, the state of human motion and its changes, it means that there are people in the air-conditioned room. At this time, the air conditioner is powered on, Enter the power-on mode, and the air conditioner starts.

[0064] Step 3: Determine the operating mode of the air conditioner....

example 3

[0078] Step 1: Initialization of wearable device parameter settings.

[0079] When the wearable device is used for the first time, the age, gender, occupation and resting heart rate of the wearer are input through the voice module function.

[0080] When the voice module receives heart rate information that does not know the normal resting state, the system automatically sets the heart rate default value according to the person's age group, gender and occupation information.

[0081] Step 2: Air conditioner power-on mode.

[0082] When the indoor control system receives the information and data sent back by the wearable device, and the information and data show the person's heart rate and its changes, the state of human motion and its changes, it means that there are people in the air-conditioned room. At this time, the air conditioner is powered on, Enter the power-on mode, and the air conditioner starts.

[0083] Step 3: Determine the operating mode of the air conditioner....

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Abstract

The invention discloses a method for intelligent control over operation of an air conditioner through human physiological parameters. The method is characterized in that a control system is composed of wearable equipment, an indoor control system and an outdoor control system; due to arrangement of an acceleration sensor, a temperature sensor, a heart rate sensor, an optical line sensor, a GPS module, an audio module, a weather forecast reception module and others arranged in the wearable equipment and human physiological parameters detected, the most comfortable sendible temperature is calculated. The operation of the air conditioner is controlled by combination of most comfortable sendible temperature, heart rate and exercise amount.

Description

technical field [0001] The invention relates to the field of air conditioner control, in particular to a method for intelligently controlling the operation of an air conditioner through human physiological parameters. Background technique [0002] The purpose of air-conditioning system control is mainly to control the temperature, humidity, wind speed and other parameters of the air-conditioned room to make people feel comfortable. But in terms of the technical means of controlling the air conditioning system, the air conditioning control logic is only to set a certain temperature, or temperature and relative humidity, and the control system controls each controllable component in the air conditioning system, such as the compressor, electronic expansion valve or heat. The expansion valve, fan motor, four-way reversing valve, etc. work in coordination to control the air-conditioned room to reach the set temperature or temperature and humidity. When running in cooling mode, w...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24F11/00
Inventor 程德威张燕蔡元宇
Owner 福建福伦德电器有限公司
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