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Air conditioner control method, air conditioner and storage medium

A control method and technology for an air conditioner, which are applied to the control of an air conditioner, a storage medium, and the field of an air conditioner, can solve the problems of difficulty in detecting a static heat source, poor comfort of the air conditioner, and high cost.

Active Publication Date: 2017-12-19
GD MIDEA AIR-CONDITIONING EQUIP CO LTD +1
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AI Technical Summary

Problems solved by technology

[0002] Existing heat source detection based on single-point pyroelectric infrared sensor can identify moving human body or heating object, but it is difficult to detect stationary heat source
Therefore, when the pyroelectric infrared sensor is applied to the air conditioner, it only controls the opening or closing of the air conditioner in the corresponding area according to the pulse signal generated when the human body moves, and when the human body is still in a certain area, it cannot be used again. The pyroelectric infrared sensor generates a pulse signal to adjust the operating parameters of the air conditioner, resulting in poor comfort of the air conditioner; when using a thermopile composed of multiple single-point pyroelectric infrared sensors to detect a micro-moving heat source, the cost is low. higher

Method used

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  • Air conditioner control method, air conditioner and storage medium
  • Air conditioner control method, air conditioner and storage medium
  • Air conditioner control method, air conditioner and storage medium

Examples

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no. 1 example

[0128] Further, refer to Figure 5 , when the static heat source is located in the first preset area, based on the control method of the air conditioner in the above embodiment, the first embodiment of step S30 specifically includes:

[0129] S31a: When the pyroelectric infrared detection device receives the detection instruction, record the first time t 1 , and the pyroelectric infrared sensor is at an initial position where the deflection angle is 0°;

[0130] S32a: When receiving the first pulse signal fed back by the pyroelectric infrared detection device, record the second time t 2 , and based on the first instant t 1 Calculate the deflection angle θ of the pyroelectric infrared sensor relative to the initial position with the preset rotational speed 1 ;

[0131] S33a: When receiving the second pulse signal fed back by the pyroelectric infrared detection device, record the third moment t 3 , and based on the first instant t 1 , the preset rotation speed, and the pre...

no. 2 example

[0135] Further, refer to Figure 6 , when the static heat source is located in the second preset area, based on the control method of the air conditioner in the above embodiment, the second embodiment of step S30 specifically includes:

[0136] S31b: When the pyroelectric infrared detection device receives the detection instruction, record the fourth moment t 4 , and the pyroelectric infrared sensor is at an initial position where the deflection angle is 0°;

[0137] S32b: When receiving the third pulse signal fed back by the pyroelectric infrared detection device, record the fifth moment t 5 , and based on the fourth moment t 4 Calculate the deflection angle θ of the pyroelectric infrared sensor relative to the initial position with the preset rotational speed 3 ;

[0138] S33b: When receiving the fourth pulse signal fed back by the pyroelectric infrared detection device, record the sixth moment t 6 , and based on the fourth moment t 4 , the preset rotation speed, and t...

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Abstract

The invention discloses an air conditioner control method, an air conditioner and a storage medium. When an initialization completing instruction fed back through a pyroelectricity infrared detection device is received, the pyroelectricity infrared detection device is controlled to detect a static heat source within the preset rotation angle, the relative position information of the static heat source is calculated by obtaining the deflection angle of the pyroelectricity infrared detection device relative to the preset initial position during pulse signal feedback within the period, and when the static heat source is a human body, the set temperature and / or the air outlet parameter of the air conditioner are / is adjusted according to the indoor and outdoor temperature and the relative position relation; and the problem that when the human body stays in one area still, a pyroelectricity infrared sensor cannot be utilized for generating pulse signals for adjustment on the running parameter of the air conditioner is solved, and the comfort of the air conditioner is improved.

Description

technical field [0001] The present invention relates to the technical field of air conditioners, in particular to an air conditioner control method, an air conditioner, and a storage medium. Background technique [0002] The existing heat source detection based on single-point pyroelectric infrared sensor can identify moving human body or heating object, but it is difficult to detect stationary heat source. Therefore, when the pyroelectric infrared sensor is applied to the air conditioner, it only controls the opening or closing of the air conditioner in the corresponding area according to the pulse signal generated when the human body moves, and when the human body is still in a certain area, it cannot be used again. The pyroelectric infrared sensor generates a pulse signal to adjust the operating parameters of the air conditioner, resulting in poor comfort of the air conditioner; when using a thermopile composed of multiple single-point pyroelectric infrared sensors to det...

Claims

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Application Information

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IPC IPC(8): F24F11/00
CPCY02B30/70
Inventor 杨胜良
Owner GD MIDEA AIR-CONDITIONING EQUIP CO LTD
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