Disclosure of Invention
In view of the above, an object of the present invention is to provide a method for controlling a liquid crystal display of an intelligent household appliance, so as to solve the problem in the prior art that a user needs to manually operate a remote controller to regulate and control the liquid crystal display of the intelligent household appliance, and the user experience is poor. The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.
In some optional embodiments, the method comprises: the method comprises the steps of detecting the activity state of a user near the intelligent household appliance in real time, and lightening a liquid crystal display screen after detecting that the user acts to approach and/or watch the liquid crystal display screen of the intelligent household appliance.
Wherein, detect that the user has taken place to be close to and/or watch this intelligent household electrical appliances's liquid crystal display's action after, light up liquid crystal display's process includes: after detecting that the user moves close to and/or watches the liquid crystal display screen of the intelligent household appliance, lightening the liquid crystal display screen to standard brightness, and closing the display after the preset first light duration.
The process of detecting the activity state of the user near the intelligent household appliance in real time comprises the following steps: detecting the position coordinates of a user near the intelligent household appliance relative to the intelligent household appliance in real time; detecting the temperature in a user peripheral set area near the intelligent household appliance in real time; and determining the activity state of the user near the intelligent household appliance according to the detected change of the position coordinate and/or the detected change of the temperature.
Further, the process of determining the activity state of the user near the intelligent household appliance according to the detected change of the position coordinate comprises the following steps: and determining that the distance between the current user and the intelligent household appliance is smaller than the distance between the previous user and the intelligent household appliance, and determining that the user has an action of approaching the liquid crystal display screen.
Further, the process of determining the activity state of the user near the intelligent household appliance according to the detected temperature change comprises the following steps: and detecting that the temperature in a set area around the user is in a rising trend, wherein the rising amplitude is larger than a set first amplitude value and smaller than a set second amplitude value, and determining that the user has the action of watching the liquid crystal display screen.
Further, the process of determining the activity state of the user near the intelligent household appliance according to the detected change of the position coordinates and the detected change of the temperature comprises the following steps: the method comprises the steps of detecting that the distance between a current user and the intelligent household electrical appliance is smaller than the distance between the previous user and the intelligent household electrical appliance, detecting that the temperature in a set area around the user is increased in the process, determining that the user is close to and gazes at the liquid crystal display screen when the increased temperature is larger than or equal to a second amplitude value.
In some optional embodiments, after detecting the activity state of the user near the smart home device in real time, the method further includes: and after detecting that the user moves but does not approach and watch the liquid crystal display screen, lightening the liquid crystal display screen to the brightness of one fourth of the standard brightness, and closing the display after the preset second light-on duration.
Further, the first lighting period and the second lighting period are both 25s to 50 s.
Another object of the present invention is to provide an air conditioner.
In some optional embodiments, the air conditioner includes: the control chip is arranged in the air conditioner, and the pyroelectric infrared sensor and the liquid crystal display screen are connected with the control chip; the pyroelectric infrared sensor is used for detecting a position signal and a temperature signal of a user in real time and sending the position signal and the temperature signal to the control chip; the control chip is used for receiving position signals and temperature signals of a user, analyzing and calculating the position signals and the temperature signals in real time, and controlling and lightening the liquid crystal display screen after determining that the user moves close to and/or watches the liquid crystal display screen.
It is still another object of the present invention to provide an intelligent home appliance.
In some optional embodiments, the smart home device includes: the control chip is arranged in the intelligent household appliance, and the pyroelectric infrared sensor and the liquid crystal display screen are connected with the control chip; the pyroelectric infrared sensor is used for detecting a position signal and a temperature signal of a user in real time and sending the position signal and the temperature signal to the control chip; the control chip is used for receiving position signals and temperature signals of a user, analyzing and calculating the position signals and the temperature signals in real time, and controlling and lightening the liquid crystal display screen after determining that the user moves close to and/or watches the liquid crystal display screen.
Compared with the prior art, the invention has the beneficial effects that:
the invention provides an air conditioner, an intelligent household appliance and a control method of an intelligent household liquid crystal display screen.
For the purposes of the foregoing and related ends, the one or more embodiments include the features hereinafter fully described and particularly pointed out in the claims. The following description and the annexed drawings set forth in detail certain illustrative aspects and are indicative of but a few of the various ways in which the principles of the various embodiments may be employed. Other benefits and novel features will become apparent from the following detailed description when considered in conjunction with the drawings and the disclosed embodiments are intended to include all such aspects and their equivalents.
Detailed Description
The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The scope of embodiments of the invention encompasses the full ambit of the claims, as well as all available equivalents of the claims. Embodiments of the invention may be referred to herein, individually or collectively, by the term "invention" merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed.
Before describing in detail embodiments of the present invention, an explanation will be made of some of the specific details involved, and generally, the following three cases will be: the user only approaches to but does not watch the liquid crystal display screen of the intelligent household appliance; the user only watches and not be close to intelligent household electrical appliances's liquid crystal display and the user is close to and watches intelligent household electrical appliances's liquid crystal display, and the temperature that the user that detects set for all around in the region all can present rising trend, but the user is only close to and not watch the liquid crystal display when the amplitude that the temperature rose is less than the user and only watches and not be close to the amplitude that the temperature rose when the liquid crystal display, and the user only watches and not be close to the amplitude that the temperature rose is less than the user and is close to and watches when the liquid crystal display the amplitude that the temperature rose when the user is less than the temperature. Herein, the maximum amplitude of the temperature variation in the set area around the user when the user approaches and does not watch on the liquid crystal display of the smart home device is defined as a first amplitude (e.g., 0.5 ℃), and the minimum amplitude of the temperature variation in the set area around the user when the user approaches and watches on the liquid crystal display is defined as a second amplitude (e.g., 1.2 ℃).
Referring now to the drawings, fig. 1 is a flow chart illustrating a method for controlling a liquid crystal display of an intelligent home device in some alternative embodiments; fig. 2 is a flow chart illustrating a method for controlling a liquid crystal display of an intelligent home device in some alternative embodiments; fig. 3 is a flow chart illustrating a method for controlling a liquid crystal display of an intelligent home device in some alternative embodiments; fig. 4 is a flow chart illustrating a method for controlling a liquid crystal display of an intelligent home device in some alternative embodiments; FIG. 5 is a block diagram of an air conditioner in some alternative embodiments; fig. 6 is a block diagram of an intelligent home device in some alternative embodiments.
As shown in fig. 1, in some optional embodiments, a method for controlling a liquid crystal display of an intelligent home appliance is disclosed, the method comprising:
s11, detecting the activity state of the user near the intelligent household appliance in real time;
the process of detecting the activity state of the user near the intelligent household appliance in real time specifically comprises the following steps: detecting the position coordinates of a user near the intelligent household appliance relative to the intelligent household appliance in real time through a pyroelectric infrared sensor or other human body identification sensors; determining the activity state of the user near the intelligent household appliance according to the detected change of the position coordinates, wherein the process specifically comprises the following steps: and determining that the distance between the current user and the intelligent household appliance is smaller than the distance between the previous user and the intelligent household appliance, and determining that the user has an action of approaching the liquid crystal display screen.
And S12, lighting the liquid crystal display screen after detecting that the user acts close to the liquid crystal display screen of the intelligent household appliance.
Wherein, detect the user and taken place the action back that is close to this intelligent household electrical appliances's liquid crystal display, light liquid crystal display's process specifically includes: after detecting that the user moves close to the liquid crystal display screen of the intelligent household appliance, the liquid crystal display screen is turned on to standard brightness, and the display is turned off after a preset first lighting time duration, wherein the first time duration can be set at will between 25s and 50s, for example, 30s, and the user can also set at will to other time duration values according to the own needs.
According to the method, the intelligent household appliance can detect the activity state of the user in real time by the detection device, the liquid crystal display screen of the intelligent household appliance is controlled according to the detected signal of the activity state of the user, the liquid crystal display screen of the intelligent household appliance is automatically lightened, the user can regulate and control the liquid crystal display screen without using a remote controller to operate the liquid crystal display screen, the use is more convenient, the use is more humanized, and the user experience effect is better.
As shown in fig. 2, in some optional embodiments, a method for controlling a liquid crystal display of an intelligent home appliance is disclosed, the method comprising:
s21, detecting the activity state of the user near the intelligent household appliance in real time;
the process of detecting the activity state of the user near the intelligent household appliance in real time specifically comprises the following steps: detecting the temperature in a user peripheral set area near the intelligent household appliance in real time through a pyroelectric infrared sensor or other human body identification sensors; determining the activity state of a user near the intelligent household appliance according to the detected temperature change, wherein the process specifically comprises the following steps: and detecting that the temperature in a set area around the user is in a rising trend, wherein the rising amplitude is larger than a set first amplitude value and smaller than a set second amplitude value, and determining that the user has the action of watching the liquid crystal display screen.
And S22, lighting the liquid crystal display screen after detecting that the user watches the liquid crystal display screen of the intelligent household appliance.
Wherein, detect the user and took place the action back of watching this intelligent household electrical appliances's liquid crystal display, light liquid crystal display's process specifically includes: after the action of watching the liquid crystal display screen of the intelligent household appliance is detected, the liquid crystal display screen is lightened to the standard brightness, and the display is closed after the preset first lighting time duration, wherein the first time duration can be set at will between 25s and 50s, for example, 30s, and the user can also set at will to other time duration values according to the own needs.
According to the method, the intelligent household appliance can detect the activity state of the user in real time by the detection device, the liquid crystal display screen of the intelligent household appliance is controlled according to the detected signal of the activity state of the user, the liquid crystal display screen of the intelligent household appliance is automatically lightened, the user can regulate and control the liquid crystal display screen without using a remote controller to operate the liquid crystal display screen, the use is more convenient, the use is more humanized, and the user experience effect is better.
As shown in fig. 3, in some optional embodiments, a method for controlling a liquid crystal display of an intelligent home appliance is disclosed, the method comprising:
s31, detecting the activity state of the user near the intelligent household appliance in real time;
the process of detecting the activity state of the user near the intelligent household appliance in real time specifically comprises the following steps: detecting the position coordinates of a user near the intelligent household appliance relative to the intelligent household appliance in real time through a pyroelectric infrared sensor or other human body identification sensors; detecting the temperature in a user peripheral set area near the intelligent household appliance in real time; determining the activity state of a user near the intelligent household appliance according to the detected change of the position coordinates and the detected change of the temperature, wherein the process specifically comprises the following steps: the method comprises the steps of detecting that the distance between a current user and the intelligent household electrical appliance is smaller than the distance between the previous user and the intelligent household electrical appliance, detecting that the temperature in a set area around the user is increased in the process, determining that the user is close to and gazes at the liquid crystal display screen when the increased temperature is larger than or equal to a second amplitude value.
And S32, lighting the liquid crystal display screen after detecting that the user acts to approach and watch the liquid crystal display screen of the intelligent household appliance.
Wherein, detect the user and taken place to be close to and watch this intelligent household electrical appliances's liquid crystal display's action after, light liquid crystal display's process specifically includes: after detecting that a user moves close to and watches the liquid crystal display screen of the intelligent household appliance, the liquid crystal display screen is lightened to standard brightness, and the display is closed after a preset first lighting time length, wherein the first time length can be randomly set between 25s and 50s, for example, 30s, and the user can also be randomly set to other time length values according to the own needs.
According to the method, the intelligent household appliance can detect the activity state of the user in real time by the detection device, the liquid crystal display screen of the intelligent household appliance is controlled according to the detected signal of the activity state of the user, the liquid crystal display screen of the intelligent household appliance is automatically lightened, the user can regulate and control the liquid crystal display screen without using a remote controller to operate the liquid crystal display screen, the use is more convenient, the use is more humanized, and the user experience effect is better.
As shown in fig. 4, in some optional embodiments, a method for controlling a liquid crystal display of an intelligent home device is disclosed, the method comprising:
s41, detecting the activity state of the user near the intelligent household appliance in real time;
the process of detecting the activity state of the user near the intelligent household appliance in real time specifically comprises the following steps: detecting the position coordinates of a user near the intelligent household appliance relative to the intelligent household appliance in real time through a pyroelectric infrared sensor or other human body identification sensors; detecting the temperature in a user peripheral set area near the intelligent household appliance in real time; and determining the activity state of the user near the intelligent household appliance according to the detected change of the position coordinate and the detected change of the temperature.
Here, the process of determining the activity state of the user near the smart home device according to the detected change of the position coordinates and the detected change of the temperature specifically includes: detecting that the distance between the current user and the intelligent household appliance is larger than the distance between the previous user and the intelligent household appliance, and in the process, detecting that the temperature in a set area around the user is in a descending trend, and determining that the user moves but does not move close to or watch on the liquid crystal display screen; or detecting that the distance between the user and the intelligent household appliance is unchanged but the position coordinates of the user are changed, detecting that the temperature in the set area around the user is not changed in the process, and determining that the user moves but does not approach and watch the liquid crystal display screen.
And S42, after detecting that the user moves but does not approach and watch the liquid crystal display screen, lighting the liquid crystal display screen to the brightness of one fourth of the standard brightness, and closing the display after the preset second light-on duration.
The second duration can be set at will between 25s and 50s, for example, 30s, and the user can also set at will to other duration values according to the needs of the user.
According to the method, the intelligent household appliance can detect the activity state of the user in real time by the detection device, the liquid crystal display screen of the intelligent household appliance is controlled according to the detected signal of the activity state of the user, the liquid crystal display screen of the intelligent household appliance is automatically lightened, the user can regulate and control the liquid crystal display screen without using a remote controller to operate the liquid crystal display screen, the use is more convenient, the use is more humanized, and the user experience effect is better.
As shown in fig. 5, in some alternative embodiments, an air conditioner 500 is disclosed, the air conditioner 500 including: acontrol chip 501 arranged in the air conditioner 500, and a pyroelectric infrared sensor 502 and a liquid crystal display screen 503 connected with thecontrol chip 501; the pyroelectric infrared sensor 502 is configured to detect a position signal and a temperature signal of a user in real time, and send the position signal and the temperature signal to thecontrol chip 501; thecontrol chip 501 is configured to receive a position signal and a temperature signal of a user, analyze and calculate the position signal and the temperature signal in real time, and control to light the liquid crystal display screen 503 after determining that the user performs an action of approaching and/or watching the liquid crystal display screen 503.
In a specific working process of the air conditioner 500, the position coordinates of a user nearby the air conditioner can be detected in real time relative to the air conditioner through the pyroelectric infrared sensor 502 arranged on the air conditioner; detecting the temperature in a set area around a user nearby the user in real time; then, the detected signal containing the position coordinate and the temperature is sent to the control chip 501, after the control chip 501 receives the signal containing the position coordinate and the temperature, the real-time calculation is performed according to the change of the position coordinate and the change of the temperature, whether the user performs an action of approaching and/or watching the liquid crystal display screen 503 is determined, and when the calculated distance between the current user and the air conditioner 500 is smaller than the distance between the previous user and the air conditioner 500, the action of approaching the liquid crystal display screen 503 is determined to be performed by the user; detecting that the temperature in a set area around the user is in a rising trend, wherein the rising amplitude is larger than a set first amplitude value and smaller than a set second amplitude value, and determining that the user has a motion of watching the liquid crystal display screen 503; detecting that the distance between the current user and the air conditioner 500 is smaller than the distance between the previous user and the air conditioner 500, and in the process, detecting that the temperature in a set area around the user is in a rising trend, and the rising amplitude is larger than or equal to a second amplitude value, and determining that the user has an action of approaching and watching the liquid crystal display screen 503; after the control chip 501 analyzes and calculates, after determining that the user has performed an action of approaching and/or watching the liquid crystal display 503, the control chip controls to light the liquid crystal display 503, and in a specific implementation process, the control chip may light the liquid crystal display 503 to a standard brightness, and turn off the display after a preset first lighting duration, where the first duration may be set at will between 25s and 50s, for example, 30s, and the user may also set at will to other duration values according to the needs of the user. In addition, thecontrol chip 501 may also detect that the distance between the current user and the air conditioner 500 is greater than the distance between the previous user and the air conditioner 500, and in the process, detect that the temperature in the set area around the user is in a descending trend, and determine that the user moves but does not perform the action of approaching and watching the liquid crystal display screen 503; or, it is detected that the distance between the user and the air conditioner 500 is not changed but the position coordinates of the user are changed, it is determined that the user moves but does not move to and watch on the liquid crystal display 503 in the process that the temperature in the setting area around the user is not changed, after it is detected that the user moves but does not move to and watch on the liquid crystal display 503, thecontrol chip 501 controls the liquid crystal display 503 to be lighted up to a quarter of the standard brightness, and the display is turned off after a preset second lighting duration, wherein the second duration can be randomly set between 25s and 50s, for example, 30s, and the user can also be randomly set to other duration values according to the needs of the user.
This air conditioner is from taking detection device, can detect user's active state in real time through the detection device of self to control the liquid crystal display of self according to the signal of the user's active state that detects, light the liquid crystal display of self automatically, the user need not reuse the remote controller to its operation, can realize the regulation and control to liquid crystal display, and it is more convenient to use, and is more humanized, and user experience effect is better.
As shown in fig. 6, in some optional embodiments, an intelligent home device 600 is disclosed, where the intelligent home device 600 includes: a control chip 601 arranged in the intelligent household electrical appliance 600, and a pyroelectric infrared sensor 602 and a liquid crystal display screen 603 connected with the control chip 601; the pyroelectric infrared sensor 602 is configured to detect a position signal and a temperature signal of a user in real time, and send the position signal and the temperature signal to the control chip 601; the control chip 601 is configured to receive a position signal and a temperature signal of a user, analyze and calculate the position signal and the temperature signal in real time, and control to turn on the liquid crystal display screen 603 after determining that the user performs an action of approaching and/or watching the liquid crystal display screen 603.
In a specific working process, the intelligent household electrical appliance 600 can detect the position coordinates of a user nearby the intelligent household electrical appliance in real time relative to the intelligent household electrical appliance through the pyroelectric infrared sensor 602 arranged on the intelligent household electrical appliance; detecting the temperature in a set area around a user nearby the user in real time; then, sending the detected signal containing the position coordinate and the temperature to the control chip 601, after receiving the signal containing the position coordinate and the temperature, the control chip 601 calculating in real time according to the change of the position coordinate and the change of the temperature and determining whether the user performs an action of approaching and/or watching the liquid crystal display screen 603, and when the distance between the current user and the intelligent household appliance 600 is smaller than the distance between the previous user and the intelligent household appliance 600, determining that the user performs an action of approaching the liquid crystal display screen 603; detecting that the temperature in a set area around the user is in a rising trend, wherein the rising amplitude is larger than a set first amplitude value and smaller than a set second amplitude value, and determining that the user performs an action of watching the liquid crystal display screen 603; detecting that the distance between the current user and the intelligent household appliance 600 is smaller than the distance between the previous user and the intelligent household appliance 600, and in the process, detecting that the temperature in a set area around the user is in a rising trend, wherein the rising amplitude is larger than or equal to a second amplitude value, and determining that the user has an action of approaching and watching the liquid crystal display screen 603; after the control chip 601 analyzes and calculates, after determining that the user has an action of approaching and/or watching the liquid crystal display 603, the control chip controls to light the liquid crystal display 603, and in the specific implementation process, the control chip can light the liquid crystal display 603 to the standard brightness, and turn off the display after a preset first lighting duration, wherein the first duration can be set at will between 25s and 50s, for example, 30s, and the user can also set at will to other duration values according to the needs of the user. In addition, the control chip 601 may also detect that the distance between the current user and the intelligent household electrical appliance 600 is greater than the distance between the previous user and the intelligent household electrical appliance 600, and in the process, detect that the temperature in the setting area around the user is in a descending trend, and determine that the user moves but does not move close to and watch on the liquid crystal display screen 603; or, it is detected that the distance between the user and the intelligent household electrical appliance 600 is not changed but the position coordinates of the user are changed, it is also detected that the temperature in the setting area around the user is not changed in the process, it is determined that the user moves but does not move and watch on the liquid crystal display 603, after it is detected that the user moves but does not move and watch on the liquid crystal display 603, the control chip 601 controls the liquid crystal display 603 to be lighted to the quarter brightness of the standard brightness, and the display is turned off after the preset second lighting duration, wherein the second duration can be randomly set between 25s and 50s, for example, 30s, and the user can also be randomly set to other duration values according to the needs of the user.
This intelligence household electrical appliances self takes detection device, can detect user's active state in real time through the detection device of self to control self liquid crystal display according to the signal of the user's active state that detects, light self liquid crystal display automatically, the user need not reuse the remote controller to its operation, can realize the regulation and control to liquid crystal display, and it is more convenient to use, and is more humanized, and user experience effect is better.
In short, the above description is only an embodiment of the present invention, and is only for illustrating the principle of the present invention, and not for limiting the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.