CN108036476B - Air conditioner - Google Patents

Abstract

The invention discloses an air conditioner, which has two working modes: ordinary humidification temperature control mode and nasal obstruction humidification temperature control mode utilize the breathing detector to judge whether the user is that the nasal cavity breathes or the oral cavity breathes, adopt different humidification temperature control modes according to the breathing mode of difference, wherein the target humidity of nasal obstruction humidification temperature control mode is greater than the target humidity of ordinary humidification mode, can effectually alleviate the dry symptom of mouth that the user used the oral cavity to breathe and cause because the nasal obstruction, make user's experience feel better, build more comfortable living and operational environment.

Description

Air conditioner

Technical Field

The invention relates to the technical field of air conditioners, in particular to an air conditioner.

Background

Along with the improvement of living standard, the air conditioner becomes one of indispensable electrical apparatus of modern life, can provide comfortable indoor environment for people, and people also more and more pay close attention to the quality of indoor environment simultaneously, and the travelling comfort of indoor environment can be destroyed to the humidity of indoor environment too big or undersize.

In winter, the air conditioner inevitably generates an air drying phenomenon during heating, the dry environment weakens the dust filtering and bacterium removing capability of a respiratory system of a human body, people feel dry mouth and tongue, even nose blood flows, and the immunity of the human body is reduced. The disease is more likely to be got in the room using the heating and air conditioning. In terms of comfort, since the amount of water evaporated from the body increases when air is dried, the sensible temperature is low even when warming. In addition, the generation of static electricity in the dry air is inevitable, and severe static electricity can cause dysphoria, dizziness, chest distress, and discomfort in the throat and nose. Therefore, it is very necessary to adjust the temperature and humidity of air to construct a comfortable indoor environment.

Some air conditioners (for example, CN106839175A) are available at the present stage, and a humidification system is arranged on the air conditioner to adjust the indoor temperature and humidity according to the indoor temperature and humidity, so that the humidification and temperature adjustment are combined to realize the dual control of the indoor temperature and humidity.

However, in real life, especially in winter where heating and humidification are needed, when a user suffers from cold or rhinitis, the nasal cavity is blocked and the nasal cavity is not smooth to breathe, so that the user can unconsciously breathe with the mouth while sleeping at night, and the mouth is dry and the tongue is dry even vomit due to long-time mouth breathing, so that the requirements of the user on the humidity and the temperature of air are different from the requirements of ordinary users. The existing air conditioner combining humidification and air conditioning only adjusts the temperature and humidity collected by an indoor temperature sensor and an indoor humidity sensor when controlling the humidity and the temperature of air, does not consider the use feeling of users of the type, and reduces the comfort of the air conditioner.

Disclosure of Invention

The invention mainly aims to provide an air conditioner, aiming at solving the problem that the air conditioner cannot regulate the temperature and the humidity according to nasal obstruction caused by individual diseases (such as cold and rhinitis) of a user in winter.

In order to achieve the above object, the present invention provides an air conditioner control method, comprising:

the switch is used for controlling the air conditioner to enter a heating mode;

the breath detector is arranged on the air conditioner body or is arranged separately from the air conditioner body and is used for detecting the breath mode of a user;

humidity sensor for acquiring ambient humidity

The controller is electrically connected with the respiration detector, the timer, the humidifying module and the humidity sensor;

a timer for calculating the time of the user using the mouth breath;

the controller also comprises a calculating unit, a judging unit and a control unit;

the breathing detector is an infrared sensor, the calculating unit and the judging unit are connected with the infrared sensor, and the controller is used for rotationally scanning the room temperature, obtaining temperature information in a scanning range, determining a heat source according to the temperature information and obtaining an infrared temperature array of the face of the human body; the judging module is used for judging whether the temperature of the nasal cavity is lower than the ambient temperature of the nasal cavity by a preset temperature difference value or not, if so, the nasal cavity is judged to be breathed, and the air conditioner controls the air conditioner to enter a common humidifying temperature control mode; if not, judging that the oral cavity breathes;

the controller is also used for starting a timer to time when the judging module judges that the user is breathing in the oral cavity, and entering a nasal obstruction humidification temperature control mode when the breathing time in the oral cavity is more than or equal to the preset time;

the common humidifying temperature control mode is as follows: acquiring the ambient humidity f and the first target humidity f by using the humidity sensor₁If f is<f₁If so, the control unit controls the air conditioner to start the humidifying function; if f ≧ f₁If so, the control unit controls the air conditioner to close the humidifying function;

the nasal obstruction humidification temperature control mode is as follows: acquiring the ambient humidity f and the second target humidity f by using the humidity sensor₂If f is<f₂If so, the control unit controls the air conditioner to start the humidifying module; if f ≧ f₂If the humidification module is in the humidification state, the control unit controls the air conditioner to close the humidification module;

wherein f is₂＝af₁(1.1≤a≤1.3)。

Preferably, the controller is further configured to not activate the humidification module to humidify the indoor air when it is detected that the air conditioner is in the cooling mode.

Preferably, the system also comprises a temperature sensor for acquiring the indoor environment temperature T₁The calculation unit may further obtain the first target humidity f by using a mapping relationship between the ambient temperature and the target humidity₁Further obtaining the second target humidity f₂The mapping relation is f₁＝b*T₁+ c, b, c are constant coefficients.

Preferably, the controller is configured to control the breath detector to continue monitoring the breath of the user when the breath time of the mouth is less than a preset time.

Preferably, the controller adjusts the fog output of the humidifying module according to the human body temperature acquired by the infrared human body sensor.

Has the advantages that: the air conditioner of the invention has two working modes: ordinary humidification temperature control mode and nasal obstruction humidification temperature control mode utilize the breathing detector to judge whether the user is that the nasal cavity breathes or the oral cavity breathes, adopt different humidification temperature control modes according to the breathing mode of difference, wherein the target humidity of nasal obstruction humidification temperature control mode is greater than the target humidity of ordinary humidification mode, can effectually alleviate the dry symptom of mouth that the user used the oral cavity to breathe and cause because the nasal obstruction, make user's experience feel better, build more comfortable living and operational environment.

Drawings

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

FIG. 1 is a basic flow diagram of the present invention;

FIG. 2 is an extensible flow diagram of the present invention;

FIG. 3 is a block schematic diagram of the air conditioner of the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Fig. 1 is a basic flow chart of the present invention, and the control method of the present invention applies a humidifier including two humidification modes: a common humidification temperature control mode and a nasal obstruction humidification temperature control mode, wherein the common humidification temperature control mode is a humidification mode which is adopted for relieving indoor dryness under the conditions of normal room temperature and humidity when a respiration detector detects that a user uses a nasal cavity to breathe; the nasal obstruction humidification temperature control mode is a humidification mode which is adopted for relieving the situation that the mouth of a user is dry and the tongue is dry due to the breathing of the mouth of the user under the conditions of normal room temperature and humidity when the breathing detector detects that the user breathes in the mouth for a preset time period;

as shown in fig. 2, an embodiment of a control method of an air conditioner according to the present invention is shown. The air conditioner control method of the embodiment includes the steps of:

step S1: detecting that the air conditioner enters a heating mode;

step S2: starting a respiration detector on the air conditioner, detecting the respiration mode of the user, switching to S3 if the user is detected to be oral cavity respiration, and entering a common humidification temperature control mode if the user is detected to be nasal cavity respiration;

wherein the breath detector is an infrared sensor, the detecting a breathing pattern of the user comprising the steps of:

s21: controlling an infrared sensor in an air conditioner to perform rotary scanning to obtain temperature information in a scanning range, determining a heat source according to the temperature information, and obtaining an infrared temperature array of the face of the human body;

s22: if the temperature of the nasal cavity is lower than the temperature around the nasal cavity, judging that the nasal cavity breathes; otherwise, judging the oral cavity breathing;

in the process of detecting the breathing mode of the user, after the infrared temperature array of the face of the human body is obtained by the infrared sensor, airflow around the nasal cavity is disturbed by air exhaled from the nasal cavity when the nasal cavity is used for breathing, so that the temperature array of the air temperature around the nasal cavity is obviously lower than temperature arrays of other parts of the face (the temperature difference value is 0.3-0.5 ℃ after multiple times of actual measurement), and therefore, when the temperature array at the position of the nasal cavity is judged to be lower than the temperature arrays of other parts of the face by a preset temperature difference value, the fact that the user uses the nasal cavity for breathing can be judged; otherwise, it may be determined that the user is breathing using the mouth.

Step S3: because a user may occasionally turn over or be shielded by a quilt, the user uses the oral cavity to breathe in a short time, if the nasal plug humidifying temperature control mode is started at the moment, the air conditioner control is inaccurate and unnecessary, and therefore, whether the user uses the oral cavity to breathe for a long time needs to be judged, and therefore, the timer is started, and when the oral cavity breathing time is more than or equal to the preset time, the nasal plug humidifying temperature control mode is started; the preset time can be 5-8 minutes, and the detection is continuously repeated.

The common humidifying temperature control mode is as follows: obtaining an ambient humidity f and a first target humidity f₁If f is<f₁Controlling the air conditioner to start a humidifying function; if f ≧ f₁Controlling the air conditioner to close the humidifying function;

the nasal obstruction humidification temperature control mode is as follows: obtaining an ambient humidity f and a first target humidity f₂If f is<f₂Controlling the air conditioner to start a humidifying function; if f ≧ f₂Controlling the air conditioner to close the humidifying function;

wherein f is₂＝af₁(a is more than or equal to 1.1 and less than or equal to 1.3), therefore, the fog output of the humidifier in the nasal obstruction humidification temperature control mode is larger than that in the common humidification mode, and the air humidity is larger than that in the common mode, so that the situation of mouth dryness and tongue dryness caused by mouth breathing when a user uses the nasal obstruction during cold and nasal obstruction can be effectively relieved.

Said step S₂And step S₃Further comprises obtaining the indoor ambient temperature T₁Acquiring the first target humidity f by using the mapping relation between the environmental temperature and the target humidity₁Further obtaining the second target humidity f₂The mapping relation is f₁＝b*T₁+ c, b, c are constant coefficients.

It is noted that the temperature T is determined by the indoor ambient temperature₁With a first target humidity f₁The calculation formula between: f. of₁＝b*T₁+ c, calculating to obtain the first target humidity f₁Wherein b and c are constants, e.g. f₁＝1-0.025*T₁. It can be understood that the values of the parameters b, c, etc. in the above formula can be flexibly set according to specific situations, and do not limit the present invention.

In calculating the first targetHumidity f₁After that, pass through f₂＝af₁(a is more than or equal to 1.1 and less than or equal to 1.3) obtaining a second target humidity f₂For the air conditioner to enter into the nose plug humidifying temperature control mode.

The air conditioner is provided with a humidifying and fog-discharging module to humidify the room, and the structure of the humidifying and fog-discharging module is a common structure in the field, and the structure is not further described, and the implementation of the above process through a related calculation module in the controller is also a common technical means in the field.

Further, when the oral breathing time is less than the preset time, the process returns to S2.

The controller can adjust the fog output according to the infrared human body temperature obtained by the infrared human body sensor, for example, when the human body temperature is too high, which indicates indoor drying, the fog output can be properly adjusted, and the fog output is increased.

Fig. 3 is a block schematic diagram of an embodiment of the present invention, which includes an air conditioner body 1, a switch (not shown), a controller 102, a breath detector 103, a timer 104, a humidification module 105, and a temperature sensor 106, wherein the controller 102 is located on a control panel (not shown) of the air conditioner body 1, the humidification module 105 may be disposed integrally with the air conditioner body 1, at a side portion of the air conditioner body, or separately from the air conditioner body 1, for example, at a bedside portion of a user, the temperature sensor 106 is disposed at a front surface of the air conditioner body 1, the breath detector 103 may be disposed on the air conditioner body 1, or at the bedside portion, and is preferably disposed at a portion close to the user for more accurately acquiring an infrared temperature array of the face of the user.

Specifically, the switch is used for controlling the air conditioner to be started;

the breath detector 103 is used for detecting and determining the breath mode of the user;

the timer 104 counts time when the breathing detector 103 detects that the breathing mode of the user is the oral breathing mode;

the controller 102 is electrically connected with the respiration detector 103, the timer 104, the humidification module 105 and the temperature sensor 106;

the controller also comprises a calculating unit, a judging unit, a control unit and an adjusting unit;

the calculating unit is connected with the respiration detector 103, the respiration detector 103 is an infrared sensor, and the calculating unit is used for calculating the infrared temperature array of the relevant face through data detected by the infrared sensor.

The controller 102 is used for controlling the infrared sensor in the air conditioner body 1 to perform rotation scanning, obtaining temperature information in a scanning range, determining a heat source according to the temperature information, and obtaining an infrared temperature array of the face of a human body

The judging unit is used for judging that the nasal cavity breathes if the temperature of the nasal cavity is lower than the temperature around the nasal cavity; otherwise, the mouth breathing is determined.

In the process of detecting the breathing mode of the user, after the infrared temperature array of the face of the human body is obtained by the infrared sensor, airflow around the nasal cavity is disturbed by air exhaled from the nasal cavity when the nasal cavity is used for breathing, so that the temperature array of the air temperature around the nasal cavity is obviously lower than temperature arrays of other parts of the face (the temperature difference value is 0.3-0.5 ℃ after multiple times of actual measurement), and therefore, when the temperature array at the position of the nasal cavity is judged to be lower than the temperature arrays of other parts of the face by a preset temperature difference value, the fact that the user uses the nasal cavity for breathing can be judged, and the controller 1 controls the air conditioner body 1 and the humidification module 105 to enter a common humidification temperature control mode; otherwise, it may be determined that the user is breathing using the mouth.

Because the user may occasionally turn over or be blocked by a quilt, the user uses the oral cavity to breathe in a short time, if the nasal obstruction humidification temperature control mode is started at the time, the air conditioner control is not accurate and is not necessary, therefore, whether the user uses the oral cavity to breathe for a long time needs to be judged, therefore, the timer is started, and the controller 102 is also used for entering the nasal obstruction humidification temperature control mode when the oral cavity breathing time is more than or equal to the preset time; the preset time can be 5-8 minutes, and the detection is continuously repeated.

The common humidifying temperature control mode is as follows: the ambient humidity f and the first purpose are obtained by a humidity sensor (not shown)Standard humidity f₁If f is<f₁Controlling the air conditioner to start a humidifying function; if f ≧ f₁Controlling the air conditioner to close the humidifying function;

the nasal obstruction humidification temperature control mode is as follows: acquiring an ambient humidity f and a first target humidity f by a humidity sensor (not shown)₂If f is<f₂Controlling the air conditioner to start a humidifying function; if f ≧ f₂Controlling the air conditioner to close the humidifying function;

wherein f is₂＝af₁(a is more than or equal to 1.1 and less than or equal to 1.3), therefore, the fog output of the humidifier in the nasal obstruction humidification temperature control mode is larger than that in the common humidification mode, and the air humidity is larger than that in the common mode, so that the situation of mouth dryness and tongue dryness caused by mouth breathing when a user uses the nasal obstruction during cold and nasal obstruction can be effectively relieved.

The temperature sensor 106 is used for acquiring the indoor ambient temperature T₁The calculation unit is further configured to obtain the first target humidity f by using a mapping relationship between the ambient temperature and the target humidity₁Further obtaining the second target humidity f₂The mapping relation is f₁＝b*T₁+ c, b, c are constant coefficients.

It is noted that the temperature T is determined by the indoor ambient temperature₁With a first target humidity f₁The calculation formula between: f. of₁＝b*T₁+ c, calculating to obtain the first target humidity f₁Wherein b and c are constants, e.g. f₁＝1-0.025*T₁. It can be understood that the values of the parameters b, c, etc. in the above formula can be flexibly set according to specific situations, and do not limit the present invention.

The calculation unit is also used for calculating the first target humidity f₁After that, pass through f₂＝af₁(a is more than or equal to 1.1 and less than or equal to 1.3) obtaining a second target humidity f₂For the air conditioner to enter into the nose plug humidifying temperature control mode.

The air conditioner is provided with a humidifying and fog-discharging module to humidify the room, and the structure of the humidifying and fog-discharging module is a common structure in the field, and the structure is not further described, and the implementation of the above process through a related calculation module in the controller is also a common technical means in the field.

Further, when the oral cavity breathing time is less than the preset time, the controller 102 is further configured to control the air conditioner to resume S2.

Further, the controller 102 may adjust the fog output amount according to the human body temperature obtained by the infrared human body sensor, for example, when the human body temperature is too high, which indicates indoor drying, the fog output amount may be adjusted appropriately, and the fog output amount is increased.

The structure and operation of the controller 102 can be found in the embodiments described above. It is understood that the control device may be provided independently or on the outdoor unit of the air conditioner.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (5)

1. An air conditioner, comprising:

the switch is used for controlling the air conditioner to enter a heating mode;

the breath detector is arranged on the air conditioner body or is arranged separately from the air conditioner body and is used for detecting the breath mode of a user;

humidity sensor for acquiring ambient humidity

The controller is electrically connected with the respiration detector, the timer, the humidifying module and the humidity sensor;

a timer for calculating the time of the user using the mouth breath;

the controller also comprises a calculating unit, a judging unit and a control unit;

the breathing detector is an infrared sensor, the calculating unit and the judging unit are connected with the infrared sensor, and the controller is used for rotationally scanning the room temperature, obtaining temperature information in a scanning range, determining a heat source according to the temperature information and obtaining an infrared temperature array of the face of the human body; the judging module is used for judging whether the temperature of the nasal cavity is lower than the ambient temperature of the nasal cavity by a preset temperature difference value or not, if so, the nasal cavity is judged to be breathed, and the air conditioner controls the air conditioner to enter a common humidifying temperature control mode; if not, judging that the oral cavity breathes;

the controller is also used for starting a timer to time when the judging module judges that the user is breathing in the oral cavity, and entering a nasal obstruction humidification temperature control mode when the breathing time in the oral cavity is more than or equal to the preset time;

the common humidifying temperature control mode is as follows: acquiring the ambient humidity f and the first target humidity f by using the humidity sensor₁If f is<f₁If so, the control unit controls the air conditioner to start the humidifying function; if f ≧ f₁If so, the control unit controls the air conditioner to close the humidifying function;

the nasal obstruction humidification temperature control mode is as follows: acquiring the ambient humidity f and the second target humidity f by using the humidity sensor₂If f is<f₂If so, the control unit controls the air conditioner to start the humidifying module; if f ≧ f₂If the humidification module is in the humidification state, the control unit controls the air conditioner to close the humidification module;

wherein f is₂=af₁（1.1≤a≤1.3）；

Also comprises a temperature sensor for acquiring the indoor environment temperature T₁The calculation unit may further obtain the first target humidity f by using a mapping relationship between the ambient temperature and the target humidity_1，Further obtaining the second target humidity f₂。

2. The control method of claim 1, wherein the controller is further configured to not activate the humidification module to humidify the indoor air when the air conditioner is detected to be in the cooling mode.

3. An air conditioner according to claim 1, wherein: the mapping relation is f₁=b*T₁+ c, b, c are constant coefficients.

4. An air conditioner according to claim 1, wherein: the controller can be used for controlling the breathing detector to continuously monitor the breathing condition of the user when the breathing time of the oral cavity is less than the preset time.

5. An air conditioner according to claim 1, wherein: the preset temperature difference is 0.2-0.4 ℃.

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