CN115388529A - Air conditioner and control method thereof - Google Patents

Abstract

The invention provides an air conditioner and a control method thereof, wherein the control method of the air conditioner comprises the following steps: acquiring personal information of a user using the air conditioner; acquiring a sleep index of the user and physiological parameters of the user; calculating a life vitality parameter of the user according to the sleep index, the physiological parameter and the personal information; and adjusting the operation parameters of the air conditioner according to the life vitality parameters. According to the control method of the air conditioner, the operation parameters of the air conditioner can be adjusted according to the state of the user without manually adjusting the operation parameters of the air conditioner by the user, so that the user experience is improved. Compared with the condition that the user manually adjusts the operating parameters of the air conditioner, the control method avoids the condition that the user adjusts the operating parameters of the air conditioner by feeling, and ensures the matching accuracy of the requirements of the user and the operating parameters of the air conditioner.

Description

Air conditioner and control method thereof

Technical Field

The invention relates to the technical field of air conditioner design, in particular to an air conditioner and a control method thereof.

Background

With the development of science and technology, the demands of users for the functions of air conditioners are more and more diversified. Among them, the comfort experience of the air conditioner is a point of particular emphasis on users.

At present, in the air conditioner in the prior art, the air conditioner can be used by setting the temperature, the operation mode and the function through the initiative presetting of the user, but the air conditioner cannot adapt to different states of the user, and no matter when the air conditioner is started or is operated for a period of time, the user is still required to adjust various operation parameters of the air conditioner, so that the user experience is poor. Meanwhile, the user can only manually adjust the operating parameters of the air conditioner by feeling, so that the operating parameters of the air conditioner cannot be accurately matched with the actual requirements of the user, and the use experience of the user is reduced again.

Disclosure of Invention

An object of the present invention is to provide an air conditioner and a control method thereof capable of solving at least one technical drawback of the prior art.

A further object of the present invention is to enable the air conditioner to adjust the operating parameters according to the status of the user, thereby improving the user experience.

It is another further object of the present invention to enable the adjusted operating parameters of the air conditioner to more precisely match the user's needs.

Particularly, the present invention provides a control method of an air conditioner, which includes:

acquiring personal information of a user using an air conditioner;

acquiring a sleep index of a user and physiological parameters of the user;

calculating a life vitality parameter of the user according to the sleep index, the physiological parameter and the personal information;

and adjusting the operation parameters of the air conditioner according to the life vitality parameters.

Further, the step of adjusting the operation parameters of the air conditioner according to the vital energy parameters comprises:

acquiring a corresponding relation between a preset life activity parameter and a preset operation parameter;

determining preset operation parameters corresponding to the life vitality parameters according to the corresponding relation;

and controlling the air conditioner to operate according to preset operation parameters corresponding to the life vitality parameters.

Further, the operation parameters comprise a preset temperature and the wind speed of the fresh air flow; and also,

the correspondence is expressed as:

the preset temperature is reduced along with the stepwise rise of the preset vital parameters; and/or the like, and/or,

the wind speed of the fresh air flow is reduced along with the stepwise rise of the preset life vitality parameters.

Further, the operation parameters comprise an air outlet mode of the heat exchange airflow and the air speed of the heat exchange airflow; and the number of the first and second electrodes,

the corresponding relationship is expressed as:

in a first preset range of preset life activity parameters, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode; the wind speed of the heat exchange airflow is a preset low speed value;

in a second preset range of the preset life vitality parameter, the air outlet mode of the heat exchange airflow is a left-right air sweeping mode and an up-down air sweeping mode; the wind speed of the heat exchange airflow is an automatic wind speed value determined according to the temperature of the indoor space and the temperature of the outdoor space; and the maximum threshold value of the first preset range is less than or equal to the minimum threshold value of the second preset range.

Further, the step of calculating the vital energy parameter of the user according to the sleep index, the physiological parameter and the personal information comprises:

and calculating the life vitality parameters of the user according to the sleep index, the physiological parameters and the personal information by adopting a preset algorithm relation.

Further, the personal information includes age and sex; and the number of the first and second electrodes,

the life vitality parameter increases with the increase of the sex coefficient preset according to the sex;

the vital energy parameter increases with age;

the vital energy parameter increases with the increase of the sleep index;

the vital energy parameter increases with an increase in the physiological parameter.

Further, the sleep index includes a most recent sleep duration of the user or an average of multiple sleep durations of the user.

Further, the physiological parameter includes at least one of blood oxygen saturation, blood pressure, pulse, heart rate, body surface temperature, and respiration rate.

In particular, the present invention also provides an air conditioner, comprising:

the acquisition device is used for acquiring the sleep index of the user and the physiological parameters of the user;

and the controller comprises a memory and a processor, wherein the memory stores machine executable programs, and the machine executable programs realize the control method of the air conditioner when being executed by the processor.

Further, the acquisition device comprises wearable monitoring equipment or medical monitoring equipment;

the air conditioner further includes:

the heat exchange fan is used for providing heat exchange airflow with adjustable wind speed;

the fresh air fan is used for providing fresh air flow with adjustable air speed;

and the air guide plate assembly is used for adjusting the air outlet mode of the heat exchange airflow.

According to the control method of the air conditioner, the personal information, the sleep index and the physiological parameters of the user can be obtained, the life vitality parameters of the user can be calculated according to the personal information, the sleep index and the physiological parameters of the user, and the running parameters of the air conditioner can be adjusted according to the life vitality parameters. Therefore, the control method of the air conditioner can adjust the self operation parameters according to the state of the user without manually adjusting the operation parameters of the air conditioner by the user, and improves the user experience. Meanwhile, compared with the condition that the user manually adjusts the operating parameters of the air conditioner, the control method avoids the condition that the user adjusts the operating parameters of the air conditioner by feeling, and further ensures the accuracy of the matching of the user requirements and the operating parameters of the air conditioner.

According to the control method of the air conditioner, the sleep index and the physiological parameters can show the current state of the user on different types of users, and the life activity parameters calculated according to the sleep index, the physiological parameters and the personal information are more consistent with or close to the current state of the user. Therefore, the operation parameters of the air conditioner adjusted by the control method according to the life activity parameters more meet the requirements of users, and the experience of the users in using the air conditioner is ensured. For example, when the sleep index or physiological parameter of the user is low, the current state of the user is not good, and the user does not actually need too low indoor temperature, the control method can improve the preset temperature parameter of the air conditioner, so that the user feels comfortable; for another example, when the sleep index or the physiological parameter of the user is high, the current state of the user is full, and if the indoor temperature is high, the user feels dry heat, and the control method can reduce the preset temperature parameter of the air conditioner, so that the user feels comfortable.

The air conditioner of the invention can realize the control method, so the air conditioner of the invention also has the advantages of the control method.

The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.

Drawings

Some specific embodiments of the invention will be described in detail hereinafter, by way of illustration and not limitation, with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar elements or components. Those skilled in the art will appreciate that the drawings are not necessarily drawn to scale. In the drawings:

fig. 1 is one of perspective views of an air conditioner according to an embodiment of the present invention;

fig. 2 is a second schematic perspective view of an air conditioner according to an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of an air conditioner according to one embodiment of the present invention;

FIG. 4 is a schematic block diagram of the connectivity of an air conditioner according to one embodiment of the present invention;

fig. 5 is a schematic flowchart of a control method of an air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic flowchart of adjusting an operation parameter of an air conditioner according to a vital energy parameter in a control method of the air conditioner according to an embodiment of the present invention.

Detailed Description

In the description of the present embodiment, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature, i.e., one or more such features. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise. When a feature "comprises or comprises" a or some of its intended features, this indicates that other features are not excluded and that other features may be further included, unless expressly stated otherwise.

Unless expressly stated or limited otherwise, the terms "disposed," "connected," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. Those skilled in the art should understand the specific meaning of the above terms in the present invention according to specific situations.

Further, in the description of the present embodiment, the first feature being "on" or "under" the second feature may include the first and second features being in direct contact, or may include the first and second features being in contact not directly but through another feature therebetween. That is, in the description of the present embodiment, the first feature being "on", "above" and "over" the second feature includes the first feature being directly above and obliquely above the second feature, or merely means that the first feature is higher in level than the second feature. A first feature "under," "beneath," or "beneath" a second feature may be directly under or obliquely under the first feature, or simply mean that the first feature is at a lesser elevation than the second feature.

Unless otherwise defined, all terms (including technical and scientific terms) used in the description of the present embodiment have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

In the description of the present embodiments, reference to the description of the terms "embodiment," "implementation," etc., means 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 air conditioner of the present embodiment is described in detail below with reference to fig. 1 to 4. Fig. 1 is one of perspective views illustrating an air conditioner according to an embodiment of the present invention; fig. 2 is a second schematic perspective view of an air conditioner according to an embodiment of the present invention, wherein fig. 2 is a view showing the air deflector and the left and front panels of the casing omitted from fig. 1; FIG. 3 is a schematic cross-sectional view of an air conditioner according to one embodiment of the present invention; fig. 4 is a schematic block diagram of the connection of an air conditioner according to an embodiment of the present invention.

In this embodiment, the air conditioner may be an indoor unit of a split type air conditioner, such as a wall-mounted air conditioner indoor unit, or a cabinet air conditioner, or may be an integrated air conditioner, or may be another type of air conditioner, but for convenience of describing this embodiment, the following embodiments and the reference drawings will be described by taking an indoor unit of a split wall-mounted air conditioner as an example, and should not be considered to limit the scope of the present invention. Also, referring to fig. 1 and 2, the air conditioner includes a case 100, and an intake vent 110 and a heat exchange vent 120 provided on the case 100.

Referring to fig. 2 and 3, in this embodiment, the air conditioner further includes a heat exchange air duct 130, a heat exchange fan 210 and a heat exchanger 220, the heat exchange air duct 130, the heat exchange fan 210 and the heat exchanger 220 are all disposed in the casing 100, two ends of the heat exchange air duct 130 are respectively communicated with the air inlet 110 and the heat exchange air outlet 120, the heat exchange fan 210 and the heat exchanger 220 are both disposed in the heat exchange air duct 130, and the heat exchange fan 210 is configured to provide a heat exchange air flow with an adjustable air speed. Specifically, the heat exchange fan 210 is configured to introduce an airflow in the indoor space into the heat exchange air duct 130 in the housing 100 through the air inlet 110, guide the airflow to flow through the heat exchanger 220 to exchange heat with the heat exchanger 220 to form a heat exchange airflow, and discharge the heat exchange airflow from the heat exchange air outlet 120 into the indoor space. Meanwhile, the wind speed of the heat exchange airflow changes along with the change of the rotating speed of the heat exchange fan 210, and the heat exchange fan 210 can provide the heat exchange airflow with adjustable wind speed.

In addition, in the indoor unit of the split wall-hanging type air conditioner, the heat exchange fan 210 may be a cross-flow fan, and the heat exchange fan 210 may be driven to rotate by providing the heat exchange fan 320. The heat exchange air duct 130 may be configured as a relatively closed irregular spatial structure formed by the housing 100 or various components disposed within the housing 100.

Referring to fig. 1, in the present embodiment, the air conditioner further includes a fresh air system, which includes a fresh air fan (not shown), a fresh air outlet disposed on the casing 100, and a ventilation pipe 250 connected to and extending to the outdoor space. The fresh air fan is disposed in the casing 100, and may also be disposed in an outdoor unit casing of the split type air conditioner, and the fresh air fan introduces an air flow in an outdoor space into the casing 100 through the ventilation pipe 250. Meanwhile, the wind speed of the fresh air flow changes along with the change of the rotating speed of the fresh air fan, and then the fresh air fan can provide the fresh air flow with adjustable wind speed.

In addition, in the indoor unit of the split wall-hanging type air conditioner, the fresh air fan may be a centrifugal fan, and the fresh air fan 330 may be provided to drive the fresh air fan to rotate.

Referring to fig. 1 and 2, in the present embodiment, the fresh air outlet and the heat exchange air outlet 120 may be one air outlet, and the fresh air flow sucked into the casing 100 by the fresh air fan may be guided into the heat exchange air duct 130 through the connecting air duct 260 to be mixed with the air flow flowing in from the air inlet 110. Specifically, the fresh air flow can be guided to be mixed before the air flow flowing in from the air inlet 110 exchanges heat with the heat exchanger 220, and then the heat exchange fan 210 is further used for promoting the fresh air flow and the air flow flowing in from the air inlet 110 to exchange heat with the heat exchanger 220 to form a heat exchange air flow, and then the heat exchange air flow is discharged to the indoor space from the heat exchange air outlet 120, so that various air mixing effects are realized, and the comfort of a user is ensured.

In a modified embodiment, the fresh air fan can also discharge the fresh air flow introduced into the casing 100 through the fresh air outlet directly into the indoor space without exchanging heat with the heat exchanger 220 or mixing with the air flow flowing into the heat exchange air duct 130 from the air inlet 110.

In this embodiment, the air conditioner further includes an air guide assembly. The air guide assembly is used for adjusting the air outlet mode of the heat exchange air flow.

Referring to fig. 1 and 3, in an embodiment of the air guiding assembly of the present embodiment, the air guiding assembly includes an air deflector 230 and a flap 240. Moreover, the air deflector 230 is disposed at the heat exchange air outlet 120, and the swing blade 240 is disposed at a position of the heat exchange air duct 130 close to the heat exchange air outlet 120. The air deflector 230 can guide the air outlet direction of the heat exchange air flow in the vertical direction, and the swing blade 240 can guide the air outlet direction of the heat exchange air flow in the horizontal direction, so as to adjust the air outlet mode of the heat exchange air flow. The air outlet mode may be a direct blowing prevention mode for guiding the heat exchange airflow to be blown forward and horizontally, and the specific air deflector 230 is rotated to a horizontal state; the air outlet mode may also be a wind sweeping mode for guiding the heat exchange airflow to sweep left and right and sweep up and down, and specifically, the air guide plate 230 may rotate between a position for closing the heat exchange air outlet 120 and a position for completely opening the heat exchange air outlet 120.

In addition, the air guide plate 230 and the swing blade 240 can rotate by a plurality of air guide motors 340 connected to each other.

Referring to fig. 3, in an embodiment of the air guide assembly of the present embodiment, the air guide assembly includes a first air guide plate 231, a second air guide plate 232, and a swing blade 240. Moreover, the first air deflector 231 and the second air deflector 232 are disposed at the heat exchange air outlet 120, the first air deflector 231 and the second air deflector 232 can jointly seal the heat exchange air outlet 120, the first air deflector 231 is located above the second air deflector 232, and the swinging vane 240 is disposed in an air outlet duct of the air conditioner. The first air deflector 231 and the second air deflector 232 can guide the air outlet direction of the heat exchange air flow in the vertical direction, and the swing blade 240 can guide the air outlet direction of the heat exchange air flow in the horizontal direction, so that the air outlet mode of the heat exchange air flow can be adjusted. The air outlet mode may be a direct blowing prevention mode for guiding the heat exchange airflow to be blown forward and horizontally, and specifically, the second air deflector 232 rotates to a horizontal position; the air outlet mode may also be a wind sweeping mode for guiding the heat exchange airflow to sweep left and right and up and down, and the first air guiding plate 231 and/or the second air guiding plate 232 may rotate between a position for closing the heat exchange air outlet 120 and a position for completely opening the heat exchange air outlet 120.

In addition, the first air guiding plate 231, the second air guiding plate 232 and the swing blade 240 can rotate respectively through the plurality of air guiding motors 340 connected respectively.

In this embodiment, the air conditioner includes an obtaining device 310, and the obtaining device 310 may be configured to obtain a sleep index of the user and a physiological parameter of the user.

In addition, the obtaining device 310 may also be used to obtain personal information of a user using the air conditioner.

In one implementation of the acquisition device 310 of the present embodiment, the acquisition device 310 may be a wearable monitoring device. For example, a smart watch, a smart bracelet, a smart eye shield, or a smart massager, etc.

In another implementation of the obtaining apparatus 310 of the present embodiment, the obtaining apparatus 310 may be a medical monitoring device. Such as an oximeter, a sphygmomanometer, a pulse heart rate detector, a body temperature sensor, or a respiratory monitor.

In this embodiment, the air conditioner further includes a first temperature sensor for acquiring an ambient temperature of the indoor space and a second temperature sensor for acquiring an ambient temperature of the outdoor space. The first temperature sensor may be disposed on a casing of the indoor unit of the air conditioner, preferably, outside the casing; the second temperature sensor may be disposed on a cabinet of an outdoor unit of the air conditioner, and is preferably disposed outside the cabinet.

Referring to fig. 4, in the present embodiment, the air conditioner further includes a controller 400, the controller 400 including a memory 410 and a processor 420, wherein the memory 410 stores a machine-executable program 411, and the machine-executable program 411 implements the control method of the air conditioner of the following embodiments when executed by the processor 420. Therefore, the air conditioner of the present embodiment can have the advantageous technical effects of the control method of the following embodiments.

In addition, the heat exchange fan 320, the fresh air fan 330, the air guide motor 340, the obtaining device 310, the first temperature sensor and the second temperature sensor are electrically connected to the controller 400. Specifically, the heat exchange fan 320, the fresh air fan 330, the air guide motor 340, the obtaining device 310, the first temperature sensor and the second temperature sensor may be electrically connected to the controller 400 through a wireless communication technology, or the heat exchange fan 320, the fresh air fan 330, the air guide motor 340, the obtaining device 310, the first temperature sensor and the second temperature sensor may be electrically connected to the controller 400 through a wired communication technology.

The control method of the air conditioner of the present embodiment is described in detail below with reference to fig. 5 and 6. Fig. 5 is a schematic flowchart of a control method of an air conditioner according to an embodiment of the present invention; fig. 6 is a schematic flowchart of adjusting an operation parameter of an air conditioner according to a vital energy parameter in a control method of the air conditioner according to an embodiment of the present invention.

Referring to fig. 5, in the present embodiment, a control method of an air conditioner includes:

step S502, personal information of a user who uses the air conditioner is acquired.

It can be understood that the control method of this embodiment may acquire the personal information of the user by querying the personal information, and store the personal information fed back by the user in the storage device. For example, the personal information of the user using the air conditioner may be acquired by the acquisition device 310, query information of the personal information may be transmitted to the acquisition device 310 when the user connects the acquisition device 310 to the air conditioner, feedback information may be received after the user passes an editing operation on the acquisition device 310, and the fed-back personal information may be stored in the control or the storage unit of the acquisition device 310; for another example, the follow-up information of the user may be acquired by a mobile terminal having a control authority of an air conditioner, specifically, inquiry information of personal information may be sent to the mobile terminal, feedback information may be received after the user performs an editing operation on the mobile terminal, and the fed-back personal information may be stored in the control or in a storage unit of the mobile terminal, and the mobile terminal may be an app (application software) on a mobile phone or a remote controller. The control method of the embodiment may acquire the personal information of the user by inquiring the personal information, and store the personal information fed back by the user in the storage device. And, the personal information of the user can be obtained by means of detection. For example, the personal information of the user may be detected and judged by collecting facial features of the user and further by image analysis of the facial features of the user. For another example, the personal information of the user may be detected and determined by collecting the voice information of the user and further analyzing the voice information of the user.

In addition, the personal information may include age and gender.

Step S504, the sleep index of the user and the physiological parameters of the user are obtained.

It can be understood that the sleep index of the user and the physiological parameters of the user can be obtained by the obtaining device 310 in the air conditioner of the above embodiment, which will not be described again.

In addition, the sleep index of the user may include a most recent sleep duration of the user or an average of a plurality of sleep durations of the user. The physiological parameter may include at least one of blood oxygen saturation, blood pressure, pulse, heart rate, body surface temperature, respiration rate.

Step S506, calculating life vitality parameters of the user according to the sleep index, the physiological parameters and the personal information.

It is to be understood that the vitality parameter is a parameter that characterizes a user's physical strength, energy, spirit and/or state, etc., and that the vitality parameter may be understood as a vitality fighting power, and that the specific value of the vitality fighting power may be a vitality value. And vitality parameters or vitality fighting power are parameters that may characterize a person's multi-level physical strength, energy, spirit and/or state, including weakness, fatigue, vitality fullness, strong and burst notes.

And step S508, adjusting the operation parameters of the air conditioner according to the vitality parameters.

The control method of the air conditioner in the embodiment can acquire the personal information, the sleep index and the physiological parameters of the user, calculate the vital parameters of the user according to the personal information, the sleep index and the physiological parameters of the user, and adjust the operating parameters of the air conditioner according to the vital parameters. Therefore, the control method of the air conditioner in the embodiment can adjust the operation parameters of the air conditioner according to the state of the user without manually adjusting the operation parameters of the air conditioner by the user, and improves the user experience. Meanwhile, compared with the condition that the user manually adjusts the operation parameters of the air conditioner, the control method avoids the condition that the user adjusts the operation parameters of the air conditioner by feeling, and further ensures the accuracy of the matching between the user requirements and the operation parameters of the air conditioner.

In addition, the sleep index and the physiological parameters can show the current state of the user on different types of users, and the vitality parameters calculated according to the sleep index, the physiological parameters and the personal information are more in line with or close to the current state of the user. Therefore, the operation parameters of the air conditioner adjusted by the control method according to the vital energy parameters more meet the requirements of the user, and the experience of the user in using the air conditioner is ensured. For example, when the sleep index or physiological parameter of the user is low, the current state of the user is not good, and the user does not actually need too low indoor temperature, the control method can improve the preset temperature parameter of the air conditioner, so that the user feels comfortable; for another example, when the sleep index or the physiological parameter of the user is high, the current state of the user is full, and if the indoor temperature is high, the user feels dry heat, and the control method can reduce the preset temperature parameter of the air conditioner, so that the user feels comfortable.

Referring to fig. 6, in the present embodiment, the step S508 of adjusting the operation parameters of the air conditioner according to the vital energy parameters includes:

step S602, a corresponding relationship between a preset vital parameter and a preset operation parameter is obtained.

It should be noted that the corresponding relationship may be obtained through experimental tests by a skilled person. For example, through testing different operation parameters of the air conditioner experienced by experimental volunteers under the same vitality parameter, the operation parameter which enables the user to experience comfortably is found, and the operation parameter is determined to be corresponding to the vitality parameter. The life activity parameters are changed by increasing the sleep duration, adjusting the breath or changing the way of testing volunteers, and the test is repeated, so that the corresponding relations between different life activity parameters and the operation parameters are measured one by one, and the corresponding relations are stored in the controller 400 in advance.

Step S604, determining a preset operation parameter corresponding to the life activity parameter according to the corresponding relationship.

And step S606, controlling the air conditioner to operate according to preset operation parameters corresponding to the life vitality parameters.

And then realized adjusting the operating parameter of air conditioner according to the vitality parameter, promoted and guaranteed the experience that the user used the air conditioner.

In this embodiment, the operation parameters include a preset temperature and a wind speed of the fresh air flow; and, the correspondence is expressed as: the preset temperature is reduced along with the stepwise increase of the preset vital activity parameter; and/or, the wind speed of the fresh air flow is reduced along with the step-shaped rise of the preset vital activity parameter.

It can be understood that the corresponding relation shows that the original qi/energy and the like of the user change in a good direction due to the stepwise rise of the preset life activity parameter, and then the preset temperature and/or the wind speed of the fresh air flow can be adjusted downwards, so that the dry heat feeling of the user is avoided, the environment of the indoor space acted by the air conditioner can be adapted to the user, and the user experience can be guaranteed. Conversely, the corresponding relationship may also be expressed as a stepwise decrease in the preset vital parameters indicating that the original qi/energy of the user changes in a direction that is poor, and then the preset temperature and/or the wind speed of the fresh air flow may be adjusted upward, so that the temperature of the indoor space is adjusted in a warm direction, the body temperature of the user is maintained, and the outdoor fresh air flow enters the indoor space quickly, thereby improving the vital parameters of the user. The preset stepwise increase of the vital energy parameter may be understood as that a maximum threshold value in a previous range of the preset vital energy parameter is less than or equal to a minimum threshold value in a next range of the preset vital energy parameter.

Moreover, the wind speeds of the fresh air flow and the fresh air flow can be provided and adjusted by the fresh air fan in the air conditioner of the above embodiment, which is not described herein again.

In this embodiment, the operation parameters further include an air outlet mode of the heat exchange airflow and a wind speed of the heat exchange airflow; and, the correspondence is expressed as: in a first preset range of preset life activity parameters, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode; the wind speed of the heat exchange airflow is a preset low speed value; in a second preset range of the preset life vitality parameter, the air outlet mode of the heat exchange airflow is a left-right air sweeping mode and an up-down air sweeping mode; the wind speed of the heat exchange airflow is an automatic wind speed value determined according to the temperature of the indoor space and the temperature of the outdoor space; and the maximum threshold value of the first preset range is less than or equal to the minimum threshold value of the second preset range.

In the embodiment, the corresponding relationship may be understood that, from the first preset range to the second preset range, the life activity parameter of the user changes in a good direction, and then the anti-direct-blowing mode may be switched to a wind sweeping mode of sweeping wind from left to right and sweeping wind from top to bottom, and the wind speed of the heat exchange airflow is switched from a preset low speed value to an automatic wind speed value, so that the heat exchange airflow of the air conditioner can rapidly act on the indoor space, the temperature of the indoor space is rapidly changed, the user is prevented from experiencing dry heat, the environment of the indoor space on which the air conditioner acts can be adapted to the user, and further the user experience can be ensured. On the contrary, in this embodiment, the corresponding relationship may also be understood that the life activity parameter of the user, which changes from the second preset range to the first preset range, changes in a worse direction, and further, the sweeping mode of the left-right sweeping and the up-down sweeping may be switched to the direct blowing prevention mode, so as to prevent the heat exchange airflow from directly blowing to the user, so that the user does not feel the direct blowing of the heat exchange airflow; and the wind speed of the heat exchange airflow is adjusted to a preset low speed value from an automatic wind speed value, so that the heat exchange airflow is adjusted towards a soft direction, and a user can bear the current wind speed of the heat exchange airflow. And then the life vitality parameters of the user can be ensured, and the user experience is improved.

Moreover, the air outlet mode of the heat exchange airflow can be realized by the air guide assembly in the air conditioner of the embodiment; and the wind speed of the heat exchange airflow can be provided and adjusted by the heat exchange fan 210 in the air conditioner of the above embodiment; the temperature of the indoor space and the temperature of the outdoor space may be obtained by the first temperature sensor and the second temperature sensor in the air conditioner of the above embodiment, respectively.

In addition, it should be noted that the preset low speed value is a preset wind speed value when the air conditioner operates in a low wind gear, that is, the adjustable range of the wind speed of the air conditioner may be divided or set in advance into a high wind gear, a medium wind gear and a low wind gear, the wind speed value in the low wind gear is smaller than that in the medium wind gear, and the wind speed value in the medium wind gear is smaller than that in the high wind gear, so that the wind speed of the heat exchange airflow may be adjusted to the preset low speed value within a first preset range of the preset life activity parameter.

In this embodiment, a specific implementation of the corresponding relationship may be that:

under the condition that the preset life vitality parameter is smaller than a first preset value, the preset temperature is a first preset temperature value, the air speed of the heat exchange airflow is a first preset flow velocity value, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode, and the air speed of the fresh air airflow is a first preset flow velocity value;

when the preset life vitality parameter is larger than or equal to the first preset value and smaller than the second preset value, the preset temperature is a second preset temperature value, the air speed of the heat exchange airflow is a second preset flow velocity value, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode, and the air speed of the fresh air airflow is a second preset flow velocity value;

when the preset life activity parameter is larger than or equal to the second preset value and smaller than the third preset value, the preset temperature is a third preset temperature value, the air speed of the heat exchange air flow is a third preset flow velocity value, the air outlet mode of the heat exchange air flow is a left-right air sweeping mode and an up-down air sweeping mode, and the air speed of the fresh air flow is a third preset flow velocity value;

when the preset life vitality parameter is greater than or equal to the third preset value and less than the fourth preset value, the preset temperature is a fourth preset temperature value, the wind speed of the heat exchange airflow is a fourth preset flow velocity value, the wind outlet mode of the heat exchange airflow is a wind sweeping mode of left-right wind sweeping and up-down wind sweeping, and the wind speed of the fresh air flow is a fourth preset flow velocity value;

and the first preset value is smaller than the second preset value, the second preset value is smaller than the third preset value, the third preset value is smaller than the fourth preset value, the first preset temperature value is larger than the second preset temperature value, the second preset temperature value is larger than the third preset temperature value, the third preset temperature value is larger than the fourth preset temperature value, the first preset flow rate value is smaller than the second preset flow rate value, the second preset flow rate value is smaller than the third preset flow rate value, the third preset flow rate value is smaller than the fourth preset flow rate value, the first preset flow rate value is smaller than the second preset flow rate value, the second preset flow rate value is smaller than the third preset flow rate value, and the third preset flow rate value is smaller than the fourth preset flow rate value.

In this embodiment, in another specific implementation manner of the corresponding relationship, the corresponding relationship may be:

under the condition that the preset life activity parameter is smaller than a first preset value, the preset temperature is a first preset temperature value, the air speed of the heat exchange airflow is a preset low-speed value, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode, and the air speed of the fresh air airflow is a first preset flow speed value;

when the preset life vitality parameter is larger than or equal to the first preset value and smaller than the second preset value, the preset temperature is a second preset temperature value, the air speed of the heat exchange airflow is a preset low speed value, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode, and the air speed of the fresh air airflow is a first preset flow speed value;

when the preset life activity parameter is larger than or equal to the second preset value and smaller than the third preset value, the preset temperature is a third preset temperature value, the air speed of the heat exchange air flow is an automatic air speed value determined according to the temperature of the indoor space and the temperature of the outdoor space, the air outlet mode of the heat exchange air flow is a left-right air sweeping mode and an up-down air sweeping mode, and the air speed of the fresh air flow is a second preset flow speed value;

when the preset life activity parameter is larger than or equal to the third preset value and smaller than the fourth preset value, the preset temperature is a fourth preset temperature value, the air speed of the heat exchange air flow is an automatic air speed value determined according to the temperature of the indoor space and the temperature of the outdoor space, the air outlet mode of the heat exchange air flow is a left-right air sweeping mode and an up-down air sweeping mode, and the air speed of the fresh air flow is a second preset flow speed value;

and the first preset value is smaller than the second preset value, the second preset value is smaller than the third preset value, the third preset value is smaller than the fourth preset value, the first preset temperature value is larger than the second preset temperature value, the second preset temperature value is larger than the third preset temperature value, the third preset temperature value is larger than the fourth preset temperature value, and the first preset flow rate value is smaller than the second preset flow rate value.

In this embodiment, the first preset value may be 60, the second preset value may be 75, the third preset value may be 85, and the fourth preset value may be 100. Furthermore, the user can be embodied to be weak at the moment under the condition that the preset life vitality parameter is smaller than the first preset value, the user can be embodied to be tired at the moment under the condition that the preset life vitality parameter is larger than or equal to the first preset value and smaller than the second preset value, the user can be embodied to be strong at the moment under the condition that the preset life vitality parameter is larger than or equal to the second preset value and smaller than the third preset value, and the user can be embodied to be exploded at the moment under the condition that the preset life vitality parameter is larger than or equal to the third preset value and smaller than the fourth preset value.

In addition, the third preset temperature value can be set as a standard temperature value, the difference value between two adjacent preset temperature values can be 1 ℃, in the process of adjusting the operation parameters of the air conditioner according to the vitality parameters, the preset temperature of the air conditioner can be adjusted automatically by increasing or decreasing the difference value on the basis of the standard temperature value, and the intelligence of the air conditioner is improved.

In this embodiment, the step of calculating the vital energy parameter of the user according to the sleep index, the physiological parameter and the personal information includes:

and calculating the life vitality parameters of the user according to the sleep index, the physiological parameters and the personal information by adopting a preset algorithm relation.

It is understood that the predetermined algorithm relationship may be obtained by repeated deduction and verification through a large number of calculations and experimental tests of the above corresponding relationship. And then, the life activity parameters of the user are calculated according to the sleep index, the physiological parameters and the personal information through a preset algorithm relation, so that the life activity parameters are more fit to the current state of the user, and the matching accuracy of the running parameters of the air conditioner and the actual requirements of the user is further ensured. And the preset algorithm relation may be stored in the controller 400 in advance. In the process of executing the above calculation steps, the controller 400 calculates the sleep index, the physiological parameter and the personal information according to the logic of the preset algorithm relation and obtains the vital energy parameter.

In the present embodiment, the vital energy parameter increases with an increase in the sex coefficient preset according to sex; the vital energy parameter increases with age; the vital energy parameter increases with the increase of the sleep index; the vital energy parameter increases with an increase in the physiological parameter.

It will be appreciated that the gender coefficient for a boy is greater than the gender coefficient for a girl, and that as the gender coefficient increases, the age increases, the sleep index increases and/or the physiological parameters increase, the vitality parameter increases, indicating that the user has a better vitality and a stronger physical, energetic, mental and/or state.

In this embodiment, taking age, gender, sleep index and physiological parameters as examples, the preset algorithm relationship may be:

φ＝(X ₁ ×D+X ₂ ×E+0.2×A ₀ )×G ₀

wherein:

phi is a life activity parameter or vigor fighting power;

d is a sleep index, and X1 is a sleep coefficient determined according to the sleep index;

e is a physiological parameter, and X2 is a physiological coefficient determined according to the physiological parameter;

a0 is age;

g0 is a sex coefficient, and when the sex is male, G0 is 1; when the sex is female, G0 is 0.9.

It should be noted that the sleep coefficient may be determined according to the sleep index, and the sleep coefficients may have different meanings, for example, when the sleep index is the last sleep duration, the sleep coefficient may be 0.4; similarly, when the physiological parameter is blood pressure, the physiological parameter is 0.4.

In this embodiment, taking age, sex, length of last sleep time, and blood pressure as examples, the preset algorithm relation may be:

φ＝(0.4×S ₀ +0.4×B ₀ +0.2×A ₀ )×G ₀

wherein:

phi is a life activity parameter or vigor fighting power;

s0 is the last sleep duration;

b0 is blood pressure;

a0 is age;

g0 is a sex coefficient, and when the sex is male, G0 is 1; when the gender is female, G0 is 0.9.

Thus, it should be appreciated by those skilled in the art that while a number of exemplary embodiments of the invention have been illustrated and described in detail herein, many other variations or modifications consistent with the principles of the invention may be directly determined or derived from the disclosure of the present invention without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should be understood and interpreted to cover all such other variations or modifications.

Claims (10)

1. A control method of an air conditioner, comprising:

acquiring personal information of a user using the air conditioner;

acquiring a sleep index of the user and physiological parameters of the user;

calculating a life vitality parameter of the user according to the sleep index, the physiological parameter and the personal information;

and adjusting the operation parameters of the air conditioner according to the life vitality parameters.

2. The control method of an air conditioner according to claim 1, wherein,

the step of adjusting the operating parameters of the air conditioner according to the vital energy parameters comprises:

acquiring a corresponding relation between the preset life vitality parameter and the preset operation parameter;

determining the preset operation parameters corresponding to the life vitality parameters according to the corresponding relation;

and controlling the air conditioner to operate according to the preset operation parameters corresponding to the life vitality parameters.

3. The control method of an air conditioner according to claim 2, wherein,

the operation parameters comprise a preset temperature and the wind speed of the fresh air flow; and the number of the first and second electrodes,

the corresponding relationship is expressed as:

the preset temperature is reduced along with the preset stepwise rise of the vital energy parameter; and/or the like, and/or,

the wind speed of the fresh air flow is reduced along with the preset stepwise rise of the life activity parameters.

4. The control method of an air conditioner according to claim 2, wherein,

the operation parameters comprise an air outlet mode of the heat exchange airflow and the air speed of the heat exchange airflow; and also,

the corresponding relationship is represented as:

in a first preset range of the preset life vitality parameter, the air outlet mode of the heat exchange airflow is a forward flat blowing prevention direct blowing mode; the wind speed of the heat exchange airflow is a preset low speed value;

in a second preset range of the preset life vitality parameter, the air outlet mode of the heat exchange airflow is a left-right wind sweeping mode and a top-bottom wind sweeping mode; the wind speed of the heat exchange airflow is an automatic wind speed value determined according to the temperature of the indoor space and the temperature of the outdoor space; and the maximum threshold value of the first preset range is less than or equal to the minimum threshold value of the second preset range.

5. The control method of an air conditioner according to claim 1,

the step of calculating the vital energy parameter of the user according to the sleep index, the physiological parameter and the personal information comprises:

and calculating the life vitality parameter of the user according to the sleep index, the physiological parameter and the personal information by adopting a preset algorithm relation.

6. The control method of an air conditioner according to claim 5, wherein,

the personal information includes age and gender; and also,

the life vitality parameter increases with the increase of the gender coefficient preset according to the gender;

the vital energy parameter increases with increasing age;

the vital energy parameter increases with an increase in the sleep index;

the vital energy parameter increases with an increase in the physiological parameter.

7. The control method of an air conditioner according to claim 1, wherein,

the sleep index includes a most recent sleep duration of the user or an average of multiple sleep durations of the user.

8. The control method of an air conditioner according to claim 1,

the physiological parameter includes at least one of blood oxygen saturation, blood pressure, pulse, heart rate, body surface temperature, and respiration rate.

9. An air conditioner comprising:

the acquisition device is used for acquiring the sleep index of the user and the physiological parameters of the user;

a controller comprising a memory and a processor, wherein the memory stores a machine-executable program that when executed by the processor implements the method of controlling the air conditioner of any one of claims 1 to 8.

10. The air conditioner according to claim 9,

the acquisition device comprises wearable monitoring equipment or medical monitoring equipment;

the air conditioner further includes:

the heat exchange fan is used for providing heat exchange airflow with adjustable air speed;

the fresh air fan is used for providing fresh air flow with adjustable air speed;

and the air guide plate assembly is used for adjusting the air outlet mode of the heat exchange airflow.

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