CN112283883B - Display method and device of air conditioner, storage medium and processor - Google Patents

Abstract

The invention discloses a display method and a display device of an air conditioner, the air conditioner, a storage medium and a processor, wherein the method comprises the following steps: the front panel of the air conditioner is a display panel (1), and the display method of the air conditioner comprises the following steps: receiving a target operation parameter of the air conditioner set by a user under the condition that the air conditioner is started; determining whether a user's custom display request is received; if the target operation parameters are not received, controlling the display panel (1) to display according to a default display mode; and if the user-defined display request is received, determining a user-defined display mode carried by the user-defined display request, and controlling the display panel (1) to display according to the user-defined display mode. According to the scheme, the problem that the user experience is influenced by the fact that the display content of the air conditioner is fixed can be solved, and the effect that the user experience is improved by enabling the display content of the air conditioner to be adjusted according to the use requirement is achieved.

Description

Display method and device of air conditioner, storage medium and processor

Technical Field

The invention belongs to the technical field of air conditioners, and particularly relates to a display method and device of an air conditioner, the air conditioner, a storage medium and a processor, in particular to an intelligent display method and device of the air conditioner, the storage medium and the processor.

Background

Some electrical equipment such as the display of air conditioner can show generally that set temperature, wind speed, refrigeration or heat etc. show that the content is fixed, can't automatic adjustment, influence user experience.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention aims to provide a display method and device of an air conditioner, the air conditioner, a storage medium and a processor, so as to solve the problem that the display content of the air conditioner is fixed to influence the user experience, and achieve the effect that the display content of the air conditioner can be adjusted according to the use requirement to improve the user experience.

The invention provides a display method of an air conditioner, which comprises the following steps: the front panel of the air conditioner is a display panel, and the display method of the air conditioner comprises the following steps: receiving a target operation parameter of the air conditioner set by a user under the condition that the air conditioner is started; determining whether a user's custom display request is received; if the target operation parameters are not received, controlling the display panel to display according to a default display mode; and if the user-defined display request is received, determining a user-defined display mode carried by the user-defined display request, and controlling the display panel to display according to the user-defined display mode.

In some embodiments, the controlling the display panel to display in the default display mode includes at least one of the following display conditions: determining indoor airflow organization information of the indoor environment of the air conditioner under the target operation parameters, and controlling the display panel to display the indoor airflow organization information; determining operation related parameters of the air conditioner under the target operation parameters, and controlling the display panel to display the operation related parameters; if the human body physiological parameters sent by the human body wearing equipment are received, controlling the display panel to display the human body physiological parameters; and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel to display the human body sleep parameters.

In some embodiments, specific forms of the operation parameter, the indoor airflow tissue information, the operation-related parameter, and the human physiological parameter include at least one of the following forms: the operating parameters include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of an air deflector, and an air supply mode; the air supply mode comprises a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans; the indoor airflow organization information comprises an indoor airflow organization map; the indoor airflow organization in the indoor airflow organization map comprises: indoor airflow flowing state; the indoor airflow flow state includes: in the heating mode, airflow at different indoor positions slides to the rear part of the wall body in a clinging manner, and then exchanges heat with the rest indoor air; in a refrigeration mode, airflow at different positions in the room flows out, then slides to the rear part of the room after clinging to a ceiling, and then exchanges heat with the airflow of the rest part in the room; the operation-related parameters include: at least one of the current room temperature, the set temperature, the operation mode, the humidity, an air conditioner capacity output curve, an air conditioner power output curve and air conditioner power consumption; the human physiological parameters comprise: body temperature, heartbeat.

In some embodiments, the controlling the display panel to display in the custom display mode includes any one of the following display conditions: if the user-defined display mode is to display a user-defined display picture sent by a user, controlling the display panel to statically or dynamically display the user-defined display picture; and if the user-defined display mode is to close the display, closing the display function of the display panel.

In some embodiments, the display panel is movable, the display panel can shield the air inlet of the air conditioner when the air conditioner is in an off state, and the display panel can be pushed forward to expose the air inlet of the air conditioner when the air conditioner is in an operating state.

In some embodiments, the display panel comprises a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is located between an air conditioner body of the air conditioner and the light-transmitting panel; the display screen can display the display content of the air conditioner, and the light-transmitting panel can transmit the display content of the display screen; wherein the display of the display panel includes: and performing partition display according to the partition area of the display content.

In another aspect, the present invention provides a display device of an air conditioner, where a front panel of the air conditioner is a display panel, and the display device of the air conditioner includes: a communication unit configured to receive a target operation parameter of the air conditioner set by a user in a case where the air conditioner is turned on; a control unit configured to determine whether a user's custom display request is received; the control unit is further configured to control the display panel to display according to a default display mode if the target operation parameter is not received; the control unit is further configured to determine a custom display mode carried by the custom display request if the custom display request is received, and control the display panel to display according to the custom display mode.

In some embodiments, the control unit controls the display panel to display in a default display mode, including at least one of the following display conditions: determining indoor airflow organization information of the indoor environment of the air conditioner under the target operation parameters, and controlling the display panel to display the indoor airflow organization information; determining operation related parameters of the air conditioner under the target operation parameters, and controlling the display panel to display the operation related parameters; if the human body physiological parameters sent by the human body wearing equipment are received, controlling the display panel to display the human body physiological parameters; and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel to display the human body sleep parameters.

In some embodiments, specific forms of the operation parameter, the indoor airflow tissue information, the operation-related parameter, and the human physiological parameter include at least one of the following forms: the operating parameters include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of an air deflector, and an air supply mode; the air supply mode comprises a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans; the indoor airflow organization information comprises an indoor airflow organization map; the indoor airflow organization in the indoor airflow organization map comprises: indoor airflow flowing state; the indoor airflow flow state includes: in the heating mode, airflow at different indoor positions slides to the rear part of the wall body in a clinging manner, and then exchanges heat with the rest indoor air; in a refrigeration mode, airflow at different positions in the room flows out, then slides to the rear part of the room after clinging to a ceiling, and then exchanges heat with the airflow of the rest part in the room; the operation-related parameters include: at least one of the current room temperature, the set temperature, the operation mode, the humidity, an air conditioner capacity output curve, an air conditioner power output curve and air conditioner power consumption; the human physiological parameters comprise: body temperature, heartbeat.

In some embodiments, the control unit controls the display panel to display according to the custom display mode, including any one of the following display conditions: if the user-defined display mode is to display a user-defined display picture sent by a user, controlling the display panel to statically or dynamically display the user-defined display picture; and if the user-defined display mode is to close the display, closing the display function of the display panel.

In some embodiments, the display panel is movable, the display panel can shield the air inlet of the air conditioner when the air conditioner is in an off state, and the display panel can be pushed forward to expose the air inlet of the air conditioner when the air conditioner is in an operating state.

In some embodiments, the display panel comprises a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is located between an air conditioner body of the air conditioner and the light-transmitting panel; the display screen can display the display content of the air conditioner, and the light-transmitting panel can transmit the display content of the display screen; wherein the display of the display panel includes: and performing partition display according to the partition area of the display content.

In accordance with another aspect of the present invention, there is provided an air conditioner including: the display device of the air conditioner is described above.

In accordance with the above method, a further aspect of the present invention provides a storage medium, where the storage medium includes a stored program, and when the program runs, the apparatus where the storage medium is located is controlled to execute the above display method of the air conditioner.

In accordance with the above method, a further aspect of the present invention provides a processor for executing a program, wherein the program executes the display method of the air conditioner.

Therefore, according to the scheme of the invention, the front panel of the air conditioner is set as the movable display panel, the control unit of the air conditioner is used for controlling the display content according to the display requirement of a user, the problem that the display content of the air conditioner is fixed to influence the user experience is solved, and the effect that the display content of the air conditioner can be adjusted according to the use requirement to improve the user experience is achieved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

FIG. 1 is a flowchart illustrating a display method of an air conditioner according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a display device of an air conditioner according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a model of the whole machine in a shutdown state;

FIG. 4 is a schematic diagram of a whole machine model in a power-on state;

FIG. 5 is a schematic diagram illustrating the effect of the airflow pattern under heating conditions;

FIG. 6 is a schematic diagram illustrating the effect of the air flow pattern under refrigeration;

fig. 7 is a flowchart illustrating the smart display control.

The reference numbers in the embodiments of the present invention are as follows, in combination with the accompanying drawings:

1-a display panel capable of movement; 2-three rows of heat exchangers; 3-double row heat exchanger; 4-a control unit; 5-a left side motor; 6-left fan blades; 7-left volute; 8-right motor; 9-right fan blades; 10-right volute; 11-an air outlet; 12-pushing out the partition board; 13-air inlet; 13 a-upper wind direction; 13 b-left air intake direction; 13 c-right air inlet direction; 102-a communication unit; 104-control unit.

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 clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. 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 embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

According to an embodiment of the present invention, a display method of an air conditioner is provided, as shown in fig. 1, which is a schematic flow chart of an embodiment of the method of the present invention. According to the display method of the air conditioner, the front panel of the air conditioner is the display panel 1 (namely the display panel 1 capable of moving), namely the front panel is used as the large display panel 1, the large display panel 1 is used as a display of the air conditioner, the whole panel is a display screen, the problem of appearance incongruity caused by the fact that the display screen only occupies a small part in some on-hook machines is solved, and therefore the effect of high attractiveness is achieved. The display method of the air conditioner can include: step S110 to step S140.

In step S110, a target operation parameter of the air conditioner (e.g., a basic parameter of air conditioner operation set by a user) set by the user is received when the air conditioner is turned on.

For example: when the air conditioner is turned on, the signal receiving module in the control unit 1044 receives the air conditioner operation basic parameters set by the user, and mainly can include: in a cooling or heating mode, a temperature setting mode, a wind speed mode, a wind deflector position mode, a single left or single right or left and right simultaneous air supply mode, at this time, a control module in the control unit 1044 can control a motor, such as the left motor 5 or the right motor or 8, to operate at a set rotating speed (if only one side supplies air, one of the left motor 5 or the right motor 8 does not operate), and the air outlet 11 exhausts air by using the set temperature as a target variable.

At step S120, it is determined whether a user' S custom display request is received.

In step S130, if the target operation parameter is not received, the display panel 1 is controlled to display according to a default display mode.

In some embodiments, the controlling the display panel 1 to display in the default display mode in step S130 may include at least one of the following display conditions:

first default display case: and determining indoor airflow organization information of the indoor environment of the air conditioner under the target operation parameters, and controlling the display panel 1 to display the indoor airflow organization information.

For example: the air conditioner has the advantages that the flowing state of indoor air can be displayed, a user can intuitively feel the air outlet condition of the air conditioner conveniently, and for some air conditioners with the air supply advantage characteristic, such as air conditioners capable of supplying air in a partitioned mode, the user can understand the product advantage, and accordingly the user can adjust the air conditioner operation parameters in a targeted mode, and the purposes of targeted air supply and energy saving are achieved. The displayed airflow organization on the air conditioner panel is not common, can be automatically switched along with the set temperature, the set wind speed and the angle change of the air deflector of the air conditioner, gives users visual indoor airflow impression, and is not used for the air conditioner.

Second default display case: and determining the operation related parameters of the air conditioner under the target operation parameters, and controlling the display panel 1 to display the operation related parameters.

For example: if the user does not perform the customized display, the display panel 1 displays the indoor airflow organization and the parameters related to the air conditioner operation state under the current setting parameters by default, such as the current room temperature, the setting temperature, the operation mode, the humidity, the air conditioner capacity output curve, the air conditioner power consumption and the like.

The third default display case: and if the human body physiological parameters sent by the human body wearing equipment are received, controlling the display panel 1 to display the human body physiological parameters. For example: if the user does not perform user-defined display, the signal receiving module detects that the wearable device is connected, real-time physiological parameters (namely, human physiological parameters) of the human body, such as body temperature, heartbeat and the like, can be additionally displayed, the user can conveniently adjust the operation parameters of the air conditioner by reference, and the situations that the user is too cold and too hot but not aware of the situation (the environment with too cold and too hot is adapted to, but the situation is harmful to the body) are avoided.

Fourth default display case: and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel 1 to display the human body sleep parameters (such as a human body sleep report). For example: if the user does not perform user-defined display, the signal receiving module can also receive parameter functions of a sleep report (namely a human sleep report) of the user generated by the wearable device and the like. Human sleep parameters (e.g., human sleep reports) may include: based on the function of wearing equipment, can detect and output human daily sleep duration, whether have the condition such as standing up, awaken midway, the user can judge whether there is improper condition in oneself air conditioner setting parameter in view of the above.

For example: the method mainly displays airflow organization and air conditioner operation basic parameters under user set parameters, and additionally, if APP access exists, APP function display is added simultaneously, such as human physiological parameters, sleep quality and the like.

Therefore, the large display panel is adopted to automatically display indoor airflow organization according to set temperature, wind speed, air deflector angle and the like, and automatically switch airflow organization pictures according to parameter change, so that the air conditioner is particularly suitable for air conditioners capable of supplying air in a subarea mode, and the problems that a user cannot adjust the air conditioner according to actual requirements in time and understand the core air supply advantages of products and publicize selling points due to the fact that visual blowing states cannot be given to the user in some on-hook machines are solved, and therefore the effects of high intuition and intellectualization are achieved.

Wherein, the specific forms of the operation parameters, the indoor airflow organization information, the operation related parameters and the human body physiological parameters can include at least one of the following forms:

the operating parameters can include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of the air guide plate, and an air blowing mode. The air supply mode can comprise a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans.

For example: receiving basic air conditioner operation parameters set by a user, wherein the basic air conditioner operation parameters mainly comprise: the air conditioner comprises a refrigerating or heating mode, a set temperature, an air speed, an air deflector position and a single left or single right or left and right simultaneous air supply mode. For the zoned air supply air conditioner with double centrifugal fans, a left motor 5 is used for driving a left fan blade (namely a left centrifugal fan blade) 6 to rotate. The left fan volute and the right fan volute are symmetrically distributed and have consistent functions, and only the rotating directions of the left fan blade 6 and the right fan blade 9 are opposite. Wherein, left side motor 5 and right side motor 8 can the independent control, for example when the user is located and only is located left half region, can only let left side motor work, realize the target air supply function, and the air outlet 11 of air conditioner realizes the regional air-out to the left side, makes the regional quick cooling in left side to reach energy-conserving effect. An air inlet 13 (also called an air return inlet) of the air conditioner, the air inlet 13 has three air inlet directions, such as a first air inlet direction, a second air inlet direction and a third air inlet direction, such as an upper air inlet direction 13a, a left air inlet direction 13b and a right air inlet direction 13 c.

The indoor airflow organization information is displayed in a form of a moving picture, that is, the indoor airflow organization information can include a moving picture of indoor airflow organization.

For example: the indoor airflow pattern picture is pre-stored in the storage module in the control unit 1044, is a simulation effect picture verified by experiments, here it should be a graph of the indoor airflow pattern dynamics including combinations of user settable parameters, for the working condition of refrigeration or heating, each set temperature, wind shield, air deflector position and subarea air supply state are all corresponding to a corresponding airflow organization effect diagram, when a user sets operation parameters, the air flow organization effect diagram under the operation parameters is automatically switched, so that the user can visually feel the indoor air flow, the experience feeling and the technological feeling are increased, the user can conveniently adjust the parameters according to the actual requirements to meet the requirements, meanwhile, for some air conditioners (such as the air conditioner capable of supplying air in a partitioned mode) mainly having an air supply effect selling point, a user can intuitively experience the advantages of the product.

The indoor airflow structure in the indoor airflow structure map may include: indoor airflow flowing state. The indoor airflow flowing state can include: in the heating mode, air flows at different indoor positions slide to the rear part of the wall body in a clinging manner, and then exchange heat with the rest indoor air. In a refrigeration mode, airflow at different positions in the room flows out and then slides to the rear part of the room after being attached to the ceiling, and then exchanges heat with the airflow of the rest part in the room.

For example: the indoor airflow organization refers to the indoor airflow flowing state, and is determined by the basic parameters of the air conditioner operation set by the user, such as user setting: the heating working condition, the set temperature is 25 ℃, the superstrong wind shield and the air deflector are in the heating default position (the system program sets the position, if not self-defined, the air deflector automatically rotates to the position during heating), the left fan and the right fan supply air simultaneously, at the moment, when the indoor air flow is stable (the flow condition of the indoor air flow is set under the current parameters after the air conditioner operates for a period of time), the air flow flowing state shown in figure 3 is provided, the condition that the air flow slides to the rear part of the wall body after flowing out of the air conditioner and then exchanges heat with the rest indoor air can be visually seen from figure 3, in addition, the temperature conditions of different indoor positions are shown by arrows with colors in figure 3, and the user can display according to the air flow organization and adjust the parameters meeting the self-requirement.

Of course, the pictures shown here are not necessarily pictures that can be displayed finally, but merely to illustrate the feasibility of indoor airflow organization display, and finally, a moving picture that can be displayed on the display panel 1 is best, the flow of the airflow can be seen, and the resolution is appropriately higher so as to be clear for the user. For the refrigeration working condition set by the user, the temperature is 25 ℃, the super-strong wind shield is set, the air deflector is located at the refrigeration default position, the left fan and the right fan supply air simultaneously, the indoor airflow organization effect is as shown in fig. 4, the visible airflow flows out and then slides to the rear part of the room after clinging to the ceiling, and then exchanges heat with the rest indoor airflow, so that the bathing refrigeration effect is achieved, and the visual experience is given to the user.

The operation-related parameters can include: at least one of the current room temperature, the set temperature, the operation mode, the humidity, an air conditioner capacity output curve, an air conditioner power output curve and air conditioner power consumption.

For example: the display panel 1 defaults to display the indoor airflow organization and the parameters related to the air conditioner operation state under the current set parameters, such as the current room temperature, the set temperature, the operation mode, the humidity, the air conditioner capacity output curve, the air conditioner power consumption and the like, by default on the display panel 1.

The human physiological parameters can include: body temperature, heartbeat.

From this, through the advantage of make full use of big display panel, combine wearing equipment, cell-phone APP etc. output user's physiological parameter, sleep quality aassessment, user-defined picture, air conditioner power consumption etc. realize the richness of function.

In step S140, if the user-defined display request is received, a user-defined display mode carried by the user-defined display request is determined, and the display panel 1 is controlled to display according to the user-defined display mode.

For example: when the user does not perform operation setting, the main setting content of the system can be displayed, when the user performs self-defined picture display, the picture can be used as an indoor decoration picture, the user can also close the picture to play a role in energy conservation, and the problems of stiffness in on-hook display and poor operability and interactivity of the user are solved, so that the effects of high interactivity and intellectualization are achieved.

Therefore, according to the scheme of the invention, the front panel of the air conditioner is set as the movable display panel, the control unit 104 of the air conditioner is used for controlling the display content according to the display requirements of the user, the display can be carried out according to the user requirements, the use requirements of the users with different display requirements can be met, and the user experience is good.

In some embodiments, the step S140 of controlling the display panel 1 to display in the custom display mode may include any one of the following display conditions:

the first custom display case: and if the user-defined display mode is to display a user-defined display picture sent by a user, controlling the display panel 1 to statically or dynamically display the user-defined display picture.

For example: the display panel 1 capable of moving can also customize display pictures according to user requirements, such as: when the function is started by a user, the pictures of the airflow organization, the wearing equipment and the like are not displayed, the user-defined display is taken as the main picture, and the basic parameter display of the air conditioner operation is taken as the auxiliary picture. This function is accomplished by access cell-phone APP mainly, can link to each other with the air conditioner through bluetooth or WIFI, and when 4 in signal receiving module received user's custom demonstration request, then can carry out the demonstration of corresponding picture through 4 in control module control can the display panel 1 of motion, the picture that the user afferent can be stored in the storage module in 4 equally. The user defines a display mode, displays pictures and the like transmitted by the user intelligent equipment, and plays a role in decorating the picture.

The second custom display case: and if the user-defined display mode is to close the display, closing the display function of the display panel 1.

For example: the user can also turn off the display function of the display panel 1 to achieve the effect of saving energy or not disturbing the sleep. That is, the user can turn off the display function to save energy or help sleep at night.

In some embodiments, the display panel 1 is movable, the display panel 1 does not need to be pushed forward to shield an air inlet of the air conditioner when the air conditioner is in an off state, and the display panel 1 can be pushed forward to expose the air inlet (13) of the air conditioner when the air conditioner is in an on state. In particular, the display panel 1 can be moved by pushing out the partition 12. The push-out partition 12 is connected to the movable display panel 1, and has functions of supporting the display panel 1 and preventing return air.

For example: the air conditioner capable of supplying air in a subarea mode has the display panel 1 capable of being pushed out, the thickness of the display panel 1 is small when the display panel 1 is closed, the air inlet is formed when the display panel 1 is pushed out, the large display panel 1 can meet the requirement of multifunctional display, and the advantage of the subarea air supply is more intuitive due to the airflow organization display function. When the air conditioner is in a shutdown state, the display panel 1 is not pushed out, the display screen does not work, and the air conditioner is not different from some air conditioners in appearance. When the air conditioner is in an operating state, the display panel 1 is pushed forward to expose the air inlet 13, so that indoor air can enter the air conditioner under the action of pressure, and meanwhile, the control unit 1044 controls the display screen to work to display various parameters in the real-time state.

Therefore, the large display panel is adopted to display power consumption, human body physiological parameters, user sleep reports, user-defined images and the like, and the problem that some on-hook displays are single is solved, so that the effect of rich display contents is achieved.

In some embodiments, the display panel 1 can include a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is located between the air conditioner body of the air conditioner and the light-transmitting panel. The display screen can be used for displaying the display content of the air conditioner, and the light-transmitting panel can be used for transmitting the display content of the display screen.

For example: the mechanism at display panel 1 place that can move comprises monoblock big display screen and light-permeable panel, and the shape is square, and the area is fairly, and big display screen is being close to the air conditioner side, and the light-permeable panel is keeping away from the air conditioner side, hugs closely the installation for guaranteeing both of display effect. The display screen is a large display screen and is used for displaying pictures such as indoor real-time airflow organization, human physiological parameters, air conditioner running state parameters, air conditioner capacity output curves, air conditioner power consumption, user sleep quality assessment reports and the like, and pictures preset by a system or input by a user in a self-defined mode can also be displayed.

The display of the display panel 1 may include: and adaptively displaying at a corresponding position in the display screen according to the size of the display content, or performing partition display according to a partition area of the display content. For example: the display panel 1 can display the image in blocks according to a predetermined area.

Therefore, indoor airflow organization and indoor temperature distribution conditions are displayed in real time; can combine wearing equipment, cell-phone APP equipment etc. simultaneously, show pictures such as human physiological parameter, air conditioner running state parameter, air conditioner ability output curve, air conditioner power consumption, user sleep quality assessment report and the user-defined picture that shows to can realize that intelligence switches or according to user's hobby self-defined switching, richened its function, and promoted intelligence, interactive.

Through a large amount of experimental verifications, adopt the technical scheme of this embodiment, set up the display panel into can the motion through the front panel with the air conditioner, the monoblock panel all is the display screen, does not have the demonstration to leave white region, and shows that the content is abundant.

According to an embodiment of the present invention, there is also provided a display device of an air conditioner corresponding to the display method of the air conditioner. Referring to fig. 2, a schematic diagram of an embodiment of the apparatus of the present invention is shown. According to the display device of the air conditioner, the front panel of the air conditioner is the display panel 1 (namely the display panel 1 capable of moving), namely the front panel is used as the large display panel 1, the large display panel 1 is used as a display of the air conditioner, the whole panel is a display screen, the problem of appearance incongruity caused by the fact that the display screen only occupies a small part in some on-hook machines is solved, and therefore the effect of high attractiveness is achieved. The display device of the air conditioner may include: a communication unit 102 and a control unit 104.

Specifically, the communication unit 102 can be configured to receive a target operation parameter of the air conditioner (e.g., a basic air conditioner operation parameter set by a user) set by the user when the air conditioner is turned on. The detailed function and processing of the communication unit 102 are shown in step S110.

For example: when the air conditioner is turned on, the signal receiving module in the control unit 1044 receives the air conditioner operation basic parameters set by the user, and mainly can include: in a cooling or heating mode, a temperature setting mode, a wind speed mode, a wind deflector position mode, a single left or single right or left and right simultaneous air supply mode, at this time, a control module in the control unit 1044 can control a motor, such as the left motor 5 or the right motor or 8, to operate at a set rotating speed (if only one side supplies air, one of the left motor 5 or the right motor 8 does not operate), and the air outlet 11 exhausts air by using the set temperature as a target variable.

Specifically, the control unit 104 can be configured to determine whether a user's custom display request is received. The specific function and processing of the control unit 104 are referred to in step S120.

Specifically, the control unit 104 can be further configured to control the display panel 1 to display in a default display mode if the target operation parameter is not received. The specific function and processing of the control unit 104 are also referred to in step S130.

In some embodiments, the control unit 104 controls the display panel 1 to display in a default display mode, which may include at least one of the following display conditions:

first default display case: the control unit 104 may be further configured to determine indoor airflow organization information of an indoor environment where the air conditioner is located under the target operation parameter, and control the display panel 1 to display the indoor airflow organization information.

For example: the air conditioner has the advantages that the flowing state of indoor air can be displayed, a user can intuitively feel the air outlet condition of the air conditioner conveniently, and for some air conditioners with the air supply advantage characteristic, such as air conditioners capable of supplying air in a partitioned mode, the user can understand the product advantage, and accordingly the user can adjust the air conditioner operation parameters in a targeted mode, and the purposes of targeted air supply and energy saving are achieved. The displayed airflow organization on the air conditioner panel is not common, can be automatically switched along with the set temperature, the set wind speed and the angle change of the air deflector of the air conditioner, gives users visual indoor airflow impression, and is not used for the air conditioner.

Second default display case: the control unit 104 may be further configured to determine an operation related parameter of the air conditioner under the target operation parameter, and control the display panel 1 to display the operation related parameter.

For example: if the user does not perform the customized display, the display panel 1 displays the indoor airflow organization and the parameters related to the air conditioner operation state under the current setting parameters by default, such as the current room temperature, the setting temperature, the operation mode, the humidity, the air conditioner capacity output curve, the air conditioner power consumption and the like.

The third default display case: the control unit 104 can be further configured to control the display panel 1 to display the human body physiological parameter if the human body physiological parameter sent by the human body worn device is received. For example: if the user does not perform user-defined display, the signal receiving module detects that the wearable device is connected, real-time physiological parameters (namely, human physiological parameters) of the human body, such as body temperature, heartbeat and the like, can be additionally displayed, the user can conveniently adjust the operation parameters of the air conditioner by reference, and the situations that the user is too cold and too hot but not aware of the situation (the environment with too cold and too hot is adapted to, but the situation is harmful to the body) are avoided.

Fourth default display case: and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel 1 to display the human body sleep parameters (such as a human body sleep report). For example: if the user does not perform user-defined display, the signal receiving module can also receive parameter functions of a sleep report (namely a human sleep report) of the user generated by the wearable device and the like. Human sleep parameters (e.g., human sleep reports) may include: based on the function of wearing equipment, can detect and output human daily sleep duration, whether have the condition such as standing up, awaken midway, the user can judge whether there is improper condition in oneself air conditioner setting parameter in view of the above.

For example: the method mainly displays airflow organization and air conditioner operation basic parameters under user set parameters, and additionally, if APP access exists, APP function display is added simultaneously, such as human physiological parameters, sleep quality and the like.

Therefore, the large display panel is adopted to automatically display indoor airflow organization according to set temperature, wind speed, air deflector angle and the like, and automatically switch airflow organization pictures according to parameter change, so that the air conditioner is particularly suitable for air conditioners capable of supplying air in a subarea mode, and the problems that a user cannot adjust the air conditioner according to actual requirements in time and understand the core air supply advantages of products and publicize selling points due to the fact that visual blowing states cannot be given to the user in some on-hook machines are solved, and therefore the effects of high intuition and intellectualization are achieved.

Wherein, the specific forms of the operation parameters, the indoor airflow organization information, the operation related parameters and the human body physiological parameters can include at least one of the following forms:

the operating parameters can include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of the air guide plate, and an air blowing mode. The air supply mode can comprise a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans.

For example: receiving basic air conditioner operation parameters set by a user, wherein the basic air conditioner operation parameters mainly comprise: the air conditioner comprises a refrigerating or heating mode, a set temperature, an air speed, an air deflector position and a single left or single right or left and right simultaneous air supply mode. For the zoned air supply air conditioner with double centrifugal fans, a left motor 5 is used for driving a left fan blade (namely a left centrifugal fan blade) 6 to rotate. The left fan volute and the right fan volute are symmetrically distributed and have consistent functions, and only the rotating directions of the left fan blade 6 and the right fan blade 9 are opposite. Wherein, left side motor 5 and right side motor 8 can the independent control, for example when the user is located and only is located left half region, can only let left side motor work, realize the target air supply function, and the air outlet 11 of air conditioner realizes the regional air-out to the left side, makes the regional quick cooling in left side to reach energy-conserving effect. An air inlet 13 (also called an air return inlet) of the air conditioner, the air inlet 13 has three air inlet directions, such as a first air inlet direction, a second air inlet direction and a third air inlet direction, such as an upper air inlet direction 13a, a left air inlet direction 13b and a right air inlet direction 13 c.

The indoor airflow organization information is displayed in a form of a moving picture, that is, the indoor airflow organization information can include a moving picture of indoor airflow organization.

For example: the indoor airflow pattern picture is pre-stored in the storage module in the control unit 1044, is a simulation effect graph verified by experiments, here it should be a graph of the indoor airflow pattern dynamics including combinations of user settable parameters, for the working condition of refrigeration or heating, each set temperature, wind shield, air deflector position and subarea air supply state are all corresponding to a corresponding airflow organization effect diagram, when a user sets operation parameters, the air flow organization effect diagram under the operation parameters is automatically switched, so that the user can visually feel the indoor air flow, the experience feeling and the technological feeling are increased, the user can conveniently adjust the parameters according to the actual requirements to meet the requirements, meanwhile, for some air conditioners (such as the air conditioner capable of supplying air in a partitioned mode) mainly having an air supply effect selling point, a user can intuitively experience the advantages of the product.

The indoor airflow structure in the indoor airflow structure map may include: indoor airflow flowing state. The indoor airflow flowing state can include: in the heating mode, air flows at different indoor positions slide to the rear part of the wall body in a clinging manner, and then exchange heat with the rest indoor air. In a refrigeration mode, airflow at different positions in the room flows out and then slides to the rear part of the room after being attached to the ceiling, and then exchanges heat with the airflow of the rest part in the room.

For example: the indoor airflow organization refers to the indoor airflow flowing state, and is determined by the basic parameters of the air conditioner operation set by the user, such as user setting: the heating working condition, the set temperature is 25 ℃, the superstrong wind shield and the air deflector are in the heating default position (the system program sets the position, if not self-defined, the air deflector automatically rotates to the position during heating), the left fan and the right fan supply air simultaneously, at the moment, when the indoor air flow is stable (the flow condition of the indoor air flow is set under the current parameters after the air conditioner operates for a period of time), the air flow flowing state shown in figure 3 is provided, the condition that the air flow slides to the rear part of the wall body after flowing out of the air conditioner and then exchanges heat with the rest indoor air can be visually seen from figure 3, in addition, the temperature conditions of different indoor positions are shown by arrows with colors in figure 3, and the user can display according to the air flow organization and adjust the parameters meeting the self-requirement.

Of course, the pictures presented here are not necessarily the pictures that can be displayed finally, but only to illustrate the feasibility of indoor airflow organization display, and finally the best motion picture that can be displayed on the display panel 1 can be seen, and the airflow flow can be seen, and the resolution is appropriately higher for the user to see clearly. For the refrigeration working condition set by the user, the temperature is 25 ℃, the super-strong wind shield is set, the air deflector is located at the refrigeration default position, the left fan and the right fan supply air simultaneously, the indoor airflow organization effect is as shown in fig. 4, the visible airflow flows out and then slides to the rear part of the room after clinging to the ceiling, and then exchanges heat with the rest indoor airflow, so that the bathing refrigeration effect is achieved, and the visual experience is given to the user.

The operation-related parameters can include: at least one of current room temperature, set temperature, operation mode, humidity, air conditioner capacity output curve, air conditioner power output curve and air conditioner power consumption.

For example: the display panel 1 defaults to display the indoor airflow organization and the parameters related to the air conditioner operation state under the current set parameters, such as the current room temperature, the set temperature, the operation mode, the humidity, the air conditioner capacity output curve, the air conditioner power consumption and the like, by default on the display panel 1.

The human physiological parameters can include: body temperature, heartbeat.

From this, through the advantage of make full use of big display panel, combine wearing equipment, cell-phone APP etc. output user's physiological parameter, sleep quality aassessment, user-defined picture, air conditioner power consumption etc. realize the richness of function.

Specifically, the control unit 104 can be further configured to determine a custom display mode carried by the custom display request if the custom display request is received, and control the display panel 1 to display according to the custom display mode. The specific function and processing of the control unit 104 are also referred to in step S140.

For example: when the user does not set the operation, the main set content of the system can be displayed, when the user carries out the self-defined picture display, the system can be used as an indoor decorative picture, the user can also close the indoor decorative picture to play the energy-saving role, and the problems that some on-hook displays are stiff, and the operability and the interactivity of the user are poor are solved, so that the high-interactivity and intelligent effect are achieved.

Therefore, according to the scheme of the invention, the front panel of the air conditioner is set as the movable display panel, the control unit 104 of the air conditioner is used for controlling the display content according to the display requirements of the user, the display can be carried out according to the user requirements, the use requirements of the users with different display requirements can be met, and the user experience is good.

In some embodiments, the control unit 104 controls the display panel 1 to display in the custom display mode, which may include any one of the following display cases:

the first custom display case: the control unit 104 can be further configured to control the display panel 1 to statically or dynamically display the custom display picture if the custom display mode is to display the custom display picture sent by the user.

For example: the display panel 1 capable of moving can also customize display pictures according to user requirements, such as: when the function is started by a user, the pictures of the airflow organization, the wearing equipment and the like are not displayed, the user-defined display is taken as the main picture, and the basic parameter display of the air conditioner operation is taken as the auxiliary picture. This function is accomplished by access cell-phone APP mainly, can link to each other with the air conditioner through bluetooth or WIFI, and when 4 in signal receiving module received user's custom demonstration request, then can carry out the demonstration of corresponding picture through 4 in control module control can the display panel 1 of motion, the picture that the user afferent can be stored in the storage module in 4 equally. The user defines a display mode, displays pictures and the like transmitted by the user intelligent equipment, and plays a role in decorating the picture.

The second custom display case: the control unit 104 may be further configured to turn off the display function of the display panel 1 if the user-defined display mode is to turn off the display.

For example: the user can also turn off the display function of the display panel 1 to achieve the effect of saving energy or not disturbing the sleep. That is, the user can turn off the display function to save energy or help sleep at night.

In some embodiments, the display panel 1 is movable, the display panel 1 does not need to be pushed forward to shield an air inlet of the air conditioner when the air conditioner is in an off state, and the display panel 1 can be pushed forward to expose the air inlet (13) of the air conditioner when the air conditioner is in an on state. In particular, the display panel 1 can be moved by pushing out the spacer 12. The push-out partition 12 is connected to the movable display panel 1, and has functions of supporting the display panel 1 and preventing return air.

For example: the air conditioner capable of supplying air in a subarea mode has the display panel 1 capable of being pushed out, the thickness of the display panel 1 is small when the display panel 1 is closed, the air inlet is formed when the display panel 1 is pushed out, the large display panel 1 can meet the requirement of multifunctional display, and the advantage of the subarea air supply is more intuitive due to the airflow organization display function. When the air conditioner is in a shutdown state, the display panel 1 is not pushed out, the display screen does not work, and the air conditioner is not different from some air conditioners in appearance. When the air conditioner is in an operating state, the display panel 1 is pushed forward to expose the air inlet 13, so that indoor air can enter the air conditioner under the action of pressure, and meanwhile, the control unit 1044 controls the display screen to work to display various parameters in the real-time state.

Therefore, the large display panel is adopted to display power consumption, human body physiological parameters, user sleep reports, user-defined images and the like, and the problem that some on-hook displays are single is solved, so that the effect of rich display contents is achieved.

In some embodiments, the display panel 1 can include a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is located between the air conditioner body of the air conditioner and the light-transmitting panel. The display screen can be used for displaying the display content of the air conditioner, and the light-transmitting panel can be used for transmitting the display content of the display screen.

For example: the mechanism at display panel 1 place that can move comprises monoblock big display screen and light-permeable panel, and the shape is square, and the area is fairly, and big display screen is being close to the air conditioner side, and the light-permeable panel is keeping away from the air conditioner side, hugs closely the installation for guaranteeing both display effects. The display screen is a large display screen and is used for displaying pictures such as indoor real-time airflow organization, human physiological parameters, air conditioner running state parameters, air conditioner capacity output curves, air conditioner power consumption, user sleep quality assessment reports and the like, and pictures preset by a system or input by a user in a self-defined mode can also be displayed.

The display of the display panel 1 may include: and adaptively displaying at a corresponding position in the display screen according to the size of the display content, or performing partition display according to a partition area of the display content. For example: the display panel 1 can display the image in blocks according to a predetermined area.

Therefore, the indoor airflow organization and the indoor temperature distribution are displayed in real time. Simultaneously can combine wearing equipment, cell-phone APP etc. equipment, show pictures such as human physiological parameter, air conditioner running state parameter, air conditioner ability output curve, air conditioner power consumption, user's sleep quality aassessment report and the user-defined picture that shows to can realize that intelligence switches or according to the user's custom switching of hobby, richen its function, and promoted intelligence, interaction.

Since the processes and functions implemented by the apparatus of this embodiment substantially correspond to the embodiments, principles, and examples of the method described above, reference may be made to the related descriptions in the foregoing embodiments without being detailed in the description of this embodiment.

Through a large number of tests, the technical scheme of the invention is adopted, the front panel of the air conditioner is set as the movable display panel, the display content is controlled by the control unit of the air conditioner according to the display requirement of a user, and automatic real-time switching can be carried out according to the running state of the air conditioner, so that the intelligent degree and the aesthetic degree are both improved.

According to an embodiment of the present invention, there is also provided an air conditioner corresponding to a display device of the air conditioner. The air conditioner may include: the display device of the air conditioner is described above.

In some schemes, the indoor air conditioner is provided with a display capable of displaying some basic air conditioner parameters such as temperature, humidity and operation conditions, the area of the display is usually very small, the display is usually a straight plate rectangle or has a certain radian, the function is limited, the display can only be used for displaying the basic parameters, and the intelligentization and the attractiveness are not enough.

For example: some air conditioner displays have few displayed contents, generally can display set temperature, wind speed, cooling or heating and the like, and the displayed contents are fixed and cannot be automatically adjusted, so that the intelligent degree is not enough.

For another example: some air conditioner displays have a small display panel, typically only a rectangle with a length and width of 10cm and 7cm, which is embedded in the air conditioner panel to show a more abrupt display compared to a large-area blank area of the air conditioner panel, and thus have a poor appearance.

In some solutions, there are also air conditioners with individual large display panels, but the panels are not changeable, lacking intelligence and interactivity, to customize the picture for the user.

In some schemes, a panel mechanism consisting of a bottom plate, a function plate and a large display plate is provided, besides basic information of air conditioner operation, some pictures preset by a user can be displayed on the display plate to play an aesthetic role, and the scheme has certain interactivity but lacks intelligence and functionality; in addition, the large display panel only has the function of beauty, the cost is increased, and the experience of a user and the intelligence of an air conditioner product are not increased.

In some embodiments, the invention provides an intelligent display mode and an air conditioner with the intelligent display mode. The panel in the scheme of the invention is a large display panel which can be pushed out, the whole panel is a display screen, no display blank area exists, and the display content is rich. Therefore, according to the scheme of the invention, the large display panel is adopted as the display of the air conditioner, and the whole panel is the display screen, so that the problem of inconsistent appearance caused by the fact that only a small part of the display screen is occupied in some on-hook machines is solved, and the effect of high attractiveness is achieved.

According to the scheme of the invention, automatic real-time switching can be performed according to the running state of the air conditioner, so that the intelligent degree and the aesthetic degree are both improved.

Specifically, the air conditioner provided by the scheme of the invention is an air conditioner with a multifunctional display panel and capable of supplying air in a subarea manner, namely a large display panel air conditioner (such as a double-centrifugal subarea air supply air conditioner) capable of supplying air in a subarea manner, has a large display screen capable of being pushed out, and can intelligently display indoor airflow organization conditions, human body physiological parameter conditions, air conditioner operation state parameters, air conditioner capacity output curves, air conditioner power consumption, user sleep quality evaluation reports and the like according to the real-time operation state of the air conditioner, and can display user-defined or system-preset pictures according to the needs of users, so that the intelligence, functionality and interactivity of the air conditioner are improved.

Therefore, according to the scheme of the invention, the large display panel is adopted to automatically display the indoor airflow organization according to the set temperature, the set wind speed, the set angle of the air deflector and the like, and automatically switch the airflow organization picture according to the parameter change, so that the air conditioner is particularly suitable for the air conditioner capable of supplying air in a subarea mode, and the problems that the air conditioner cannot be timely adjusted according to the actual requirement by a user due to the fact that the intuitive air blowing state cannot be given to the user in some on-hook modes, and the core air supply advantages and the propaganda and selling points of products cannot be conveniently understood are solved, so that the effects of high intuition and intellectualization are achieved.

According to the scheme, the large display panel is adopted to display the power consumption, the human body physiological parameters, the user sleep report, the user defined image and the like, and the problem that some on-hook displays are single is solved, so that the effect of rich display contents is achieved.

In some embodiments, the invention further provides an intelligent display control method, which can display main set contents of a system when a user does not perform operation setting, can be used as an indoor decoration picture when the user performs self-defined picture display, can also be turned off to play a role in energy saving, and solves the problems of stiffness in on-hook display and poor user operability and interactivity, thereby achieving the effects of high interactivity and intellectualization.

In contrast, some conventional hanging machines can only display general operating parameters of the air conditioner, such as set temperature, wind speed, starting state, wind sweeping state and the like, so that the intuition degree of users is not high, the users cannot know what the indoor air flows and the indoor temperature and speed distribution state under the current setting, and cannot timely adjust the setting of the air conditioner according to the actual conditions, so that the personalized air supply requirements of the users cannot be practically met. The scheme of the invention can display indoor airflow organization, and a user can visually see the partitioned air supply state and the current indoor air flow, so that the user can conveniently adjust the air supply state according to the own needs, and the personalized air supply requirements of the user can be practically met.

Some proposals increase the richness of the air conditioner panel display function, propose can show functions such as power consumption, human body comfort parameter, user's customized picture, but functional and intelligent still are not enough, and functional not enough shows in can jointly wearing functions such as further output user sleep quality report, human physiological parameter of equipment etc. intelligence not enough shows in can not be according to the current running state of air conditioner, the user still need carry out corresponding picture switching by oneself, and intelligent degree still is not enough. The scheme of the invention can automatically switch the pictures and output the pictures in real time according to the change of the running state of the air conditioner, and has high intelligent degree; according to the scheme, the large display panel can be fully utilized, physiological parameters, sleep quality assessment, user-defined pictures and the like of the user can be output by combining the wearable device, the mobile phone APP and the like, the display content is rich, and the use experience of the user can be improved.

In some embodiments, the scheme of the invention can display the indoor air flowing state, so that a user can intuitively sense the air outlet condition of the air conditioner conveniently, the user can understand the product advantages of some air conditioners with the air supply advantages, such as a zoned air supply air conditioner, and the user can adjust the air conditioner operation parameters in a targeted manner, thereby achieving the purposes of targeted air supply and energy saving. The displayed airflow organization on the air conditioner panel is not common, can be automatically switched along with the set temperature, the set wind speed and the angle change of the air deflector of the air conditioner, gives users visual indoor airflow impression, and is not used for the air conditioner.

According to the scheme of the invention, the picture switching can be automatically carried out according to the change of the set parameters of the air conditioner, manual operation is not needed, and the intelligence is high; the display content is rich, and the display mode is intelligent.

According to the scheme, the advantages of the large display panel can be fully utilized, physiological parameters of a user, sleep quality assessment, user-defined pictures, air conditioner power consumption and the like are output by combining wearable equipment, a mobile phone APP and the like, and function richness is achieved.

The scheme of the invention provides the air conditioner capable of supplying air in a partitioned mode, which is well suitable for the method, the air conditioner is provided with the display panel 1 capable of being pushed out, the thickness of the display panel 1 is small when the display panel 1 is closed, an air inlet is formed when the display panel 1 is pushed out, the requirement of multifunctional display can be met by the large display panel, and the advantage of partitioned air supply is more intuitive due to the airflow organization display function.

In some embodiments, a specific implementation process of the scheme of the present invention is exemplarily described with reference to examples shown in fig. 3 to 7.

The scheme of the invention provides an intelligent display mode and an air conditioner with the same, wherein the intelligent display mainly can display indoor airflow organization and indoor temperature distribution condition in real time; simultaneously can combine wearing equipment, cell-phone APP etc. equipment, show pictures such as human physiological parameter, air conditioner running state parameter, air conditioner ability output curve, air conditioner power consumption, user's sleep quality aassessment report and the user-defined picture that shows to can realize that intelligence switches or according to the user's custom switching of hobby, richen its function, and promoted intelligence, interaction. The air conditioner with the display device is an air conditioner which can be pushed out by a panel and has a large display panel and can supply air in a partitioned mode, the air conditioner can conveniently adjust air conditioner parameters according to the advantages of display products maximized by the display mode, certainly, the intelligent display mode can also be used for other air conditioners, but the corresponding display function needs to be deleted according to the specific structure of the air conditioner, and therefore the air conditioner capable of supplying air in a partitioned mode is introduced as an example in the following implementation mode.

Fig. 3 is a schematic diagram of a complete machine model in a shutdown state, and fig. 4 is a schematic diagram of a complete machine model in a startup state.

In the example shown in fig. 3 and 4, the mechanism where the movable display panel 1 is located is composed of a large display screen and a light-permeable panel, both of which are square in shape and have a similar area, the large display screen is close to the air conditioner, the light-permeable panel is far from the air conditioner, and both are closely mounted to ensure the display effect.

The large display screen is used for displaying pictures such as indoor real-time airflow organization, human body physiological parameters, air conditioner running state parameters, air conditioner capacity output curves, air conditioner power consumption, user sleep quality evaluation reports and the like, and can also display pictures preset by a system or input by a user in a self-defined mode. The display content of the large display screen is determined by the control unit 4, and the control unit 4 comprises a signal receiving module, a storage module and a control module. The light-transmitting panel can transmit the content of the display screen out, so that the work of the display screen is protected; meanwhile, when the display screen does not work, the user is prevented from directly seeing the black display screen, and the attractiveness is prevented from being influenced.

When the air conditioner is in the off state, as shown in fig. 3, the display panel 1 is not pushed out at this time, the display screen does not work, and the air conditioner is not different from some air conditioners in appearance. When the air conditioner is in an operating state, as shown in fig. 4, the display panel 1 is pushed forward to expose the air inlet 13, so that indoor air can enter the air conditioner under the action of pressure, and the control unit 4 controls the display screen to work to display parameters in the real-time state.

In the examples shown in fig. 3 and 4, the three-row heat exchanger 2 and the two-row heat exchanger 3 are heat exchanger structures, and the normal temperature air is blown out after being subjected to sufficient heat exchange with the heat exchangers, so that the function of cooling or heating is achieved. Wherein, compare in double heat exchanger 3, the purpose of setting up three rows of heat exchangers 2 is in order to further promote the heat transfer effect.

In the example shown in fig. 3 and 4, the left motor 5 is used to drive the left fan blade (i.e. the left centrifugal fan blade) 6 to rotate. The left fan volute and the right fan volute are symmetrically distributed and have consistent functions, and only the rotating directions of the left fan blade 6 and the right fan blade 9 are opposite. Wherein, left side motor 5 and right side motor 8 can the independent control, for example when the user is located and only is located left half region, can only let left side motor work, realize the target air supply function, and the air outlet 11 of air conditioner realizes the regional air-out to the left side, makes the regional quick cooling in left side to reach energy-conserving effect.

In the example shown in fig. 3 and 4, the partition 12 is pushed out and connected to the movable display panel 1, and functions to support the display panel 1 and prevent return air. An air inlet 13 (also called an air return inlet) of the air conditioner, the air inlet 13 has three air inlet directions, such as a first air inlet direction, a second air inlet direction and a third air inlet direction, such as an upper air inlet direction 13a, a left air inlet direction 13b and a right air inlet direction 13 c.

In some embodiments, the display modes in the scheme of the invention are roughly divided into three types, such as a first type display state, a second type display state and a third type display state.

Fig. 5 is a schematic view illustrating an effect of the airflow structure in the heating condition, and fig. 6 is a schematic view illustrating an effect of the airflow structure in the cooling condition. The following describes, by way of example, the specific display cases of the three types of display states in conjunction with the examples shown in fig. 5 and 6.

The first type of display state comprises the following specific display process:

when the air conditioner is started, a signal receiving module in the control unit 4 receives basic air conditioner operation parameters set by a user, and the basic air conditioner operation parameters mainly include: the air conditioner comprises a refrigerating or heating mode, a temperature setting mode, an air speed mode, an air deflector position mode, a single left or right or left and right simultaneous air supply mode, a control module in a control unit 4 can control a motor such as a left motor 5 or a right motor or a motor 8 to work at a set rotating speed (if only one side supplies air, one of the left motor 5 or the right motor 8 does not work), and an air outlet 11 outputs air by taking the set temperature as a target variable.

Of course, if the user does not perform the customized display, the display panel 1 displays the indoor airflow organization and the parameters related to the air conditioner operation state under the current setting parameters by default, such as the current room temperature, the setting temperature, the operation mode, the humidity, the air conditioner capacity output curve, the air conditioner power consumption, and the like.

In addition, if the signal receiving module detects that the wearable device is connected, real-time physiological parameters of a human body, such as body temperature, heartbeat and the like, can be additionally displayed, so that a user can conveniently adjust the operation parameters of the air conditioner by reference, and the situations that the user is too cold and too hot but not aware of the user (the environment with too cold and too hot is adapted to, but the environment is harmful to the body) are avoided.

In addition, the signal receiving module can also receive parameter functions such as a sleep report of the user generated by the wearable device.

In concrete implementation, the display of the above functions can be displayed on the display panel 1 in blocks according to a predetermined area.

The indoor airflow organization refers to an indoor airflow flowing state, and is determined by the basic parameters of the air conditioner operation set by the user, such as user setting: the heating working condition, the set temperature is 25 ℃, the superstrong wind shield and the air deflector are positioned at a heating default position (the position is set by a system program, if the system program is not self-defined, the air deflector automatically rotates to the position during heating), the left fan and the right fan simultaneously supply air, at the moment, when indoor air flow is stable (the flowing condition of the indoor air flow is set at present after the air conditioner operates for a period of time), the air flow flowing state shown in figure 5 is provided, the condition that the air flow slides to the rear part of a wall body in a ground-attached mode after flowing out of the air conditioner can be visually seen from figure 5, and then the air flow exchanges heat with other indoor air parts is provided, in addition, the temperature conditions of different indoor positions are shown by arrows with colors in figure 5, and a user can perform parameter adjustment according with self requirements according to the display of the air flow organization.

Of course, the pictures presented here are not necessarily the pictures that can be displayed finally, but only to illustrate the feasibility of indoor airflow organization display, and finally the best motion picture that can be displayed on the display panel 1 can be seen, and the airflow flow can be seen, and the resolution is appropriately higher for the user to see clearly. For the refrigeration working condition set by the user, the temperature is set to be 25 ℃, the super-strong wind shield is arranged, the air deflector is located at the refrigeration default position, the left fan and the right fan supply air simultaneously, the indoor airflow organization effect is as shown in fig. 6, the visible airflow flows out and then slides to the rear part of the room by attaching to the ceiling, and then exchanges heat with the rest indoor airflow, so that the bath type refrigeration effect is achieved, and the intuitive experience is given to the user.

It should be noted that the indoor airflow pattern picture is pre-stored in the storage module of the control unit 4, and is a simulation effect graph verified by experiments, here it should be a graph of the indoor airflow pattern dynamics including combinations of user settable parameters, for the working condition of refrigeration or heating, each set temperature, wind shield, air deflector position and subarea air supply state are all corresponding to a corresponding airflow organization effect diagram, when a user sets operation parameters, the air flow organization effect diagram under the operation parameters is automatically switched, so that the user can visually feel the indoor air flow, the experience feeling and the technological feeling are increased, the user can conveniently adjust the parameters according to the actual requirements to meet the requirements, meanwhile, for some air conditioners (such as the air conditioner capable of supplying air in a partition mode) with main air supply effect selling points, users can also experience the advantages of products visually.

In the first type of display state, the airflow organization and the air conditioner operation basic parameters under the user set parameters are mainly displayed, and in addition, if APP access exists, APP function display is added simultaneously, such as human physiological parameters, sleep quality and the like. The airflow organization effect is shown in fig. 5 or fig. 6, which is the airflow organization under the heating and cooling working conditions, respectively.

In the second display state, of course, the display panel 1 capable of moving can also customize the display picture according to the user's requirement, such as: when the function is started by a user, the pictures of the airflow organization, the wearing equipment and the like are not displayed, the user-defined display is taken as the main picture, and the basic parameter display of the air conditioner operation is taken as the auxiliary picture. This function is accomplished by access cell-phone APP mainly, can link to each other with the air conditioner through bluetooth or WIFI, and when 4 in signal receiving module received user's custom demonstration request, then can carry out the demonstration of corresponding picture through 4 in control module control can the display panel 1 of motion, the picture that the user afferent can be stored in the storage module in 4 equally.

The second type of display state is a user-defined display mode, displays pictures and the like transmitted by the user intelligent equipment, and plays a role in decorating the pictures.

In the third display state 3, the user can also turn off the display function of the display panel 1, so as to achieve the effect of saving energy or not disturbing the sleep. That is, the user can turn off the display function to save energy or help sleep at night.

Fig. 7 is a flowchart illustrating the smart display control. As shown in fig. 7, the intelligent display control flow of the air conditioner capable of blowing air in a partitioned manner may include:

step 1, starting an air conditioner.

And 2, setting operation parameters by a user.

Step 3, judging whether a user self-defines a display state, if so, executing step 4; otherwise, step 5 is executed.

And 4, displaying the user-defined content of the user, and displaying the operation related parameters of the air conditioner. Of course, a user's instruction to turn off the display may be received, and the display may be turned off.

And 5, the operation related parameters of the air conditioner can be displayed, the air flow organization chart can be called to be displayed, and the content of the wearable equipment can be displayed.

Since the processing and functions of the air conditioner of this embodiment are basically corresponding to the embodiments, principles and examples of the devices shown in the foregoing, the description of this embodiment is not given in detail, and reference may be made to the related descriptions in the foregoing embodiments, which are not repeated herein.

Through a large number of tests, the technical scheme of the invention is adopted, the front panel of the air conditioner is set to be the movable display panel, the control unit of the air conditioner is utilized to control the display content according to the display requirement of a user, the air conditioner is applied to a large display panel air conditioner capable of supplying air in a subarea mode (such as a double-centrifugal subarea air supply air conditioner), the large display screen capable of being pushed out is provided, the indoor air flow organization condition, the human body physiological parameter condition, the air conditioner operation state parameter, the air conditioner capacity output curve, the air conditioner power consumption, the user sleep quality evaluation report and the like can be intelligently displayed according to the real-time operation state of the air conditioner, and the function of displaying a picture customized by the user or preset by the system according to the user requirement is realized, so that the intelligence, the functionality and the interactivity of the air conditioner are improved.

According to an embodiment of the present invention, there is also provided a storage medium corresponding to a display method of an air conditioner, the storage medium including a stored program, wherein when the program runs, an apparatus where the storage medium is located is controlled to execute the above-described display method of the air conditioner.

Since the processing and functions implemented by the storage medium of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown in the foregoing, reference may be made to the related descriptions in the foregoing embodiments without being detailed in the description of this embodiment.

Through a large number of tests, the technical scheme of the invention is adopted, the front panel of the air conditioner is set as the movable display panel, the control unit of the air conditioner is utilized to control the display content according to the display requirement of a user, the indoor airflow organization can be displayed, the user can visually see the partitioned air supply state and the current indoor air flow, and the user can conveniently adjust the air conditioner according to the self requirement, so that the personalized air supply requirement of the user can be practically met, which is particularly important for the air conditioner capable of conducting partitioned air supply, the user can conveniently understand the air supply advantage of the product and can conveniently conduct targeted air supply according to the self requirement, and the purpose of really saving energy is achieved.

According to an embodiment of the present invention, there is also provided a processor corresponding to a display method of an air conditioner, the processor being configured to execute a program, wherein the program executes the display method of the air conditioner described above.

Since the processing and functions implemented by the processor of this embodiment substantially correspond to the embodiments, principles, and examples of the method shown above, reference may be made to the related descriptions in the foregoing embodiments without being detailed in the description of this embodiment.

Through a large number of tests, the technical scheme of the invention is adopted, the front panel of the air conditioner is set as the movable display panel, the control unit of the air conditioner is utilized to control the display content according to the display requirements of a user, the picture switching can be automatically carried out according to the change of the running state of the air conditioner, the real-time output is realized, and the intelligent degree is high; according to the scheme, the large display panel can be fully utilized, physiological parameters, sleep quality assessment, user-defined pictures and the like of the user can be output by combining the wearable device, the mobile phone APP and the like, the display content is rich, and the use experience of the user can be improved.

In summary, it is readily understood by those skilled in the art that the advantageous modes described above can be freely combined and superimposed without conflict.

The above description is only an example of the present invention, and is not intended to limit the present invention, and it is obvious to those skilled in the art that various modifications and variations can be made in the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (11)

1. The display method of the air conditioner is characterized in that a front panel of the air conditioner is a display panel (1), the display panel (1) can move, the display panel (1) can shield an air inlet of the air conditioner when the air conditioner is in a shutdown state, and the display panel (1) can be pushed forwards to expose the air inlet (13) of the air conditioner when the air conditioner is in an operation state; the display panel (1) comprises a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is positioned between an air conditioner body of the air conditioner and the light-transmitting panel; the display screen can display the display content of the air conditioner, and the light-transmitting panel can transmit the display content of the display screen; wherein the display of the display panel (1) comprises: performing partition display according to the partition area of the display content; the display method of the air conditioner comprises the following steps:

receiving a target operation parameter of the air conditioner set by a user under the condition that the air conditioner is started;

determining whether a user's custom display request is received;

if the target operation parameters are not received, controlling the display panel (1) to display according to a default display mode;

if the user-defined display request is received, determining a user-defined display mode carried by the user-defined display request, and controlling the display panel (1) to display according to the user-defined display mode;

the front panel of the air conditioner is set as a movable display panel, and the control unit of the air conditioner is used for controlling the display content according to the display requirements of a user.

2. The display method of air conditioner according to claim 1, wherein the controlling the display panel (1) to display in default display mode includes at least one of the following display conditions:

determining indoor airflow organization information of the indoor environment of the air conditioner under the target operation parameters, and controlling the display panel (1) to display the indoor airflow organization information;

determining operation related parameters of the air conditioner under the target operation parameters, and controlling the display panel (1) to display the operation related parameters;

if the human body physiological parameters sent by the human body wearing equipment are received, controlling the display panel (1) to display the human body physiological parameters;

and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel (1) to display the human body sleep parameters.

3. The display method of the air conditioner according to claim 2, wherein the specific form of the operation parameter, the indoor airflow organization information, the operation related parameter, and the human physiological parameter includes at least one of the following forms:

the operating parameters include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of an air deflector, and an air supply mode; the air supply mode comprises a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans;

the indoor airflow organization information comprises an indoor airflow organization map;

the indoor airflow organization in the indoor airflow organization map comprises: indoor airflow flowing state; the indoor airflow flow state includes: in the heating mode, airflow at different indoor positions slides to the rear part of the wall body in a clinging manner, and then exchanges heat with the rest indoor air; in a refrigeration mode, airflow at different positions in the room flows out, then slides to the rear part of the room after clinging to a ceiling, and then exchanges heat with the airflow of the rest part in the room;

the operation-related parameters include: at least one of the current room temperature, the set temperature, the operation mode, the humidity, an air conditioner capacity output curve, an air conditioner power output curve and air conditioner power consumption;

the human physiological parameters comprise: body temperature, heartbeat.

4. The display method of the air conditioner according to claim 1, wherein the controlling the display panel (1) to display according to the custom display mode comprises any one of the following display conditions:

if the user-defined display mode is to display a user-defined display picture sent by a user, controlling the display panel (1) to statically or dynamically display the user-defined display picture;

and if the user-defined display mode is to close the display, closing the display function of the display panel (1).

5. The display device of the air conditioner is characterized in that a front panel of the air conditioner is a display panel (1), the display panel (1) can move, the display panel (1) can shield an air inlet of the air conditioner when the air conditioner is in a shutdown state, and the display panel (1) can be pushed forwards to expose the air inlet (13) of the air conditioner when the air conditioner is in an operation state; the display panel (1) comprises a display screen and a light-transmitting panel, the display screen is attached to the light-transmitting panel, and the display screen is positioned between an air conditioner body of the air conditioner and the light-transmitting panel; the display screen can display the display content of the air conditioner, and the light-transmitting panel can transmit the display content of the display screen; wherein the display of the display panel (1) comprises: performing partition display according to the partition area of the display content; the display device of the air conditioner includes:

a communication unit configured to receive a target operation parameter of the air conditioner set by a user in a case where the air conditioner is turned on;

a control unit configured to determine whether a user's custom display request is received;

the control unit is also configured to control the display panel (1) to display according to a default display mode if the target operation parameters are not received;

the control unit is also configured to determine a custom display mode carried by the custom display request if the custom display request is received, and control the display panel (1) to display according to the custom display mode;

the front panel of the air conditioner is set as a movable display panel, and the control unit of the air conditioner is used for controlling the display content according to the display requirements of a user.

6. The display device of air conditioner according to claim 5, wherein the control unit controls the display panel (1) to display in a default display mode, including at least one of the following display conditions:

determining indoor airflow organization information of the indoor environment of the air conditioner under the target operation parameters, and controlling the display panel (1) to display the indoor airflow organization information;

determining operation related parameters of the air conditioner under the target operation parameters, and controlling the display panel (1) to display the operation related parameters;

if the human body physiological parameters sent by the human body wearing equipment are received, controlling the display panel (1) to display the human body physiological parameters;

and if the human body sleep parameters generated and sent by the human body wearing equipment are received, controlling the display panel (1) to display the human body sleep parameters.

7. The display device of air conditioner according to claim 6, wherein the specific form of the operation parameter, the indoor airflow pattern information, the operation related parameter, and the human physiological parameter includes at least one of the following forms:

the operating parameters include: at least one of a cooling or heating mode, a set temperature, a wind speed, a position of an air deflector, and an air supply mode; the air supply mode comprises a left area independent air supply mode, a right area independent air supply mode or a left area and right area simultaneous air supply mode under the condition that the air conditioner is a partition air supply air conditioner with double centrifugal fans;

the indoor airflow organization information comprises an indoor airflow organization dynamic graph;

the indoor airflow organization in the indoor airflow organization map comprises: indoor airflow flowing state; the indoor airflow flow state includes: in the heating mode, airflow at different indoor positions slides to the rear part of the wall body in a clinging manner, and then exchanges heat with the rest indoor air; in a refrigeration mode, airflow at different positions in the room flows out, then slides to the rear part of the room after clinging to a ceiling, and then exchanges heat with the airflow of the rest part in the room;

the operation-related parameters include: at least one of the current room temperature, the set temperature, the operation mode, the humidity, an air conditioner capacity output curve, an air conditioner power output curve and air conditioner power consumption;

the human physiological parameters comprise: body temperature, heartbeat.

8. The display device of air conditioner according to claim 5, wherein the control unit controls the display panel (1) to display according to the custom display mode, and the display condition comprises any one of the following display conditions:

if the user-defined display mode is to display a user-defined display picture sent by a user, controlling the display panel (1) to statically or dynamically display the user-defined display picture;

and if the user-defined display mode is to close the display, closing the display function of the display panel (1).

9. An air conditioner, comprising: the display device of the air conditioner according to any one of claims 5 to 8.

10. A storage medium characterized by comprising a stored program, wherein an apparatus in which the storage medium is located is controlled to execute the display method of the air conditioner according to any one of claims 1 to 4 when the program is executed.

11. A processor for executing a program, wherein the program executes to execute the display method of the air conditioner according to any one of claims 1 to 4.

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