CN111609468A - Vortex ring generating apparatus control method, air conditioner, and computer-readable storage medium - Google Patents

Abstract

The embodiment of the application discloses a control method of a vortex ring generating device, an air conditioner and a computer readable storage medium, and the embodiment of the application can acquire a control instruction for controlling the vortex ring generating device; determining the operating parameters of the vortex ring generating device according to the control command; and controlling the vortex ring generating device to operate according to the operating parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device. This scheme is through setting up vortex ring generating device to through the actuating mechanism who is connected with vortex ring generating device based on control command, automatic control vortex ring generating device moves according to definite operating parameter, the convenience to vortex ring generating device control has been improved, and make the air form the vortex ring air current when vortex ring generating device follow air outlet discharge, can effectively enlarge the air supply scope and the air supply distance of air conditioner, under same air supply distance, the required wind speed of vortex ring generating device is less, thereby can reduce the energy consumption.

Description

Vortex ring generating apparatus control method, air conditioner, and computer-readable storage medium

Technical Field

The application relates to the technical field of air conditioners, in particular to a vortex ring generation device control method, an air conditioner and a computer readable storage medium.

Background

With the rapid development of science and technology and the improvement of living standard of people, household appliances such as fans or air conditioners are becoming more and more popular. In the prior art, in the process of using the air conditioner, generally, a user adjusts operating parameters of the air conditioner, such as temperature, air volume, wind direction and the like, through a remote controller, so that the air conditioner can operate based on the operating parameters, for example, the user needs to enter a parameter adjusting mode through the remote controller, and manually adjusts the parameters, so that the control of the air conditioner is complicated. In addition, the conventional air conditioner is used for supplying air conventionally, air enters the air conditioner from the air inlet and is blown out from the air outlet after heat exchange, and the air flow blown out by the mode is fixed, the radiation range is narrow, the air supply distance is short, the energy consumption is high and the like, so that the air conditioner is very inconvenient to use.

Disclosure of Invention

The embodiment of the application provides a control method of a vortex ring generating device, an air conditioner and a computer readable storage medium, which can improve the convenience of controlling the vortex ring generating device.

In a first aspect, an embodiment of the present application provides a method for controlling a vortex ring generator, where the method is applied to an air conditioner, and the method includes:

acquiring a control instruction for controlling the vortex ring generating device;

determining the operating parameters of the vortex ring generating device according to the control command;

and controlling the vortex ring generating device to operate according to the operating parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

In a second aspect, an embodiment of the present application further provides an air conditioner, including:

a vortex ring generating device;

the control method comprises a memory and a processor, wherein the memory stores a computer program, and the processor executes any control method of the vortex ring generation device provided by the embodiment of the application when calling the computer program in the memory.

In a third aspect, an embodiment of the present application further provides a computer-readable storage medium, where the computer-readable storage medium is used for storing a computer program, and the computer program is loaded by a processor to execute any one of the control methods for a vortex ring generation apparatus provided in the embodiments of the present application.

The control instruction for controlling the vortex ring generating device can be obtained, the operating parameter of the vortex ring generating device is determined according to the control instruction, and the vortex ring generating device is controlled to operate according to the operating parameter through the driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device. This scheme is through setting up vortex ring generating device to through the actuating mechanism who is connected with vortex ring generating device based on control command, automatic control vortex ring generating device moves according to definite operating parameter, the convenience to vortex ring generating device control has been improved, and make the air form the vortex ring air current when vortex ring generating device follow air outlet discharge, can effectively enlarge the air supply scope and the air supply distance of air conditioner, under same air supply distance, the required wind speed of vortex ring generating device is less, thereby can reduce the energy consumption.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic front view of an air conditioner indoor unit according to an embodiment of the present disclosure;

fig. 2 is an exploded schematic view of an air conditioning indoor unit according to an embodiment of the present disclosure;

FIG. 3 is a schematic cross-sectional view A-A of FIG. 1;

FIG. 4 is a schematic cross-sectional view B-B of FIG. 1;

FIG. 5 is an enlarged view of a portion of FIG. 4 at C;

FIG. 6 is an exploded schematic view of the vortex ring generator, the first drive mechanism, and the second drive mechanism;

fig. 7 is a schematic flowchart of an air conditioner operation control method according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an air conditioner provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. 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 application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

Embodiments of the present application provide a vortex ring generation apparatus control method, an air conditioner, and a computer-readable storage medium. The method for controlling the vortex ring generating device can be applied to an air conditioner provided with the vortex ring generating device, wherein the air conditioner can comprise an indoor unit, an outdoor unit and the like, the vortex ring generating device is arranged in the indoor unit of the air conditioner, and the indoor unit of the air conditioner is described in detail below.

Referring to fig. 1 to 3, a first aspect of the present disclosure provides an indoor unit 100 of an air conditioner, where the indoor unit 100 of the air conditioner may include a casing 10, a vortex ring generating device 20, a first driving mechanism 30, a second driving mechanism 40, a wind driving mechanism 50, a heat exchanger 60, and the like. The casing 10 has an inner cavity 101, an air inlet 102 and an air outlet 103, and both the air inlet 102 and the air outlet 103 are communicated with the inner cavity 101. The vortex ring generating device 20 is disposed at the air outlet 103. The first driving mechanism 30 is installed at the air outlet 103 and connected to the vortex ring generator 20, and the first driving mechanism 30 is used for driving the vortex ring generator 20 to swing left and right. The second driving mechanism 40 is mounted on the first driving mechanism 30, and the second driving mechanism 40 is used for driving the vortex ring generator 20 to slide up and down in the vertical direction. The wind-driving mechanism 50 is installed in the inner cavity 101, and the wind-driving mechanism 50 is used for driving air to enter the inner cavity 101 from the wind inlet 102 and diffuse out from the wind outlet 103. The heat exchanger 60 is installed between the air inlet 101 and the air driving mechanism 50, and the heat exchanger 60 is used for exchanging heat and reducing the temperature of the air entering the inner cavity 101.

The indoor unit 100 of the air conditioner disclosed in this embodiment has two operation modes, wherein one of the operation modes is an operation mode of a conventional air conditioner, that is, when the vortex ring generating device 20 does not operate, the air driving mechanism 50 drives air to enter the inner cavity 101 from the air inlet 102, and diffuse out from the air outlet 103 after passing through the heat exchanger 60, so as to cool the surrounding environment. In another operating mode, when the wind driving mechanism 50 is in operation, the vortex ring generator 60 is also in operation, and air entering the inner cavity 101 from the wind inlet 102 is diffused out from the wind outlet 103 under the action of the vortex ring generator 20 to cool the surrounding environment.

In the indoor unit 100 of an air conditioner according to the first aspect of the present application, by providing the vortex ring generating device 20, the air forms a vortex ring airflow when the air passes through the vortex ring generating device 20 and is discharged from the air outlet 103, the air supply range and the air supply distance of the indoor unit of an air conditioner can be effectively extended, and, under the same air supply distance, the required wind speed of the vortex ring generating device 20 is smaller, so that the energy consumption can be reduced, in addition, the wind feeling of the vortex ring airflow formed by the vortex ring generating device 20 is weak, the user can have better experience of blowing, and further, by arranging the first driving mechanism 30 for driving the vortex ring generating device 20 to swing left and right and the second driving mechanism 40 for driving the vortex ring generating device 20 to slide up and down in the vertical direction, in this way, the vortex ring generating device 20 can realize large-range and multi-angle directional air supply, further meets the requirements of users, and has larger market space.

It should be noted that, in some alternative embodiments, the air conditioning indoor unit 100 may not be provided with the second driving mechanism 40, and the vortex ring generating device 20 is only swung left and right by the first driving mechanism 30.

Referring to fig. 3, in an alternative embodiment, the housing 10 includes a front housing 11 and a rear cover 12. The front housing 11 includes a front plate 111, a first surrounding wall 112 surrounding the edge of the front plate 111, a second surrounding wall 113 disposed inside the first surrounding wall 112, and a third surrounding wall 114 disposed inside the first surrounding wall 112, the second surrounding wall 113 is located below the third surrounding wall 114, the second surrounding wall 113 surrounds the air inlet 102, the third surrounding wall 114 surrounds the air outlet 103, and the first mechanism 30 is mounted on the third surrounding wall 114. The back cover 12 includes a back plate 121 and a fourth wall 122 surrounding the edge of the back plate 121, the fourth wall 122 is abutted to the first wall 112, and the front plate 111, the first wall 112, the back plate 121, and the fourth wall 122 surround to form an inner cavity 101.

In an alternative embodiment, the rear cover 12 further includes a fifth wall 123 disposed inside the fourth wall 122, and the fifth wall 123 is opposite to the third wall 114 and spaced inside the third wall 114. The fourth surrounding wall 122 and the fifth surrounding wall 123 surround to form an airflow channel, and the air entering the inner cavity 101 from the air inlet 102 is blown out to the outside from the airflow channel formed by the surrounding of the fourth surrounding wall 122 and the fifth surrounding wall 123. The arrangement mode reduces the cross sectional area of the airflow blown out, so that the airflow blown out from the air outlet 103 can have a larger flow speed under the condition of low-power operation of the wind driving mechanism 50, and the effect of reducing energy consumption is achieved.

In an optional embodiment, the chassis 10 further includes an air duct 13, the air duct 13 includes a panel 131, a sixth surrounding wall 132 surrounding the edge of the panel 131, and a seventh surrounding wall 133 spaced from the inside of the sixth surrounding wall 132, the sixth surrounding wall 132 is connected to the back plate 121, and the seventh surrounding wall 133 is disposed around the outside of the third surrounding wall 114 and spaced from the back plate 121. The air duct 13 also serves to intensively convey the air entering the inner cavity 101 from the air inlet 102 to the air outlet 103 for blowing out, thereby reducing energy consumption.

In an alternative embodiment, the sixth wall 132 has an opening 1321, and the wind-driving mechanism 50 is installed in the inner cavity 101 for driving air to flow from the wind inlet 102 to the opening 1321, and enter the wind tunnel 13 from the opening 1321, so as to form an air flow channel from the fourth wall 122 and the fifth wall 123 to blow out to the outside.

In an alternative embodiment, the air outlet 103 enclosed by the third wall 114 is gradually enlarged, so as to increase the radiation range of the indoor unit 100.

Referring to FIGS. 3-6, in an alternative embodiment, the vortex ring generator 20 includes a vortex ring support 21, a vortex ring assembly back cover 22, and a vortex ring generator 23. The vortex ring support 21 and the vortex ring device rear cover 22 enclose to form an accommodating cavity 104, the vortex ring support 21 is provided with an opening 211 communicated with the accommodating cavity 104, the direction of the opening 211 is consistent with the direction of the air outlet 103, and the vortex ring generator 23 is installed in the accommodating cavity 104 and covers the opening 211. Illustratively, the vortex ring generator 23 employs a piezoelectric film, which vibrates to form a vortex ring airflow that is diffused out of the opening 211 during operation.

In an alternative embodiment, the first drive mechanism 30 includes a frame 31 and a first motor 32. The frame 31 is rotatably connected to the housing 10, the vortex ring generator 20 is mounted to the frame, the first motor 32 is mounted to the housing 10 and connected to the frame 31, and the first motor 32 is configured to drive the frame 31 to swing left and right, thereby driving the vortex ring generator 20 to swing left and right.

In an alternative embodiment, the housing 31 includes a front frame 311 and a rear cover 312. The two ends of the front frame 311 are provided with a shaft 313, the shaft 313 is rotatably connected with the casing 10, specifically, the shaft 313 is rotatably connected with the third surrounding wall 114, the first motor 32 is connected with one of the shaft 313, and the vortex ring generator 20 is installed on the front frame 311. The rear cover 312 is mounted on a side of the front frame 311 away from the outlet 103. It should be noted that in some alternative embodiments, the frame 31 may be provided with only the front frame 311 and not the rear cover 312.

For example, the shaft 313 may be rotatably connected to the housing 10 through a bearing, and specifically, a bearing mounting hole is provided on the housing 10, the bearing is embedded in the bearing mounting hole, and the shaft 313 is inserted into an inner ring of the bearing.

In an alternative embodiment, the front frame 311 has a vertically disposed sliding slot 105, the vortex ring generator 20 is slidably mounted in the sliding slot 105, the second driving mechanism 40 is mounted on the front frame 311 and connected to the vortex ring generator 20, and the second driving mechanism 40 is used for driving the vortex ring generator 20 to slide up and down along the sliding slot 105.

In an alternative embodiment, the second driving mechanism 40 includes a rack 41, a gear 42, and a second motor 43. Wherein, the rack 41 is vertically installed on the inner sidewall of the front frame 311, the gear 42 is engaged with the rack 41, and the second motor 43 is installed on the vortex ring generating device 20 and connected with the gear 42. During operation, the second motor 43 rotates to drive the gear 42 to rotate, the rotating gear 42 moves up and down on the rack 41, the gear 42 moving up and down drives the second motor 43 to move up and down, and the motor 43 moving up and down drives the whole vortex ring generator 20 to slide up and down along the sliding groove 105.

It will be appreciated that the second drive mechanism 40 is not limited to the rack and pinion arrangement described above, and that it is also possible for the second drive mechanism to be a ball screw or belt drive or linear motor, for example.

In an alternative embodiment, the side of the scroll ring support 21 is provided with a notch 212, the second motor 43 is mounted on the scroll ring device rear cover 22, and the gear 42 is connected to the second motor 43 and partially extends out of the receiving cavity 104 through the notch 212 to engage with the rack 41 mounted on the inner side wall of the front frame 311.

Referring again to fig. 2, in an alternative embodiment, the wind driving mechanism 50 includes a volute 51 and a wind wheel assembly 52, the volute 51 has a wind chamber 511, a wind suction port 512 and a wind discharge port 513, the wind suction port 512 and the wind discharge port 513 are connected to the wind chamber 511, and the wind wheel assembly 52 is installed in the wind chamber 511 for driving air to enter the wind chamber 511 from the wind suction port 102 and then to be discharged from the wind discharge port 513. The exhaust vents 513 interface with the aforementioned openings 1321 to drive air into the air duct 13.

In an alternative embodiment, the indoor unit 100 further includes a water collector 70, and the water collector 70 is installed right under the heat exchanger 60 to collect condensed water dropping from the heat exchanger 60.

In an alternative embodiment, the indoor unit 100 of the air conditioner further includes an air inlet grille 80, the air inlet grille 80 is installed at the air inlet 102, and the air inlet grille 80 at least has a function of blocking outside impurities from entering the inner cavity 101.

In a second aspect of the present application, an air conditioner 200 is provided, where the air conditioner 200 includes an outdoor unit and the indoor unit 100. The indoor unit 100 is connected to an outdoor unit of an air conditioner through a refrigerant pipe.

Referring to fig. 7, fig. 7 is a schematic flow chart illustrating a control method for a vortex ring generator according to an embodiment of the present disclosure. The vortex ring generation device control method may include steps S101 to S103, and the like, and specifically may be as follows:

s101, a control command for controlling the vortex ring generating device is obtained.

In some embodiments, obtaining control instructions for control of the vortex ring generating device may include: acquiring an identifier of a user in an indoor place where an air conditioner is located, and generating a display strategy according to the identifier of the user; displaying candidate operating parameters of the vortex ring generation device in a display interface according to a display strategy; and receiving a control instruction input by a user based on the displayed candidate operation parameters.

In order to improve the personalization of the control instruction acquisition, an identification of a user in the room where the air conditioner is located may be acquired, the user may be a user who controls the vortex ring generating device, and the identification of the user may be identification information of the user, for example, a name or a number of the user. For example, the air conditioner may collect an image including a face of a user through a preset camera, and recognize the face of the user according to the image, so that the user identifier may be determined. Or the air conditioner can acquire the fingerprint information of the user through a preset fingerprint acquisition module and determine the identification of the user according to the fingerprint information. Or the air conditioner can acquire the voice information of the user through a preset voice print acquisition module and determine the identification of the user according to the voice information.

Because different users may have different display requirements, the mapping relationship between the identifiers of different users and the display policy can be established in advance, wherein the display policy can be flexibly set according to actual needs, and specific contents are not limited here. For example, a display policy 1 corresponding to the identifier a of the user a is used for dynamically displaying the candidate operating parameters, a display policy 2 corresponding to the identifier B of the user B is used for displaying the candidate operating parameters in an animation mode according to a preset interval, and a display policy 3 corresponding to the identifier C of the user C is used for displaying the candidate operating parameters in a red font according to a preset shape; and so on.

After the user identifier is obtained, a display strategy corresponding to the identifier can be determined according to the user identifier, and candidate operation parameters of the vortex ring generation device are displayed in a display interface according to the display strategy, wherein the candidate operation parameters can include operation power, a work cycle, an air supply area, a vortex ring array, an air supply angle, an operation track and the like of the vortex ring generation device. Or, the air conditioner may send the display instruction carrying the display policy to a mobile terminal such as a mobile phone, a tablet computer, or a robot, so that the mobile terminal displays the candidate operating parameters of the vortex ring generation device in the display interface according to the display policy based on the display instruction. Or the mobile terminal can broadcast the candidate operating parameters of the vortex ring generation device through voice so as to be convenient for the user to view. The user can select the candidate operation parameters in the display interface, and at this time, a control instruction generated by inputting a click operation or a sliding operation and the like by the user based on the displayed candidate operation parameters can be received.

In some embodiments, obtaining control instructions for control of the vortex ring generating device may include: detecting a gesture of a user; and generating a control instruction for controlling the vortex ring generating device according to the gesture of the user.

In order to improve the flexibility of acquiring the control instruction, a user can control the vortex ring generation device through gestures. Specifically, mapping relationships between different gestures of different users and different control instructions may be preset, for example, the gesture a of the user a corresponds to the control instruction 1, the gesture B of the user a corresponds to the control instruction 2, and the gesture a of the user B corresponds to the control instruction 3. The air conditioner can acquire an image containing a user gesture through a preset camera, detect the user gesture according to the image, and determine a control instruction for controlling the vortex ring generation device, which is generated by the user gesture, according to the mapping relation. For example, the fist gesture correspondingly increases the operating power of the vortex ring generating device, the gestures of waving hands left and right correspondingly adjust the air supply angle of the vortex ring generating device, and the larger the amplitude of waving hands is, the larger the corresponding air supply angle is; and so on.

In some embodiments, obtaining control instructions for control of the vortex ring generating device may include: collecting voice information of a user; and generating a control command for controlling the vortex ring generating device according to the voice information.

In order to improve the convenience of acquiring the control instruction, a user can control the vortex ring generation device through voice. Specifically, the air conditioner can collect voice information of a user through a preset microphone or a voice collecting device, and generate a control instruction for controlling the vortex ring generating device according to the voice information. For example, "only air is supplied to me" to adjust the air supply range of the vortex ring generating device to the area where the user is located, "increase the air volume" to increase the air volume of the vortex ring generating device; and so on.

In some embodiments, obtaining control instructions for control of the vortex ring generating device may include: receiving fingerprint information input by a user; and generating a control command for controlling the vortex ring generating device according to the fingerprint information.

In order to improve the accuracy of control instruction acquisition, a user can control the vortex ring generation device through fingerprints. Specifically, the correspondence between different fingerprint information of different users and different control instructions may be preset, for example, the fingerprint information of the right index finger of user a corresponds to control instruction 1, the fingerprint information of the left thumb of user a corresponds to control instruction 2, the fingerprint information of the right index finger of user B corresponds to control instruction 3, and so on. The air conditioner can acquire the fingerprint information of a user through a preset fingerprint acquisition device, and determines a control instruction for controlling the vortex ring generation device corresponding to the acquired fingerprint information according to the corresponding relation.

It should be noted that, in order to improve the flexibility of acquiring the control command, the user may control the vortex ring generating device through the posture. Specifically, the corresponding relations between different body states of different users and different control instructions may be preset, the air conditioner may collect the body states of the users through a preset body state collecting device, and the control instruction for controlling the vortex ring generating device corresponding to the collected body states is determined according to the corresponding relations of the body states. Alternatively, the user may control the vortex ring generating means through the iris. Specifically, the corresponding relationship between different irises of different users and different control instructions may be preset, and the air conditioner may determine the control instruction for controlling the vortex ring generating device corresponding to the input iris according to the corresponding relationship of the irises by receiving the irises input by the user. Alternatively, the user may control the vortex ring generating means through the palm vein. Specifically, the corresponding relations between different palm veins of different users and different control instructions may be preset, and the air conditioner may determine, according to the corresponding relations between the palm veins and the palm veins, the control instruction for controlling the vortex ring generating device corresponding to the input palm veins by receiving the palm veins input by the user.

And S102, determining the operation parameters of the vortex ring generation device according to the control command.

In some embodiments, determining the operating parameter of the vortex ring generating device according to the control instruction may include: and determining the operation power, the work cycle, the air supply area, the vortex ring array, the air supply angle and the operation track of the vortex ring generation device according to the control command to obtain the operation parameters of the vortex ring generation device.

The operation parameters of the vortex ring generating device may include operation power, a work cycle, an air supply area, a vortex ring array, an air supply angle, an operation track, and the like, the power of the vortex ring generating device may include a vibration frequency, a vibration amplitude, and the like, the vortex ring array may be the number of vortex rings in the vortex ring generating device and position points where each vortex ring is arranged, and the operation track may include the moving directions and moving distances of the vortex ring generating device in the up-down direction, the left-right direction, and the like. After the control instruction is obtained, the operation parameters of the vortex ring generating device, such as the operation power, the work period, the air supply area, the vortex ring array, the air supply angle, the operation track and the like, can be determined according to the control instruction.

And S103, controlling the vortex ring generating device to operate according to the operation parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

The driving mechanism may include the first driving mechanism and the second driving mechanism, etc. as described above, the first driving mechanism is installed at the air outlet and connected to the vortex ring generating device, and the first driving mechanism is used for driving the vortex ring generating device to swing left and right. The second driving mechanism is arranged on the first driving mechanism and used for driving the vortex ring generating device to slide up and down in the vertical direction.

After determining the operating parameters of the vortex ring generating device, the vortex ring generating device may be controlled to operate according to the operating parameters, wherein the operation may include an on-state, an off-state, an on-state, or the like. For example, the first driving mechanism of the indoor unit of the air conditioner drives the vortex ring generating device to swing left and right to move to a proper position and supply air according to the operation parameters, or the second driving mechanism of the indoor unit of the air conditioner drives the vortex ring generating device to slide up and down in the vertical direction to move to a proper position and supply air according to the operation parameters; and so on.

In some embodiments, controlling the operation of the vortex ring generating device according to the operation parameters by a driving mechanism preset by the air conditioner and connected with the vortex ring generating device may include: outputting the operation parameters; receiving a determination instruction input by a user based on the operation parameters; and controlling the vortex ring generating device to operate according to the operating parameters based on the determined instruction through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

For example, the air conditioner can broadcast the operation parameters through a preset voice module by voice, or display the operation parameters through a preset display screen, or display the operation parameters through a display screen of a remote controller, so that the user can check the operation parameters. At this time, if the user agrees to operate according to the operation parameters, the user can input a determination instruction through a remote controller or input the determination instruction through voice or gestures, and the vortex ring generation device is controlled to operate according to the operation parameters based on the determination instruction through a driving mechanism connected with the vortex ring generation device. If the user does not agree to operate according to the operation parameters, a cancel instruction can be input, and the vortex ring generation device is controlled to maintain the current operation parameters to operate according to the cancel instruction.

In some embodiments, outputting the operating parameter, and receiving a determination instruction input by a user based on the operating parameter may include: acquiring an identifier of a user, and generating a display strategy according to the identifier and the operation parameters; sending a display instruction carrying a display strategy to the mobile terminal so that the mobile terminal displays the operation parameters according to the display strategy in the display interface based on the display instruction; and receiving a determining instruction sent by the mobile terminal, wherein the determining instruction is generated for a triggering operation input by a user in the display interface.

In order to improve the flexibility of the air conditioner control, after determining the operation parameters of the vortex ring generation device, the air conditioner obtains the user identification, which may be the user identity information, such as the name or number of the user. The air conditioner can acquire images containing the faces of the users through a preset camera, and the faces of the users are identified according to the images, so that the identification of the users can be determined. Or the air conditioner can acquire the fingerprint information of the user through a preset fingerprint acquisition module and determine the identification of the user according to the fingerprint information. Or the air conditioner can acquire the voice information of the user through a preset voice print acquisition module and determine the identification of the user according to the voice information.

Because different users may have different display requirements, the mapping relationship between the identifiers of different users and the display policy can be established in advance, wherein the display policy can be flexibly set according to actual needs, and specific contents are not limited here. For example, a display policy 1 corresponding to the identifier a of the user a is a dynamic display operation parameter, a display policy 2 corresponding to the identifier B of the user B is a display operation parameter in an animation form according to a preset interval, and a display policy 3 corresponding to the identifier C of the user C is a display operation parameter in a red font according to a preset shape; and so on.

After the identification of the user is obtained, a display strategy corresponding to the identification can be determined according to the identification and the operation parameters of the user, and then a display instruction carrying the display strategy is sent to a mobile terminal such as a mobile phone, a tablet computer or a robot, so that the mobile terminal displays the operation parameters in the display interface according to the display strategy based on the display instruction. Or the mobile terminal can broadcast the operation parameters through voice so as to be convenient for the user to view. At this time, if the user agrees to operate according to the operation parameters, a determination instruction may be generated by a trigger operation input in the display interface of the mobile terminal, or a determination instruction may be input through voice or gesture, and at this time, the air conditioner may receive the determination instruction sent by the mobile terminal, and control the operation of the vortex ring generation device based on the operation parameters according to the determination instruction.

In some embodiments, controlling the operation of the vortex ring generating device according to the operation parameters by a driving mechanism preset by the air conditioner and connected with the vortex ring generating device may include: acquiring natural wind of an environment where an air conditioner is located and/or wind direction and wind quantity of a fan; adjusting the operation parameters according to natural wind and/or the wind direction and the wind quantity of the fan to obtain target operation parameters; and controlling the vortex ring generating device to operate according to target operation parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

Because natural wind or fan blowing may exist in the environment where the air conditioner operates, in order to avoid that the air conditioner supplies air against the natural wind or the fan, so that the air conditioner cannot achieve the required effect, and the energy consumption of the air conditioner is wasted, whether the natural wind exists in the indoor environment where the air conditioner is located and whether the fan is started or not is detected at the moment, when the natural wind and/or the fan is started, the natural wind of the environment where the air conditioner is located and the wind direction, the wind quantity and the like of the fan and the like can be detected through a wind speed detector and the like, then the operation parameters can be adjusted according to the wind direction and the wind quantity of the natural wind and/or the fan, so as to obtain target operation parameters, the target operation parameters can comprise the operation power, the work cycle, the air supply area, the vortex ring array, the air supply angle, the operation track and the, and controlling the vortex ring generating device to operate according to the target operation parameters so as to prevent the air conditioner from feeding air against natural wind or a fan.

In some embodiments, after controlling the operation of the vortex ring generating device according to the operation parameters by a driving mechanism preset by the air conditioner and connected with the vortex ring generating device, the air conditioner operation control method may further include: acquiring the change state of a user at preset time intervals; and adjusting the operation parameters according to the change state, and controlling the operation of the vortex ring generation device according to the adjusted operation parameters.

In order to improve the accuracy of air conditioner control, the change state of a user can be acquired in time to dynamically adjust the operation parameters of the vortex ring generation device. Specifically, the change state of the user can be obtained at preset time intervals, the preset time can be flexibly set according to time requirements, and then the operation parameters can be adjusted according to the change state of the user to obtain target operation parameters, for example, when the state of the user is changed from a sitting state to a moving state, the temperature of the vortex ring generating device can be increased by a preset value; when the state of the user is changed from the sitting state to the sleeping state, the temperature of the vortex ring generating device can be reduced by a preset value; when the user state is changed from the head-washing state to the head-washing state, the air supply direction of the vortex ring generating device can be aligned to the head of the user; and so on. At this time, the vortex ring generating device can be controlled to operate according to the adjusted operating parameters.

The control instruction for controlling the vortex ring generating device can be obtained, the operating parameter of the vortex ring generating device is determined according to the control instruction, and the vortex ring generating device is controlled to operate according to the operating parameter through the driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device. This scheme is through setting up vortex ring generating device to through the actuating mechanism who is connected with vortex ring generating device based on control command, automatic control vortex ring generating device moves according to definite operating parameter, the convenience to vortex ring generating device control has been improved, and make the air form the vortex ring air current when vortex ring generating device follow air outlet discharge, can effectively enlarge the air supply scope and the air supply distance of air conditioner, under same air supply distance, the required wind speed of vortex ring generating device is less, thereby can reduce the energy consumption.

Referring to fig. 8, fig. 8 is a schematic block diagram of an air conditioner according to an embodiment of the present disclosure.

As shown in fig. 8, the air conditioner 300 may include a processor 302, a memory 303, and a communication interface 304 connected by a system bus 301, wherein the memory 303 may include a nonvolatile computer readable storage medium and an internal memory.

The non-transitory computer readable storage medium may store a computer program. The computer program includes program instructions that, when executed, cause a processor to perform any one of the vortex ring generator control methods.

Processor 302 is used to provide computing and control capabilities to support the operation of the overall air conditioner.

The memory 303 provides an environment for the execution of a computer program in a non-transitory computer-readable storage medium, which when executed by the processor 302, causes the processor 302 to perform any of the vortex ring generator control methods.

The communication interface 304 is used for communication. Those skilled in the art will appreciate that the configuration shown in fig. 8 is a block diagram of only a portion of the configuration associated with the present application and does not constitute a limitation of the air conditioner 300 to which the present application is applied, and that a particular air conditioner 300 may include more or less components than those shown, or combine certain components, or have a different arrangement of components.

It should be understood that the bus 301 is, for example, an I2C (Inter-Integrated Circuit) bus, the Memory 303 may be a Flash chip, a Read-Only Memory (ROM), a magnetic disk, an optical disk, a usb disk, or a removable hard disk, the Processor 302 may be a Central Processing Unit (CPU), the Processor 302 may also be other general-purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs), or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, etc. Wherein a general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The air conditioner 300 may further include a vortex ring generating device disposed at an air outlet of the indoor unit of the air conditioner, and the vortex ring generating device may include a vortex ring support, a rear cover of the vortex ring device, a vortex ring generator, and the like. The vortex ring support and the rear cover of the vortex ring device are enclosed to form an accommodating cavity, the vortex ring support is provided with an opening communicated with the accommodating cavity, the direction of the opening is consistent with that of the air outlet, and the vortex ring generator is arranged in the accommodating cavity and covers the opening. Illustratively, the vortex ring generator employs a piezoelectric film which, in operation, vibrates to form a vortex ring airflow that is diffused out of the opening. Through setting up vortex ring generating device, the air forms the vortex ring air current when vortex ring generating device follow air outlet discharge, can effectively enlarge air supply scope and the air supply distance of air conditioning indoor set, and, under same air supply distance, the required wind speed of vortex ring generating device is less, thereby can reduce the energy consumption, furthermore, the vortex ring air current wind sense that vortex ring generating device formed is weak, can let the user have better experience of blowing, furthermore, be used for driving vortex ring generating device through setting up first actuating mechanism and sway about, second actuating mechanism is used for driving vortex ring generating device and upwards slides down in vertical direction, and thus, can realize that vortex ring generating device is on a large scale, the directional air supply of multi-angle, further satisfy user's demand, great market space has.

Wherein, in some embodiments, the processor 302 is configured to run a computer program stored in the memory 303 to perform the steps of:

acquiring a control instruction for controlling the vortex ring generating device, and determining the operating parameters of the vortex ring generating device according to the control instruction; and controlling the vortex ring generating device to operate according to the operating parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

In some embodiments, in obtaining control instructions for control of the vortex ring generating device, the processor 302 further performs: acquiring an identifier of a user in an indoor place where an air conditioner is located, and generating a display strategy according to the identifier of the user; displaying candidate operating parameters of the vortex ring generation device in a display interface according to a display strategy; and receiving a control instruction input by a user based on the displayed candidate operation parameters.

In some embodiments, in obtaining control instructions for control of the vortex ring generating device, the processor 302 further performs: detecting a gesture of a user; and generating a control instruction for controlling the vortex ring generating device according to the gesture of the user.

In some embodiments, in obtaining control instructions for control of the vortex ring generating device, the processor 302 further performs: collecting voice information of a user; and generating a control command for controlling the vortex ring generating device according to the voice information.

In some embodiments, in obtaining control instructions for control of the vortex ring generating device, the processor 302 further performs: receiving fingerprint information input by a user; and generating a control command for controlling the vortex ring generating device according to the fingerprint information.

In some embodiments, in determining the operating parameters of the vortex ring generating device according to the control instructions, the processor 302 further performs: and determining the operation power, the work cycle, the air supply area, the vortex ring array, the air supply angle and the operation track of the vortex ring generation device according to the control command to obtain the operation parameters of the vortex ring generation device.

In some embodiments, when the control unit controls the operation of the vortex ring generating device according to the operation parameters through a driving mechanism preset by the air conditioner and connected with the vortex ring generating device, the processor 302 further performs: outputting the operation parameters; receiving a determination instruction input by a user based on the operation parameters; and controlling the vortex ring generating device to operate according to the operating parameters based on the determined instruction through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

In some embodiments, when the control unit controls the operation of the vortex ring generating device according to the operation parameters through a driving mechanism preset by the air conditioner and connected with the vortex ring generating device, the processor 302 further performs: acquiring natural wind of an environment where an air conditioner is located and/or wind direction and wind quantity of a fan; adjusting the operation parameters according to natural wind and/or the wind direction and the wind quantity of the fan to obtain target operation parameters; and controlling the vortex ring generating device to operate according to target operation parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

In the above embodiments, the descriptions of the embodiments have respective emphasis, and parts that are not described in detail in a certain embodiment may be referred to the above detailed description of the control method for the vortex ring generating device, and are not described herein again.

The embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, where the computer program includes program instructions, and a processor executes the program instructions to implement any one of the control methods for a vortex ring generation apparatus provided in the embodiments of the present application. For example, the computer program is loaded by a processor and may perform the following steps:

acquiring a control instruction for controlling the vortex ring generating device, and determining the operating parameters of the vortex ring generating device according to the control instruction; and controlling the vortex ring generating device to operate according to the operating parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

The above operations can be implemented in the foregoing embodiments, and are not described in detail herein.

The computer readable storage medium may be an internal storage unit of the air conditioner of the foregoing embodiment, such as a hard disk or a memory of the air conditioner. The computer readable storage medium may also be an external storage device of the air conditioner, such as a plug-in hard disk provided on the air conditioner, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like.

Since the computer program stored in the computer-readable storage medium can execute any method for controlling a vortex ring generator provided in the embodiments of the present application, beneficial effects that can be achieved by any method for controlling a vortex ring generator provided in the embodiments of the present application can be achieved, and detailed descriptions thereof are omitted herein for the sake of detail in the foregoing embodiments.

It is to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items. It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments. While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and various equivalent modifications or substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A control method of a vortex ring generating device is characterized in that the control method of the vortex ring generating device is applied to an air conditioner, and the method comprises the following steps:

acquiring a control instruction for controlling the vortex ring generating device;

determining the operating parameters of the vortex ring generating device according to the control command;

and controlling the vortex ring generating device to operate according to the operating parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

2. The vortex ring generator control method according to claim 1, wherein said obtaining a control command for controlling said vortex ring generator comprises:

acquiring an identifier of a user in an indoor place where the air conditioner is located, and generating a display strategy according to the identifier of the user;

displaying the candidate operating parameters of the vortex ring generation device in a display interface according to the display strategy;

and receiving a control instruction input by the user based on the displayed candidate operation parameters.

3. The vortex ring generator control method according to claim 1, wherein said obtaining a control command for controlling said vortex ring generator comprises:

detecting a gesture of a user;

and generating a control instruction for controlling the vortex ring generating device according to the gesture of the user.

4. The vortex ring generator control method according to claim 1, wherein said obtaining a control command for controlling said vortex ring generator comprises:

collecting voice information of a user;

and generating a control instruction for controlling the vortex ring generating device according to the voice information.

5. The vortex ring generator control method according to claim 1, wherein said obtaining a control command for controlling said vortex ring generator comprises:

receiving fingerprint information input by a user;

and generating a control instruction for controlling the vortex ring generating device according to the fingerprint information.

6. The vortex ring generator control method according to claim 1, wherein said determining an operating parameter of said vortex ring generator according to said control command comprises:

and determining the operation power, the work cycle, the air supply area, the vortex ring array, the air supply angle and the operation track of the vortex ring generation device according to the control command to obtain the operation parameters of the vortex ring generation device.

7. The method for controlling the vortex ring generating device according to any one of claims 1 to 6, wherein the controlling the vortex ring generating device to operate according to the operation parameters by the driving mechanism preset by the air conditioner and connected with the vortex ring generating device comprises:

outputting the operating parameters;

receiving a determination instruction input by a user based on the operation parameter;

and controlling the vortex ring generating device to operate according to the operating parameters based on the determined instruction through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

8. The method for controlling the vortex ring generating device according to any one of claims 1 to 6, wherein the controlling the vortex ring generating device to operate according to the operation parameters by the driving mechanism preset by the air conditioner and connected with the vortex ring generating device comprises:

acquiring natural wind of the environment where the air conditioner is located and/or wind direction and wind quantity of a fan;

adjusting the operation parameters according to the wind direction and the wind quantity of the natural wind and/or the fan to obtain target operation parameters;

and controlling the vortex ring generating device to operate according to the target operation parameters through a driving mechanism which is preset by the air conditioner and connected with the vortex ring generating device.

9. An air conditioner, comprising:

a vortex ring generating device;

a processor and a memory, the memory having stored therein a computer program, the processor executing the vortex ring generating apparatus control method according to any one of claims 1 to 8 when calling the computer program in the memory.

10. A computer-readable storage medium for storing a computer program which is loaded by a processor to execute the vortex ring generating apparatus control method according to any one of claims 1 to 8.

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