CN111412607B - Vortex ring generation method and device with wake, air conditioner and storage medium - Google Patents
Vortex ring generation method and device with wake, air conditioner and storage medium Download PDFInfo
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- CN111412607B CN111412607B CN202010249373.8A CN202010249373A CN111412607B CN 111412607 B CN111412607 B CN 111412607B CN 202010249373 A CN202010249373 A CN 202010249373A CN 111412607 B CN111412607 B CN 111412607B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/61—Control or safety arrangements characterised by user interfaces or communication using timers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/081—Air-flow control members, e.g. louvres, grilles, flaps or guide plates for guiding air around a curve
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2120/00—Control inputs relating to users or occupants
- F24F2120/10—Occupancy
- F24F2120/12—Position of occupants
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- Air Conditioning Control Device (AREA)
Abstract
The invention belongs to the technical field of air conditioners, and discloses a method and a device for generating a vortex ring with a wake, an air conditioner and a storage medium, wherein the method comprises the following steps: acquiring parameter information of a vortex ring generator on an air conditioner; determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information; selecting the current pulse duration from the target pulse duration threshold range; the method comprises the steps of driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail, obtaining the current pulse duration of the vortex ring generator according to the current parameter information of the vortex ring generator, enabling the vortex ring generator to generate the vortex ring with the trail, and accordingly ensuring that the vortex ring generator generates the vortex ring with the trail to be blown to a user and the user feels soft.
Description
Technical Field
The invention relates to the technical field of air conditioners, in particular to a vortex ring generation method with a wake, a vortex ring generation device with the wake, an air conditioner and a storage medium.
Background
At present, the vortex ring that produces among the vortex ring generator among the air conditioner often directly blows on user's body, because wind-force is powerful for the vortex ring stops the user on one's body the time shorter and area less, can lead to the user to enjoy the wind-sensitive effect not good, influences the travelling comfort of using the air conditioner. Therefore, there is a need for a vortex ring that can generate a wake to ensure that a user can feel a gentle feeling for a long time when the vortex ring blows.
Disclosure of Invention
The invention mainly aims to provide a method and a device for generating a vortex ring with a wake, an air conditioner and a storage medium, and aims to solve the problem of ensuring that a user can feel soft for a long time when the vortex ring is used for blowing air.
To achieve the above object, the present invention provides a method for generating a vortex ring with a wake, the method comprising:
acquiring parameter information of a vortex ring generator on an air conditioner;
determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information;
selecting the current pulse duration from the target pulse duration threshold range;
and driving the vortex ring generator according to the current pulse duration so that the vortex ring generator generates a vortex ring with a trail.
Preferably, the parameter information includes air outlet aperture and air volume information;
the step of determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information comprises:
acquiring a vortex ring target speed with a trail and distance information between an air conditioner and a user, wherein the vortex ring target speed is the moving speed of the vortex ring with the trail moving to the position of the user;
establishing a first corresponding relation between the vortex ring initial speed with a trail and the air quantity information based on the vortex ring target speed, the distance information and the air outlet caliber;
acquiring a second corresponding relation between the initial speed of the vortex ring and the pulse duration;
and determining a target pulse duration threshold range with a trail corresponding to the vortex ring generator according to the first corresponding relation and the second corresponding relation.
Preferably, the step of selecting the current pulse duration from the target pulse duration threshold range includes:
establishing a mapping relation table according to the parameter information of the vortex ring generator and the target pulse duration threshold range;
acquiring current parameter information of a vortex ring generator on the air conditioner;
and selecting the current pulse duration from the target pulse duration threshold range according to the current parameter information in the mapping relation table.
Preferably, the step of selecting the current pulse duration from the target pulse duration threshold range according to the current parameter information in the mapping relationship table includes:
traversing the parameter information in the mapping relation table;
taking the parameter information traversed each time as the parameter information to be matched;
matching the parameter information to be matched with the current parameter information according to the mapping relation table;
if the matching is consistent, searching a target pulse duration threshold range corresponding to the parameter information to be matched from the mapping relation, and selecting pulse duration from the target pulse duration threshold range;
and taking the pulse duration as the current pulse duration corresponding to the current parameter information.
Preferably, after the step of matching the parameter information to be matched in the mapping relationship table, the method further includes:
and if the matching is inconsistent, returning to the step of traversing the parameter information in the mapping relation table.
Preferably, the vortex ring generator is an on-off vortex ring generator;
the step of driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail includes:
controlling the movement time from the opening state to the closing state of a wind shield of the on-off vortex ring generator according to the current pulse duration;
controlling the cross-sectional area of a channel where a wind shield of the on-off vortex ring generator is located according to the parameter information corresponding to the on-off vortex ring generator;
and driving the on-off vortex ring generator according to the movement time of the wind shield from the opening state to the closing state and the cross section area of the channel, so that the on-off vortex ring generator generates a vortex ring with a trail.
Preferably, the vortex ring generator is a compression-type vortex ring generator;
the step of driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail further includes:
controlling the movement time of a membrane part in the compression type vortex ring generator from an initial position to a positioning position according to the current pulse duration;
and driving the compression type vortex ring generator according to the movement time of the film part from the initial position to the positioning position and the parameter information corresponding to the compression type vortex ring generator, so that the compression type vortex ring generator generates a vortex ring with a trail.
In addition, to achieve the above object, the present invention further provides a vortex ring generating apparatus having a wake, the apparatus including:
the acquisition module is used for acquiring parameter information of a vortex ring generator on the air conditioner;
a determining module for determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information;
the selecting module is used for selecting the current pulse duration from the target pulse duration threshold range;
and the generating module is used for driving the vortex ring generator according to the current pulse duration so as to enable the vortex ring generator to generate a vortex ring with a trail.
In addition, to achieve the above object, the present invention also provides an air conditioner including: a memory, a processor and a wake-on-vortex-ring generating program stored on the memory and executable on the processor, the wake-on-vortex-ring generating program configured to implement the steps of the wake-on-vortex-ring generating method of any one of claims 1 to 7.
Furthermore, to achieve the above object, the present invention further proposes a storage medium having a vortex ring generation program with a trail stored thereon, which when executed by a processor implements the steps of the vortex ring generation method with a trail according to any one of claims 1 to 7.
The method for generating the vortex ring with the wake comprises the steps of obtaining parameter information of a vortex ring generator on an air conditioner, determining a target pulse duration threshold range capable of generating the vortex ring with the wake based on the parameter information, selecting current pulse duration from the target pulse duration threshold range, and driving the vortex ring generator according to the current pulse duration so that the vortex ring generator generates the vortex ring with the wake. Therefore, the current pulse duration of the vortex ring generator is obtained according to the current distance information between the air conditioner and the user and the current parameter information of the vortex ring generator, the vortex ring generator generates a vortex ring with a trail facing the user direction according to the current pulse duration, air supply is achieved for the user through the vortex ring with the trail, and the user feels soft.
Drawings
FIG. 1 is a schematic diagram of an apparatus architecture of a hardware operating environment according to an embodiment of the present invention;
FIG. 2 is a schematic flow chart illustrating a first embodiment of a method for generating a vortex ring with a wake according to the present invention;
FIG. 3 is a schematic diagram of an air conditioner with wake vortex ring generation method according to an embodiment of the present invention;
FIG. 4 is a schematic diagram illustrating generation of a vortex ring with a wake according to an embodiment of the method for generating a vortex ring with a wake of the present invention;
FIG. 5 is a schematic diagram illustrating a state of a vortex ring generator with fully opened movable vanes according to an embodiment of the method for generating a vortex ring with wake of the present invention;
FIG. 6 is a schematic diagram illustrating a state of a vortex ring generator with fully closed movable vanes according to an embodiment of the method for generating a vortex ring with wake of the present invention;
FIG. 7 is a diagram illustrating a state of a thin film vortex ring generator before compression according to an embodiment of the method for generating a vortex ring with wake of the present invention;
FIG. 8 is a diagram illustrating the state of the thin film vortex ring generator at the end of compression according to an embodiment of the method for generating a vortex ring with a wake of the present invention;
FIG. 9 is a flowchart illustrating a second embodiment of a method for generating a vortex ring with a wake according to the present invention;
FIG. 10 is a graph illustrating the relationship between vortex ring velocity and distance information according to an embodiment of the method for generating a vortex ring with a wake of the present invention;
FIG. 11 is a functional block diagram of a vortex ring generating apparatus with a wake according to a first embodiment of the present invention.
The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
The reference numbers illustrate:
reference numerals | Name (R) | Reference numerals | Name (R) |
10 | Vortex |
702 | Inner |
20 | Vortex |
703 | |
30 | Vortex ring with |
704 | |
40 | User' s | 705 | |
701 | External fixing plate |
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1, fig. 1 is a schematic device structure diagram of a hardware operating environment according to an embodiment of the present invention.
As shown in fig. 1, the apparatus may include: a processor 1001, such as a Central Processing Unit (CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may comprise a Display screen (Display), an input unit such as keys, and the optional user interface 1003 may also comprise a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The Memory 1005 may be a high-speed Random Access Memory (RAM), such as a disk Memory. The memory 1005 may alternatively be a storage device separate from the processor 1001.
Those skilled in the art will appreciate that the configuration of the apparatus shown in fig. 1 is not intended to be limiting of the apparatus and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.
As shown in fig. 1, a memory 1005, which is a kind of storage medium, may include therein an operating system, a network communication module, a user interface module, and a vortex ring generation program having a trail.
In the device shown in fig. 1, the network interface 1004 is mainly used for connecting an external network and performing data communication with other network devices; the user interface 1003 is mainly used for connecting user equipment and performing data communication with the equipment; the device calls a vortex ring generation program with a trail stored in the memory 1005 through the processor 1001 and executes the implementation method of the vortex ring generation with the trail provided by the embodiment of the invention.
Based on the hardware structure, the embodiment of the method for generating the vortex ring with the trail is provided.
Referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of a method for generating a vortex ring with a wake according to the present invention.
In a first embodiment, the method for generating a vortex ring with a wake comprises the following steps:
and step S10, acquiring the parameter information of the vortex ring generator on the air conditioner.
It should be noted that, the execution subject of the embodiment is a controller in an air conditioner, for example, a central controller in an air conditioner, and may also be a controller in other forms, which is not limited in this embodiment, the central controller is taken as an example for description, and the air conditioner is provided with a vortex ring generator, as shown in the front view and the side view of the air conditioner in fig. 3, the air conditioner is provided with a vortex ring generator 10. As shown in the schematic diagram of the air conditioner in fig. 4, the first vortex ring generator 10 in fig. 4 performs air treatment through the vortex ring channel 20, generates a vortex ring 30 with a wake of a certain diameter from an air outlet aperture, and realizes air supply to a user 40, wherein the vortex ring is a circular ring with a wake filled with air inside.
The parameter information of the vortex ring generator mentioned above includes the air outlet aperture and the air volume, wherein, it is also necessary to obtain the relative position information between the air conditioner and the user.
It can be understood that the relative position information between the air conditioner and the user is detected by a controller in the air conditioner, and the relative position information between the air conditioner and the user can be characteristic information in a preset range of the air conditioner through at least one of an infrared sensor, a camera and a radar sensor after receiving an air supply instruction in a wind sensing mode, the preset range can be set by the user according to actual requirements, or can be set by a manufacturer according to experimental data when the manufacturer leaves a factory, the characteristic information can be size, shape, motion state and the like, and whether the air conditioner is the user or not is judged according to the characteristic information. When the user is determined, the relative position information between the air conditioner and the user is determined through at least one of the infrared sensor, the camera and the radar sensor, and the relative position information may be a distance and an angle between the user and the air conditioner.
In a specific implementation, an infrared sensor may be disposed on the air conditioner, and the infrared sensor may detect distance information between the air conditioner and the user in real time, so as to obtain current distance information between the air conditioner and the user, and may also detect the distance in other manners.
And step S20, determining a target pulse duration threshold range capable of generating the wake vortex ring based on the parameter information.
It should be noted that, the vortex ring generator may be divided into an air flow on-off type and a compression type, and may be in other forms, which is not limited in this embodiment, when the vortex ring generator is an air flow on-off type, such as a movable vane on-off type vortex ring generator, the vane starts to open from an initial position to a set position, and then may be selected to pause, and then starts to close to a full close, and returns to the initial position, and the time that the vane passes from the start to the full close is defined as the target pulse duration of the vortex ring generator, wherein the position before each opening and closing cycle of the vane is defined as the initial position, and as shown in fig. 5, the state when the movable vane is fully opened, the flowing air may pass through; as shown in fig. 6, in the state when all the movable vanes are closed, the flowing air cannot pass through, wherein, for the on-off type, such as the movable vane vortex ring generator, the air quantity information is the process of completing the one-off type structure when generating the vortex ring with the trail, and the relationship between the compressed air quantity and the cross-sectional area of the air passing of the following vortex ring generator;
wherein v is the average wind speed, S is the cross-sectional area of the wind, the area of the air outlet changes by 0-Smax-0 from complete closing to complete opening and then complete closing in the process of one pulse, and T is the target pulse duration, namely the time spent by the air outlet from complete closing to complete opening and then complete closing in the process of one on-off.
In a specific implementation, the vortex ring generator is an on-off vortex ring generator, the movement time of a wind shield of the on-off vortex ring generator from an open state to a closed state is controlled according to the current pulse duration, the channel cross-sectional area of a channel where the wind shield of the on-off vortex ring generator is located is controlled according to parameter information corresponding to the on-off vortex ring generator, and the on-off vortex ring generator is driven according to the movement time of the wind shield from the open state to the closed state and the channel cross-sectional area, so that the on-off vortex ring generator generates a vortex ring with a wake.
In addition, when the vortex ring generator is of a compression type, such as a film type vortex ring generator, the film compresses air from an initial position, moves to a positioning position, can be selected to pause, then starts to deform, returns to the initial position, and can also be selected to pause, so that the air is compressed from the initial position by the film, and the time spent by the film moving to the positioning position is the target pulse duration of the generator; wherein, the position where the film starts to be compressed is defined as an initial position; defining the position of the film after each compression as a positioning position; wherein both the initial position and the positioning position can be reset; defining target air quantity information as the air quantity of the film starting to compress the air from the initial position and moving to the positioning position, wherein the vortex ring generator compresses the air in the cavity, and taking the target air quantity information as the air quantity at the maximum compression stroke, as shown in a state schematic diagram before the compression of the film type vortex ring generator shown in fig. 7, the film type vortex ring generator comprises an outer fixing plate 701, an inner fixing plate 702, a diaphragm 703, an air duct 704 and a rack 705, and as shown in a state schematic diagram when the compression of the film type vortex ring generator is finished shown in fig. 8.
In a specific implementation, the movement time of a film part in the compression-type vortex ring generator from an initial position to a positioning position is controlled according to the current pulse duration, and the compression-type vortex ring generator is driven according to the movement time of the film part from the initial position to the positioning position and parameter information corresponding to the compression-type vortex ring generator, so that the compression-type vortex ring generator generates a vortex ring with a trail.
In addition, the operation of the step of determining the target pulse duration threshold range capable of generating the vortex ring with the wake based on the parameter information is to acquire a target speed of the vortex ring with the wake and distance information between the air conditioner and a user, the target speed of the vortex ring is a moving speed of the vortex ring with the wake moving to the user, a first corresponding relation between an initial speed of the vortex ring with the wake and the air volume information is established based on the target speed of the vortex ring, the distance information and the air outlet aperture, a second corresponding relation between the initial speed of the vortex ring and the pulse duration is acquired, and the target pulse duration threshold range with the wake corresponding to the vortex ring generator is determined according to the first corresponding relation and the second corresponding relation.
And step S30, selecting the current pulse duration from the target pulse duration threshold range.
And establishing a mapping relation table according to the target pulse duration threshold range, the parameter information of the vortex ring generator and the distance information between the air conditioner and the user.
The current pulse duration is the pulse duration corresponding to the vortex ring with the trail generated according to the current blowing instruction, wherein the current pulse duration can be the pulse duration corresponding to the vortex ring with the trail generated according to the current blowing instruction selected by a user, the distance information between the air conditioner and the user and the current parameter information of the vortex ring generator are obtained, then the current pulse duration corresponding to the vortex ring with the trail can be determined according to the distance information and the current parameter information, the current pulse duration is searched in a mapping relation table according to the current pulse duration and whether the current pulse duration is in a target pulse duration threshold range or not is judged, and if the current pulse duration is in the target pulse duration threshold range, the vortex ring generator is determined to generate the vortex ring with the trail according to the current pulse duration.
The current parameter information and the distance information in the mapping relation table are searched according to the distance information and the current parameter information, the current parameter information and the distance information in the mapping relation table are traversed, the traversed parameter information to be confirmed and the traversed distance information serve as parameter information to be matched, the parameter information to be matched is matched in the mapping relation table, if the parameter information to be matched is matched in the mapping relation table in a consistent mode, the pulse duration corresponding to the parameter information to be matched is obtained from the mapping relation table, the pulse duration corresponding to the parameter information to be matched is selected from the target pulse duration threshold range, and the pulse duration corresponding to the parameter information to be matched serves as the current pulse duration corresponding to the current parameter information; and if the parameter information to be matched is not matched and consistent in the mapping relation table, returning to the step of traversing the current parameter information in the mapping relation table. Wherein the target pulse duration threshold range is a target pulse duration threshold range obtained by the inventor in carrying out the vortex ring capable of generating the wake.
Further, for ease of understanding, the following is exemplified:
when the vortex ring generator generates a vortex ring, relevant parameters such as air outlet aperture, air quantity and pulse duration are provided, if the air outlet aperture is 190mm, the distance information is 3m, the air quantity is within 1.4s of a certain pair of vortex wheels, when the double-opening rotating speed is 500, the air quantity passes through the vortex ring, when the pulse duration is 0.02s, the vortex ring has no trail in the air, and the air supply is rapid; the pulse time of the generator is prolonged from 0.02s to 0.22s, at the moment, the vortex ring has an obvious trail in the air, the wind continuity is increased, the user experiences a more comfortable wind feeling, when the pulse time is increased to 0.34s, the trail of the vortex ring in the air is longer, the vortex ring blows the wind on the user, the coverage area is large, the vortex ring is more comfortable, and therefore the pulse duration threshold is set to be 0.34 s. Therefore, a target pulse duration not less than the pulse duration threshold, such as 0.35s, may be set, and finally a vortex ring with a wake is generated by the vortex ring generator based on the target pulse duration being 0.35 s. If the time is increased to 1.2s, it is found that the time is too long just to allow the vortex ring with the wake to blow off the user, it can be seen that the target pulse duration threshold range can be set to 0.22s-1.2 s.
Determining the relationship between the parameter information of the vortex ring generator and the pulse duration threshold, wherein the method can be that the relationship between the parameter information and the pulse duration threshold is determined according to the distance between a user and an air conditioner, for example, the pulse duration of the generator is prolonged from 0.02s to 0.22s, a comfortable wind sensation exists at 4 meters, the pulse duration of the generator is continuously prolonged to 0.34s corresponding to the rotating speed of a fan of 500 revolutions, the air supply distance is reduced, and the wind sensation at 4 meters is weakened; similarly, when the opening and closing time is 0.34s, comfortable wind feeling exists at the position of 3 meters, and the corresponding rotating speed is 400 revolutions; therefore, the relation between the parameter information related to the vortex ring generator and the target pulse duration threshold range can be confirmed based on the distance between the user and the air conditioner.
The parameter information may also determine a maximum pulse time during which a vortex ring can be generated, the target pulse time being less than the maximum pulse time;
when the pulse duration is 0.02s, the vortex ring has no wake in the air, and the air supply is rapid; the pulse time of the generator is prolonged from 0.02s to 0.22s, at the moment, the vortex ring has obvious wake in the air, the user experience is comfortable, and when the pulse time is 0.34s, the wake of the vortex ring in the air is longer, the wind blown to the user is scattered, the coverage area is large, and the generator is more comfortable; when the pulse duration is 0.54s, the vortex ring has a short movement distance and cannot blow to a user with a relatively long distance; the parametric information may also determine a maximum pulse time 0.54s at which a vortex ring can be generated, the target pulse time being less than the maximum pulse time 0.54s, and the target pulse duration being greater than the 0.22 s.
Step S40, the vortex ring generator is driven according to the current pulse duration, so that the vortex ring generator generates a vortex ring with a trail.
In a specific implementation, the movement time of a film part in the compression-type vortex ring generator from an initial position to a positioning position is controlled according to the current pulse duration, and the compression-type vortex ring generator is driven according to the movement time of the film part from the initial position to the positioning position and parameter information corresponding to the compression-type vortex ring generator, so that the compression-type vortex ring generator generates a vortex ring with a trail.
In addition, the operation of the step of determining the target pulse duration threshold range capable of generating the vortex ring with the wake based on the parameter information is to acquire a target speed of the vortex ring with the wake and distance information between the air conditioner and a user, the target speed of the vortex ring is a moving speed of the vortex ring with the wake moving to the user, a first corresponding relation between an initial speed of the vortex ring with the wake and the air volume information is established based on the target speed of the vortex ring, the distance information and the air outlet aperture, a second corresponding relation between the initial speed of the vortex ring and the pulse duration is acquired, and the target pulse duration threshold range with the wake corresponding to the vortex ring generator is determined according to the first corresponding relation and the second corresponding relation.
In a specific implementation, the vortex ring generator is driven by the current distance information and the current parameters of the vortex ring generator, so that the vortex ring generator generates a vortex ring with a trail facing the user direction, and thus, the user can contact and blow air for a long time and in a large area, and feel soft, so as to improve the comfort of the user.
According to the scheme, the vortex ring generator is arranged on the air conditioner by acquiring the current distance information between the air conditioner and a user; and acquiring current parameter information of a vortex ring generator, determining current pulse duration according to the current distance information and the current parameter information, judging whether the current pulse duration is in a target pulse duration threshold range, and if the current pulse duration is in the target pulse duration threshold range, driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail facing to a user direction, so that the user can feel soft, and the generated wind can be blown to the user in a large area and for a long time, thereby improving the user experience effect.
Further, as shown in fig. 9, a second embodiment of the method for generating a vortex ring with a wake according to the present invention is proposed based on the first embodiment, in this embodiment, the step S20 includes:
step S201, the parameter information includes air outlet aperture and air amount information, and obtains a vortex ring target speed with a trail and distance information between the air conditioner and a user, where the vortex ring target speed is a moving speed of the vortex ring with the trail moving to the user.
It should be noted that the target speed of the vortex ring is set to 1m/s, that is, the wind speed when the vortex ring reaches the user, because 1m/s is the optimal speed, that is, the wind speed felt by people is the most comfortable, and may also be other parameter information, this embodiment does not limit this, in this embodiment, 1m/s is taken as an example to describe, the current wind outlet aperture is 150mm, the size of the wind outlet aperture is designed in advance, and may also be other size information, and flexible adjustment may be performed according to requirements, this embodiment does not limit this, in this embodiment, only the wind outlet aperture of 150mm is taken as an example to describe, and the air amount is set to 5.28L, and continue to represent the initial speed of the vortex ring at V0, V represents the target speed of the vortex ring, and D represents the current wind outlet aperture as shown in fig. 4.
Step S202, establishing a first corresponding relation between the vortex ring initial speed with the trail and the air quantity information based on the vortex ring target speed, the distance information and the air outlet aperture.
It can be understood that the first corresponding relationship is a formula (1) of V0 ═ V + L × F (T, D, Q), where V0 represents a vortex ring initial speed, V represents a vortex ring target speed, T represents a pulse duration, D represents a current air outlet aperture, Q represents air volume information, and F represents a functional relationship.
In a specific implementation, a relational expression between the vortex ring target speed and the distance information is first obtained, where V is a vortex ring target speed, V0 is a vortex ring initial speed, L is distance information, and K is a coefficient, as shown in a relational graph between the vortex ring target speed, that is, the vortex ring speed and the distance information shown in fig. 10, and then since K is related to the vortex ring generator pulse time T, the air outlet aperture D, and the air amount Q, it is defined as K is F (T, D, Q) formula (3), and according to formulas (2) and (3), a corresponding relation between the vortex ring target speed, the vortex ring initial speed, the distance information, the pulse duration, the air outlet aperture information, and the air amount information is obtained.
And finally, substituting the vortex ring target speed, the current distance information and the current air outlet caliber information into the corresponding relation among the vortex ring target speed, the vortex ring initial speed, the distance information, the pulse duration, the air outlet caliber information and the air quantity information to obtain a first corresponding relation, namely the vortex ring target speed is 1m/s, the current distance information is 5 meters for example, the current air outlet caliber information is 150mm, and the current air quantity information is Q, so that the first corresponding relation is V0-1 + 5F (T, 150, Q) formula (4).
Step S203, obtaining a second corresponding relationship between the initial speed of the vortex ring and the pulse duration.
It should be noted that the second corresponding relationship is formula (5) of V0 ═ 2023.5T2-387.95T +24.507, that is, the relationship between the initial speed of the vortex ring and the pulse duration.
In order to obtain a second corresponding relation between the initial speed of the vortex ring and the pulse duration, the second corresponding relation between the initial speed of the vortex ring and the pulse duration is generated according to the historical initial speed of the vortex ring and the historical pulse duration by counting the historical initial speed of the vortex ring and the historical pulse duration.
Step S204, determining a target pulse duration threshold range with a wake corresponding to the vortex ring generator according to the first corresponding relation and the second corresponding relation.
In a specific implementation, a reference pulse duration is obtained according to the current distance information, the first corresponding relationship and the second corresponding relationship, that is, a formula (4) is obtained according to the current distance information and the first corresponding relationship, and a target pulse duration threshold range is obtained according to a formula (4) and a formula (5), where, for example, the reference pulse duration obtained according to the above data is 0.1s, 0.2s, 0.5s, 0.6s, 0.7s, if the reference pulse duration is 0.1s, a distinct trail appears in the air in the vortex ring, the continuity of wind increases, the user experiences a more comfortable feeling, when the pulse duration increases to 0.6s, the trail of the vortex ring in the air is longer, the wind blowing to the user is larger in coverage area and more comfortable, if the time is 0.7s, the time is found to be too long, so that the vortex ring with the trail cannot blow to the user, it can be known, the target pulse duration threshold range may be set to 0.1s-0.7 s.
According to the scheme, in the embodiment, a vortex ring target speed with a trail and distance information between the air conditioner and a user are obtained, the vortex ring target speed is a moving speed of a vortex ring with the trail moving to the position of the user, a first corresponding relation between a vortex ring initial speed with the trail and air volume information is established based on the vortex ring target speed, the distance information and the air outlet caliber, a second corresponding relation between the vortex ring initial speed and pulse duration is obtained, and a target pulse duration threshold range with the trail corresponding to the vortex ring generator is determined according to the first corresponding relation and the second corresponding relation. Thereby ensuring that the user feels soft when being blown by wind.
The invention further provides a vortex ring generating device with the wake.
Referring to fig. 11, fig. 11 is a functional module diagram of a first embodiment of the vortex ring generating device with a wake according to the present invention.
In a first embodiment of the vortex ring generating apparatus with a wake of the present invention, the vortex ring generating apparatus with a wake includes:
an obtaining module 1101, configured to obtain parameter information of a vortex ring generator on an air conditioner;
it should be noted that, the execution subject of the embodiment is a controller in an air conditioner, for example, a central controller in an air conditioner, and may also be a controller in other forms, which is not limited in this embodiment, the central controller is taken as an example for description, and the air conditioner is provided with a vortex ring generator, as shown in the front view and the side view of the air conditioner in fig. 3, the air conditioner is provided with a vortex ring generator 10. As shown in the schematic diagram of the air conditioner in fig. 4, the first vortex ring generator 10 in fig. 4 performs air treatment through the vortex ring channel 20, generates a vortex ring 30 with a wake of a certain diameter from an air outlet aperture, and realizes air supply to a user 40, wherein the vortex ring is a circular ring with a wake filled with air inside.
The parameter information of the vortex ring generator mentioned above includes the air outlet aperture and the air volume, wherein, it is also necessary to obtain the relative position information between the air conditioner and the user.
It can be understood that the relative position information between the air conditioner and the user is detected by a controller in the air conditioner, and the relative position information between the air conditioner and the user can be characteristic information in a preset range of the air conditioner through at least one of an infrared sensor, a camera and a radar sensor after receiving an air supply instruction in a wind sensing mode, the preset range can be set by the user according to actual requirements, or can be set by a manufacturer according to experimental data when the manufacturer leaves a factory, the characteristic information can be size, shape, motion state and the like, and whether the air conditioner is the user or not is judged according to the characteristic information. When the user is determined, the relative position information between the air conditioner and the user is determined through at least one of the infrared sensor, the camera and the radar sensor, and the relative position information may be a distance and an angle between the user and the air conditioner.
In a specific implementation, an infrared sensor may be disposed on the air conditioner, and the infrared sensor may detect distance information between the air conditioner and the user in real time, so as to obtain current distance information between the air conditioner and the user, and may also detect the distance in other manners.
A determining module 1102 for determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information;
it should be noted that, the vortex ring generator may be divided into an air flow on-off type and a compression type, and may be in other forms, which is not limited in this embodiment, when the vortex ring generator is an air flow on-off type, such as a movable vane on-off type vortex ring generator, the vane starts to open from an initial position to a set position, and then may be selected to pause, and then starts to close to a full close, and returns to the initial position, and the time that the vane passes from the start to the full close is defined as the target pulse duration of the vortex ring generator, wherein the position before each opening and closing cycle of the vane is defined as the initial position, and as shown in fig. 5, the state when the movable vane is fully opened, the flowing air may pass through; as shown in fig. 6, in the state when all the movable vanes are closed, the flowing air cannot pass through, wherein, for the on-off type, such as the movable vane vortex ring generator, the air quantity information is the relation between the compressed air quantity and the cross-sectional area of the air passing through the following vortex ring generator in the process of completing the one-time on-off type structure when the vortex ring with the trail is generated;
wherein v is the average wind speed, S is the cross-sectional area of the wind, the area of the air outlet changes by 0-Smax-0 from complete closing to complete opening and then complete closing in the process of one pulse, and T is the target pulse duration, namely the time spent by the air outlet from complete closing to complete opening and then complete closing in the process of one on-off.
In a specific implementation, the movement time of a film part in the compression-type vortex ring generator from an initial position to a positioning position is controlled according to the current pulse duration, and the compression-type vortex ring generator is driven according to the movement time of the film part from the initial position to the positioning position and parameter information corresponding to the compression-type vortex ring generator, so that the compression-type vortex ring generator generates a vortex ring with a trail.
In addition, when the vortex ring generator is of a compression type, such as a film type vortex ring generator, the film compresses air from an initial position, moves to a positioning position, can be selected to pause, then starts to deform, returns to the initial position, and can also be selected to pause, so that the air is compressed from the initial position by the film, and the time spent by the film moving to the positioning position is the target pulse duration of the generator; wherein, the position where the film starts to be compressed is defined as an initial position; defining the position of the film after each compression as a positioning position; wherein both the initial position and the positioning position can be reset; defining target air quantity information as the air quantity of the film starting to compress the air from the initial position and moving to the positioning position, wherein the vortex ring generator compresses the air in the cavity, and taking the target air quantity information as the air quantity at the maximum compression stroke, as shown in a state schematic diagram before the compression of the film type vortex ring generator shown in fig. 7, the film type vortex ring generator comprises an outer fixing plate 701, an inner fixing plate 702, a diaphragm 703, an air duct 704 and a rack 705, and as shown in a state schematic diagram when the compression of the film type vortex ring generator is finished shown in fig. 8.
In a specific implementation, the movement time of a film part in the compression-type vortex ring generator from an initial position to a positioning position is controlled according to the current pulse duration, and the compression-type vortex ring generator is driven according to the movement time of the film part from the initial position to the positioning position and parameter information corresponding to the compression-type vortex ring generator, so that the compression-type vortex ring generator generates a vortex ring with a trail.
In addition, the operation of the step of determining the target pulse duration threshold range capable of generating the vortex ring with the wake based on the parameter information is to acquire a target speed of the vortex ring with the wake and distance information between the air conditioner and a user, the target speed of the vortex ring is a moving speed of the vortex ring with the wake moving to the user, a first corresponding relation between an initial speed of the vortex ring with the wake and the air volume information is established based on the target speed of the vortex ring, the distance information and the air outlet aperture, a second corresponding relation between the initial speed of the vortex ring and the pulse duration is acquired, and the target pulse duration threshold range with the wake corresponding to the vortex ring generator is determined according to the first corresponding relation and the second corresponding relation.
A selecting module 1103, configured to select a current pulse duration from the target pulse duration threshold range;
and establishing a mapping relation table according to the target pulse duration threshold range, the parameter information of the vortex ring generator and the distance information between the air conditioner and the user.
The current pulse duration is the pulse duration corresponding to the vortex ring with the trail generated according to the current blowing instruction, wherein the current pulse duration can be the pulse duration corresponding to the vortex ring with the trail generated according to the current blowing instruction selected by a user, the distance information between the air conditioner and the user and the current parameter information of the vortex ring generator are obtained, then the current pulse duration corresponding to the vortex ring with the trail can be determined according to the distance information and the current parameter information, the current pulse duration is searched in a mapping relation table according to the current pulse duration and whether the current pulse duration is in a target pulse duration threshold range or not is judged, and if the current pulse duration is in the target pulse duration threshold, the vortex ring generator is determined to generate the vortex ring with the trail according to the current pulse duration.
The current parameter information and the distance information in the mapping relation table are searched according to the distance information and the current parameter information, the current parameter information and the distance information in the mapping relation table are traversed, the traversed parameter information to be confirmed and the traversed distance information serve as parameter information to be matched, the parameter information to be matched is matched in the mapping relation table, if the parameter information to be matched is matched in the mapping relation table in a consistent mode, the pulse duration corresponding to the parameter information to be matched is obtained from the mapping relation table, the pulse duration corresponding to the parameter information to be matched is selected from the target pulse duration threshold range, and the pulse duration corresponding to the parameter information to be matched serves as the current pulse duration corresponding to the current parameter information; and if the parameter information to be matched is not matched and consistent in the mapping relation table, returning to the step of traversing the current parameter information in the mapping relation table. Wherein the target pulse duration threshold range is a target pulse duration threshold range obtained by the inventor in carrying out the vortex ring capable of generating the wake.
Further, for ease of understanding, the following is exemplified:
when the vortex ring generator generates a vortex ring, relevant parameters such as air outlet aperture, air quantity and pulse duration are provided, if the air outlet aperture is 190mm, the distance information is 3m, the air quantity is within 1.4s of a certain pair of vortex wheels, when the double-opening rotating speed is 500, the air quantity passes through the vortex ring, when the pulse duration is 0.02s, the vortex ring has no trail in the air, and the air supply is rapid; the pulse time of the generator is prolonged from 0.02s to 0.22s, at the moment, the vortex ring has an obvious trail in the air, the wind continuity is increased, the user experiences a more comfortable wind feeling, when the pulse time is increased to 0.34s, the trail of the vortex ring in the air is longer, the vortex ring blows the wind on the user, the coverage area is large, the vortex ring is more comfortable, and therefore the pulse duration threshold is set to be 0.34 s. Therefore, a target pulse duration not less than the pulse duration threshold, such as 0.35s, may be set, and finally a vortex ring with a wake is generated by the vortex ring generator based on the target pulse duration being 0.35 s. If the time is increased to 1.2s, it is found that the time is too long just to allow the vortex ring with the wake to blow off the user, it can be seen that the target pulse duration threshold range can be set to 0.22s-1.2 s.
Determining the relationship between the parameter information of the vortex ring generator and the pulse duration threshold, wherein the method can be that the relationship between the parameter information and the pulse duration threshold is determined according to the distance between a user and an air conditioner, for example, the pulse duration of the generator is prolonged from 0.02s to 0.22s, a comfortable wind sensation exists at 4 meters, the pulse duration of the generator is continuously prolonged to 0.34s corresponding to the rotating speed of a fan of 500 revolutions, the air supply distance is reduced, and the wind sensation at 4 meters is weakened; similarly, when the opening and closing time is 0.34s, comfortable wind feeling exists at the position of 3 meters, and the corresponding rotating speed is 400 revolutions; therefore, the relation between the parameter information related to the vortex ring generator and the target pulse duration threshold range can be confirmed based on the distance between the user and the air conditioner.
The parameter information may also determine a maximum pulse time during which a vortex ring can be generated, the target pulse time being less than the maximum pulse time;
when the pulse duration is 0.02s, the vortex ring has no wake in the air, and the air supply is rapid; the pulse time of the generator is prolonged from 0.02s to 0.22s, at the moment, the vortex ring has obvious wake in the air, the user experience is comfortable, and when the pulse time is 0.34s, the wake of the vortex ring in the air is longer, the wind blown to the user is scattered, the coverage area is large, and the generator is more comfortable; when the pulse duration is 0.54s, the vortex ring has a short movement distance and cannot blow to a user with a relatively long distance; the parametric information may also determine a maximum pulse time 0.54s at which a vortex ring can be generated, the target pulse time being less than the maximum pulse time 0.54s, and the target pulse duration being greater than the 0.22 s.
A generating module 1104, configured to drive the vortex ring generator according to the current pulse duration, so that the vortex ring generator generates a vortex ring with a trail.
In a specific implementation, the movement time of a film part in the compression-type vortex ring generator from an initial position to a positioning position is controlled according to the current pulse duration, and the compression-type vortex ring generator is driven according to the movement time of the film part from the initial position to the positioning position and parameter information corresponding to the compression-type vortex ring generator, so that the compression-type vortex ring generator generates a vortex ring with a trail.
In addition, the operation of the step of determining the target pulse duration threshold range capable of generating the vortex ring with the wake based on the parameter information is to acquire a target speed of the vortex ring with the wake and distance information between the air conditioner and a user, the target speed of the vortex ring is a moving speed of the vortex ring with the wake moving to the user, a first corresponding relation between an initial speed of the vortex ring with the wake and the air volume information is established based on the target speed of the vortex ring, the distance information and the air outlet aperture, a second corresponding relation between the initial speed of the vortex ring and the pulse duration is acquired, and the target pulse duration threshold range with the wake corresponding to the vortex ring generator is determined according to the first corresponding relation and the second corresponding relation.
In a specific implementation, the vortex ring generator is driven by the current distance information and the current parameters of the vortex ring generator, so that the vortex ring generator generates a vortex ring with a trail facing the user direction, and thus, the user can contact and blow air for a long time and in a large area, and feel soft, so as to improve the comfort of the user.
According to the scheme, the vortex ring generator is arranged on the air conditioner by acquiring the current distance information between the air conditioner and a user; and acquiring current parameter information of a vortex ring generator, determining current pulse duration according to the current distance information and the current parameter information, judging whether the current pulse duration is in a target pulse duration threshold range, and if the current pulse duration is in the target pulse duration threshold range, driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail facing to a user direction, so that the user can feel soft, and the generated wind can be blown to the user in a large area and for a long time, thereby improving the user experience effect.
Since the vortex ring generating device with the wake adopts all the technical solutions of all the embodiments, at least all the beneficial effects brought by the technical solutions of the embodiments are achieved, and no further description is given here.
In addition, to achieve the above object, the present invention also provides an air conditioner including: the air conditioner comprises a memory, a processor and a vortex ring generation program with a trail, wherein the vortex ring generation program with the trail is stored on the memory and can run on the processor, the vortex ring generation program with the trail is configured to realize the steps of the vortex ring generation method with the trail, and the air conditioner is a parking air conditioner.
Since the air conditioner adopts all technical solutions of all the embodiments, at least all the beneficial effects brought by the technical solutions of the embodiments are achieved, and no further description is given here.
In addition, an embodiment of the present invention further provides a storage medium, where a vortex ring generation program with a trail is stored on the storage medium, and the vortex ring generation program with a trail is executed by a processor to perform the steps of the vortex ring generation method with a trail as described above.
Since the storage medium adopts all technical solutions of all the embodiments, at least all the beneficial effects brought by the technical solutions of the embodiments are achieved, and no further description is given here.
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 apparatus 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 apparatus. 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 apparatus that comprises the element.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.
Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a computer-readable storage medium (such as ROM/RAM, magnetic disk, optical disk) as described above, and includes several instructions for enabling an intelligent terminal (which may be a mobile phone, a computer, a terminal, an air conditioner, or a network terminal) to execute the method according to the embodiments of the present invention.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (9)
1. A method of generating a vortex ring having a wake, the method comprising:
acquiring parameter information of a vortex ring generator on an air conditioner;
determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information;
selecting the current pulse duration from the target pulse duration threshold range;
driving the vortex ring generator according to the current pulse duration so that the vortex ring generator generates a vortex ring with a trail;
the parameter information comprises air outlet caliber and air quantity information;
the step of determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information comprises:
acquiring a vortex ring target speed with a trail and distance information between an air conditioner and a user, wherein the vortex ring target speed is the moving speed of the vortex ring with the trail moving to the position of the user;
establishing a first corresponding relation between the vortex ring initial speed with a trail and the air quantity information based on the vortex ring target speed, the distance information and the air outlet caliber;
acquiring a second corresponding relation between the initial speed of the vortex ring and the pulse duration;
and determining a target pulse duration threshold range with a trail corresponding to the vortex ring generator according to the first corresponding relation and the second corresponding relation.
2. The method of claim 1, wherein said step of selecting a current pulse duration from said target pulse duration threshold range comprises:
establishing a mapping relation table according to the parameter information of the vortex ring generator and the target pulse duration threshold range;
acquiring current parameter information of a vortex ring generator on the air conditioner;
and selecting the current pulse duration from the target pulse duration threshold range according to the current parameter information in the mapping relation table.
3. The method of claim 2, wherein said step of selecting a current pulse duration from said target pulse duration threshold range based on said current parameter information in said mapping table comprises:
traversing the parameter information in the mapping relation table;
taking the parameter information traversed each time as the parameter information to be matched;
matching the parameter information to be matched with the current parameter information according to the mapping relation table;
if the matching is consistent, searching a target pulse duration threshold range corresponding to the parameter information to be matched from the mapping relation, and selecting pulse duration from the target pulse duration threshold range;
and taking the pulse duration as the current pulse duration corresponding to the current parameter information.
4. The method of claim 3, wherein after the step of matching the parameter information to be matched with the current parameter information according to the mapping relation table, the method further comprises:
and if the matching is inconsistent, returning to the step of traversing the parameter information in the mapping relation table.
5. The method of any one of claims 1 to 4, wherein the vortex ring generator is an on-off vortex ring generator;
the step of driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail includes:
controlling the movement time from the opening state to the closing state of a wind shield of the on-off vortex ring generator according to the current pulse duration;
controlling the cross-sectional area of a channel where a wind shield of the on-off vortex ring generator is located according to the parameter information corresponding to the on-off vortex ring generator;
and driving the on-off vortex ring generator according to the movement time of the wind shield from the opening state to the closing state and the cross section area of the channel, so that the on-off vortex ring generator generates a vortex ring with a trail.
6. The method of any one of claims 1 to 4, wherein the vortex ring generator is a compression-type vortex ring generator;
the step of driving the vortex ring generator according to the current pulse duration to enable the vortex ring generator to generate a vortex ring with a trail further includes:
controlling the movement time of a membrane part in the compression type vortex ring generator from an initial position to a positioning position according to the current pulse duration;
and driving the compression type vortex ring generator according to the movement time of the film part from the initial position to the positioning position and the parameter information corresponding to the compression type vortex ring generator, so that the compression type vortex ring generator generates a vortex ring with a trail.
7. A vortex ring generating apparatus having a wake, the apparatus comprising:
the acquisition module is used for acquiring parameter information of a vortex ring generator on the air conditioner;
a determining module for determining a target pulse duration threshold range capable of generating a wake vortex ring based on the parameter information;
the selecting module is used for selecting the current pulse duration from the target pulse duration threshold range;
the generating module is used for driving the vortex ring generator according to the current pulse duration so as to enable the vortex ring generator to generate a vortex ring with a trail;
the parameter information comprises air outlet caliber and air quantity information;
the determining module is further configured to obtain a vortex ring target speed with a trail and distance information between the air conditioner and a user, where the vortex ring target speed is a moving speed of the vortex ring with the trail moving to the user; establishing a first corresponding relation between the vortex ring initial speed with a trail and the air quantity information based on the vortex ring target speed, the distance information and the air outlet caliber; acquiring a second corresponding relation between the initial speed of the vortex ring and the pulse duration; and determining a target pulse duration threshold range with a trail corresponding to the vortex ring generator according to the first corresponding relation and the second corresponding relation.
8. An air conditioner, characterized in that the air conditioner comprises: a memory, a processor and a wake-on-vortex-ring generating program stored on the memory and executable on the processor, the wake-on-vortex-ring generating program configured to implement the steps of the wake-on-vortex-ring generating method of any one of claims 1 to 6.
9. A storage medium having a vortex ring generation program with a wake stored thereon, the vortex ring generation program with a wake implementing the steps of the vortex ring generation method with a wake according to any one of claims 1 to 6 when executed by a processor.
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