CN112431773A - Air supply device, control method and system of air supply device and readable storage medium - Google Patents

Abstract

The invention provides an air supply device, a control method and a control system of the air supply device and a readable storage medium. The air supply device includes: a base; the fan assembly is detachably arranged on the base and is suitable for rotating relative to the base to form airflow, an air tunnel is formed inside the fan assembly and is suitable for enabling the airflow to pass through and changing the flow rate of the airflow, and a functional assembly is arranged in the air tunnel; the control device is configured to determine an air supply mode and/or a function mode according to a control instruction; the fan assembly is controlled to work according to an air supply mode, and/or the functional assembly is controlled to work according to a functional mode. The user can control the air supply device to execute different air supply modes according to different requirements. The air supply device can realize different auxiliary functions according to different requirements of users in the working process.

Description

Air supply device, control method and system of air supply device and readable storage medium

Technical Field

The present invention relates to the field of fan technology, and in particular, to an air supply device, a control method of an air supply device, a control system of an air supply device, and a computer-readable storage medium.

Background

Generally, the current air supply devices such as electric fans can only adjust the flow direction of air flow by rotating a fan head, so that the air flow generated by the air supply device is single, and thus, a fan assembly cannot generate multiple air supply modes, and further cannot meet the detailed requirements of users. Moreover, the fan assembly of the conventional air supply device has a single function, and can not provide auxiliary functions except air supply for users through the fan assembly, so that diversified requirements of the users can not be met.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present invention proposes an air blowing device.

A second aspect of the present invention provides a control method for an air blowing device.

A third aspect of the present invention provides a control system for an air blowing device.

A fourth aspect of the present invention is directed to a computer-readable storage medium.

In view of this, a first aspect of the present invention provides an air blowing device, including: a base; the fan assembly is detachably arranged on the base and is suitable for rotating relative to the base to form airflow, an air tunnel is formed inside the fan assembly and is suitable for enabling the airflow to pass through and changing the flow rate of the airflow, and a functional assembly is arranged in the air tunnel; the control device is configured to determine an air supply mode and/or a function mode according to a control instruction; the fan assembly is controlled to work according to an air supply mode, and/or the functional assembly is controlled to work according to a functional mode.

In the technical scheme, the fan assembly is arranged on the air supply device, and the control device for controlling the fan assembly is arranged together, so that a user can control the air supply device to execute different air supply modes according to different requirements, the requirement of the user can be met by the air flow generated by the air supply device, and the use experience of the user is improved.

Further, the flow rate of the air flow can be changed by arranging the wind tunnel. Specifically, the airflow formed on the back of the fan assembly passes through the wind tunnel and then reaches the front of the fan assembly, and after the airflow is superposed with the airflow on the front of the fan assembly, the airflow is accelerated. The functional component is arranged in the wind tunnel of the fan component, so that the space in the wind tunnel is reasonably utilized, and the air supply device can realize different auxiliary functions according to different requirements of users in the working process. On the one hand, the auxiliary function can provide functions other than generating airflow for users, thereby meeting diversified demands of the users. On the other hand, the auxiliary function can be matched with the current air supply mode of the fan assembly, so that the air supply mode and the functional mode supplement each other, the use experience of a user is further strengthened, the optimized air supply device structure is realized, the intelligent degree of the air supply device is improved, the application range of the air supply device is widened, and the technical effect of the use experience of the user is improved.

In addition, the air supply in the above technical solution provided by the present invention may further have the following additional technical features:

in above-mentioned technical scheme, furtherly, be provided with energy receiving device on the functional block, the functional block passes through energy receiving device and acquires the electric energy, and air supply arrangement still includes: and the energy transmitting device is arranged on one side of the wind tunnel, corresponds to the energy receiving device and is configured to send electric energy to the functional component.

In the technical scheme, the energy receiving device is arranged on the functional component, and the energy transmitting device matched with the energy receiving device is arranged on the wind tunnel, so that the air supply device can transmit electric energy to the functional component from the energy transmitting device and the energy receiving device for the functional component to operate, on one hand, different functional modes are realized by driving the functional component, on the other hand, the functional component can work by means of the electric energy of the air supply device, the special energy supply structure is not required to be arranged for the functional component, the structure is simplified, and the cost is reduced. And then realized optimizing air supply arrangement structure, promoted air supply arrangement compact structure degree, reduced air supply arrangement manufacturing cost, promoted product competitiveness's technical effect.

In any of the above technical solutions, further, the functional component includes: a playing device configured to be adapted to play a media file; the control device is configured to control the playing device to play the media file corresponding to the air supply mode.

In the technical scheme, the function component comprises the playing device through limitation, the limitation control device can control the playing device to play the media files corresponding to the air supply mode, the air supply device can play the media files which complement the air supply mode for the user after the user selects the air supply mode, good experience is provided for the user on the basis of providing the specified airflow for the user, the user can obtain the feeling of being personally on the scene, the personalized requirements of the user are met, the function of the function component is optimized, the intelligent degree of the air supply component is improved, and the technical effect of the user experience is improved.

In any of the above technical solutions, further, the functional component includes: a heating device configured to heat the airflow; the control means are configured and adapted to control the heating means to heat the air flow with a heating power matched to the functional mode.

In this technical scheme, include heating device through injecing the functional block to injecing controlling means can control heating device and heat the air current according to functional mode, make the user after selecting functional mode, heating device can assist air supply arrangement to provide the air current that satisfies user demand temperature for the user, thereby make air supply arrangement can produce the air current of different temperatures, and then realize optimizing functional block functionality, promote the intelligent degree of air supply assembly, promote the technological effect that the user used experience.

In any of the above technical solutions, further, the functional component includes: a projection device configured to be adapted to project information within the wind tunnel; the control device is configured and adapted to control the projection device to project information corresponding to the air supply mode in the wind tunnel.

In the technical scheme, the function component comprises the projection device by limiting, the control device can control the projection device to project projection information corresponding to the air supply mode, the user can select the air supply mode, the air supply device can provide projection images which supplement the air supply mode for the user, good visual experience is provided for the user on the basis of providing appointed airflow for the user, the user can obtain the feeling of being personally on the scene, the personalized requirements of the user are met, the function of the function component is optimized, the intelligent degree of the air supply component is improved, and the technical effect of the user experience is improved.

In any of the above technical solutions, further, the air supply device further includes: and the detection device is arranged on the base and is configured to be suitable for acquiring time information and ambient light intensity.

In the technical scheme, the detection device is arranged on the base, so that the control device can acquire required information through the detection device in the working process, and then the information corresponds to the control function module and the fan assembly to execute targeted work, so that the functions of the air supply device are optimized and widened, and the intelligent degree of the air supply device is improved.

In any of the above technical solutions, further, the functional component includes: an illumination device configured to emit visible light; the control device is configured to be suitable for acquiring time information and ambient light intensity, and based on that the time information is night time and the ambient light intensity is smaller than an ambient light intensity threshold value, the lighting device is controlled to emit visible light at a brightness matched with the ambient light intensity.

In this technical scheme, through set up lighting device on air supply arrangement, and inject lighting device and can send the visible light that matches with time information and ambient light intensity under the control of controlling means, make air supply arrangement can satisfy user's lighting requirements on the basis that provides the air current for the user, thereby convenience of customers observes near the scene information of air supply arrangement at night or rainy weather, and then realize optimizing the air supply arrangement structure, promote the intelligent degree of air supply arrangement, satisfy user's pluralism demand, promote the technological effect that the user used experience.

In any of the above technical solutions, further, the functional component includes: a mosquito eradication device configured to be adapted to attract and destroy mosquitoes; the control device is configured to be suitable for acquiring time information and ambient light intensity, and based on the time information being night time and the ambient light intensity being less than an ambient light intensity threshold value, the mosquito killing device is started.

In this technical scheme, can synthesize time information and ambient light intensity through setting up mosquito eradication device and injecing controlling means and control mosquito eradication device's switch, make air supply arrangement can judge whether current environment possesses the kill mosquito demand by oneself through controlling means on the one hand, for example: the mosquito killing device is controlled to be started at night when mosquitoes are more active so as to improve the mosquito killing efficiency; the mosquito killing device is controlled to be opened under a dark environment to ensure that mosquitoes can be attracted to the mosquito killing device. On the other hand can promote user's sleep quality through the kill mosquito device, and then realize optimizing air supply arrangement structure, promote the intelligent degree of air supply arrangement, promote the technological effect that the user used experience.

In any of the above technical solutions, further, the fan assembly includes: the support ribs are hollow structures so as to construct a wind tunnel; outer ring muscle, brace rod set up in the inside of outer ring muscle, are provided with a plurality of blades between outer ring muscle and the brace rod, and a plurality of blades are arranged along the circumference of outer ring muscle, and the blade is configured to be suitable for relative outer ring muscle and brace rod to rotate.

In this technical scheme, rotate through with blade and brace rod and outer loop muscle and link to each other, make blade can rotate with the brace rod to outer loop muscle relatively, thereby the contained angle through adjusting between blade and brace rod and the outer loop muscle corresponds the direction of adjusting the air current, and then make fan assembly can mark off a plurality of air supply modes through the rotation range of adjusting the blade, and with this satisfy user's pertinence demand, in order to realize optimizing fan assembly structure, widen the air supply arrangement function, promote the technological effect that the user used experience.

In any of the above technical solutions, further, the fan assembly includes: a blade adjustment mechanism coupled to the blades, the blade adjustment mechanism configured to rotate one or more blades to adjust an orientation of the blades.

In this technical scheme, through setting up blade guiding mechanism, the orientation that makes the produced air current of air supply arrangement and blade is synchronous, and then has realized optimizing fan assembly structure, promotes fan assembly degree of automation and intelligent degree, reduces user operation volume, promotes the technological effect of product practicality.

In any of the above technical solutions, further, the air supply device further includes: and the driving device is connected with the fan assembly and is used for driving the fan assembly to rotate.

In the technical scheme, the driving device is arranged, so that the fan assembly can rotate and generate air flow under the driving of the driving device, and the air supply requirement of the air supply device is met.

In any of the above solutions, further, the control device is configured to determine a target operating parameter according to the air supply mode, where the target operating parameter includes at least one of: a target orientation of the blades, a direction of rotation of the fan assembly, and a speed of rotation of the fan assembly; and controlling the blade adjusting mechanism and/or the driving device to drive the fan assembly according to the target working parameters so that the fan assembly works according to the air supply mode.

In the technical scheme, the step of controlling the fan assembly to work according to the air supply mode by the control device is as follows: firstly, the control device determines the target orientation of the blades and the rotating direction and the rotating speed of the fan assembly in the air supply mode according to the target air supply mode; thereafter, the control device controls the fan assembly to adjust the operating state to be synchronized with the target orientation, the rotational direction, and the rotational speed. Specifically, the method comprises the following steps: the control device controls the blades to rotate to a target orientation so that the direction of the airflow generated by the fan assembly meets the requirements of users; the control device controls the driving device to drive the fan assembly to rotate according to the rotating direction corresponding to the working mode so as to further correct the airflow direction generated by the fan assembly; the control device controls the driving device to drive the fan assembly to rotate according to the rotating speed corresponding to the working mode so as to realize the regulation and control of the strength of the airflow generated by the air supply device. And then realize promoting air supply arrangement degree of automation and intelligent degree, widen the product function, promote the technological effect that the user used and experienced.

In any of the above technical solutions, further, the driving device includes: the stator assembly is arranged on the base; the rotor assembly comprises a bracket and a plurality of magnetic pieces arranged on the bracket, and the rotor is suitable for clockwise rotation or anticlockwise rotation relative to the stator; wherein the rotor assembly is configured to be separated from the stator assembly.

In the technical scheme, the stator assembly and the rotor assembly are arranged to drive the fan assembly to rotate, so that a mechanical transmission structure in a conventional fan is omitted, and the working noise of the air supply device is reduced; on the other hand stator module and rotor subassembly are constituteed drive arrangement accessible magnetic field's change realizes turning to and the regulation and control of rotational speed, has removed the mechanical control structure from to reduce air supply arrangement's structural complexity, and then realized optimizing the drive arrangement structure, promote drive arrangement operational reliability, simplify product inner structure, reduce the product production finished product, promote the technological effect of product competitiveness.

In any of the above technical solutions, further, the outer ring rib is formed as a bracket, or the bracket is disposed on the outer ring rib; a plurality of magnetic part arrange along the circumference of outer ring muscle or support to under stator module's effect, drive fan assembly rotates along with the rotor subassembly.

In this technical scheme, be connected support and outer loop muscle, or directly regard the outer loop muscle as the support, accomplish the assembly back, the axis of a plurality of magnetic parts outer loop muscle is the axle, evenly arranges along the circumference of outer loop muscle or support. In the working process, the stator assembly and the rotor assembly generate a magnetic field, and the magnetic part drives the outer ring rib to rotate relative to the stator assembly under the action of the magnetic field, so that the rotation of the fan assembly is realized.

In any of the above technical solutions, further, the energy transmitting device and the energy receiving device are both configured as coil assemblies, and the modulation frequency ranges of the coil assemblies are as follows: 20kHz to 500 kHz.

In the technical scheme, the energy transmitting device is limited to be the coil assembly, wireless transmission of energy between the energy transmitting device and the energy receiving device is achieved, conventional functional circuits are eliminated, the structure of the simplified air supply device is further achieved, and the production cost of the air supply device is reduced.

Furthermore, the frequency modulation rate generated by the coil assembly is limited between 20kHz and 500kHz, so that the technical effect of improving the working stability and reliability of the air supply assembly is achieved.

A second aspect of the present invention provides a control method for an air blowing device, for controlling the air blowing device according to any one of the above aspects, the control method for an air blowing device including: receiving a control instruction, and determining an air supply mode and/or a function mode according to the control instruction; the fan assembly is controlled to operate in an air supply mode to form an air flow, and/or the functional assembly is controlled to operate in a functional mode.

In the technical scheme, the control method of the air supply device enables a user to control the air supply device to execute different air supply modes according to different requirements, so that the air flow generated by the air supply device can meet the requirements of the user, and the use experience of the user is further improved. In addition, the control method enables the air supply device to realize different auxiliary functions according to different requirements of users in the working process. On the one hand, the auxiliary function can provide functions other than generating airflow for users, thereby meeting diversified demands of the users. On the other hand, the auxiliary function can be matched with the current air supply mode of the fan assembly, so that the air supply mode and the functional mode supplement each other, the use experience of a user is further strengthened, the intelligent degree of the air supply device is improved, the application range of the air supply device is widened, and the technical effect of the use experience of the user is improved.

In any of the above technical solutions, further, the step of controlling the fan assembly to operate according to the air supply mode specifically includes: determining target working parameters according to the air supply mode, wherein the target working parameters at least comprise one of the following parameters: a target orientation of the blades, a direction of rotation of the fan assembly, and a speed of rotation of the fan assembly; and controlling the blade adjusting mechanism and/or the driving device to drive the fan assembly according to the target working parameters so that the fan assembly works according to the air supply mode.

In the technical scheme, the step of controlling the fan assembly to work according to the air supply mode by the control device is as follows: firstly, the control device determines the target orientation of the blades and the rotating direction and the rotating speed of the fan assembly in the air supply mode according to the target air supply mode; thereafter, the control device controls the fan assembly to adjust the operating state to be synchronized with the target orientation, the rotational direction, and the rotational speed. Specifically, the method comprises the following steps: the control device controls the blades to rotate to a target orientation so that the direction of the airflow generated by the fan assembly meets the requirements of users; the control device controls the driving device to drive the fan assembly to rotate according to the rotating direction corresponding to the working mode so as to further correct the airflow direction generated by the fan assembly; the control device controls the driving device to drive the fan assembly to rotate according to the rotating speed corresponding to the working mode so as to realize the regulation and control of the strength of the airflow generated by the air supply device. And then realize promoting air supply arrangement degree of automation and intelligent degree, widen the product function, promote the technological effect that the user used and experienced.

In any of the above technical solutions, further, the air supply device includes a playing device, and the step of controlling the functional component to operate according to the functional mode specifically includes: and controlling the playing device to play the media file corresponding to the air supply mode.

In the technical scheme, the control method of the air supply device enables the air supply device to play the media file which is complementary with the air supply mode for the user after the user selects the air supply mode, thereby providing good experience for the user on the basis of providing the user with the specified airflow, enabling the user to obtain the feeling of being personally on the scene, meeting the personalized demand of the user, further realizing the function optimization of the functional component, improving the intelligent degree of the air supply component and improving the technical effect of the user experience.

In any of the above technical solutions, further, the air supply device includes a heating device, and the step of controlling the functional component to operate according to the functional mode specifically includes: and controlling the heating device to heat the airflow according to the heating power matched with the function mode.

In the technical scheme, after the user selects the function mode, the heating device can assist the air supply device to provide air flow meeting the temperature required by the user for the user, so that the air supply device can generate air flow with different temperatures, the function of the functional component is optimized, the intelligent degree of the air supply component is improved, and the technical effect of the user experience is improved.

In any of the above technical solutions, further, the air supply device includes a projection device, and the step of controlling the functional component to operate according to the functional mode specifically includes: and controlling the projection device to project information corresponding to the air supply mode in the wind tunnel.

In the technical scheme, the control method of the air supply device enables the user to provide the projection image which is complementary with the air supply mode after the air supply mode is selected, so that good visual experience is provided for the user on the basis of providing the user with the specified airflow, the user can obtain the feeling of being personally on the scene, the personalized requirements of the user are met, the function of the function optimizing component is further optimized, the intelligent degree of the air supply component is improved, and the technical effect of the user experience is improved.

In any of the above technical solutions, further, the air supply device includes a detection device and an illumination device, the detection device is configured to be suitable for acquiring time information and ambient light intensity, and the step of controlling the functional component to operate according to the functional mode specifically includes: and acquiring time information and ambient light intensity, controlling the lighting device to emit visible light according to brightness matched with the ambient light intensity at night time based on the time information, wherein the ambient light intensity is smaller than an ambient light intensity threshold value.

In the technical scheme, the control method of the air supply device enables the air supply device to meet the lighting requirements of the user on the basis of providing air flow for the user, so that the user can conveniently observe scene information near the air supply device at night or in rainy weather, the structure of the air supply device is optimized, the intelligent degree of the air supply device is improved, diversified requirements of the user are met, and the technical effect of user experience is improved.

In any one of the above technical scheme, further, air supply arrangement includes the kill mosquito device, and control function component specifically includes according to the step of functional mode work: and acquiring time information and ambient light intensity, and starting the mosquito killing device based on the time information as night time and the ambient light intensity smaller than an ambient light intensity threshold value.

In this technical scheme, air supply arrangement's control method makes air supply arrangement can judge whether current environment possesses the kill mosquito demand by oneself through controlling means on the one hand, for example: the mosquito killing device is controlled to be started at night when mosquitoes are more active so as to improve the mosquito killing efficiency; the mosquito killing device is controlled to be opened under a dark environment to ensure that mosquitoes can be attracted to the mosquito killing device. On the other hand can promote user's sleep quality through the kill mosquito device, and then realize optimizing air supply arrangement structure, promote the intelligent degree of air supply arrangement, promote the technological effect that the user used experience.

A third aspect of the present invention provides a control system for an air blowing device, for controlling the air blowing device in any one of the above aspects, the control system including: a memory having a computer program stored thereon; a processor configured when executing the computer program to implement: therefore, the control system of the air supply device includes all the beneficial effects of the air supply device provided in any one of the above technical solutions, which are not described herein again.

A fourth aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the method for controlling an air supply apparatus according to any one of the above-mentioned technical solutions, and therefore, the computer-readable storage medium includes all the beneficial effects of the method for controlling an air supply apparatus according to any one of the above-mentioned technical solutions, and is not described herein again.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of an air blowing device provided according to an embodiment of the present invention;

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

FIG. 3 is a schematic structural diagram of an air supply apparatus according to still another embodiment of the present invention;

FIG. 4 is a flowchart illustrating a control method of an air supply apparatus according to an embodiment of the present invention;

fig. 5 is a flowchart showing a control method of an air blowing device according to another embodiment of the present invention;

FIG. 6 is a block diagram showing a control system of an air blowing device according to an embodiment of the present invention;

fig. 7 is a schematic diagram illustrating a control logic of an air supply device according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 3 is:

marking	Name of component	Marking	Name of component	Marking	Name of component
						1	Air supply device	10	Base seat	20	Fan assembly
202	Outer ring rib	204	Blade	206	Support rib
						208	Wind tunnel	30	Drive device	302	Stator assembly
304	Rotor assembly	306	Magnetic member

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

An air blowing device 1, a control method of the air blowing device, a control system of the air blowing device, and a computer-readable storage medium according to some embodiments of the present invention are described below with reference to fig. 1 to 7.

The first embodiment is as follows:

as shown in fig. 1, according to an air supply device 1 of an embodiment of the present invention, the air supply device 1 includes: a base 10; a fan assembly 20 configured to be detachably disposed on the base 10, the fan assembly 20 being adapted to rotate relative to the base 10 to form an air flow, an air tunnel 208 being formed inside the fan assembly 20, the air tunnel 208 being adapted to allow the air flow to pass through and change the flow rate of the air flow, and a functional component being disposed inside the air tunnel 208; the control device is configured to determine an air supply mode and/or a function mode according to a control instruction; the fan assembly 20 is controlled to operate in a blowing mode and/or the functional assembly is controlled to operate in a functional mode.

In the description of the embodiments described below, the air supply device 1 includes two main operation portions, namely, the fan assembly 20 and the functional module disposed on the fan assembly 20, and the control device can control the fan assembly 20 and the functional module to perform corresponding operations according to the control instruction.

In this embodiment, the air blowing device 1 is composed of a base 10 and a fan assembly 20. The base 10 is a support structure for the fan assembly 20, and is used for positioning and supporting other structures on the air supply device 1. The fan assembly 20 is a main working part of the air supply device 1, and is detachably disposed on the base 10. During maintenance, a user may remove the fan assembly 20 from the base 10 to complete repair and replacement of the fan assembly 20 to reduce the difficulty of maintenance. During operation, the fan assembly 20 rotates relative to the base 10 to form an airflow, wherein the airflow formed at the back of the fan assembly 20 reaches the front of the fan assembly 20 through the air tunnel 208, and is accelerated after being superimposed with the airflow at the front. Functional components are arranged in the wind tunnel 208 to provide other functions for the air supply device 1 except for generating airflow through the functional components. On the basis, the air supply device 1 is also provided with a control device. The control device is used for controlling the operation of the fan assembly 20 and the functional components. In the working process, the control device firstly confirms the target air supply mode to be executed by the air outlet fan assembly 20 according to the control instruction of the user, and confirms the target function mode to be executed by the functional assembly according to the control instruction of the user. Then, the control device controls the fan assembly 20 to generate an air flow matched with the target air supply mode according to the target air supply mode; correspondingly, the control device controls the functional component to work according to the target function mode, so that the functional component generates the function matched with the target function mode.

And then realize optimizing air supply arrangement 1 structure, promote air supply arrangement 1's intelligent degree, widen air supply arrangement 1's application scope, promote the technological effect that the user used and experienced.

Example two:

in the above embodiment, optionally, an energy receiving device is disposed on the functional component, the functional component obtains electric energy through the energy receiving device, and the air supply device 1 further includes: and the energy emitting device is arranged at one side of the wind tunnel 208 and is arranged corresponding to the energy receiving device, and the energy emitting device is configured to send electric energy to the functional component.

Optionally, the energy emitting device and the energy receiving device are both coil assemblies, and the modulation frequency range of the coil assemblies is: 20kHz to 500 kHz.

Optionally, the functional components include: a playing device configured to be adapted to play a media file; the control device is configured to control the playing device to play the media file corresponding to the air supply mode.

Optionally, the functional components include: a heating device configured to heat the gas flow; the control means are configured and adapted to control the heating means to heat the air flow with a heating power matched to the functional mode.

Optionally, the functional components include: a projection device configured and adapted to project information within the wind tunnel 208; the control device is configured and adapted to control the projection device to project information corresponding to the blowing mode in the wind tunnel 208.

Alternatively, the air blowing device 1 further includes: and a detection device disposed on the base 10, the detection device being configured to acquire time information and ambient light intensity. The functional components include: an illumination device configured to emit visible light; the control device is configured to be suitable for acquiring time information and ambient light intensity, and based on that the time information is night time and the ambient light intensity is smaller than an ambient light intensity threshold value, the lighting device is controlled to emit visible light at a brightness matched with the ambient light intensity.

Optionally, the functional components include: a mosquito eradication device configured to be adapted to attract and destroy mosquitoes; the control device is configured to be suitable for acquiring time information and ambient light intensity, and based on the time information being night time and the ambient light intensity being less than an ambient light intensity threshold value, the mosquito killing device is started.

In the description of the embodiments described below in the present application, specific limitations are imposed on functional components that can perform various functions for the air blowing device 1.

In this embodiment, the air supply device 1 is further provided with an energy receiving device and an energy emitting device. The energy receiving device is disposed on the functional component, the energy emitting device is disposed on one side of the wind tunnel 208, and the energy receiving device and the energy emitting device are disposed opposite to each other and coupled to each other. In the working process, the energy transmitting device transmits electric energy to the energy receiving device, and the energy receiving device drives the functional module to work through the electric energy after receiving the electric energy so as to realize corresponding functions. And then realized optimizing air supply arrangement 1 structure, promoted air supply arrangement 1 compactness, reduced air supply arrangement 1 manufacturing cost, promoted product competitiveness's technical effect.

Furthermore, the functional assembly comprises a playing device, and the playing device is connected with the control device. In the working process, the control device receives a control instruction from a user, confirms the air supply mode corresponding to the control instruction according to the control instruction, and controls the playing device to play the media file corresponding to the air supply mode. For example, when the blowing mode selected by the user is a soft wind mode, the control device controls the playing device to play a soothing media file, so that the user is relaxed. And then realize optimizing function assembly functionality, promote the intelligent degree of air supply assembly, promote the technical effect that the user used and experienced.

Specifically, the coil assembly is preferably selected as the energy emitting device, and the modulation frequency range of the coil assembly is as follows: 20kHz to 500 kHz. In the working process, the coil assembly transmits energy to the energy receiving device through electromagnetic induction so as to enable the functional module to work.

Further, the functional assembly comprises a heating device, and the heating device is connected with the control device. During operation, the control device receives a control command from a user, identifies a functional mode corresponding to the control command according to the control command, and then controls the airflow generated by the heating device and the fan assembly 20 so that the temperature of the airflow satisfies the functional mode. For example, when the functional mode selected by the user is the heating mode, the control device controls the airflow generated by the heating device heating fan assembly 20 so that the airflow temperature can satisfy the user's sensory demand and increase the ambient temperature in the vicinity of the air blowing device 1. And then realize optimizing function assembly functionality, promote the intelligent degree of air supply assembly, promote the technical effect that the user used and experienced.

Further, the functional assembly comprises a projection device, and the projection device is connected with the control device. In the working process, the control device receives a control instruction from a user, confirms the air supply mode corresponding to the control instruction according to the control instruction, and then controls the projection device to project projection information corresponding to the air supply mode. For example, when the blowing mode selected by the user is a sea wind mode, the control device controls the projection device to project projection information related to sea themes, so that the user experiences a feeling of being near the sea. And then realize optimizing function assembly functionality, promote the intelligent degree of air supply assembly, promote the technical effect that the user used and experienced.

Further, a detection device is further arranged on the base 10, the detection device can acquire current time information in the working process, and after the time information is acquired, the control device controls the functional components to work through the time information. Meanwhile, the detection device can also detect the intensity of ambient light near the air supply device 1 in the working process, and the control device controls the functional component to work through the intensity of the ambient light after the intensity of the ambient light is obtained. The functional assembly comprises a lighting device which is connected with the control device. In the working process, the control device receives the time information and the ambient light intensity acquired by the detection device, then the control device judges the time period of the time information, judges whether the ambient light intensity reaches the preset intensity after the time period is determined, and controls the lighting device to work to improve the ambient light intensity near the air supply device 1 if the ambient light intensity does not reach the preset intensity. For example, the detection means detects that the current time is 22: 00, the control device judges that the current time is in the night time period according to the time information. And then the control device judges whether the acquired ambient light intensity reaches a preset night ambient light intensity threshold value, if not, the control device controls the lighting device to emit visible light so as to improve the ambient light intensity, and if so, the lighting device does not execute lighting. And then realize optimizing air supply arrangement 1 structure, promote air supply arrangement 1 intelligent degree, satisfy user's pluralism demand, promote the technical effect that the user used and experienced.

Further, the functional component comprises a mosquito killing device, and the mosquito killing device is connected with the control device. In the working process, the control device receives the time information and the ambient light intensity acquired by the detection device, then the control device judges whether the time information is night time information or not, if the time information is judged to be the night time, whether the ambient light intensity is lower than a preset threshold value or not is further judged, and if the ambient light intensity is lower than the preset threshold value, the mosquito killing device is started to attract and kill mosquitoes through the mosquito killing device. And then promote user's sleep quality through the kill mosquito device, realize optimizing air supply arrangement 1 structure, promote 1 intelligent degree of air supply arrangement, promote the technological effect that the user used and experienced.

Example three:

as shown in fig. 2, in any of the above embodiments, optionally, the fan assembly 20 includes: the support rib 206, the support rib 206 is a hollow structure to construct a wind tunnel 208; outer ring muscle 202, brace rod 206 set up in the inside of outer ring muscle 202, are provided with a plurality of blades 204 between outer ring muscle 202 and the brace rod 206, and a plurality of blades 204 are arranged along the circumference of outer ring muscle 202, and blade 204 is configured to be suitable for relative outer ring muscle 202 and brace rod 206 to rotate.

Alternatively, the fan assembly 20 includes: a blade adjustment mechanism coupled to the blades 204, the blade adjustment mechanism configured to rotate one or more of the blades 204 to adjust an orientation of the blades 204.

Alternatively, the air blowing device 1 further includes: and a driving device 30 connected to the fan assembly 20, wherein the driving device 30 is used for driving the fan assembly 20 to rotate. The control device is configured to determine target operating parameters according to the air supply mode, the target operating parameters including at least one of: the target orientation of the blades 204, the direction of rotation of the fan assembly 20, and the speed of rotation of the fan assembly 20; the blade adjustment mechanism and/or drive 30 is controlled to drive the fan assembly 20 in accordance with the target operating parameters to operate the fan assembly 20 in the blowing mode.

In describing the embodiments of the present application that will be described below, the fan assembly 20 is specifically defined such that the control device can adjust the angle of rotation of the blades 204 during operation to generate the desired airflow.

In this embodiment, the fan assembly 20 is composed of the support rib 206, the outer ring rib 202 and the blades 204, after the assembly, the support rib 206 and the outer ring rib 202 share the same axis, the outer ring rib 202 is arranged outside the support rib 206 in a surrounding manner, the plurality of blades 204 are arranged between the outer ring rib 202 and the support rib 206, one end of each blade 204 is rotatably connected with the outer ring rib 202, the other end of each blade 204 is rotatably connected with the support rib 206, and the plurality of blades 204 are uniformly distributed along the circumferential direction of the outer ring rib 202. And then make fan assembly 20 can divide into a plurality of air supply modes through the rotation range of adjustment blade 204 to this pertinence demand that satisfies the user, in order to realize optimizing fan assembly 20 structure, widen air supply arrangement 1 function, promote the technical effect that the user used the experience.

Further, a blade adjusting mechanism is disposed in the fan assembly 20, and the blade adjusting mechanism is connected to the blade 204 and is used for driving the blade 204 to rotate relative to the support rib 206 and the outer ring rib 202. During operation, when the fan assembly 20 receives a control command for switching the operating state sent by the control device, the blade adjusting mechanism drives one or more blades 204 to rotate to the direction corresponding to the operating state according to the control command.

Specifically, the blade adjusting mechanism is composed of a driving motor and a gear transmission mechanism. Wherein, driving motor sets up on brace rod 206, and driving motor's output is connected with gear drive's one end, and gear drive's the other end is connected with blade 204. In the working process, the driving motor is started, the gear transmission mechanism transmits the power of the driving motor to the blades 204 through the driving mechanism, so that the blades 204 rotate relative to the outer ring ribs 202, the air supply mode is switched, and the requirements of users are met. Further, the gear transmission mechanism can be replaced by other mechanical transmission mechanisms, and the details are not repeated here. And then realized optimizing fan assembly 20 structure, promoted fan assembly 20 degree of automation and intelligent degree, reduced user operation volume, promoted the technical effect of product practicality.

Further, the air supply device 1 is further provided with a driving device 30, an output end of the driving device 30 is connected with the fan assembly 20, and during operation, the driving device 30 transmits power to the fan assembly 20 to rotate the fan assembly 20 relative to the base 10, so as to generate an air flow through the rotating fan assembly 20. The steps of the control device controlling the fan assembly 20 to work in the air supply mode are as follows: first, the control device determines a target orientation of the blades 204 and a rotational direction and a rotational speed of the fan assembly 20 in the blowing mode according to the target blowing mode; thereafter, the control device controls the fan assembly 20 to adjust the operation state to be synchronized with the above-described target orientation, rotation direction, and rotation speed. Specifically, the method comprises the following steps: the control device controls the blades 204 to rotate to a target orientation so that the direction of the airflow generated by the fan assembly 20 meets the user's requirements; the control device controls the driving device 30 to drive the fan assembly 20 to rotate according to the rotation direction corresponding to the working mode, so as to further correct the airflow direction generated by the fan assembly 20; the control device controls the driving device 30 to drive the fan assembly 20 to rotate at a rotation speed corresponding to the working mode, so as to regulate and control the intensity of the air flow generated by the air supply device 1. And then realize promoting 1 degree of automation and intelligent degree of air supply arrangement, widen the product function, promote the technological effect that the user used and experienced.

Example four:

as shown in fig. 3, in any of the above embodiments, optionally, the driving device 30 includes: a stator assembly 302 disposed on the base 10; a rotor assembly 304 including a frame and a plurality of magnetic members 306 disposed on the frame, the rotor being adapted to rotate clockwise or counterclockwise relative to the stator; wherein the rotor assembly 304 is configured to be adapted to be separated from the stator assembly 302.

Alternatively, the outer ribs 202 are formed as brackets.

Alternatively, the bracket is provided on the outer ring rib (not shown in the drawings).

A plurality of magnetic elements 306 are circumferentially arranged along outer ribs 202 or struts to drive fan assembly 20 to rotate with rotor assembly 304 as a result of stator assembly 302.

In the description of the embodiments of the present application, the driving device 30 is specifically defined, the driving device 30 can drive the fan assembly 20 to rotate relative to the base 10 during operation, and the control device can correspondingly control the rotation direction and the rotation speed of the fan assembly 20.

In this embodiment, the drive device 30 is comprised of a stator assembly 302 and a rotor assembly 304. After assembly, stator assembly 302 is fixedly coupled to base 10, rotor assembly 304 is positioned around stator assembly 302, and rotor assembly 304 is spaced apart from stator assembly 302. Further, the rotor assembly 304 is composed of a bracket and a plurality of magnetic members 306, the bracket is a positioning structure of the magnetic members 306, and the plurality of magnetic members 306 surround the stator assembly 302 after positioning and installation. In operation, rotor assembly 304 and stator assembly 302 generate a magnetic field, and the magnetic field causes the rotor to rotate relative to the stator, thereby driving fan assembly 20 to rotate relative to base 10 to generate an airflow through rotating fan assembly 20.

Further, the bracket is connected with the outer ring rib (not shown in the figure), or the outer ring rib 202 is directly used as the bracket, after the assembly is completed, the plurality of magnetic members 306 are uniformly arranged along the circumferential direction of the outer ring rib 202 or the bracket by using the axis of the outer ring rib 202 as a shaft. In operation, stator assembly 302 and rotor assembly 304 generate a magnetic field, and magnetic member 306 drives outer ring rib 202 to rotate relative to stator assembly 302 under the action of the magnetic field, thereby rotating fan assembly 20. And then realized optimizing drive arrangement 30 structure, promoted drive arrangement 30 operational reliability, simplified product inner structure, reduced product production finished product, promoted the technical effect of product competitiveness.

Example five:

as shown in fig. 4, according to the control method of the air blowing device of the embodiment of the present invention, the control method includes:

s402, receiving a control instruction, and determining an air supply mode and/or a function mode according to the control instruction;

and S404, controlling the fan assembly to work according to the air supply mode to form air flow, and/or controlling the functional assembly to work according to the functional mode.

In this embodiment, the flow of control of the air blowing device is as follows: firstly, receiving a control instruction sent by a user side, and determining an air supply mode and/or a function mode selected by the user according to the control instruction; and then, controlling the fan assembly to work correspondingly according to the determined air supply mode so as to generate air flow matched with the air supply mode, and simultaneously controlling the functional assembly to execute an auxiliary function corresponding to the functional mode correspondingly according to the determined functional mode. The control method enables a user to control the air supply device to execute different air supply modes according to different requirements, thereby ensuring that the air flow generated by the air supply device can meet the requirements of the user and further improving the use experience of the user. In addition, the control method enables the air supply device to realize different auxiliary functions according to different requirements of users in the working process.

Optionally, as shown in fig. 5, the step of controlling the fan assembly to operate according to the air supply mode specifically includes:

s502, determining target working parameters according to an air supply mode;

and S504, controlling the blade adjusting mechanism and/or the driving device to drive the fan assembly according to the target working parameters so as to enable the fan assembly to work according to the air supply mode.

Specifically, the control device controls the fan assembly to work according to the air supply mode according to the following steps: firstly, the control device determines the target orientation of the blades and the rotating direction and the rotating speed of the fan assembly in the air supply mode according to the target air supply mode; thereafter, the control device controls the fan assembly to adjust the operating state to be synchronized with the target orientation, the rotational direction, and the rotational speed. Specifically, the method comprises the following steps: the control device controls the blades to rotate to a target orientation so that the direction of the airflow generated by the fan assembly meets the requirements of users; the control device controls the driving device to drive the fan assembly to rotate according to the rotating direction corresponding to the working mode so as to further correct the airflow direction generated by the fan assembly; the control device controls the driving device to drive the fan assembly to rotate according to the rotating speed corresponding to the working mode so as to realize the regulation and control of the strength of the airflow generated by the air supply device.

Example six:

air supply arrangement includes play device, and the step of control function subassembly according to functional mode work specifically includes: and controlling the playing device to play the media file corresponding to the air supply mode.

Specifically, in the working process, the control device receives a control instruction from a user, confirms the air supply mode corresponding to the control instruction according to the control instruction, and then controls the playing device to play the media file corresponding to the air supply mode. For example, when the blowing mode selected by the user is a soft wind mode, the control device controls the playing device to play a soothing media file, so that the user is relaxed.

Optionally, the air supply device includes a heating device, and the step of controlling the functional component to work according to the functional mode specifically includes: and controlling the heating device to heat the airflow according to the heating power matched with the function mode.

Specifically, during operation, the control device receives a control instruction from a user, identifies a functional mode corresponding to the control instruction according to the control instruction, and then controls the airflow generated by the heating fan assembly of the heating device so that the temperature of the airflow meets the functional mode. For example, when the functional mode selected by the user is a heating mode, the control device controls the air flow generated by the heating fan assembly of the heating device, so that the air flow temperature can meet the demand of the user for body feeling, and the ambient temperature near the air supply device is increased.

Optionally, the air supply device includes a projection device, and the step of controlling the functional component to work according to the functional mode specifically includes: and controlling the projection device to project information corresponding to the air supply mode in the wind tunnel.

Specifically, during operation, the control device receives a control instruction from a user, determines an air supply mode corresponding to the control instruction according to the control instruction, and then controls the projection device to project projection information corresponding to the air supply mode. For example, when the blowing mode selected by the user is a sea wind mode, the control device controls the projection device to project projection information related to sea themes, so that the user experiences a feeling of being near the sea.

Optionally, the air supply device includes a detection device and an illumination device, the detection device is configured to be suitable for acquiring time information and ambient light intensity, and the step of controlling the functional component to operate according to the functional mode specifically includes: and acquiring time information and ambient light intensity, controlling the lighting device to emit visible light according to brightness matched with the ambient light intensity at night time based on the time information, wherein the ambient light intensity is smaller than an ambient light intensity threshold value.

Specifically, in the working process, the control unit receives the time information and the ambient light intensity acquired by the detection device, the control unit judges the time period of the time information, determines whether the ambient light intensity reaches the preset intensity after determining the time period, and controls the lighting device to work to improve the ambient light intensity near the air supply device if the ambient light intensity does not reach the preset intensity. For example, the detection means detects that the current time is 22: 00, the control device judges that the current time is in the night time period according to the time information. And then the control device judges whether the acquired ambient light intensity reaches a preset night ambient light intensity threshold value, if not, the control device controls the lighting device to emit visible light so as to improve the ambient light intensity, and if so, the lighting device does not execute lighting.

Optionally, air supply arrangement includes mosquito killing device, and the step of control function subassembly according to functional mode work specifically includes: and acquiring time information and ambient light intensity, and starting the mosquito killing device based on the time information as night time and the ambient light intensity smaller than an ambient light intensity threshold value.

Specifically, in the working process, the control device receives the time information and the ambient light intensity acquired by the detection device, and then the control device judges whether the time information is night time information or not, if the time information is judged to be night time, whether the ambient light intensity is lower than a preset threshold value or not is further judged, and if the ambient light intensity is lower than the preset threshold value, the mosquito killing device is started to attract and kill mosquitoes through the mosquito killing device.

Through setting up various functional modules in air supply arrangement to for every kind of functional module sets up corresponding control method, make the air supply subassembly can provide abundant attached function for the user on the basis of the air current that produces the user demand, and then satisfy user's pluralism demand, promote air supply arrangement's intelligent degree, promote user's use and experience.

Example seven:

as shown in fig. 6, a control system 600 for controlling the air supply device of any of the above embodiments includes: a memory 602, the memory 602 having a computer program stored thereon; a processor 604, the processor 604 being configured to implement, when executing the computer program: receiving a control instruction, and determining an air supply mode and/or a function mode according to the control instruction; the fan assembly is controlled to operate in an air supply mode to form an air flow, and/or the functional assembly is controlled to operate in a functional mode.

In this embodiment, the control system 600 of the air supply device enables a user to control the air supply device to execute different air supply modes according to different requirements, thereby ensuring that the air flow generated by the air supply device can meet the requirements of the user, and further improving the user experience. And the control system enables the air supply device to realize different auxiliary functions according to different requirements of users in the working process. On the one hand, the auxiliary function can provide functions other than generating airflow for users, thereby meeting diversified demands of the users. On the other hand, the auxiliary function can be matched with the current air supply mode of the fan assembly, so that the air supply mode and the functional mode supplement each other, the use experience of a user is further strengthened, the intelligent degree of the air supply device is improved, the application range of the air supply device is widened, and the technical effect of the use experience of the user is improved.

Example eight:

this embodiment defines a computer-readable storage medium on which a computer program is stored, which when executed by a processor implements the control method of the air supply apparatus as in any one of the above embodiments, and therefore, the computer-readable storage medium includes all the advantageous effects of the control method of the air supply apparatus as in any one of the above embodiments.

Example nine:

in one embodiment of the present invention, as shown in fig. 7, the air supply device is provided with a power supply device, the power supply device is connected with the control device and used for supplying power to other air supply device structures such as the control device, and the pair of remote transmission structures of the energy transmitting device and the energy transmission device is used for supplying power to each functional module. In the working process, three methods for the control device to receive the instruction are provided: the first is that the user side mobile terminal transmits the control instruction to the control device by wireless signal; secondly, a user side transmits a control instruction to the control device through a cloud server; and the third is that the user side transmits a control command to the control device through Bluetooth transmission. And after the control device receives the control instruction, confirming the target air supply mode and the target function mode according to the control instruction. And then, controlling the motor driving module to drive the fan assembly to rotate at a speed and in a rotating direction according to the target air supply mode, and controlling the driving controller and the blade adjusting mechanism to work according to the target air supply mode so as to enable the blades to rotate to a target angle relative to the outer ring ribs and the supporting ribs, so that the air flow generated by the air supply device meets the requirements of users. Meanwhile, the control device judges whether the current environment light brightness is at night according to the information acquired by the detection device, if the judgment result is night, whether the environment light brightness nearby is continuously judged to be lower than a preset threshold value, and if the environment light brightness nearby is lower than the preset threshold value, the lighting device and the mosquito killing device are started to meet the lighting requirement and the mosquito killing requirement. And the control device also controls the projection device to work correspondingly according to the target air supply mode so that the projection device plays the media files corresponding to the target air supply mode.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically defined, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In the present invention, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (24)

1. An air supply device, comprising:

a base;

the fan assembly is detachably arranged on the base and is suitable for rotating relative to the base to form airflow, an air tunnel is formed inside the fan assembly and is suitable for enabling the airflow to pass through and changing the flow rate of the airflow, and a functional assembly is arranged in the air tunnel;

a control device configured and adapted to determine an air supply mode and/or a functional mode according to a control instruction;

and controlling the fan assembly to work according to the air supply mode, and/or controlling the functional assembly to work according to the functional mode.

2. The air supply device of claim 1, wherein an energy receiving device is arranged on the functional component, the functional component obtains electric energy through the energy receiving device, and the air supply device further comprises:

the energy emitting device is arranged on one side of the wind tunnel and corresponds to the energy receiving device, and the energy emitting device is configured to send electric energy to the functional component.

3. The air supply arrangement of claim 1, wherein the functional component comprises:

a playback device configured to play a media file;

the control device is configured and adapted to control the playing device to play the media file corresponding to the blowing mode.

4. The air supply arrangement of claim 1, wherein the functional component comprises:

a heating device configured to heat the gas flow;

the control means is configured and adapted to control the heating means to heat the air flow with a heating power matching the functional mode.

5. The air supply arrangement of claim 1, wherein the functional component comprises:

a projection device configured to be adapted to project information within the wind tunnel;

the control device is configured and adapted to control the projection device to project information corresponding to the air supply mode in the wind tunnel.

6. The air supply apparatus of claim 1, further comprising:

a detection device disposed on the base, the detection device configured to be adapted to acquire time information and ambient light intensity.

7. The air supply arrangement of claim 6, wherein the functional components include:

an illumination device configured to emit visible light;

the control device is configured to acquire the time information and the ambient light intensity, and control the lighting device to emit visible light at a brightness matching the ambient light intensity based on that the time information is night time and the ambient light intensity is less than an ambient light intensity threshold.

8. The air supply arrangement of claim 6, wherein the functional components include:

a mosquito eradication device configured to be adapted to attract and destroy mosquitoes;

the control device is configured to be suitable for acquiring the time information and the ambient light intensity, and based on the time information being night time and the ambient light intensity being less than an ambient light intensity threshold value, the mosquito killing device is turned on.

9. The air supply apparatus according to any one of claims 1 to 8, wherein the fan assembly includes:

the support ribs are of hollow structures so as to construct the wind tunnel;

the outer ring muscle, the brace rod set up in the inside of outer ring muscle, the outer ring muscle with be provided with a plurality of blades between the brace rod, it is a plurality of the blade is followed the circumference of outer ring muscle is arranged, the blade is configured to be suitable for relatively the outer ring muscle with the brace rod rotates.

10. The air supply apparatus of claim 9, wherein the fan assembly includes:

a blade adjustment mechanism coupled to the blades, the blade adjustment mechanism configured to rotate one or more of the blades to adjust an orientation of the blades.

11. The air supply apparatus of claim 10, further comprising:

and the driving device is connected with the fan assembly and is used for driving the fan assembly to rotate.

12. The air supply arrangement of claim 11, wherein the control arrangement is configured to determine target operating parameters based on the air supply pattern, the target operating parameters including at least one of: a target orientation of the blades, a direction of rotation of the fan assembly, and a speed of rotation of the fan assembly;

and controlling the blade adjusting mechanism and/or the driving device to drive the fan assembly according to the target working parameters so as to enable the fan assembly to work according to the air supply mode.

13. The air supply apparatus of claim 11, wherein the drive means comprises:

the stator assembly is arranged on the base;

the rotor assembly comprises a bracket and a plurality of magnetic pieces arranged on the bracket, and the rotor is suitable for rotating clockwise or anticlockwise relative to the stator;

wherein the rotor assembly is configured to be separated from the stator assembly.

14. The air supply arrangement of claim 13,

the outer ring rib is formed into the bracket, or the bracket is arranged on the outer ring rib;

the magnetic pieces are arranged along the circumferential direction of the outer ring rib or the support, so that the fan assembly is driven to rotate along with the rotor assembly under the action of the stator assembly.

15. An air supply arrangement as recited in claim 2, characterised in that the energy emitting means and the energy receiving means are each provided as a coil assembly having a modulation frequency range of: 20kHz to 500 kHz.

16. A control method for an air supply device is characterized by comprising the following steps:

receiving a control instruction, and determining an air supply mode and/or a function mode according to the control instruction;

controlling the fan assembly to work according to the air supply mode to form air flow, and/or controlling the functional assembly to work according to the functional mode.

17. The method of controlling an air supply apparatus according to claim 16, wherein the step of controlling the fan assembly to operate in the air supply mode includes:

determining target working parameters according to the air supply mode, wherein the target working parameters at least comprise one of the following parameters: a target orientation of blades, a direction of rotation of the fan assembly, and a speed of rotation of the fan assembly;

and controlling the blade adjusting mechanism and/or the driving device to drive the fan assembly according to the target working parameters so as to enable the fan assembly to work according to the air supply mode.

18. A method for controlling an air supply device according to claim 16, wherein the air supply device includes a playback device, and the step of controlling the functional component to operate according to the functional mode specifically includes:

and controlling the playing device to play the media file corresponding to the air supply mode.

19. A method for controlling an air supply device according to claim 16, wherein the air supply device includes a heating device, and the step of controlling the functional component to operate in the functional mode specifically includes:

and controlling the heating device to heat the airflow according to the heating power matched with the function mode.

20. A method for controlling an air supply device according to claim 16, wherein the air supply device includes a projection device, and the step of controlling the functional component to operate in the functional mode includes:

and controlling the projection device to project information corresponding to the air supply mode in the wind tunnel.

21. An air supply device control method as recited in claim 16, wherein the air supply device comprises a detection device and an illumination device, the detection device is configured and adapted to acquire time information and ambient light intensity, and the step of controlling the functional component to operate according to the functional mode specifically comprises:

and acquiring the time information and the ambient light intensity, and controlling the lighting device to emit visible light according to the brightness matched with the ambient light intensity based on that the time information is the night time and the ambient light intensity is smaller than the ambient light intensity threshold value.

22. The method of controlling an air supply device according to claim 21, wherein the air supply device includes a mosquito eradication device, and the step of controlling the functional component to operate according to the functional mode includes:

obtain time information with ambient light intensity, based on time information is night time, just ambient light intensity is less than ambient light intensity threshold value, opens mosquito eradication device.

23. A control system for an air-moving device, the control system comprising:

a memory having a computer program stored thereon;

a processor configured to implement, when executing the computer program:

the control method of the air supply device according to any one of claims 16 to 22.

24. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, implements a method of controlling an air supply apparatus according to any one of claims 16 to 22.

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