CN113798111A - Atomization device and control method for same - Google Patents

Abstract

The invention discloses an atomizing device and a control method for the atomizing device, and relates to the technical field of atomizing devices. The atomizing device includes: a housing; the storage container is used for storing liquid to be atomized, and a liquid guider is arranged in the storage container and used for guiding the liquid to be atomized out of the storage container; an atomizer connected to the storage container; the controller is connected with the atomizer and used for controlling the atomizer to atomize liquid to be atomized according to a preset rule when the atomizing device is in the first atomizing mode, and also used for controlling the sensor to collect external information and controlling the atomizer to atomize liquid to be atomized when the external information meets a preset condition when the atomizing device is in the second atomizing mode. The atomization device provided by the invention is simple in structure and high in flexibility.

Description

Atomization device and control method for same

Technical Field

The invention relates to the technical field of atomization devices, in particular to an atomization device and a control method for the atomization device.

Background

Atomization refers to an operation of dispersing a liquid into fine droplets by a nozzle or a high-speed air flow and spraying the droplets in the form of a mist. The atomized plurality of discrete droplets may trap particulate matter in the gas. Fogging is often applied in various industrial scenarios.

The liquid atomization method includes various methods such as pressure atomization, rotary disc atomization, gas atomization and the like, but the corresponding atomization device comprises various connecting pipelines, a pump body and other parts, and the structure is complex.

And the control logic of the existing atomization device generally opens atomization or closes atomization in a mode of manually opening and closing a switch, the mode is single, the control logic extremely depends on the active action of a person, and when the person leaves or forgets to control the atomization device, the control logic can be maintained in an opening or closing state, so that the waste of resources such as atomized objects and electric energy can be caused, and the flexibility is also lacked. Therefore, the existing atomization device cannot meet the actual use requirement, and the practicability is low.

In summary, it is a technical problem to be solved by those skilled in the art to provide an atomization device with simple structure and high flexibility.

Disclosure of Invention

The invention provides an atomization device and a control method for the atomization device.

The invention provides the following scheme:

in a first aspect, there is provided an atomising device having a first atomising mode and a second atomising mode, the atomising device comprising:

the shell is internally provided with a first accommodating space, and an air outlet communicated with the first accommodating space and the outside is formed in the wall of the shell;

the storage container is arranged in the first accommodating space and used for storing liquid to be atomized, and a liquid guider is arranged in the storage container and used for guiding the liquid to be atomized out of the storage container;

the atomizer is connected with the storage container and comprises an ultrasonic atomization fixing piece and an ultrasonic wave plate which are connected together, the ultrasonic atomization fixing piece is used for fixing the ultrasonic wave plate, the ultrasonic wave plate is in contact with the part of the liquid discharger, which extends out of the storage container, and is used for atomizing the liquid to be atomized into gas, and the gas is discharged to the outside through the gas outlet;

the sensor is used for acquiring external information;

the controller is connected with the atomizer and used for controlling the atomizer to atomize the liquid to be atomized according to a preset rule when the atomization device is in the first atomization mode;

the controller is further used for controlling the sensor to collect external information and controlling the atomizer to atomize the liquid to be atomized when the external information meets preset conditions when the atomizing device is in the second atomizing mode.

Optionally, the housing comprises:

the front shell is provided with the air outlet;

a rear housing;

the middle shell is arranged between the front shell and the rear shell, a second accommodating space which is formed by protruding towards the direction of the front shell and has an opening facing the rear shell and a third accommodating space which is formed by protruding towards the direction of the rear shell and has an opening facing the rear shell are arranged on the middle shell, and a baffle plate is arranged between the second accommodating space and the third accommodating space;

the second accommodating space is used for accommodating the storage container;

the atomization device further comprises a power supply device used for supplying power to the atomizer, and the third accommodating space is used for accommodating the power supply device;

the atomizer with the controller sets up respectively in preceding shell with in fourth accommodation space and the fifth accommodation space between the middle shell, fourth accommodation space with fifth accommodation space sets up the upper and lower both sides of second accommodation space, just the baffle extends to the second accommodation space with between the fifth accommodation space.

Optionally, the atomization device further comprises:

the connecting piece is sleeved on the liquid guider, and the top edge of the connecting piece extends outwards to form a boss;

a first groove is formed in the middle shell and positioned at the top of the second containing space, and is used for placing the liquid guider and the connecting piece;

at least one first buckle is arranged in the first groove and matched with the boss.

Optionally, the atomizer, the controller, the sensor and the storage container are integrated to form a first atomizing device body;

or the like, or, alternatively,

the atomizer, the controller and the integrated an organic whole of storage container constitutes second atomizing equipment main part, the sensor has intelligent unit and establishes second atomizing equipment main part is outside, just second atomizing equipment main part with same region is located to the sensor, the sensor with second atomizing equipment main part carries out information transmission through network communication.

Optionally, the atomizer and the storage container are integrated to form a third atomizing device body, the atomizing device includes at least two third atomizing device bodies, each storage container stores different types of the liquid to be atomized, and the sensor is disposed outside the third atomizing device body.

In a second aspect, there is also provided a control method for the atomization device, the control method including:

when the liquid to be atomized is in a first atomization mode according to a user instruction, the controller controls the atomizer to atomize the liquid to be atomized according to a preset rule;

when the atomizer is in the second atomization mode, the controller controls the sensor to collect external information and controls the atomizer to atomize the liquid to be atomized when the external information meets preset conditions, and the external information at least comprises user biological characteristic information.

Optionally, when the liquid to be atomized is in the second atomization mode, the controller controls the sensor to collect external information, and when the external information meets a preset condition, the controlling the atomizer to atomize the liquid to be atomized includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age stage of the user are determined according to the user biological characteristic information;

if the user is in a first preset distance range and the age stages of all the users are first stages, the controller controls the atomizer to stop atomizing;

if the user is in a first preset distance range and all the age stages of the user are in a second stage, the controller controls the atomizer to atomize the liquid to be atomized;

the first stage is that the age is smaller than the preset age, and the second stage is that the age is greater than or equal to the preset age.

Optionally, when the liquid to be atomized is in the second atomization mode, the controller controls the sensor to collect external information, and when the external information meets a preset condition, the controlling the atomizer to atomize the liquid to be atomized includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, determines target atomization liquid according to the external information and controls the atomizer of the corresponding third atomization device body to atomize the target atomization liquid when the external information meets preset conditions.

Optionally, when the second atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when the external information meets a preset condition, determining a target atomization liquid according to the external information and controlling the atomizer of the corresponding third atomization device body to atomize the target atomization liquid includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age of the user are determined according to the user biological characteristic information;

and if the user is in a second preset distance range and all the ages of the user are preset ages, the controller identifies and obtains the gender and the emotion of the user according to the biological characteristic information of the user, determines target atomized liquid according to the gender and the emotion and controls the atomizer of the corresponding third atomization equipment main body to atomize the target atomized liquid.

Optionally, when the second atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when the external information meets a preset condition, determining a target atomization liquid according to the external information and controlling the atomizer of the corresponding third atomization device body to atomize the target atomization liquid includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age of the user are determined according to the user biological characteristic information;

if the users are at least two and the ages of all the users are preset ages within a second preset distance range, the controller identifies and obtains the gender of the users according to the biological characteristic information of the users;

if the genders of the users are different, the controller identifies the relationship between the users according to the hand correlation action in the user biological characteristic information, determines target atomized liquid according to the relationship between the users, and controls the corresponding atomizer of the third atomization device main body to atomize the target atomized liquid.

In a third aspect, a computer device is further provided, which includes a memory and a processor, the memory having stored thereon a computer program operable on the processor, the computer program, when executed by the processor, implementing the control method.

In a fourth aspect, a computer-readable storage medium is also provided, in which a computer program is stored, and when the computer program is executed, the control method is implemented.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the atomization device provided by the invention does not need various connecting pipelines and pump bodies, and has the advantages of simple structure, small volume, light weight and convenience in movement. And the control method of the atomization device considers the atomization mode, fully respects the will of the user, executes different operations under different atomization modes, directly controls the atomizer to atomize according to the preset rule under the first atomization mode, and further determines the atomization time according to the external information under the second atomization mode. The atomizing mode is diversified, and the flexibility is high, realizes a tractor serves several purposes.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a block diagram of an atomizing device provided in one embodiment of the present invention;

fig. 2 is a block diagram showing the structure of an atomizing device according to an embodiment of the present invention;

fig. 3 is a block flow diagram of a control method for an atomizing device according to an embodiment of the present invention;

fig. 4 is a block flow diagram of a control method for an atomizing device according to another embodiment of the present invention;

fig. 5 is an architecture diagram of a computer device provided by an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

The following describes a specific implementation scheme provided by the embodiment of the present invention in detail.

The invention provides an intelligent atomization device and a control method for the atomization device, wherein the atomization device is provided with a plurality of atomization modes, and when the atomization device is in an intelligent second atomization mode according to a user instruction, the atomization device is controlled to correspondingly act according to acquired external information containing biological characteristics, so that the atomization device can flexibly and automatically carry out atomization control according to actual requirements.

Example one

The atomization device is a device which atomizes the pre-stored liquid by atomization technology to atomize and drift the liquid. The pre-stored liquid is the existing liquid capable of being atomized and the like. In some scenarios, such as industrial scenarios, periodic atomization is required, and the atomization device may perform automatic atomization according to a preset rule, such as periodically controlling the atomizer to turn on and off, for example, after 5 seconds of operation, stopping for 5 minutes, and repeating this process. In other scenarios, in view of the fact that the action object of the atomized gas, such as a human body or an object, is sometimes different, and the state and demand of each action object are different, the opening of the atomization device and the atomized liquid need to be adjusted in real time.

Fig. 1 is a structural view of an atomizing device provided in one embodiment of the present invention. Fig. 2 is a block diagram of an atomization apparatus according to an embodiment of the present invention. As shown in fig. 1, with simultaneous reference to fig. 2, the present embodiment provides an atomization device having a first atomization mode and a second atomization mode. The atomizer device includes a housing 100, a storage container 200, an atomizer 600, a sensor 800, and a controller 700. The interior of the housing 100 defines a first accommodating space and is opened with an air outlet 111 on a wall thereof to communicate the first accommodating space with the outside. The first accommodation space may be divided into second to fifth accommodation spaces. The storage container 200 is disposed in the first accommodation space for storing a liquid to be atomized. A liquid outlet 300 is provided in the storage container 200 for discharging the liquid to be atomized from the storage container 200. The atomizer 600 with the storage container 200 is connected, the atomizer 600 includes ultrasonic atomization mount 610 and ultrasonic wave plate 620 that link together, ultrasonic atomization mount 610 is used for fixing ultrasonic wave plate 620, ultrasonic wave plate 620 with the liquid exporter 300 stretches out the partial contact of storage container 200, be used for with the liquid that treats atomizing becomes gas, the gas is through gas outlet 111 is derived to the outside. The sensor 800 is used to collect external information. The controller 700 with the atomizer 600 is connected for work as when the atomizing device is in during first atomizing mode, control the atomizer 600 atomizes according to the rule of predetermineeing treat atomizing liquid, still be used for work as when the atomizing device is in during the second atomizing mode, control sensor 800 gathers external information and is in when external information accords with predetermined condition control the atomizer 600 atomizes treat atomizing liquid. The atomizer apparatus may further include a power supplier 500 disposed in the third receiving space for supplying power to the atomizer 600. The power supply 500 may be a battery, which may be configured as a rechargeable battery. The atomizing device provided by the embodiment does not need various connecting pipelines and pump bodies, and is simple in structure, small in size, light in weight and convenient to move.

In a specific embodiment, the ultrasonic atomization fixing member 610 is sleeved on the ultrasonic wave plate 620, the ultrasonic atomization fixing member 610 is a hollow ring-shaped structure, and the ultrasonic wave plate 620 is a circular plate-shaped structure. More specifically, the hollow portion of the ultrasonic atomization fixing member 610 is connected to the air outlet 111, so that the atomized air is transmitted to the air outlet 111 through the hollow portion and then emitted.

Further, the housing 100 includes a front housing 110, a rear housing 130 and a middle housing 120 located therebetween, the front housing 110 is provided with the air outlet 111, the middle housing 120 is provided with a second accommodating space 121 formed by protruding towards the front housing 110 and having an opening facing the rear housing 130, and a third accommodating space 125 formed by protruding towards the rear housing 130 and having an opening facing the rear housing 130, and a baffle 123 is disposed between the second accommodating space 121 and the third accommodating space 125. The second receiving space 121 is used for receiving the storage container 200, and the third receiving space 125 is used for receiving the power supplier 500. The nebulizer 600 and the controller 700 are respectively disposed in a fourth accommodating space 126 and a fifth accommodating space 127 between the front case 110 and the middle case 120, the fourth accommodating space 126 and the fifth accommodating space 127 are disposed at upper and lower sides of the second accommodating space 121, and the baffle 123 extends between the second accommodating space 121 and the fifth accommodating space 127. The second accommodating space 121 and the third accommodating space 125, and the second accommodating space 121 and the fifth accommodating space 127 are all isolated by the baffle 123, so that damage to the controller 700 and the power supply 500 after the liquid to be atomized in the storage container 200 leaks out can be avoided. In addition, the baffle 123 provides a bottom support for the storage container 200 to prevent it from falling in the second receiving space 121. Further, the baffle 123 is closely attached to the inner walls of both the front case 110 and the rear case 130 to prevent the atomized gas from entering the third accommodating space 125 and the fifth accommodating space 127 to corrode the controller 700 and the power supplier 500.

Optionally, the middle housing 120 and the front housing 110, and the middle housing 120 and the rear housing 130 are connected by a clamping groove and a clamping structure. The distribution of the clamping grooves and clamping structures on the middle shell 120, the front shell 110 and the rear shell 130 may be set according to actual space and tightness requirements.

Preferably, the atomization device further comprises a connector 400, which is sleeved on the liquid guider 300, and the top edge of the connector 400 extends outwards to form a boss. The middle case 120 is provided with a first groove 122 at the top of the second receiving space 121 for receiving the liquid discharger 300 and the connector 400. At least one first buckle is arranged in the first groove 122, and the first buckle is matched with the boss. The liquid discharger 300 includes a swab 310 and a protector 320 fitted over a portion of the swab 310 extending out of the storage container 200. The cotton swab 310 draws the liquid to be atomized out of the storage container 200 using the siphon principle. In order to prevent the liquid to be atomized on the cotton swab 310 from being naturally vaporized, the protecting member 320 is disposed outside the cotton swab 310, the protecting member 320 is provided with an opening, the opening is used for contacting the ultrasonic wave plate 620 with the cotton swab 310, and the connecting member 400 is sleeved outside the protecting member 320.

Preferably, the connector 400 is threadedly coupled with the mouth of the storage container 200.

Preferably, the swab 310 fits into the storage container 200. The cross section of the mouth of the storage container 200 is circular, and the cotton swab 310 has a cylindrical structure.

Specifically, the outer wall of the storage container 200 is provided with an anti-slip hand-holding structure 210, which is convenient for disassembling and assembling the storage container 200.

Specifically, the top of the front shell 110 extends in the direction of the rear shell 130 to form the upper end surface 112. The aerosolization device also includes a collapsible handle, a wall mount, and at least two bottom supports. The foldable handle is arranged on the upper end surface 112 of the front shell 110, the upper end surface 112 is provided with a second groove matched with the handle in shape, and a return spring is arranged at the connecting position of the foldable handle and the upper end surface 112 of the front shell 110 and used for retracting the foldable handle into the second groove. The hanging is by seting up third recess in the main part forms, can hang atomizing device through the hanging and put, and folding handle is automatic folding to the second recess when hanging and putting. At least two bottom support members are connected with the base plate for providing bottom support for the atomizing device and avoiding bottom abrasion of the atomizing device.

Specifically, the rear case 130 has a height smaller than that of the middle case 120, and the bottoms of the two are aligned. The top edge of the rear shell 130 is provided with a first preset conduction angle 131, a second preset conduction angle 124 is arranged at a position on the middle shell 120 corresponding to the first preset conduction angle 131, and the first preset conduction angle 131 is matched with the second preset conduction angle 124 so as to facilitate the disassembly and assembly of the rear shell 130 and the middle shell 120.

Example two

In some embodiments, the nebulizer 600, the controller 700, the sensor 800, and the storage container 200 are integrated to form a first nebulizer main body, considering the cost, space, and the like, and the volume of the nebulizer device is small. The data processing capability of the controller 700 is relatively weak at this time, and therefore the corresponding sensor 800 is preferably an infrared sensor, and the processing of the infrared signal acquired by the sensor is relatively simple.

In order to more accurately meet the requirements of users, various information of the users needs to be collected and processed to determine whether atomization is needed, for example, facial information of the users needs to be collected and identified. When the atomization device is small, the infrared sensor does not have the acquisition capacity, and the controller does not have the calculation capacity, so that the acquisition and processing of various information cannot be completed. And in a complex area, the infrared sensor is easily interfered by the environment to cause the sensing failure. In order to solve the above problem, the present embodiment further provides another solution, the atomizer 600, the controller 700, and the storage container 200 are integrated into a second atomization device main body, the sensor 800 is disposed outside the second atomization device main body, and the sensor 800 includes an intelligent unit with data processing and recognition capabilities. The second atomizer main body and the sensor 800 are provided in the same area so that the sensor collects external information in the same area. The intelligent unit can be arranged outside the sensor main body, such as a server linked with the sensor. Specifically, when being in industrial environment, this sensor main part can be under industrial environment like the camera that has installed everywhere in the mill, and the intelligent cell can set up in the camera, also can be the server of backstage and camera interconnection communication. After the camera collects external information, the external information is processed through the intelligent unit, and a processing result is sent to the controller 700 through network communication.

For the parts of the second embodiment that are not described in detail, reference may be made to the descriptions in the foregoing embodiments, which are not described herein again.

EXAMPLE III

Different users are different to atomizing gas's demand, to this in order to promote atomizing device's flexibility and stronger atomizing pertinence, require atomizing device can provide different atomizing gas according to different user's circumstances. In order to realize this function, the atomizer 600 and the storage container 200 are integrated to form a third atomizing device body, and the atomizing device includes at least two third atomizing device bodies, and the kind of the liquid to be atomized stored in each storage container 200 is different. The sensor 800 is disposed outside the third atomizer main body, the controller 700 may be one, and the controller 700 may be integrated with one third atomizer main body and may perform communication control on all the atomizers of the third atomizer main body. The controller can be a master controller and a plurality of slave controllers, the master controller is arranged outside the third atomization device main body, the slave controllers are integrated in the corresponding third atomization device main body, and the master controller can control all the slave controllers. When the sensor 800 collects the external information, the controller 700 may cooperatively control all the third atomizer main bodies according to the external information.

For the parts of the third embodiment that are not described in detail, reference may be made to the descriptions in the foregoing embodiments, which are not described herein again.

Example four

In view of the above needs in different situations, the atomization device in the present application includes a plurality of atomization modes, and at least a first atomization mode (automatic atomization mode) and a second atomization mode (smart control mode). In the first atomization mode, once the atomization device is started, the atomization device is started or closed according to a preset rule, for example, periodically, and in the second atomization mode, the atomization device identifies the collected external information and executes a corresponding atomization action according to an identification result.

The present embodiment provides a control method for the atomization device provided in any one of the above embodiments, as shown in fig. 3, generally including the following operation steps:

s10: receiving a user atomization mode indication instruction;

s20: determining an atomization mode according to a user atomization mode instruction;

s30: if the atomization mode is the first atomization mode, the controller controls the atomizer to atomize the liquid to be atomized according to a preset rule;

s40: if the atomization mode is the second atomization mode, the controller controls the sensor to collect external information and controls the atomizer to atomize the liquid to be atomized when the external information meets preset conditions, and the external information at least comprises user biological characteristic information.

The designation of the nebulization mode can be determined according to a user command for indicating the nebulization mode, such as a command given by the user by manually adjusting a mode button on a remote control or the nebulizing device, a voice command or a gesture command given by the user, or the like.

When the atomization device is in the second atomization mode according to the instruction, the controller 700 performs corresponding atomization control based on the external information collected by the sensor 800. The specific external information includes user biometric information, which may at least include user infrared information, and when the sensor 800 collects the user infrared information, it indicates that there is a user near the nebulizer 600, and at this time, it is necessary to provide nebulized gas to the user, so the controller 700 controls the nebulizer 600 to nebulize the liquid to be nebulized. When the infrared signal of the user is not collected, the controller 700 controls the atomizer 600 to be closed, so that the liquid to be atomized can be saved. The intelligent control mode can sense the operation instruction without touching any switch by a user, and reduces the risk of interactive contact with infectious viruses.

The control method for the atomization device provided by the embodiment considers the atomization mode, fully respects the will of the user, executes different operations in different atomization modes, directly controls the atomizer 600 to atomize according to the preset rule in the first atomization mode, and further determines the atomization time according to the external information in the second atomization mode. The atomizing mode is diversified, and the flexibility is high, realizes a tractor serves several purposes, and can not cause atomizing liquid extravagant and atomizing gas concentration is too high in the environment, has both practiced thrift the cost and has made ambient air just right, satisfies actual user demand.

In another preferred embodiment, the fogging mode may be automatically set according to the scene. For example, when the atomizing device is in some small spaces, the atomizing device can be automatically set to be in the first atomizing mode, and atomization is performed at intervals, so that liquid to be atomized can be saved, and too high concentration of atomizing gas in the environment can be avoided. And under some scenes with larger space, the atomization device can be automatically set to be in a second atomization mode to adapt to the change of the external environment.

For the parts of the fourth embodiment that are not described in detail, reference may be made to the descriptions in the foregoing embodiments, which are not described herein again.

EXAMPLE five

In a case where the sensor 800 is an infrared sensor, and the nebulizer 600, the controller 700, the sensor 800, and the storage container 200 are integrated to form a first nebulizer device body, the step S40 includes:

when the second atomization mode is performed, the controller 700 controls the sensor 800 to collect an infrared signal and controls the atomizer 600 to atomize the liquid to be atomized when the infrared signal of the user is collected. In this way, the atomization is turned on when a user passes, and the atomization is turned off when no user passes.

Preferably, the controller 700 may control the nebulizer to stop nebulization when the same infrared signal is continuously detected for a preset time.

Fig. 4 is a block flow diagram of a control method for an atomization device according to another embodiment of the present invention. As shown in fig. 4, in a scheme in which the nebulizer 600, the controller 700, and the storage container 200 are integrated to form a second nebulizer device body, the sensor 800 has an intelligent unit and is disposed outside the second nebulizer device body, the second nebulizer device body and the sensor 800 are disposed in the same area, and the sensor 800 and the second nebulizer device body perform information transmission through network communication, step S40 includes:

s41: when the atomizer is in the second atomization mode, the controller controls the sensor to acquire external information through network communication and controls the atomizer to atomize the liquid to be atomized when receiving a signal which is sent by the intelligent unit of the sensor through the network communication and indicates that the external information meets a preset condition.

For the parts of the fifth embodiment that are not described in detail, reference may be made to the descriptions of the foregoing embodiments, which are not described herein again.

EXAMPLE six

In a case where the atomizer 600 and the storage container 200 are integrated to form a third atomizing device body, the atomizing apparatus includes at least two third atomizing device bodies, the types of the liquid to be atomized stored in each storage container 200 are different, and the sensor 800 is disposed outside the third atomizing device bodies, the step S40 includes:

when the second atomization mode is performed, the controller 700 controls the sensor 800 to collect external information, and determines a target atomized liquid according to the external information and controls the atomizer 600 of the corresponding third atomization apparatus main body to atomize the target atomized liquid when the external information meets a preset condition.

Target atomized liquid is selected according to different external information, and the atomizer 600 is controlled to atomize the target atomized liquid correspondingly, so that atomization is more targeted, and the flexibility of the atomization device is further improved.

For the parts not described in detail in the sixth embodiment, reference may be made to the descriptions in the foregoing embodiments, which are not described herein again.

EXAMPLE seven

For health reasons, it is generally undesirable for the infant population to inhale the nebulized gas to avoid harm to the infant' S body, and therefore, in this embodiment, step S40 further includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age stage of the user are determined according to the user biological characteristic information;

if the user is in a first preset distance range and the age stages of all the users are first stages, the controller controls the atomizer to stop atomizing;

if the user is in a first preset distance range and all the age stages of the user are in a second stage, the controller controls the atomizer to atomize the liquid to be atomized;

the first stage is that the age is smaller than the preset age, and the second stage is that the age is greater than or equal to the preset age.

Wherein the predetermined age may be 10 years.

In some cases, where the age stage of the user includes both the first stage and the second stage, it may not be possible to determine whether to aerosolize using the control logic described above. In order to solve this problem, the atomizing device is set to be liftable. Specifically, the atomization device further includes a lifter for driving the housing 100 to ascend and descend, wherein the controller 700 may be integrated in the housing 100 or separately provided. The control method further comprises the following steps:

if the user is in a first preset distance range and the age stage of the user includes a first stage and a second stage, the controller 700 identifies the height difference between the face of the user in the first stage and the face of the user in the second stage according to the biometric information of the user, and if the height difference is greater than the preset height difference, the lifter is controlled to ascend and descend so that the height of the atomization device corresponds to the height of the face of the user in the second stage and the atomizer 600 is controlled to atomize the liquid to be atomized.

When the height difference of the face is larger than the preset height difference, namely the face distances of the users in the first stage and the second stage are far, the lifter is controlled to ascend and descend so that the height of the atomization device corresponds to the height of the face of the user in the second stage, and at the moment, the user in the first stage can not or rarely sense the atomization gas even if atomization is carried out, so that the flexibility of the atomization device is further embodied.

Atomizing device atomizing treat atomizing liquid produced atomizing gas has certain effective operation scope, when the user is located atomizing device's effective operation scope outside, even if atomizing device atomizes, the user also can't the perception or only can slight perception arrive atomizing gas, so just caused the waste of treating atomizing liquid. To avoid such a situation, the controller 700 controls the nebulizer 600 to nebulize the liquid to be nebulized only when the user is in the effective working range. Specifically, when the second atomization mode is performed, the controller 700 controls the sensor 800 to collect external information through network communication, and when a signal that the external information sent by the intelligent unit of the sensor 800 through the network communication meets a preset condition is received, the controlling the atomizer 600 to atomize the liquid to be atomized includes:

when the liquid atomizer 600 is in the second atomization mode, the controller 700 controls the sensor 800 to collect external information through network communication and controls the atomizer 600 to atomize the liquid to be atomized when the external information sent by the intelligent unit of the sensor 800 through the network communication contains user biological characteristic information within a preset angle range is received; the preset angle range is the effective operation range of the atomization device.

For the parts of the seventh embodiment that are not described in detail, reference may be made to the descriptions of the foregoing embodiments, which are not described herein again.

Example eight

People of different sexes have different requirements on the atomizing gas, and the requirement of the same person on the atomizing gas can also be changed in different emotions. In order to solve this problem, when the second atomization mode is performed, the controller 700 controls the sensor 800 to acquire external information, and when the external information meets a preset condition, determining a target atomization liquid according to the external information and controlling the atomizer 600 of the corresponding third atomization device body to atomize the target atomization liquid includes:

when in the second atomization mode, the controller 700 controls the sensor 800 to collect external information and determines the distance between the user and the atomization device and the age stage of the user according to the user biometric information when collecting the user biometric information;

if the user is within the second preset distance range and all the ages of the users are preset ages, the controller 700 identifies and obtains the gender and emotion of the user according to the biometric information of the user, determines a target atomized liquid according to the gender and emotion, and controls the atomizer 600 of the corresponding third atomization device body to atomize the target atomized liquid.

Wherein the preset age is above 10 years old.

The emotion of the user can be obtained according to one or more information of the brain wave of the user, the pupil of the user, the facial expression of the user and the like.

The demand of the user on the atomizing gas is comprehensively determined according to the gender and the emotion of the user, and the liquid to be atomized is atomized according to the demand, so that the finally emitted atomizing gas can be matched with the current user, and the flexibility of the atomizing device is further improved.

In some cases, there may be more than one user within the second predetermined distance range of the atomizing device, and there may be some relationship between users, such as lovers, and the selection of the atomized liquid may be a kind more suitable for lovers. Specifically, when the second atomization mode is performed, the controller 700 controls the sensor 800 to collect external information, and when the external information meets a preset condition, determining a target atomization liquid according to the external information and controlling the atomizer 600 of a corresponding third atomization apparatus main body to atomize the target atomization liquid includes:

when in the second atomization mode, the controller 700 controls the sensor 800 to collect external information and determines the distance between the user and the atomization device and the age of the user according to the user biometric information when collecting the user biometric information;

if the users are at least two and all the ages of the users are preset ages within a second preset distance range, the controller 700 identifies and obtains the gender of the users according to the biological characteristic information of the users;

if the genders of the users are different, the controller 700 identifies the relationship between the users according to the hand-related actions in the user biometric information, determines a target atomized liquid according to the relationship between the users, and controls the atomizer 600 of the corresponding third atomization device body to atomize the target atomized liquid.

The "hand-related action" includes hand-in-hand, hugging, and the like.

For the parts of the eighth embodiment that are not described in detail, reference may be made to the descriptions of the foregoing embodiments, which are not described herein again.

Example nine

The user's demand for atomizing gas is also influenced by the environment in some cases. To solve this problem, the controller 700 identifies and obtains the gender and emotion of the user according to the biometric information of the user and controls the atomizer 600 to atomize the liquid to be atomized when the gender and emotion meet preset conditions, including:

the controller 700 controls the sensor 800 to collect environmental information, and when the controller 700 identifies the gender and emotion of the user according to the biological characteristic information of the user and meets preset conditions, the atomizer 600 is controlled to atomize the liquid to be atomized according to the environmental information, the gender and emotion.

Therefore, the requirements of the current user on the odor are obtained based on the user information and the environment information, more users, environments and scenes are considered, and the accuracy of the user requirements can be improved to the greatest extent.

For the unrecited parts in the ninth embodiment, reference may be made to the descriptions in the foregoing embodiments, which are not repeated herein.

Example ten

In some scenarios, the same user may be in the same area for a long time. The control logic using the second mode of atomization described above will continue to provide the same user with atomized gas continuously, causing discomfort to the user, which is clearly contrary to the original intent of the present application. Therefore, when in the second atomization mode, the controller 700 controls the sensor 800 to collect external information and controls the atomizer 600 to atomize the liquid to be atomized when the external information meets a preset condition, including:

when the controller 700 controls the sensor 800 to collect external information and judges that the atomization device is in a preset scene according to the external information, the controller 700 identifies and obtains the body posture and the sleep state of the user according to the biological characteristic information of the user;

when the user is lying down and the sleep state reaches a preset time, the controller 700 controls the nebulizer 600 to be turned off.

When the user is already asleep, the nebulizer 600 is controlled to be turned off in order to avoid excessive concentrations of nebulized gas in the environment.

For the parts of the tenth embodiment which are not described in detail, reference may be made to the descriptions of the foregoing embodiments, which are not described herein again.

EXAMPLE eleven

Generally, the remaining amount of the liquid to be atomized cannot be directly observed from the outside of the atomizing device, the atomizing device needs to be opened to acquire the information, the atomizing device needs to be stopped when being opened, and the trouble of a user is increased by the mode. In order to solve this problem, the control method further includes:

recording and storing the atomization amount of each liquid to be atomized;

obtaining the residual amount of the liquid to be atomized according to the atomization amount;

judging whether the residual quantity is smaller than a threshold value;

if so, sending a prompt to prompt the user to supplement the corresponding liquid to be atomized.

Further, in order to enable the user to acquire the current state of the atomization device in time, the control method further includes:

the control display displays the current atomization mode, the target atomization liquid and the atomization time.

For the parts of the eleventh embodiment not described in detail, reference may be made to the descriptions of the foregoing embodiments, which are not described herein again.

Example twelve

Corresponding to the method, the invention also provides computer equipment, which comprises:

the control system comprises a processor and a memory, wherein the memory is stored with a computer program capable of running on the processor, and when the computer program is executed by the processor, the control method provided by any one of the above embodiments is executed.

Fig. 5 illustratively shows a computer device having a built-in computer system 1500, where the computer system 1500 may specifically include a processor 1510, a video display adapter 1511, a disk drive 1512, an input/output interface 1513, a network interface 1514, and a memory 1520. The processor 1510, video display adapter 1511, disk drive 1512, input/output interface 1513, network interface 1514, and memory 1520 may be communicatively coupled via a communication bus 1530.

The processor 1510 may be implemented by a general-purpose CPU (Central Processing Unit), a microprocessor, an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits, and is configured to execute related programs to implement the technical solution provided by the present invention.

The Memory 1520 may be implemented in the form of a ROM (Read Only Memory), a RAM (Random Access Memory), a static storage device, a dynamic storage device, or the like. The memory 1520 may store an operating system 1521 for controlling the operation of the electronic device, a basic input output system BIOS 1522 for controlling low-level operations of the electronic device. In addition, a web browser 1523, a data storage management system 1524, an icon font processing system 1525, and the like can also be stored. The icon font processing system 1525 may be an application program that implements the operations of the foregoing steps in this embodiment of the present invention. In summary, when the technical solution provided by the present invention is implemented by software or firmware, the relevant program codes are stored in the memory 1520 and called for execution by the processor 1510.

The input/output interface 1513 is used for connecting an input/output module to realize information input and output. The i/o module may be configured as a component in a device (not shown) or may be external to the device to provide a corresponding function. The input devices may include a keyboard, a mouse, a touch screen, a microphone, various sensors, etc., and the output devices may include a display, a speaker, a vibrator, an indicator light, etc.

The network interface 1514 is used to connect a communication module (not shown) to enable the device to communicatively interact with other devices. The communication module can realize communication in a wired mode (such as USB, network cable and the like) and also can realize communication in a wireless mode (such as mobile network, WIFI, Bluetooth and the like).

The bus includes a path that transfers information between the various components of the device, such as the processor 1510, the video display adapter 1511, the disk drive 1512, the input/output interface 1513, the network interface 1514, and the memory 1520.

In addition, the electronic device may further obtain information of specific pickup conditions from the virtual resource object pickup condition information database for performing condition judgment, and the like.

It should be noted that although the above devices only show the processor 1510, the video display adapter 1511, the disk drive 1512, the input/output interface 1513, the network interface 1514, the memory 1520, the bus, etc., in the specific implementation, the devices may also include other components necessary for normal operation. Furthermore, it will be understood by those skilled in the art that the apparatus described above may also include only the components necessary to implement the inventive arrangements, and need not include all of the components shown in the figures.

EXAMPLE thirteen

The invention further provides a computer-readable storage medium, in which a computer program is stored, and when the computer program is executed, the control method provided by any one of the above embodiments is implemented.

From the above description of the embodiments, it is clear to those skilled in the art that the present invention can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which may be stored in a storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the embodiments or some parts of the embodiments.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, the system or system embodiments are substantially similar to the method embodiments and therefore are described in a relatively simple manner, and reference may be made to some of the descriptions of the method embodiments for related points. The above-described system and system embodiments are only illustrative, wherein the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The technical solutions provided by the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, which are merely used to help understanding the method and the core ideas of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. An aerosolization device having a first aerosolization mode and a second aerosolization mode, the aerosolization device comprising:

the shell is internally provided with a first accommodating space, and an air outlet communicated with the first accommodating space and the outside is formed in the wall of the shell;

the storage container is arranged in the first accommodating space and used for storing liquid to be atomized, and a liquid guider is arranged in the storage container and used for guiding the liquid to be atomized out of the storage container;

the atomizer is connected with the storage container and comprises an ultrasonic atomization fixing piece and an ultrasonic wave plate which are connected together, the ultrasonic atomization fixing piece is used for fixing the ultrasonic wave plate, the ultrasonic wave plate is in contact with the part of the liquid discharger, which extends out of the storage container, and is used for atomizing the liquid to be atomized into gas, and the gas is discharged to the outside through the gas outlet;

the sensor is used for acquiring external information;

the controller is connected with the atomizer and used for controlling the atomizer to atomize the liquid to be atomized according to a preset rule when the atomization device is in the first atomization mode;

the controller is further used for controlling the sensor to collect external information and controlling the atomizer to atomize the liquid to be atomized when the external information meets preset conditions when the atomizing device is in the second atomizing mode.

2. The atomizing device of claim 1, wherein the housing comprises:

the front shell is provided with the air outlet;

a rear housing;

the middle shell is arranged between the front shell and the rear shell, a second accommodating space which is formed by protruding towards the direction of the front shell and has an opening facing the rear shell and a third accommodating space which is formed by protruding towards the direction of the rear shell and has an opening facing the rear shell are arranged on the middle shell, and a baffle plate is arranged between the second accommodating space and the third accommodating space;

the second accommodating space is used for accommodating the storage container;

the atomization device further comprises a power supply device used for supplying power to the atomizer, and the third accommodating space is used for accommodating the power supply device;

the atomizer with the controller sets up respectively in preceding shell with in fourth accommodation space and the fifth accommodation space between the middle shell, fourth accommodation space with fifth accommodation space sets up the upper and lower both sides of second accommodation space, just the baffle extends to the second accommodation space with between the fifth accommodation space.

3. The atomizing device of claim 2, further comprising:

the connecting piece is sleeved on the liquid guider, and the top edge of the connecting piece extends outwards to form a boss;

a first groove is formed in the middle shell and positioned at the top of the second containing space, and is used for placing the liquid guider and the connecting piece;

at least one first buckle is arranged in the first groove and matched with the boss.

4. The atomizing device of claim 1, wherein the atomizer, the controller, the sensor, and the storage container are integrally formed as a first atomizing apparatus body;

or the like, or, alternatively,

the atomizer, the controller and the integrated an organic whole of storage container constitutes second atomizing equipment main part, the sensor has intelligent unit and establishes second atomizing equipment main part is outside, just second atomizing equipment main part with same region is located to the sensor, the sensor with second atomizing equipment main part carries out information transmission through network communication.

5. The atomizing device according to claim 1, wherein the atomizer and the storage container are integrally formed as a third atomizing apparatus body, the atomizing device includes at least two third atomizing apparatus bodies, the types of the liquid to be atomized stored in each storage container are different, and the sensor is disposed outside the third atomizing apparatus bodies.

6. A control method for the atomizing device according to any one of claims 1 to 5, characterized in that the control method comprises:

when the liquid to be atomized is in the first atomization mode according to a user instruction, the controller controls the atomizer to atomize the liquid to be atomized according to a preset rule;

when the atomizer is in the second atomization mode, the controller controls the sensor to collect external information and controls the atomizer to atomize the liquid to be atomized when the external information meets preset conditions, and the external information at least comprises user biological characteristic information.

7. The control method according to claim 6, wherein the controlling the sensor to collect external information when in the second atomization mode and controlling the atomizer to atomize the liquid to be atomized when the external information meets a preset condition comprises:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age stage of the user are determined according to the user biological characteristic information;

if the user is in a first preset distance range and the age stages of all the users are first stages, the controller controls the atomizer to stop atomizing;

if the user is in a first preset distance range and all the age stages of the user are in a second stage, the controller controls the atomizer to atomize the liquid to be atomized;

the first stage is that the age is smaller than the preset age, and the second stage is that the age is greater than or equal to the preset age.

8. The control method according to claim 6, wherein the controlling the sensor to collect external information when in the second atomization mode and controlling the atomizer to atomize the liquid to be atomized when the external information meets a preset condition comprises:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, determines target atomization liquid according to the external information and controls the atomizer of the corresponding third atomization device body to atomize the target atomization liquid when the external information meets preset conditions.

9. The control method according to claim 8, wherein the controlling, by the controller, the sensor to acquire external information when in the second atomization mode and determining a target atomized liquid according to the external information and controlling the atomizer of a corresponding third atomization apparatus body to atomize the target atomized liquid when the external information meets a preset condition includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age of the user are determined according to the user biological characteristic information;

and if the user is in a second preset distance range and all the ages of the user are preset ages, the controller identifies and obtains the gender and the emotion of the user according to the biological characteristic information of the user, determines target atomized liquid according to the gender and the emotion and controls the atomizer of the corresponding third atomization equipment main body to atomize the target atomized liquid.

10. The control method according to claim 8, wherein the controlling, by the controller, the sensor to acquire external information when in the second atomization mode and determining a target atomized liquid according to the external information and controlling the atomizer of a corresponding third atomization apparatus body to atomize the target atomized liquid when the external information meets a preset condition includes:

when the atomization device is in the second atomization mode, the controller controls the sensor to collect external information, and when user biological characteristic information is collected, the distance between the user and the atomization device and the age of the user are determined according to the user biological characteristic information;

if the users are at least two and the ages of all the users are preset ages within a second preset distance range, the controller identifies and obtains the gender of the users according to the biological characteristic information of the users;

if the genders of the users are different, the controller identifies the relationship between the users according to the hand correlation action in the user biological characteristic information, determines target atomized liquid according to the relationship between the users, and controls the corresponding atomizer of the third atomization device main body to atomize the target atomized liquid.

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