CN110689798A - Method, device and system for controlling light swallowing demonstration cabinet and computer storage medium - Google Patents

Abstract

The invention discloses a method and a device for controlling a swallow light demonstration cabinet and a computer storage medium, and belongs to the technical field of intelligent household appliances. The light swallowing demonstration cabinet comprises: the smoke generator, the light source, the air purification equipment and the human body induction device, the method comprises the following steps: when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state; and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration. Therefore, the air purification capacity of the air purification equipment is visually displayed, and the product display effect and the user experience are improved.

Description

Method, device and system for controlling light swallowing demonstration cabinet and computer storage medium

Technical Field

The invention relates to the technical field of intelligent household appliances, in particular to a method and a device for controlling a light swallowing demonstration cabinet and a computer storage medium.

Background

With the improvement of living standard, air purification equipment is a necessary product for daily life of people. How to quickly show the purifying capacity of the air purifying apparatus to the user? Currently, it is possible to use some technical parameters, such as: the value of PM2.5 on the display panel on the air cleaning device, or some performance parameter in the product specification. But in some situations where the user may participate, for example: the product exhibition, simply depending on the technical parameters displayed on the panels or on the documents, cannot give the user a more intuitive impression nor can the purification capacity of the air purification device be displayed in a comprehensive manner.

Disclosure of Invention

The embodiment of the invention provides a method and a device for controlling a light swallowing demonstration cabinet and a computer storage medium. The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments. Its sole purpose is to present some concepts in a simplified form as a prelude to the more detailed description that is presented later.

According to a first aspect of the embodiments of the present invention, there is provided a method for controlling a light swallowing demonstration cabinet, where the light swallowing demonstration cabinet includes: smoke generator, light source, air purification equipment and gesture induction system, the method includes:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state;

and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

In an embodiment of the present invention, the turning off the activated smoke generator and controlling the light source and the air purifying device to be in the on state includes:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture, the smoke generator is started;

and when the current concentration value of the fine particulate matters is greater than the first set threshold value, turning on the light source, turning off the started smoke generator and starting the air purification equipment.

In an embodiment of the present invention, the turning off the activated smoke generator and controlling the light source and the air purifying device to be in the on state includes:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a first preset gesture, the smoke generator is started;

when the current concentration value of the fine particulate matters is larger than the first set threshold value, the light source is started;

and when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

In an embodiment of the present invention, the method further includes:

and when the concentration value of the current fine particulate matters is smaller than a third set threshold value, prompting the completion of air purification, wherein the first set threshold value is larger than the third set threshold value.

According to a second aspect of the embodiments of the present invention, there is provided an apparatus for controlling a light swallowing demonstration cabinet, the light swallowing demonstration cabinet comprising: smoke generator, light source, air purification equipment and gesture induction system, the device includes:

the turn-on control unit is used for turning off the started smoke generator and controlling the light source and the air purification equipment to be in an on state when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value;

and the strategy control unit is used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

In an embodiment of the present invention, the turn-on/off control unit is specifically configured to turn on the smoke generator when it is determined by the gesture sensing device that a current user gesture in a gesture sensing area corresponding to the light swallowing demonstration cabinet matches a preset gesture; and when the current concentration value of the fine particulate matters is greater than the first set threshold value, turning on the light source, turning off the started smoke generator and starting the air purification equipment.

In an embodiment of the present invention, the turn-on/off control unit is specifically configured to, when it is determined by the gesture sensing device that a current user gesture in a gesture sensing area corresponding to the light swallowing demonstration cabinet matches a first preset gesture, turn on the smoke generator; when the current concentration value of the fine particulate matters is larger than the first set threshold value, the light source is started; and when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

In an embodiment of the invention, the method further comprises

And the prompting unit is used for prompting the completion of air purification when the concentration value of the current fine particulate matters is smaller than a third set threshold value, wherein the first set threshold value is larger than the third set threshold value.

According to a third aspect of the embodiments of the present invention, there is provided an apparatus for controlling a light-swallowing demonstration cabinet, where the light-swallowing demonstration cabinet includes: smoke generator, light source, air purification equipment and gesture induction system, the device includes:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state;

and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

According to a fourth aspect of embodiments of the present invention, there is provided a computer readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the steps of the above-described method.

The technical scheme provided by the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, when the concentration value of the current fine particulate matters in the light swallowing demonstration cabinet is larger than the set threshold value, the smoke generator in the cabinet can be closed, the light source and the air purification equipment in the cabinet are started, along with the operation of the air purification equipment, the air quality in the cabinet is good, the fine particles are reduced, the light speed emitted by the light source disappears, and the light swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is visually demonstrated, and the user experience is improved. In addition, the light swallowing demonstration can be triggered according to the gesture of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a block diagram illustrating the structure of a light swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 2 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 3 is a block diagram illustrating the structure of a light swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 4 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 5 is a block diagram illustrating the structure of a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 6 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

fig. 7 is a block diagram illustrating the structure of a light swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 8 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

fig. 9 is a block diagram illustrating the structure of a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 10 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 11 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

FIG. 12 is a schematic diagram illustrating an infrared emitter tube location and peak value in accordance with an exemplary embodiment;

FIG. 13 is a flow diagram illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment;

fig. 14 is a block diagram illustrating a swallow light presentation cabinet control apparatus according to an exemplary embodiment.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments of the invention to enable those skilled in the art to practice them. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The scope of embodiments of the invention encompasses the full ambit of the claims, as well as all available equivalents of the claims. Embodiments may be referred to herein, individually or collectively, by the term "invention" merely for convenience and without intending to voluntarily limit the scope of this application to any single invention or inventive concept if more than one is in fact disclosed. Herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed. The embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the structures, products and the like disclosed by the embodiments, the description is relatively simple because the structures, the products and the like correspond to the parts disclosed by the embodiments, and the relevant parts can be just described by referring to the method part.

In some cases, the air purifying apparatus is required to show the user the ability to purify air. According to the Tyndall effect, when light passes through particles, light beams are formed due to scattering, the higher the concentration of the particles is, the more obvious the light beams are, therefore, in the embodiment of the invention, the light swallowing demonstration cabinet is constructed, the light swallowing demonstration cabinet is a transparent and visible and airtight cabinet body, and the inside of the cabinet body comprises: the smoke generator, the light source and the air purifying equipment are adopted, so that when the air purifying capacity is displayed for a user, smoke can be generated through the smoke generator, the set light source is turned on, and at the moment, the light beam is obvious according to the Tyndall effect. And then, opening the air purification equipment, and after a period of time, because the air purification effect of the air purification equipment, the concentration of the particulate matters is lower and lower, and the light beam is less and less obvious until the light beam disappears, namely, the light beam is swallowed, thereby completing the light swallowing demonstration. Therefore, the ability of the air purification equipment for purifying air can be displayed for the user through the light swallowing demonstration of the light swallowing demonstration cabinet, so that the user can visually know the performance of the air purification equipment, the performance of the equipment is visually displayed, and the user experience is further improved.

Fig. 1 is a block diagram illustrating a configuration of a light swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 1, the light swallowing demonstration cabinet comprises: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, and an air purifying apparatus 400.

The cabinet 100 is a transparent and visible and sealable cabinet. The smoke generator 300 may generate smoke, causing a change in the quality of control within the light swallowing demonstration cabinet, such as a fine particulate matter concentration value PM 2.5. The air purifying apparatus 400 may purify the air inside the light-swallowing demonstration cabinet, for example, so that the value of PM2.5 becomes small. In this embodiment, the air purifying apparatus 400 may include: air conditioners, air purifiers, or other electrical appliances having an air purification function. The light source 200 may produce a visible light column, ray or ring of light, which may be classified as monochromatic, bi-chromatic or polychromatic.

The light swallowing demonstration cabinet can control all devices in the cabinet body, realizes light swallowing demonstration and is used for showing the energy of air purification of the air purification device to a user.

Fig. 2 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. Wherein, gulp in the internal including of cabinet of light demonstration cabinet: smoke generator, light source and air purification equipment. As shown in fig. 2, the process of controlling the swallowing demonstration cabinet includes:

step 201: and when the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is closed, and the light source and the air purification equipment are controlled to be in an opening state.

In this embodiment, the control quality in the light swallowing demonstration cabinet can be represented by a fine particulate matter concentration value PM2.5, so that the PM2.5 value in the cabinet body can be obtained through corresponding detection equipment, for example: and a PM2.5 value in the cabinet body is obtained through a PM2.5 detector. The PM2.5 value may be obtained periodically, randomly, or according to a received user instruction, which is not limited specifically.

According to the tyndall effect, light beams are formed by scattering when light passes through particles, and the higher the concentration of the particles, the more obvious the light beam is. Therefore, when the PM2.5 value is larger than the first set threshold, the air quality in the cabinet is poor, the concentration value of the fine particulate matters is large, the fine particulate matters are more, at the moment, the light swallowing demonstration can be started, and therefore the started smoke generator needs to be closed. I.e. no smoke needs to be generated anymore. Of course, for better demonstration, the first set threshold may be slightly larger, for example: 500-1000, i.e., 500, 600, 700, 750, 800, etc.

The light swallowing demonstration is carried out, and of course, a light source is required, and the air purification device is in an opening state. If the light source and the air purification equipment are not started, the light source and the air purification equipment can be started at the same time. Of course, it is preferable to turn on the light source first and then delay for a set time, for example: one, two, three or five minutes before the air purification device is turned on. If the light source or the air purification equipment is started, the starting state is kept. After the air purification equipment is started, the air purification equipment can start to purify the air in the cabinet, when the air quality is excellent, namely the PM2.5 value is reduced to a certain threshold value, fine particles in the air are fewer, and light beams emitted by the light source are invisible, so that light swallowing demonstration is realized.

Step 202: and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

The air purification equipment can carry out different purification processes to different demands, namely according to the control strategy that sets for, control air purification equipment operation includes: controlling at least one purifying device in the air purifying equipment to operate at a maximum set gear parameter value; or, controlling each purifying device in the air purifying equipment to operate at a first set gear parameter value, wherein the first set gear parameter value is smaller than the maximum set gear parameter value; or when the current concentration value of the fine particulate matters is greater than a second set threshold value, controlling at least one purifying device in the air purifying equipment to operate at the maximum set gear parameter value, and when the current concentration value of the fine particulate matters is less than or equal to the second set threshold value, controlling each purifying device in the air purifying equipment to operate at the first set gear parameter value, wherein the second set threshold value is less than the first set threshold value.

The air cleaning apparatus may comprise a plurality of cleaning devices, for example: fans, clean physics modules, air deflectors, and the like. Generally, air purification equipment has all preset corresponding setting gear to every purifier, and when air purification equipment's purification capacity was the strongest, every purifier all was in the biggest setting gear, for example: the fan is in high wind operation, purifies the physical module area and expandes promptly full cover entirely, and the aviation baffle also opens to the maximum position. Certainly, when gears in the air purification equipment are operated, the fan is in the stroke operation, the area of the purification physical module is expanded by 50%, the air deflector can be also opened to a half position, and the like.

Therefore, the air purification equipment can be operated according to different set control strategies according to different application scenes and requirements. For example: in order to show the strong purification capacity of the air purification equipment, at least one purification device in the air purification equipment can be controlled to operate at the maximum set gear parameter value. Because the people flow is bigger on the product show meeting, for make many users watch and swallow the light demonstration, also can combine purification capacity and purification time, control purification speed, can control every purifier in the air purification equipment and set for the gear parameter value operation with first, wherein, the gear parameter value of first settlement is less than the biggest gear parameter value of setting for example: the first set gear is a middle gear.

Of course, the purification capacity may also be combined with the control quality, so that when the current fine particulate matter concentration value is greater than a second set threshold value, at least one purification device in the air purification apparatus is controlled to operate at the maximum set gear parameter value, and when the current fine particulate matter concentration value is less than or equal to the second set threshold value, each purification device in the air purification apparatus is controlled to operate at the first set gear parameter value, where the second set threshold value is less than the first set threshold value.

For example: the first set threshold is 800 and the second set threshold is 500. Therefore, the current PM2.5 value is obtained periodically, if the current PM2.5 value is 700 and is larger than 500, the fan can be controlled to be in high-wind operation, the area of the purification physical module is fully expanded, namely fully covered, and the air deflector is also opened to the maximum position. Of course, the fan can be controlled to run in high wind, the area of the purification physical module is expanded by 50%, the air deflector is opened to a half position, and the like. And if the current PM2.5 is 300 and is less than 500, the fan can be controlled to be in stroke operation, the area of the purification physical module is expanded by 50%, and the air deflector can be also opened to a half position.

One control strategy or two or more control strategies of the air purification device can be stored in the light swallowing demonstration cabinet. When one control strategy is stored, the air purification equipment is controlled to operate according to the stored control strategy, and if two or more control strategies are stored, the corresponding control strategy can be determined randomly or according to a user instruction, so that the air purification equipment is controlled to operate. For example: and storing the corresponding relation between the settable control strategy and the control instruction, so that after a user sends the current control instruction through a remote controller or a human-computer interaction interface, the light swallowing demonstration cabinet can determine the currently set control strategy corresponding to the received current control instruction according to the stored corresponding relation, thereby controlling the air purification equipment to operate according to the determined currently set control strategy to perform light swallowing demonstration.

Therefore, in the embodiment of the invention, when the concentration value of the current fine particulate matters in the light swallowing demonstration cabinet is greater than the set threshold value, the smoke generator in the cabinet can be turned off, the light source and the air purification equipment in the cabinet are turned on, along with the operation of the air purification equipment, the air quality in the cabinet is good, the fine particles are reduced, the light speed emitted by the light source disappears, and the light swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is intuitively demonstrated, the efficiency of demonstrating the air purification capacity of the air purification equipment is improved, and the user experience is improved.

The light swallowing demonstration cabinet realizes automation and cyclicity of light swallowing demonstration. Therefore, after the air purification equipment operates, the quality of air in the cabinet body is better and better, the PM2.5 value is smaller, and when the concentration value of the current fine particulate matters is smaller than a third set threshold value, the smoke generator is started. I.e. the PM2.5 value is less than a certain threshold, the smoke generator can be turned on again. Thus, when the PM2.5 value increases to a certain value, i.e., the first set threshold value, the light swallowing demonstration is restarted. Therefore, the third set threshold is generally much smaller than the first set threshold. For example: the first set threshold is 700, the third set threshold may be 100, or 50, etc. Preferably, when the smoke generator is started, the air purification equipment can be closed to rapidly increase the PM2.5 value in the cabinet body, and resources can be saved. Also, the light source may be turned off when the smoke generator is turned on to save resources.

In the embodiment of the invention, the light swallowing demonstration cabinet can have a prompt function, and comprises the following components: and according to a set control strategy, after the air purification equipment is controlled to operate, prompting of air purification is carried out. Or after the air purification equipment operates, when the concentration value of the current fine particulate matters is smaller than a third set threshold value, prompting that the air quality is good is carried out. Alternatively, both may be performed. The prompting function of the light swallowing demonstration cabinet can comprise the following steps: text prompt, color prompt or voice prompt.

For example: after the air purification equipment is opened, a user can be prompted to start the purification process through interactive interfaces such as voice or a display screen. Alternatively, PM2.5 is less than a third set threshold, for example: 50. 80 or 100, at this time, the prompt of the good air quality can be performed, the prompt can be performed through an interactive interface such as voice or a display screen, or the prompt can be performed through a display lamp on the air purification equipment, for example, green.

In embodiments of the present invention, the light source may comprise monochromatic light, bicolor light, or polychromatic light. Thus, the control process may further include: if the current concentration value of the fine particulate matters is larger than a first set threshold value, the first color light source can be controlled to be in an on state, for example, red light is turned on. And when the current concentration value of the fine particulate matters is smaller than the first set threshold value and larger than a third set threshold value, the second light source can be controlled to be in an on state, for example: the yellow light is turned on. And when the current concentration value of the fine particulate matters is smaller than a third set threshold, the third light source can be controlled to be in an on state, for example: green light is turned on. Of course also here, for example: if the concentration value of the current fine particulate matter is greater than a first set threshold value, the first color light source can be controlled to be in an open state; and when the current concentration value of the fine particles is larger than a second set threshold value, the second color light source can be controlled to be in an on state. The details are not necessarily given as an example. Like this, through different light sources, can demonstrate different air quality, the user knows air purification equipment's purification performance more directly perceivedly, has further improved the effect of product show.

Because light swallowing demonstration cabinets are typically used in applications where product performance is displayed to a user, for example: exhibition of products. Therefore, in order to save resources, generally, when a user knows or watches a product, the light swallowing demonstration is performed, and therefore, in another embodiment of the present embodiment, the light swallowing demonstration cabinet may further include a human body sensing device, so that when a human body is in a set area around the light swallowing demonstration cabinet, the light swallowing demonstration cabinet may perform a specific light swallowing demonstration process.

Fig. 3 is a block diagram illustrating a configuration of a light swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 3, the light swallowing demonstration cabinet comprises: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying apparatus 400, and a human body sensing device 500.

The cabinet 100 is a transparent and visible and sealable cabinet. The smoke generator 300 may generate smoke, causing a change in the quality of control within the light swallowing demonstration cabinet, such as a fine particulate matter concentration value PM 2.5. The air purifying apparatus 400 may purify the air inside the light-swallowing demonstration cabinet, for example, so that the value of PM2.5 becomes small. In this embodiment, the air purifying apparatus 400 may include: air conditioners, air purifiers, or other electrical appliances having an air purification function. The light source 200 may produce a visible light column, ray or ring of light, which may be classified as monochromatic, bi-chromatic or polychromatic. The human body sensing device 500 may be an infrared sensor, a microwave sensor, or the like. Generally, the human body sensing device 500 may be located at a middle position above the top of the cabinet 100, so that a corresponding sensing area may be determined according to the performance parameters of the human body sensing device 500, that is, when a human body exists in a set area around the light swallowing demonstration cabinet, the human body sensing device 500 may sense the human body.

The light swallowing demonstration cabinet can control all devices in the cabinet body, realizes light swallowing demonstration and is used for showing the energy of air purification of the air purification device to a user.

Fig. 4 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. Wherein, gulp in the internal including of cabinet of light demonstration cabinet: smoke generator, light source, air purification equipment and human induction system. As shown in fig. 4, the process of controlling the swallowing demonstration cabinet includes:

step 401: when the human body sensing device determines that a human body exists in a peripheral set area of the light swallowing demonstration cabinet and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state.

Here, the smoke generator may be activated first, and then it is determined whether there is a user? Therefore, when the concentration value of the current fine particulate matters is greater than a first set threshold value, the light source is started; when the human body sensing device determines that a human body exists in a set area around the light swallowing demonstration cabinet, the started smoke generator is closed, and the air purification equipment is started.

Similarly, after the smoke generator is started, the PM2.5 value in the light swallowing demonstration cabinet can be obtained at regular time, periodically, randomly or according to the instruction received by the user. If the PM2.5 value is larger than a first set threshold value, the light source can be turned on, so that the light source is in an on state. If no person exists, the demonstration cabinet can be in a waiting state, when the human body sensing device determines that a human body exists in a set area around the light swallowing demonstration cabinet, the light swallowing demonstration can be carried out, the started smoke generator can be turned off, and the air purification equipment is started, namely the air purification equipment is in an opening state.

Alternatively, it may be determined first whether there is a user? And then the smoke generator is started. When a human body sensing device determines that a human body exists in a set area around the light swallowing demonstration cabinet, a light source is turned on, and a smoke generator is started; and when the current concentration value of the fine particulate matters is greater than a first set threshold value, the started smoke generator is closed, and the air purification equipment is started.

Therefore, the light swallowing demonstration cabinet is opened to be in an energy-saving state, and when the human body sensing device determines that a human body exists in a set area around the light swallowing demonstration cabinet, the light source can be opened, is in an opening state, and starts the smoke generator. Similarly, after the smoke generator is started, the PM2.5 value in the light swallowing demonstration cabinet can be obtained at regular time, periodically, randomly or according to the instruction received by the user. If the PM2.5 value is larger than the first set threshold value, the started smoke generator can be closed, and the air purification equipment is started, namely the air purification equipment is in the opening state.

Certainly, after the air purification equipment is started, the air purification equipment can start to purify the air in the cabinet, when the air quality is excellent, namely the PM2.5 value is reduced to a certain threshold value, the fine particulate matters in the air are less, and the light beams emitted by the light source are invisible, so that the light swallowing demonstration is realized

Step 402: and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

The specific strategy control may be as in step 202, and different purification processes are performed according to different requirements, that is, according to the set control strategy, controlling the operation of the air purification apparatus includes: controlling at least one purifying device in the air purifying equipment to operate at a maximum set gear parameter value; or, controlling each purifying device in the air purifying equipment to operate at a first set gear parameter value, wherein the first set gear parameter value is smaller than the maximum set gear parameter value; or when the current concentration value of the fine particulate matters is greater than a second set threshold value, controlling at least one purifying device in the air purifying equipment to operate at the maximum set gear parameter value, and when the current concentration value of the fine particulate matters is less than or equal to the second set threshold value, controlling each purifying device in the air purifying equipment to operate at the first set gear parameter value, wherein the second set threshold value is less than the first set threshold value.

Therefore, in the embodiment of the invention, when people are in the set area of the light swallowing demonstration cabinet and the concentration value of the current fine particulate matters in the cabinet body is greater than the set threshold value, the smoke generator in the cabinet body can be closed, the light source and the air purification equipment in the cabinet body are started, along with the operation of the air purification equipment, the quality of the air in the cabinet body is improved, the fine particles are reduced, the light speed emitted by the light source disappears, and the light swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is intuitively demonstrated, the efficiency of demonstrating the air purification capacity of the air purification equipment is improved, and the user experience is improved. And only when people are in the set area, the air purification equipment can operate, and resources are further saved.

Of course, in the above step 401, if the smoke generator is started first, and then it is determined whether there is a user? Thus, the activation of the smoke generator is related to the current fine particle concentration value, i.e. it also comprises: and when the current concentration value of the fine particulate matters is smaller than a third set threshold value, starting the smoke generator, wherein the first set threshold value is larger than the third set threshold value.

If the user is judged to exist or not, the reminding of the light swallowing demonstration can be performed after the human body sensing device determines that the human body exists in the peripheral set area of the light swallowing demonstration cabinet, such as voice prompt or display screen prompt. And when the current concentration value of the fine particulate matters is smaller than a third set threshold value, the prompt of the completion of purification can be carried out. Therefore, the user can further clearly understand the whole process of the light swallowing demonstration, further understand the performance of the product and improve the display effect.

In the process of product display, when the light swallowing demonstration cabinet is used for demonstration, the light swallowing performance can be realized, the light source control can be performed according to the position of a user, the light swallowing demonstration effect is further improved, and the product display effect is improved.

Fig. 5 is a block diagram illustrating a configuration of a light swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 5, the light swallowing demonstration cabinet comprises: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying apparatus 400, and a human body sensing device 500.

The cabinet 100, the smoke generator 200, the air purifying apparatus 400 and the human body sensing device 500 may be as described above, and will not be described repeatedly. In this embodiment, the cabinet 100 is configured with a moving rail 310 on which the light source 300 can move. One, two or more projection points are arranged on the moving guide rail, and each projection point is configured with a corresponding projection angle. The human body sensing device 500 has a corresponding human body sensing area, that is, the human body is sensed by the human body sensing device 500 after the human body reaches the human body sensing area. The human body induction area can be divided, different position areas in the human body induction area correspond to different projection points, and the corresponding relation between the position area information and the projection points on the movable guide rail in the cabinet body and the corresponding relation between the projection points and the projection angles can be configured and stored on the basis that a user can see obvious light beams and can not be dazzled. In this way, light source control can be performed according to the position of the user.

Of course, the human body sensing device 500 may be fixedly installed at the middle position of the top of the cabinet 100, or the human body sensing device 500 may be driven by the motor to rotate, so that the human body sensing area corresponding to the human body sensing device 500 may be relatively large, and also, the human body sensing area may be divided into a plurality of areas, and then the corresponding relationship between the position area information and the projection point is saved.

Fig. 6 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. Wherein, gulp in the internal including of cabinet of light demonstration cabinet: smoke generator, light source, air purification equipment and human induction system. As shown in fig. 6, the process of controlling the swallowing demonstration cabinet includes:

step 601: when the concentration value of the current fine particulate matters in the swallow light demonstration cabinet is larger than a first set threshold value, the started smoke generator is closed, and the light source and the air purification equipment are controlled to be in an opening state, wherein the light source is located at a first projection point on a moving guide rail in the cabinet body, and the first projection point is determined after the current human body is located in first position area information around the swallow light demonstration cabinet through a human body sensing device.

Step 602: and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

In step 601, the started smoke generator is turned off and the light source and the air purification device are controlled to be in an on state only when the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value. The specific process may be as in step 201. Or, when it is determined that a human body exists in a set area around the light swallowing demonstration cabinet through the human body sensing device and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is greater than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an on state. The specific process may be as in step 401.

In the control process of the light source, the position control of the light source can be included without including the switch control of the light source. The position control process may be before or after the light source is turned on, and the specific light source position control process may include: acquiring first position area information of a current human body through a human body sensing device; determining a first projection point corresponding to the first position area information according to the corresponding relation between the stored position area information and the projection point on the moving guide rail in the cabinet body; then, the light source is controlled to move to the first projection point along the moving guide rail, and the projection angle of the light source is controlled according to the first projection angle configured by the first projection point.

Get into the human response region that human induction system corresponds, the user who watches the demonstration of swallowing light probably has alone, two people or many people to, the human body that senses has one or more, like this, the control process that the light source is located the first projection point on the internal moving guide rail of cabinet includes: when one or more human bodies are detected to be positioned around the light swallowing demonstration cabinet through the human body sensing device, determining the first detected human body as the current human body; acquiring first position area information of a current human body; determining a first projection point corresponding to the first position area information according to the corresponding relation between the stored position area information and the projection point on the moving guide rail in the cabinet body; and controlling the light source to move to the first projection point along the moving guide rail, and controlling the projection angle of the light source according to the first projection angle configured at the first projection point.

Or, the control process of the first projection point of the light source on the moving guide rail in the cabinet body comprises the following steps: when at least two human bodies are detected to be positioned around the light swallowing demonstration cabinet through the human body sensing device, determining each detected human body as a current human body; acquiring first position area information of each current human body; determining each first projection point corresponding to each first position area information according to the corresponding relation between the stored position area information and the projection points on the moving guide rail in the cabinet body; the light source is controlled to move between each first projection point along the moving guide rail in a set sequence and at a set speed, and the projection angle of the light source is controlled according to the first projection angle configured at each first projection point.

Of course, the present invention is not limited thereto, and the light source position may also be controlled according to the user's instruction. Thus, controlling the light source to move to the first projection point comprises: receiving a light source control instruction carrying first projection point information; and controlling the light source to move to the first projection point along the moving guide rail according to the light source control instruction, and controlling the projection angle of the light source according to the first projection angle configured at the first projection point. For example: the user sends a light source control instruction carrying first projection point information through the remote controller, so that the light source can be controlled to move to the first projection point along the moving guide rail according to the received light source control instruction, and the projection angle of the light source is controlled according to the first projection angle configured at the first projection point.

The policy control process in step 602 may be as described above in steps 202 or 402 and will not be described in detail.

It can be seen that, in this embodiment, when the concentration value of the current fine particulate matter in the swallowing demonstration cabinet is greater than the set threshold, the smoke generator in the cabinet can be turned off, the light source and the air purification equipment in the cabinet can be turned on, along with the operation of the air purification equipment, the air quality in the cabinet becomes good, the fine particles are reduced, the light speed emitted by the light source disappears, and the swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is visually demonstrated, and the user experience is improved. And the light source can move along the movable guide rail in the cabinet body according to the detected position of the human body, so that the light swallowing demonstration effect is further improved, and the product display effect is improved.

The light swallowing demonstration can be triggered and controlled through the human body sensing device, however, the embodiment of the invention is not limited to the light swallowing demonstration, the participation sense of a user can be further improved, and the light swallowing demonstration can be triggered and controlled through gestures.

Fig. 7 is a block diagram illustrating a configuration of a light swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 7, the light swallowing demonstration cabinet comprises: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying device 400, and a gesture sensing apparatus 600.

The cabinet 100, the smoke generator 200, the light source 300, and the air purifying apparatus 400 may be as described above, and will not be described repeatedly. In an embodiment, the cabinet 100 is configured with a gesture sensing device 600. The gesture sensing device can monitor specific gesture information in the corresponding gesture sensing area.

For example: the gesture sensing device 600 includes an infrared emitting tube and a processing chip. When the palm of the user waves the gesture in front of the infrared emission tube, the palm reaches a peak value right above the infrared emission tube, so that the user can be determined to wave the palm, namely the current user gesture is determined.

Or, the gesture sensing device 600 includes an infrared laser emitter, an infrared sensor and a processing chip. The infrared laser emitter emits infrared rays, the infrared sensor receives reflected light rays, the processing chip calculates and calculates the distance according to time, and when the palm of a user waves in the detection area, the time for sending and receiving the infrared rays changes, so that the user can be determined to wave the palm, namely the current user gesture is determined.

Alternatively, the gesture sensing apparatus 600 includes a processing chip and a plurality of outer-line transmitting tubes, so that each different current user gesture can be determined according to a peak value corresponding to the infrared transmitting tube.

After the light swallowing demonstration cabinet is provided with the gesture sensing area, the light swallowing demonstration can be triggered or controlled according to the gesture.

Fig. 8 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. Wherein, gulp in the internal including of cabinet of light demonstration cabinet: the device comprises a smoke generator, a light source, air purification equipment and a gesture sensing device. As shown in fig. 8, the process of controlling the swallowing demonstration cabinet includes:

step 801: when the gesture sensing device determines that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the preset gesture and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an on state.

Step 802: and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

In this embodiment, the light swallowing demonstration may be triggered by a gesture, which may include: when the gesture sensing device determines that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the preset gesture, the smoke generator is started; and when the concentration value of the current fine particulate matters is greater than a first set threshold value, turning on a light source, turning off the started smoke generator and starting the air purification equipment.

The preset gesture may be a palm waving gesture. Therefore, when the user waves a gesture, the gesture sensing device can determine that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the preset gesture, the light swallowing demonstration can be triggered at the moment, and the smoke generator can be started; then, when the concentration value of the current fine particulate matters is larger than a first set threshold value, a light source is turned on, the started smoke generator is turned off, and the air purification equipment is started. For example: when a user smokes in a set space (such as a demonstration cabinet), the user can wave the palm, and therefore the light swallowing demonstration can be triggered.

Alternatively, triggering and controlling a light swallowing presentation through gestures may include: when the gesture sensing device determines that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the first preset gesture, the smoke generator is started; when the concentration value of the current fine particulate matters is larger than a first set threshold value, starting a light source; when the gesture sensing device determines that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

The first preset gesture may be a gesture of waving the palm left and right, and the second preset gesture may be a gesture of waving the palm up and down. Therefore, when the user waves the palm left and right, the gesture of the current user in the gesture sensing area can be determined to be matched with the first preset gesture, so that light swallowing demonstration is triggered, and the smoke generator can be started; of course, when the current fine particle concentration value is greater than the first set threshold, the light source is turned on. At this moment, if the user waves the palm up and down, when the current user gesture in the gesture sensing area can be determined to be matched with the second preset gesture, the started smoke generator can be turned off, and the air purification equipment is started. Thus, light swallowing demonstration can be carried out.

Of course, without limitation, both the first preset gesture and the second preset gesture may be preconfigured, for example: erecting the thumb, stretching the five fingers of the palm, and the like.

Of course, the implementation of step 802 may be as described above for step 202, and is not described in detail.

Because the light swallowing demonstration can be triggered or controlled through gestures, when the concentration value of the current fine particulate matters is smaller than a third set threshold value, the prompt of finishing air purification is carried out, wherein the first set threshold value is larger than the third set threshold value. Similarly, the prompt of the completion of air purification can be performed through voice prompt or display screen graphic prompt and the like.

It can be seen that, in this embodiment, when the concentration value of the current fine particulate matter in the swallowing demonstration cabinet is greater than the set threshold, the smoke generator in the cabinet can be turned off, the light source and the air purification equipment in the cabinet can be turned on, along with the operation of the air purification equipment, the air quality in the cabinet becomes good, the fine particles are reduced, the light speed emitted by the light source disappears, and the swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is visually demonstrated, and the user experience is improved. In addition, the light swallowing demonstration can be triggered according to the gesture of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

Fig. 9 is a block diagram illustrating a configuration of a light-swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 9, the light swallowing demonstration cabinet includes: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying apparatus 400, and a voice recognition device 700.

The cabinet 100, the smoke generator 200, the light source 300, and the air purifying apparatus 400 may be as described above, and will not be described repeatedly. In the embodiment, the cabinet 100 is provided with a voice recognition device 700. The voice recognition device can recognize the voice sent by the user and obtain the corresponding voice instruction.

After the light swallowing demonstration cabinet is provided with the voice recognition device, the light swallowing demonstration can be triggered or controlled according to the voice command of the user.

Fig. 10 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. Wherein, gulp in the internal including of cabinet of light demonstration cabinet: the device comprises a smoke generator, a light source, air purification equipment and a voice recognition device. As shown in fig. 10, the process of controlling the swallowing demonstration cabinet includes:

step 1001: when the voice starting instruction for starting demonstration sent by a user is determined to be received through the voice recognition device, and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is closed, and the light source and the air purification equipment are controlled to be in the opening state.

Step 1002: and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

In this embodiment, the light swallowing demonstration may be triggered by a voice command, and may include: when a voice starting instruction for starting demonstration sent by a user is determined to be received through a voice recognition device, a smoke generator is started; and when the concentration value of the current fine particulate matters is greater than a first set threshold value, turning on a light source, turning off the started smoke generator and starting the air purification equipment.

Therefore, when a user sends a voice carrying 'start demonstration', a voice starting instruction for starting demonstration sent by the user can be determined and received through the voice recognition device, the light swallowing demonstration can be triggered at the moment, and the smoke generator can be started; then, when the concentration value of the current fine particulate matters is larger than a first set threshold value, a light source is turned on, the started smoke generator is turned off, and the air purification equipment is started.

Alternatively, triggering and controlling the light swallowing demonstration through voice commands may include: when the voice recognition device determines that a first voice starting instruction sent by a user is received, starting a smoke generator; when the concentration value of the current fine particulate matters is larger than a first set threshold value, starting a light source; and when the voice recognition device determines that a second voice starting instruction sent by the user is received, the started smoke generator is closed, and the air purification equipment is started.

The first voice starting instruction can be a smoke voice starting instruction, and the second voice starting instruction can be an air purification voice starting instruction. Therefore, when the user sends the voice carrying the 'smoke starting', the fact that the smoke voice starting instruction sent by the user is received through the voice recognition device can be determined, so that light swallowing demonstration is triggered, and a smoke generator can be started; of course, when the current fine particle concentration value is greater than the first set threshold, the light source is turned on. At this time, if the user sends the voice carrying "air purification start", it can be determined that the voice recognition device determines that the voice start instruction for air purification sent by the user is received, so that the started smoke generator can be turned off, and the air purification equipment can be started. Thus, light swallowing demonstration can be carried out.

Of course, without limitation, both the first voice activation instruction and the second voice activation instruction may be preconfigured.

Of course, the implementation of step 1002 may be as described above for step 202, and is not described in detail.

Because the light swallowing demonstration can be triggered or controlled through the voice command, when the concentration value of the current fine particulate matters is smaller than a third set threshold value, the prompt of finishing air purification is carried out, wherein the first set threshold value is larger than the third set threshold value. Similarly, the prompt of the completion of air purification can be performed through voice prompt or display screen graphic prompt and the like. Preferably voice-prompted.

It can be seen that, in this embodiment, when the concentration value of the current fine particulate matter in the swallowing demonstration cabinet is greater than the set threshold, the smoke generator in the cabinet can be turned off, the light source and the air purification equipment in the cabinet can be turned on, along with the operation of the air purification equipment, the air quality in the cabinet becomes good, the fine particles are reduced, the light speed emitted by the light source disappears, and the swallowing demonstration is realized, so that the air purification capacity of the air purification equipment is visually demonstrated, and the user experience is improved. In addition, the light swallowing demonstration can be triggered according to the voice of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

Certainly, in the embodiment of the invention, the seed light swallowing demonstration cabinet can be triggered or controlled not only by human body induction, gesture induction or voice recognition, but also by a user operating a remote controller. When a starting instruction for starting demonstration issued by a user is received and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is closed, and the light source and the air purification equipment are controlled to be in an opening state; and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration. For example: the user operates a setting button on the remote controller, and the light swallowing demonstration cabinet receives a starting instruction for starting demonstration through communication between the remote controller and the light swallowing demonstration cabinet, so that when the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is greater than a first set threshold value, the started smoke generator is closed, and the light source and the air purification equipment are controlled to be in an opening state; and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration. Similarly, the starting instruction sent by the user can also comprise a first starting instruction and a second starting instruction. Thus, when a first starting instruction sent by a user is received, the smoke generator is started; when the concentration value of the current fine particulate matters is larger than a first set threshold value, starting a light source; and when a second starting instruction sent by the user is received, the started smoke generator is closed, and the air purification equipment is started. The specific process is not described in detail.

The following operational flow is integrated into a specific embodiment to illustrate the control circuit provided by the embodiment of the present disclosure.

In this embodiment, the light swallowing demonstration cabinet may be as shown in fig. 7, and includes: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying device 400, and a gesture sensing apparatus 600. The gesture sensing device 600 may include an infrared transmitting tube D1 and a processing chip. The first set threshold is 700 and the third set threshold is 100.

Fig. 11 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 11, the process of controlling the swallowing demonstration cabinet includes:

step 1101: determine whether a gesture of a current user in a gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a first preset gesture through the gesture sensing device? If yes, go to step 1102, otherwise, return to step 1101.

In this embodiment, the light swallowing demonstration may be triggered by a gesture.

Step 1102: and starting the smoke generator.

Step 1103: and periodically acquiring the current PM2.5 value in the cabinet body of the light swallowing demonstration cabinet.

Step 1104: determine if the current PM2.5 value is greater than 700? If yes, go to step 1105, otherwise, go back to step 1103.

Step 1105: and controlling the light source to be in an opening state.

Step 1106: the activated smoke generator is closed, and the air purification equipment is activated.

If the air purification equipment is in the opening state, the state is continuously maintained.

Step 1107: the fan in the air purification equipment is controlled to run in high wind, the area of the purification physical module is fully expanded, and the air deflector is also opened to the maximum position.

I.e. the operation of the air cleaning device is controlled according to a first control strategy. Namely, each purifying device in the air purifying equipment is controlled to operate at the maximum set gear parameter value.

Step 1108: and periodically acquiring the current PM2.5 value in the cabinet body of the light swallowing demonstration cabinet.

Step 1109: determine if the current PM2.5 value is less than 100? If yes, go to step 1110, otherwise, go back to step 1108.

Step 1110: voice prompt of air purification completion is performed, and the process returns to step 1101.

Therefore, in the embodiment, when the light swallowing demonstration is performed, each purifying device in the air purifying equipment operates according to the maximum set gear parameter value, the maximum purifying capacity of the air purifying equipment is demonstrated, a user can better know a product, and the demonstrating effect of the light swallowing demonstration cabinet is improved. In addition, the light swallowing demonstration can be triggered according to the gesture of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

In this embodiment, the light swallowing demonstration cabinet may be as shown in fig. 7, and includes: a transparent and visible cabinet 100, a smoke generator 200 located inside the cabinet 100, a light source 300, an air purifying device 400, and a gesture device 600. The gesture sensing device 600 may include an infrared transmitting tube D1, an infrared transmitting tube D2, and an infrared transmitting tube D33 processing chip. The first set threshold is 800, and the third set threshold is 120. Light source 200 may be a multi-color light source.

FIG. 12 is a schematic diagram illustrating infrared emitter tube location and peak values in accordance with an exemplary embodiment. As shown in fig. 12, D1 and D2 are horizontally opposed, while D3 is vertically opposed to D1 and D2, respectively. Thus, when the palm swings horizontally, the order of appearance of the peak values is D2D3D1, and when the palm swings up and down, the order of appearance of the peak values is D2D1D3 or D3D1D 2. That is, the peak corresponding to D3 appears in the middle, which is the first predetermined gesture of a left-right waving gesture, and the peak corresponding to D3 appears at both ends, which is the second predetermined gesture of a top-down waving gesture.

Fig. 13 is a flow chart illustrating a method of controlling a light-swallowing demonstration cabinet according to an exemplary embodiment. As shown in fig. 13, the process of controlling the swallowing demonstration cabinet includes:

step 1301: determine, by the gesture sensing device, whether a current user gesture in a gesture sensing area corresponding to the light swallowing demonstration cabinet matches a first preset gesture? If yes, go to step 1302, otherwise, go back to step 1301.

Here, it can be determined whether the first preset gesture is a left-right waving gesture?

Step 1302: and starting the smoke generator.

Step 1303: and periodically acquiring the current PM2.5 value in the cabinet body of the light swallowing demonstration cabinet.

Step 1304: determine if the current PM2.5 value is greater than 800? If yes, go to step 1305, otherwise, go back to step 1303.

Step 1305: the light source is turned on.

Step 1306: determine, by the gesture sensing device, whether a current user gesture in a gesture sensing area corresponding to the light swallowing demonstration cabinet matches a second preset gesture? If yes, go to step 1307, otherwise, go back to step 1306.

Also from fig. 12 can it be determined whether is the second preset gesture of the up-and-down swiping gesture?

Step 1307: and closing the started smoke generator and controlling the air purification equipment to be in an opening state.

Here, initially, the air cleaning apparatus may be activated. If the air purification equipment is in the opening state, the state is continuously maintained.

Step 1308: the fan in the air purification equipment is controlled to run in the middle of stroke, the area of the purification physical module is expanded by 50%, and the air deflector is half opened.

I.e. controlling the operation of the air cleaning device according to the second control strategy. I.e. each cleaning device in the air cleaning apparatus is controlled to operate with the first set gear parameter value. Here, the fan is in stroke operation, and purification physics module area expandes 50%, and the aviation baffle also can open to half the position.

Step 1309: and periodically acquiring the current PM2.5 value in the cabinet body of the light swallowing demonstration cabinet.

Step 1310: determine if the current PM2.5 value is less than 120? If yes, go to step 1311, otherwise, return to step 1309.

Step 1311: and prompting that the air purification is finished. Return to step 1301.

Also, the prompt may be by voice or by a display screen.

Therefore, in the embodiment, when the light swallowing demonstration is performed, each purifying device in the air purifying equipment operates according to the first set gear parameter value, so that the light swallowing demonstration time is prolonged, more users can watch the demonstration, more users know the product, and the demonstration effect of the light swallowing demonstration cabinet is improved. In addition, the light swallowing demonstration can be triggered according to the gesture of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

The following are embodiments of the disclosed apparatus that may be used to perform embodiments of the disclosed methods.

According to the process of controlling the light swallowing demonstration cabinet, a device for controlling the light swallowing demonstration cabinet can be constructed.

Fig. 14 is a block diagram illustrating a swallow light presentation cabinet control apparatus according to an exemplary embodiment. As shown in fig. 14, the device is applied to a light swallowing demonstration cabinet, and the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and gesture induction system, the device can include: a shutdown control unit 1410, and a policy control unit 1420, wherein,

and the turning-off and turning-on control unit 1410 is used for turning off the turned-on smoke generator and controlling the light source and the air purification equipment to be in an on state when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the preset gesture and the current concentration value of the fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is greater than a first set threshold value.

And the strategy control unit 1420 is used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

In an embodiment of the present invention, the turn-on/off control unit 1410 is specifically configured to, when it is determined by the gesture sensing device that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet matches the preset gesture, turn on the smoke generator; and when the concentration value of the current fine particulate matters is greater than a first set threshold value, turning on a light source, turning off the started smoke generator and starting the air purification equipment.

In an embodiment of the present invention, the turning-off control unit 1410 is specifically configured to, when it is determined by the gesture sensing device that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet matches the first preset gesture, turn on the smoke generator; when the concentration value of the current fine particulate matters is larger than a first set threshold value, starting a light source; when the gesture sensing device determines that the gesture of the current user in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with the second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

In an embodiment of the present invention, the method further includes: and the prompting unit is used for prompting the completion of air purification when the concentration value of the current fine particulate matters is smaller than a third set threshold value, wherein the first set threshold value is larger than the third set threshold value.

Therefore, in the embodiment, when the concentration value of the current fine particulate matters in the light swallowing demonstration cabinet is greater than the set threshold value, the light swallowing demonstration cabinet control device can close the smoke generator in the cabinet body and turn on the light source and the air purification equipment in the cabinet body, along with the operation of the air purification equipment, the quality of air in the cabinet body becomes good, fine particles are reduced, the light speed emitted by the light source disappears, and therefore light swallowing demonstration is achieved, the air purification capacity of the air purification equipment is visually demonstrated, and user experience is improved. In addition, the light swallowing demonstration can be triggered according to the gesture of the user, so that resources can be saved, the participation sense of the user can be increased, and the intelligence and experience of the light swallowing demonstration cabinet are further improved.

Of course, in another embodiment of the present invention, the light swallowing demonstration cabinet includes: smoke generator, light source and air purification equipment swallow light demonstration cabinet controlling means can include: a shutdown control unit and a policy control unit, wherein,

and the turning-off and starting unit is also used for turning off the started smoke generator and controlling the light source and the air purification equipment to be in an on state when the concentration value of the current fine particulate matters in the cabinet body swallowing the light demonstration cabinet is greater than a first set threshold value.

And the strategy control unit is also used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

Preferably, the strategy control unit is further specifically configured to control at least one purifying device in the air purifying apparatus to operate at a maximum set gear parameter value; or, controlling each purifying device in the air purifying equipment to operate at a first set gear parameter value, wherein the first set gear parameter value is smaller than the maximum set gear parameter value; or when the current concentration value of the fine particulate matters is greater than a second set threshold value, controlling at least one purifying device in the air purifying equipment to operate at the maximum set gear parameter value, and when the current concentration value of the fine particulate matters is less than or equal to the second set threshold value, controlling each purifying device in the air purifying equipment to operate at the first set gear parameter value, wherein the second set threshold value is less than the first set threshold value.

Preferably, the method further comprises the following steps:

and the prompting unit is also used for prompting air purification and/or prompting air quality when the concentration value of the current fine particulate matters is smaller than a third set threshold value.

Preferably, the method further comprises the following steps:

and the starting unit is used for starting the smoke generator when the concentration value of the current fine particulate matters is smaller than a third set threshold value.

In another embodiment of the present invention, the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and human induction system, swallow light demonstration cabinet controlling means can include: a shutdown control unit and a policy control unit, wherein,

and the turning-off and turning-on control unit is also used for turning off the started smoke generator and controlling the light source and the air purification equipment to be in an on state when the human body sensing device determines that a human body exists in the peripheral set area of the light swallowing demonstration cabinet and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is greater than a first set threshold value.

And the strategy control unit is also used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

Preferably, the turning-off control unit is further specifically configured to turn on the light source when the current concentration value of the fine particulate matter is greater than a first set threshold; when the human body sensing device determines that a human body exists in a set area around the light swallowing demonstration cabinet, the started smoke generator is closed, and the air purification equipment is started.

Preferably, the method further comprises the following steps: and the starting unit is also used for starting the smoke generator when the concentration value of the current fine particulate matters is smaller than a third set threshold value, wherein the first set threshold value is larger than the third set threshold value.

Preferably, the turning-off and turning-on control unit is further specifically used for turning on the light source and starting the smoke generator when the human body sensing device determines that a human body exists in a peripheral setting area of the light swallowing demonstration cabinet; and when the current concentration value of the fine particulate matters is greater than a first set threshold value, the started smoke generator is closed, and the air purification equipment is started.

In another embodiment of the present invention, the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and human induction system, swallow light demonstration cabinet controlling means can include: a shutdown control unit and a policy control unit, wherein,

and the turning-off and turning-on control unit is also used for turning off the turned-on smoke generator and controlling the light source and the air purification equipment to be in an on state when the concentration value of the current fine particulate matters in the cabinet body swallowing the light demonstration cabinet is larger than a first set threshold value, wherein the light source is positioned at a first projection point on a moving guide rail in the cabinet body, and the first projection point is determined after the information of a first position area, which is positioned at the periphery of the swallowing the light demonstration cabinet, of the current human body is determined through the human body sensing device.

And the strategy control unit is also used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

Preferably, the method further comprises the following steps: the first light source control unit is used for determining a first detected human body as a current human body when one or more human bodies are detected to be positioned around the light swallowing demonstration cabinet through the human body sensing device; acquiring first position area information of a current human body; determining a first projection point corresponding to the first position area information according to the corresponding relation between the stored position area information and the projection point on the moving guide rail in the cabinet body; and controlling the light source to move to the first projection point along the moving guide rail, and controlling the projection angle of the light source according to the first projection angle configured at the first projection point.

Preferably, the method further comprises the following steps: the second light source control unit is used for determining each detected human body as the current human body when the human body sensing device detects that at least two human bodies are positioned around the light swallowing demonstration cabinet; acquiring first position area information of each current human body; determining each first projection point corresponding to each first position area information according to the corresponding relation between the stored position area information and the projection points on the moving guide rail in the cabinet body; the light source is controlled to move between each first projection point along the moving guide rail in a set sequence and at a set speed, and the projection angle of the light source is controlled according to the first projection angle configured at each first projection point.

Preferably, the method further comprises the following steps: the third light source control unit is used for receiving a light source control instruction carrying the first projection point information; and controlling the light source to move to the first projection point along the moving guide rail according to the light source control instruction, and controlling the projection angle of the light source according to the first projection angle configured at the first projection point.

In another embodiment of the present invention, the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and speech recognition device, swallow light demonstration cabinet controlling means can include: a shutdown control unit and a policy control unit, wherein,

and the turning-off and turning-on control unit is also used for turning off the started smoke generator and controlling the light source and the air purification equipment to be in an on state when the voice starting instruction of starting demonstration sent by the user is determined and received through the voice recognition device and the current concentration value of the fine particles in the cabinet body of the light swallowing demonstration cabinet is greater than a first set threshold value.

And the strategy control unit is also used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

Preferably, the turn-off control unit is further specifically configured to start the smoke generator when it is determined by the voice recognition device that a voice start instruction for starting the presentation is received, where the voice start instruction is sent by the user; and when the concentration value of the current fine particulate matters is greater than a first set threshold value, turning on a light source, turning off the started smoke generator and starting the air purification equipment.

Preferably, the turn-off control unit is further specifically configured to start the smoke generator when it is determined by the voice recognition device that the first voice start instruction sent by the user is received; when the concentration value of the current fine particulate matters is larger than a first set threshold value, starting a light source; and when the voice recognition device determines that a second voice starting instruction sent by the user is received, the started smoke generator is closed, and the air purification equipment is started.

Preferably, the method further comprises the following steps: and the prompting unit is also used for prompting the completion of air purification when the concentration value of the current fine particulate matters is smaller than a third set threshold value, wherein the first set threshold value is larger than the third set threshold value.

In an embodiment of the present invention, a light swallowing demonstration cabinet control device is provided, which is used for swallowing a light swallowing demonstration cabinet, and a cabinet body of the light swallowing demonstration cabinet includes: fog generator, light source, air purification equipment and gesture induction system, the device includes:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state;

and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

Embodiments of the present invention provide a computer-readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the steps of the above-described method.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It is to be understood that the present invention is not limited to the procedures and structures described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (10)

1. A method for controlling a light swallowing demonstration cabinet is characterized in that the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and gesture induction system, the method includes:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state;

and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

2. The method of claim 1, wherein said turning off the activated smoke generator and controlling the light source and the air purification device in an on state comprises:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture, the smoke generator is started;

and when the current concentration value of the fine particulate matters is greater than the first set threshold value, turning on the light source, turning off the started smoke generator and starting the air purification equipment.

3. The method of claim 1, wherein said turning off the activated smoke generator and controlling the light source and the air purification device in an on state comprises:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a first preset gesture, the smoke generator is started;

when the current concentration value of the fine particulate matters is larger than the first set threshold value, the light source is started;

and when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

4. The method of claim 2 or 3, wherein the method further comprises:

and when the concentration value of the current fine particulate matters is smaller than a third set threshold value, prompting the completion of air purification, wherein the first set threshold value is larger than the third set threshold value.

5. The device for controlling the light swallowing demonstration cabinet is characterized in that the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and gesture induction system, the device includes:

the turn-on control unit is used for turning off the started smoke generator and controlling the light source and the air purification equipment to be in an on state when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the concentration value of the current fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value;

and the strategy control unit is used for controlling the air purification equipment to operate according to a set control strategy so as to perform light swallowing demonstration.

6. The apparatus of claim 5,

the closing and opening control unit is specifically used for starting the smoke generator when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture; and when the current concentration value of the fine particulate matters is greater than the first set threshold value, turning on the light source, turning off the started smoke generator and starting the air purification equipment.

7. The apparatus of claim 5, wherein the apparatus is a portable electronic device

The closing and opening control unit is specifically used for starting the smoke generator when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a first preset gesture; when the current concentration value of the fine particulate matters is larger than the first set threshold value, the light source is started; and when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a second preset gesture, the started smoke generator is closed, and the air purification equipment is started.

8. The apparatus of claim 6 or 7, further comprising:

and the prompting unit is used for prompting the completion of air purification when the concentration value of the current fine particulate matters is smaller than a third set threshold value, wherein the first set threshold value is larger than the third set threshold value.

9. A light swallowing demonstration cabinet control device is used for swallowing a light swallowing demonstration cabinet, and is characterized in that the light swallowing demonstration cabinet comprises: smoke generator, light source, air purification equipment and gesture induction system, the device includes:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to:

when the gesture sensing device determines that the current user gesture in the gesture sensing area corresponding to the light swallowing demonstration cabinet is matched with a preset gesture and the current concentration value of fine particulate matters in the cabinet body of the light swallowing demonstration cabinet is larger than a first set threshold value, the started smoke generator is turned off, and the light source and the air purification equipment are controlled to be in an opening state;

and controlling the air purification equipment to operate according to a set control strategy, and performing light swallowing demonstration.

10. A computer-readable storage medium having stored thereon computer instructions, which, when executed by a processor, perform the steps of the method of claims 1-4.

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