CN108097495B

CN108097495B - extension type atomizing governing system

Info

Publication number: CN108097495B
Application number: CN201711391862.1A
Authority: CN
Inventors: 孙静; 王晓东
Original assignee: Shengzhou Yiyuan Investment Management Co Ltd
Current assignee: Shenzhen yunkodak Technology Co.,Ltd.
Priority date: 2017-09-20
Filing date: 2017-09-20
Publication date: 2019-12-10
Anticipated expiration: 2037-09-20
Also published as: CN107497621B; CN107497621A; CN108097495A

Abstract

the invention relates to an extended atomization adjustment system, comprising: an annular cartridge for containing a liquid container; the liquid container is used for placing liquid to be atomized; the chassis equipment is arranged below the annular cylinder, is internally provided with an atomizing motor and an atomizer and is used for atomizing liquid to be atomized in the liquid container; the volume measuring instrument is arranged in the liquid container and is used for measuring the volume of liquid to be atomized in the liquid container in real time; and the LED display screen is arranged on the side surface of the chassis equipment, is connected with the volume measuring instrument and is used for receiving and displaying the volume of the liquid to be atomized in the liquid container in real time. By the method and the device, the control precision of the atomization force of the atomizer can be improved.

Description

Extension type atomizing governing system

the invention is a divisional application of a patent with the application number of 2017108513447, the application date of 2017, 9 and 20, and the invention name of an extended atomization regulating system and method.

Technical Field

the invention relates to the field of atomization adjustment, in particular to an extended atomization adjustment system.

Background

among the atomizing apparatuses, an ultrasonic atomizing apparatus, a pure type atomizing apparatus, and an electric heating type atomizing apparatus are common types of atomizing apparatuses.

1. Ultrasonic atomization equipment is widely applied to various fields, ultrasonic high-frequency oscillation is carried out on the ultrasonic atomization equipment 200 ten thousand times per second, water is atomized into 1-5 micron ultramicro particles and negative oxygen ions, so that uniform humidification is realized, air is refreshed, health is improved, dryness heat of winter heating is removed, and a comfortable living environment is created.

2. pure atomization apparatuses, direct evaporation atomization apparatuses are also generally referred to as pure atomization apparatuses. The pure type humidification technology is a new technology which is just adopted in the humidification field, removes calcium and magnesium ions in water by a molecular sieve evaporation technology, and thoroughly solves the problem of white powder. Through water curtain washing air, can also carry out filtration purification to germ, dust, particulate matter in the air when the humidification, send moist clean air to indoorly through pneumatics device again to improve environment humidity and cleanliness factor. Therefore, the mosquito-repellent incense is very suitable for families with old people and children, and can also prevent winter flu germs; 3. an electric heating type atomizing apparatus, a thermal evaporation type atomizing apparatus, also called an electric heating type atomizing apparatus, has an operation principle of heating water to 100 ℃ in a heating body to generate steam, and sending out the steam by a motor. The electrically heated atomizer is the simplest technical humidification method.

At present, the current atomizing equipment can't confirm corresponding atomizing power according to the real-time skin wetness degree of personnel of surrounding environment, leads to atomizing equipment can't reach the equilibrium between equipment consumption and atomizing efficiency.

disclosure of Invention

In order to solve the above problems, the present invention provides an extended atomization adjustment system.

The invention has at least the following two important points:

(1) the method comprises the following steps of finely selecting a self-adaptive filtering algorithm, and processing a plurality of photographic parts in the same scene by the same filtering algorithm to ensure the effects of subsequent image combination and image processing;

(2) the target gray threshold range is updated in real time by the historical multiple images to be processed, so that the separation effect of the target subimages from the images to be processed is guaranteed, and the accuracy of subsequent target type identification is guaranteed.

According to an aspect of the present invention, there is provided an extended fogging modulation system, the system comprising:

an annular cartridge for containing a liquid container;

the liquid container is used for placing liquid to be atomized;

The chassis equipment is arranged below the annular cylinder, is internally provided with an atomizing motor and an atomizer and is used for atomizing liquid to be atomized in the liquid container;

The volume measuring instrument is arranged in the liquid container and is used for measuring the volume of liquid to be atomized in the liquid container in real time;

the LED display screen is arranged on the side surface of the chassis equipment, is connected with the volume measuring instrument and is used for receiving and displaying the volume of the liquid to be atomized in the liquid container in real time;

Support framework, including main connecting piece and metal bearing structure, first connecting fastener, second connecting fastener and third connecting fastener all are buckled on main connecting piece and make first long section of thick bamboo framework and the long section of thick bamboo framework horizontal connection of third to and make first long section of thick bamboo framework and the long section of thick bamboo framework of second be 90 degrees connections, the long section of thick bamboo framework of third and the long section of thick bamboo framework of second be 90 degrees connections.

Drawings

embodiments of the invention will now be described with reference to the accompanying drawings, in which:

Fig. 1 is a schematic perspective view of an extended atomization adjustment system according to an embodiment of the present invention.

fig. 2 is a schematic plan view showing an extended atomizing regulation system according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram illustrating a support structure of the extended atomizing conditioning system according to the embodiment of the present invention.

Detailed Description

an embodiment of the extended atomization adjustment method of the present invention will be described in detail below with reference to the accompanying drawings.

In order to overcome the defects, the invention builds an extended atomization regulating system which can balance the power consumption of equipment and the atomization efficiency.

Fig. 1 is a schematic perspective view illustrating an extended atomizing conditioning system according to an embodiment of the present invention, and fig. 2 is a schematic plan view illustrating an extended atomizing conditioning system according to an embodiment of the present invention, as shown in the drawings, the system including:

An annular cartridge for containing a liquid container;

The liquid container is used for placing liquid to be atomized;

And the LED display screen is arranged on the side surface of the chassis equipment, is connected with the volume measuring instrument and is used for receiving and displaying the volume of the liquid to be atomized in the liquid container in real time.

next, a further description will be given of a specific structure of the extended atomizing regulation system of the present invention.

the expanded atomization regulating system can further comprise:

as shown in fig. 3, the supporting structure includes a main connecting member and a metal supporting structure, the first connecting fastener, the second connecting fastener and the third connecting fastener are fastened to the main connecting member, and the first long cylinder structure and the third long cylinder structure are horizontally connected, and the first long cylinder structure and the second long cylinder structure are connected at 90 degrees, and the third long cylinder structure and the second long cylinder structure are connected at 90 degrees;

the first long barrel structure comprises a plastic shell, an annular container, a first photographing part and a first connecting fastener, wherein the annular container, the first photographing part and the first connecting fastener are all located inside the plastic shell, the first photographing part is arranged at the outward end of the plastic shell, the first connecting fastener is arranged at the inward end of the plastic shell, and the first photographing part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a first high-definition image;

The second long barrel framework comprises a plastic shell, an annular container, a second photographing part and a second connecting fastener, wherein the annular container, the second photographing part and the second connecting fastener are all located inside the plastic shell, the second photographing part is arranged at the outward end of the plastic shell, the second connecting fastener is arranged at the inward end of the plastic shell, and the second photographing part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a second high-definition image;

The third long tube framework comprises a plastic shell, an annular container, a third photographic part and a third connecting fastener, wherein the annular container, the third photographic part and the third connecting fastener are all located inside the plastic shell, the third photographic part is arranged at the outward end of the plastic shell, the third connecting fastener is arranged at the inward end of the plastic shell, and the third photographic part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a third high-definition image;

the noise type determining device is respectively connected with the first photographing component, the second photographing component and the third photographing component and used for respectively receiving the first high-definition image, the second high-definition image and the third high-definition image, determining the image with the highest complexity in the first high-definition image, the second high-definition image and the third high-definition image as a filtering reference image, and outputting the type corresponding to the noise with the largest amplitude in the filtering reference image as a reference noise type;

The filtering processing device is connected with the noise type determining device and is used for respectively executing corresponding processing of a filtering algorithm corresponding to the reference noise type on the first high-definition image, the second high-definition image and the third high-definition image so as to respectively obtain a first filtering image, a second filtering image and a third filtering image;

the depth-of-field analysis equipment is arranged in the metal supporting structure, is connected with the filtering processing equipment, and is used for obtaining a first filtering image, a second filtering image and a third filtering image and respectively detecting the depth of field of a moving object in the first filtering image, the second filtering image and the third filtering image so as to obtain a plurality of depth of field;

and the image comparison equipment is arranged in the metal supporting structure, is connected with the depth-of-field analysis equipment, and is used for receiving a plurality of depths of field and taking the image corresponding to the depth of field which is most matched with the preset depth-of-field range as the image to be processed.

the expanded atomization regulating system can further comprise:

a threshold updating device for receiving each image to be processed in time sequence, updating a previously determined skin gray threshold range with the newly received image to be processed each time the image to be processed is received, wherein an initial range of the skin gray threshold range is stored in advance in a built-in memory of the threshold updating device;

the content analysis equipment is used for receiving the latest image to be processed and analyzing the complexity of the latest image to be processed so as to select a corresponding filtering algorithm based on the complexity of the latest image to be processed;

The filtering processing equipment is connected with the content analysis equipment and used for receiving the latest image to be processed and the selected filtering algorithm and executing the selected filtering algorithm on the latest image to be processed to obtain a corresponding filtering image;

The target measuring device is connected with the threshold updating device and is used for determining whether the pixel value of each pixel of the latest image to be processed falls within the updated skin gray threshold range or not, if so, determining the pixel as a skin pixel, and if not, determining the pixel as a non-skin pixel and forming all skin pixels of the latest image to be processed into a skin sub-image;

And the atomization adjusting equipment is respectively connected with the atomization motor and the target measuring equipment and used for receiving the skin sub-image, determining corresponding atomization power based on the skin wetting degree corresponding to the skin sub-image, and sending the corresponding atomization power to the atomization motor so as to control the atomization force of the atomizer.

in the extended fogging adjustment system: the noise type determination device and the filter processing device are both arranged inside the main connection of the support structure.

in the extended fogging adjustment system: the noise type determination device establishes wireless connections with the first photographing part, the second photographing part, and the third photographing part, respectively, through a WIFI network.

In the extended fogging adjustment system: the determining, by the atomization adjustment device, the respective atomization power based on the skin moisturization degrees corresponding to the sub-images of the skin comprises: the higher the skin sub-image corresponds to the higher the skin moisturization, the lower the corresponding determined atomization power.

The following is a flow chart illustrating the steps of an extended fogging adjustment method according to an embodiment of the present invention, the method including:

Using an annular cartridge for containing a liquid container;

Using a liquid container for placing a liquid to be atomized;

Using chassis equipment, arranging the chassis equipment below the annular cylinder, and arranging an atomizing motor and an atomizer in the chassis equipment for atomizing the liquid to be atomized in the liquid container;

the volume measuring instrument is arranged in the liquid container and is used for measuring the volume of the liquid to be atomized in the liquid container in real time;

the LED display screen is arranged on the side face of the chassis equipment, connected with the volume measuring instrument and used for receiving and displaying the volume of liquid to be atomized in the liquid container in real time.

Next, the specific steps of the extended atomization adjustment method of the present invention will be further described.

The extended fogging adjustment method may further include:

The using support framework comprises a main connecting piece and a metal support structure, wherein the first connecting fastener, the second connecting fastener and the third connecting fastener are fastened on the main connecting piece, the first long cylinder framework and the third long cylinder framework are horizontally connected, the first long cylinder framework and the second long cylinder framework are connected at 90 degrees, and the third long cylinder framework and the second long cylinder framework are connected at 90 degrees;

the method comprises the following steps that a first long barrel framework is used and comprises a plastic shell, an annular container, a first photographing part and a first connecting fastener, wherein the annular container, the first photographing part and the first connecting fastener are all located inside the plastic shell, the first photographing part is arranged at the outward end of the plastic shell, the first connecting fastener is arranged at the inward end of the plastic shell, and the first photographing part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a first high-definition image;

a second long cylinder framework is used and comprises a plastic shell, an annular container, a second photographing part and a second connecting fastener, wherein the annular container, the second photographing part and the second connecting fastener are all located inside the plastic shell, the second photographing part is arranged at the outward end of the plastic shell, the second connecting fastener is arranged at the inward end of the plastic shell, and the second photographing part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a second high-definition image;

a third long cylinder framework is used and comprises a plastic shell, an annular container, a third photographic part and a third connecting fastener, wherein the annular container, the third photographic part and the third connecting fastener are all located inside the plastic shell, the third photographic part is arranged at the outward end of the plastic shell, the third connecting fastener is arranged at the inward end of the plastic shell, and the third photographic part is embedded inside the annular container and used for conducting high-definition image acquisition on the nearby environment outward to obtain a third high-definition image;

the noise type determination device is connected with the first photographing component, the second photographing component and the third photographing component respectively and used for receiving the first high-definition image, the second high-definition image and the third high-definition image respectively, determining an image with the highest complexity in the first high-definition image, the second high-definition image and the third high-definition image as a filtering reference image, and outputting a type corresponding to the noise with the largest amplitude in the filtering reference image as a reference noise type;

Using a filtering processing device connected with the noise type determining device for respectively performing corresponding processing of a filtering algorithm corresponding to the reference noise type on the first high-definition image, the second high-definition image and the third high-definition image to respectively obtain a first filtering image, a second filtering image and a third filtering image;

The method comprises the steps that a depth of field analysis device is used, is arranged in a metal supporting structure and is connected with a filtering processing device and is used for obtaining a first filtering image, a second filtering image and a third filtering image and respectively detecting the depth of field of a moving object in the first filtering image, the second filtering image and the third filtering image so as to obtain a plurality of depth of field;

and the image comparison equipment is arranged in the metal supporting structure, is connected with the depth-of-field analysis equipment, and is used for receiving a plurality of depth of fields and taking the image corresponding to the depth of field which is most matched with the preset depth-of-field range as the image to be processed.

the extended fogging adjustment method may further include:

Using a threshold updating device for receiving each image to be processed in time sequence, updating a previously determined skin gray level threshold range with the newly received image to be processed each time the image to be processed is received, wherein an initial range of the skin gray level threshold range is stored in advance in a built-in memory of the threshold updating device;

using a content analysis device for receiving the latest image to be processed and analyzing the complexity of the latest image to be processed to select a corresponding filtering algorithm based on the complexity of the latest image to be processed;

Using a filtering processing device connected with the content analysis device for receiving the latest image to be processed and receiving the selected filtering algorithm, and executing the selected filtering algorithm on the latest image to be processed to obtain a corresponding filtering image;

using a target measuring device connected with the threshold updating device and used for determining whether the pixel value of each pixel of the latest image to be processed falls within the updated skin gray threshold range or not, if so, determining the pixel as a skin pixel, and if not, determining the pixel as a non-skin pixel, and forming all skin pixels of the latest image to be processed into a skin sub-image;

In the extended atomization adjustment method: the noise type determination device and the filter processing device are both arranged inside the main connection of the support structure.

in the extended atomization adjustment method: the noise type determination device establishes wireless connections with the first photographing part, the second photographing part, and the third photographing part, respectively, through a WIFI network.

in the extended atomization adjustment method: the determining, by the atomization adjustment device, the respective atomization power based on the skin moisturization degrees corresponding to the sub-images of the skin comprises: the higher the skin sub-image corresponds to the higher the skin moisturization, the lower the corresponding determined atomization power.

In addition, image filtering, namely, suppressing the noise of the target image under the condition of keeping the detail features of the image as much as possible, is an indispensable operation in image preprocessing, and the effectiveness and reliability of subsequent image processing and analysis are directly affected by the quality of the processing effect.

due to the imperfections of the imaging system, the transmission medium, and the recording device, the digital images are often contaminated by various noises during the formation, transmission, and recording processes thereof. In addition, noise may also be introduced into the resulting image at some point in the image processing when the input image object is not as expected. These noises often appear as an isolated pixel or block of pixels on the image that causes a strong visual effect. In general, the noise signal is not correlated with the object to be studied-it appears in the form of useless information, disturbing the observable information of the image. For digital image signals, the noise table is more or less extreme values, and the extreme values act on the real gray values of image pixels through addition and subtraction to cause bright and dark point interference on the image, so that the image quality is greatly reduced, and the follow-up work of image restoration, segmentation, feature extraction, image identification and the like is influenced. Two basic issues must be considered to construct an effective noise suppression filter: the noise in the target and the background can be effectively removed; meanwhile, the shape, the size and the specific geometric and topological structure characteristics of the image target can be well protected.

One of the commonly used image filtering modes is a non-linear filter, generally speaking, when the signal spectrum and the noise spectrum are mixed or when the signal contains non-superimposed noise, such as noise caused by system nonlinearity or the presence of non-gaussian noise, etc.), the conventional linear filtering techniques, such as fourier transform, while filtering out noise, always blur the image details (such as edges, etc.) in some way, thereby causing the positioning accuracy of the image linear features and the extractability of the features to be reduced. The nonlinear filter is based on a nonlinear mapping relation of an input signal, a specific noise can be mapped to be zero approximately, the main characteristic of the signal is reserved, and therefore the nonlinear filter can overcome the defects of the linear filter to a certain extent.

by adopting the extended atomization regulating system and the method of the invention, aiming at the technical problem that the atomization device in the prior art is difficult to regulate the atomization power based on the real-time state of the human body, the target measuring device is introduced, for determining whether the pixel value of each pixel of the latest image to be processed from the surroundings falls within the updated skin grey threshold range, if it falls within the updated skin gray threshold, the pixel is determined to be a skin pixel, if it falls outside the updated skin grey threshold range, the pixel is determined to be a non-skin pixel, all skin pixels of the latest image to be processed are made up into a skin sub-image, a fog adjustment device is also introduced, the atomization device is used for receiving the skin sub-images, determining corresponding atomization power based on the skin wetting degree corresponding to the skin sub-images, and sending the corresponding atomization power to the atomization motor to control the atomization force of the atomizer.

it is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims

1. an extended fogging modulation system, the system comprising:

an annular cartridge for containing a liquid container;

The liquid container is used for placing liquid to be atomized;

the supporting framework comprises a main connecting piece and a metal supporting structure, the first connecting fastener, the second connecting fastener and the third connecting fastener are fastened on the main connecting piece, the first long cylinder framework and the third long cylinder framework are horizontally connected, the first long cylinder framework and the second long cylinder framework are connected in a 90-degree mode, and the third long cylinder framework and the second long cylinder framework are connected in a 90-degree mode;

2. the extended fogging modulation system of claim 1, further comprising:

3. the extended fogging modulation system of claim 2, wherein:

The noise type determination device and the filter processing device are both arranged inside the main connection of the support structure.

4. the extended fogging modulation system of claim 3, wherein:

the noise type determination device establishes wireless connections with the first photographing part, the second photographing part, and the third photographing part, respectively, through a WIFI network.