CN109373405B - Lighting lamp driving system - Google Patents

Abstract

The present invention relates to an illumination lamp driving system, comprising: the T-shaped smoking machine structure comprises a T-shaped shell, a lighting lamp, an operation panel, an impeller, a brushless motor, an oil collecting ring and a cover cap, wherein a first tact switch, a second tact switch and a third tact switch are arranged on the operation panel; the first light touch switch is electrically connected with the illuminating lamp and used for controlling the opening or closing of the illuminating lamp under the touch of a user; the second light touch switch is connected with the brushless motor and used for controlling the brushless motor to be turned on or off under the touch of a user; the third tact switch is connected with the brushless motor and used for controlling the rotation gear of the brushless motor under the touch of a user; and the illumination driving equipment is connected with the illumination lamp and used for turning on the illumination lamp when the cooking illumination attribute corresponding to the received personnel name is yes, or turning off the illumination lamp. By the invention, the automatic operation of turning on the cooking illumination is realized.

Description

Lighting lamp driving system

Technical Field

The invention relates to the field of T-shaped smoking machines, in particular to a driving system of an illuminating lamp.

Background

The unique design of the oil screen of the T-shaped smoking machine enables the smoke collecting cavity to be enlarged, and can better collect oil smoke without leaking smoke. The oil screen of the common European-style range hood is designed into an outward convex type and is in an inverted trapezoid shape, and the oil smoke forms diffusion when colliding with the screen plate and the oil cup in the rising process of the oil smoke, so that the oil smoke is easy to leak. The air duct system of the dome type range hood is high in air pressure level, large air pressure guarantees smooth smoke discharge in a public flue, a third-generation double-wing turbocharging system is adopted, and the third-generation double-wing turbocharging system is composed of a broadband self-adaptive motor, an intelligent sensing system and a supersonic speed flight impeller. The super-strong air suction volume can reach 20m³And the air pressure can reach over 400Pa, the oil smoke can be pushed out after the oil smoke is quickly absorbed, the oil smoke in the public flue is effectively prevented from flowing backwards, and the smoke is discharged more thoroughly.

Disclosure of Invention

The invention provides an illuminating lamp driving system, which aims to solve the technical problem that the current T-shaped smoking machine cannot automatically illuminate according to the cooking illumination habit of a user.

The invention has at least the following two important points:

(1) adopting a personnel analysis device which is respectively connected with the illumination driving device and the data adjustment device and is used for combining a plurality of data adjustment areas to obtain a combined image, and executing personnel identity analysis operation based on personnel body shape characteristics on the combined image to obtain a corresponding personnel name;

(2) in a specific image processing, the variation of the cyan component, the magenta component, the yellow component and the black component of the pixel point is respectively searched out to output each region with the most prominent variation of each component.

According to an aspect of the present invention, there is provided a lighting lamp driving system, the system including:

the T-shaped smoking machine structure comprises a T-shaped shell, a lighting lamp, an operation panel, an impeller, a brushless motor, an oil collecting ring and a cover cap, wherein a first light touch switch, a second light touch switch and a third light touch switch are arranged on the operation panel; the first light touch switch is electrically connected with the illuminating lamp and used for controlling the opening or closing of the illuminating lamp under the touch of a user.

More specifically, in the illumination lamp driving system: the second light touch switch is connected with the brushless motor and used for controlling the brushless motor to be turned on or turned off under the touch of a user.

More specifically, in the illumination lamp driving system: the third tact switch is connected with the brushless motor and used for controlling the rotation gear of the brushless motor under the touch of a user.

More specifically, in the illumination lamp driving system, further comprising:

the lighting driving device is connected with the lighting lamp and used for turning on the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is yes, or turning off the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is not yes; the annular acquisition structure is arranged on the T-shaped shell and comprises a plurality of image acquisition units, the image acquisition units are arranged in an annular shape, the distance between each two image acquisition units is the same, so that image acquisition operation is carried out on each visual field to obtain a plurality of acquired visual field images; the component extraction device is connected with the annular acquisition structure and used for receiving the plurality of acquisition view images, and executing the following operation aiming at each of the plurality of acquisition view images to extract cyan components, magenta components, yellow components and black components of each pixel point in the view images; the distribution statistical device is connected with the component extraction device and used for executing the following operations for each of the plurality of collected visual field images, determining an image region with the most changed cyan component values as a cyan salient region based on each cyan component of each pixel point in the visual field images, determining an image region with the most changed magenta component values as a magenta salient region based on each magenta component of each pixel point in the visual field images, determining an image region with the most changed yellow component values as a yellow salient region based on each yellow component of each pixel point in the visual field images, and determining an image region with the most changed black component values as a black salient region based on each black component of each pixel point in the visual field images; a region induction device connected to the distribution statistics device, for performing, for each of the plurality of captured visual field images, an operation of outputting the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region together as a plurality of protrusion regions; the content analysis equipment is connected with the region induction equipment and is used for receiving a plurality of salient regions corresponding to each of the plurality of collected visual field images and outputting the same salient regions in the plurality of collected visual field images as signal matching regions; the data enhancement equipment is connected with the content analysis equipment and used for receiving each signal matching area and respectively executing image enhancement processing on each signal matching area to obtain each data enhancement area; in the content analysis device, the same salient regions are same-shaped salient regions that appear in the plurality of captured field-of-view images, respectively; the first capturing device is connected with the data enhancement device and used for receiving each data enhancement area and acquiring a brightness component of each data enhancement area and a non-brightness component of each data enhancement area; the second capturing device is used for receiving each data enhancement area, obtaining the brightness average value of each data enhancement area, obtaining an image brightness predicted value based on the current moment, and correcting the image brightness predicted value through the brightness average value of each data enhancement area to obtain a reference brightness value of each data enhancement area; a data adjusting device, connected to the first capturing device and the second capturing device, respectively, for correcting the luminance component of each data enhancement region based on the reference luminance value of each data enhancement region to obtain a corrected luminance component, and superimposing the corrected luminance component of each data enhancement region and the non-luminance component of each data enhancement region to obtain a data adjustment region corresponding to each data enhancement region, the data adjusting device outputting a plurality of data adjustment regions; the personnel analysis equipment is respectively connected with the illumination driving equipment and the data adjustment equipment and is used for combining the plurality of data adjustment areas to obtain a combined image, and personnel identity analysis operation based on personnel body shape characteristics is performed on the combined image to obtain a corresponding personnel name; wherein the distribution statistics device comprises a cyan component statistics sub-device, a magenta component statistics sub-device, a yellow component statistics sub-device, and a black component statistics sub-device; wherein, in the region summarization device, when there is an overlapping region of the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region, a plurality of regions in which the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region are subjected to region de-duplication are output as a plurality of protrusion regions.

More specifically, in the illumination lamp driving system, further comprising:

and the parallel communication interface is connected with the component extraction equipment and used for receiving and transmitting the plurality of collected visual field images.

More specifically, in the illumination lamp driving system: the first capturing device, the second capturing device and the data adjusting device are respectively realized by adopting programmable logic devices with different models.

More specifically, in the illumination lamp driving system: the first capture device, the second capture device and the data adjustment device are all designed in VHDL language, and the first capture device, the second capture device and the data adjustment device are respectively integrated on the same printed circuit board.

More specifically, in the illumination lamp driving system, further comprising:

and the MMC memory card is connected with the data adjusting equipment and used for receiving the data adjusting image and temporarily storing the data adjusting image.

Detailed Description

Embodiments of the illumination lamp driving system of the present invention will be described in detail below.

The gases exiting the T-smoking machine should not be vented into the hot flue used to exhaust fumes of burning coal gas or other fuels to prevent a fire. When the range is used when gas or other fuel is consumed, the room must be well ventilated.

The T-shaped smoking machine is prohibited to be directly baked by fire. A reliably grounded power outlet must be used. If the power cord is damaged, it must be replaced with a dedicated cord or a dedicated module purchased from its manufacturer or service department. When cleaning, the user wears rubber gloves to prevent the metal parts from hurting people, and the detached parts need to be lightly held to avoid deformation.

When the T-shaped smoke exhaust ventilator is installed, excessive doors and windows are avoided at the periphery, and because air convection is too large when the doors and windows are excessive, oil smoke is diffused a lot when rising to an effective suction range of 250mm, and the effect of oil smoke suction and exhaust is influenced. The T-shaped smoke suction machine is arranged right above the generated oil smoke waste gas, and the height of the T-shaped smoke suction machine is preferably 650-700 mm. The installation requirement of the smoke exhaust pipe is as follows: the distance from the exhaust outlet to the machine body is not longer, the turning radius is as large as possible, and the turning is less, otherwise the smoke exhaust pipe affecting the smoke exhaust effect extends out of the outdoor or is communicated into a common cold air suction flue, the interface is tight, and the waste gas is not required to be exhausted into a hot flue.

In order to overcome the defects, the invention builds the lighting lamp driving system and can effectively solve the corresponding technical problems.

A lighting lamp driving system shown according to an embodiment of the present invention includes:

the T-shaped smoking machine structure comprises a T-shaped shell, a lighting lamp, an operation panel, an impeller, a brushless motor, an oil collecting ring and a cover cap, wherein a first light touch switch, a second light touch switch and a third light touch switch are arranged on the operation panel;

the first light touch switch is electrically connected with the illuminating lamp and used for controlling the opening or closing of the illuminating lamp under the touch of a user.

Next, a detailed description of the illumination lamp driving system according to the present invention will be further described.

In the illumination lamp driving system: the second light touch switch is connected with the brushless motor and used for controlling the brushless motor to be turned on or turned off under the touch of a user.

In the illumination lamp driving system: the third tact switch is connected with the brushless motor and used for controlling the rotation gear of the brushless motor under the touch of a user.

In the illumination lamp driving system, further comprising:

the lighting driving device is connected with the lighting lamp and used for turning on the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is yes, or turning off the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is not yes;

the annular acquisition structure is arranged on the T-shaped shell and comprises a plurality of image acquisition units, the image acquisition units are arranged in an annular shape, the distance between each two image acquisition units is the same, so that image acquisition operation is carried out on each visual field to obtain a plurality of acquired visual field images;

the component extraction device is connected with the annular acquisition structure and used for receiving the plurality of acquisition view images, and executing the following operation aiming at each of the plurality of acquisition view images to extract cyan components, magenta components, yellow components and black components of each pixel point in the view images;

the distribution statistical device is connected with the component extraction device and used for executing the following operations for each of the plurality of collected visual field images, determining an image region with the most changed cyan component values as a cyan salient region based on each cyan component of each pixel point in the visual field images, determining an image region with the most changed magenta component values as a magenta salient region based on each magenta component of each pixel point in the visual field images, determining an image region with the most changed yellow component values as a yellow salient region based on each yellow component of each pixel point in the visual field images, and determining an image region with the most changed black component values as a black salient region based on each black component of each pixel point in the visual field images;

a region induction device connected to the distribution statistics device, for performing, for each of the plurality of captured visual field images, an operation of outputting the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region together as a plurality of protrusion regions;

the content analysis equipment is connected with the region induction equipment and is used for receiving a plurality of salient regions corresponding to each of the plurality of collected visual field images and outputting the same salient regions in the plurality of collected visual field images as signal matching regions;

the data enhancement equipment is connected with the content analysis equipment and used for receiving each signal matching area and respectively executing image enhancement processing on each signal matching area to obtain each data enhancement area;

in the content analysis device, the same salient regions are same-shaped salient regions that appear in the plurality of captured field-of-view images, respectively;

the first capturing device is connected with the data enhancement device and used for receiving each data enhancement area and acquiring a brightness component of each data enhancement area and a non-brightness component of each data enhancement area;

the second capturing device is used for receiving each data enhancement area, obtaining the brightness average value of each data enhancement area, obtaining an image brightness predicted value based on the current moment, and correcting the image brightness predicted value through the brightness average value of each data enhancement area to obtain a reference brightness value of each data enhancement area;

a data adjusting device, connected to the first capturing device and the second capturing device, respectively, for correcting the luminance component of each data enhancement region based on the reference luminance value of each data enhancement region to obtain a corrected luminance component, and superimposing the corrected luminance component of each data enhancement region and the non-luminance component of each data enhancement region to obtain a data adjustment region corresponding to each data enhancement region, the data adjusting device outputting a plurality of data adjustment regions;

the personnel analysis equipment is respectively connected with the illumination driving equipment and the data adjustment equipment and is used for combining the plurality of data adjustment areas to obtain a combined image, and personnel identity analysis operation based on personnel body shape characteristics is performed on the combined image to obtain a corresponding personnel name;

wherein the distribution statistics device comprises a cyan component statistics sub-device, a magenta component statistics sub-device, a yellow component statistics sub-device, and a black component statistics sub-device;

wherein, in the region summarization device, when there is an overlapping region of the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region, a plurality of regions in which the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region are subjected to region de-duplication are output as a plurality of protrusion regions.

In the illumination lamp driving system, further comprising:

and the parallel communication interface is connected with the component extraction equipment and used for receiving and transmitting the plurality of collected visual field images.

In the illumination lamp driving system: the first capturing device, the second capturing device and the data adjusting device are respectively realized by adopting programmable logic devices with different models.

In the illumination lamp driving system: the first capture device, the second capture device and the data adjustment device are all designed in VHDL language, and the first capture device, the second capture device and the data adjustment device are respectively integrated on the same printed circuit board.

In the illumination lamp driving system, further comprising:

and the MMC memory card is connected with the data adjusting equipment and used for receiving the data adjusting image and temporarily storing the data adjusting image.

In addition, VHDL is mainly used to describe the structure, behavior, function, and interface of a digital system. Except for the fact that it contains many statements with hardware features, the linguistic form, description style, and syntax of VHDL are very similar to a general computer high-level language. The structural features of the VHDL program are to divide an engineering design, or design entity (which may be a component, a circuit module or a system) into an external (or visible part, and port) and an internal (or invisible part), which relate to the internal functions and algorithm completion of the entity. After an external interface is defined for a design entity, once its internal development is complete, other designs can invoke the entity directly. This concept of dividing the design entity into inner and outer parts is the fundamental point of VHDL system design.

VHDL has powerful language structure, and can describe complex logic control by simple and clear source code. The method has a multi-level design description function, is refined layer by layer, and can directly generate circuit level description. VHDL supports the design of synchronous, asynchronous, and random circuits, which is incomparable with other hardware description languages. VHDL also supports various design methods, both bottom-up and top-down; the method supports both modular design and hierarchical design.

By adopting the lighting lamp driving system, aiming at the technical problem that a T-shaped smoking machine in the prior art is lack of an automatic cooking lighting mechanism, through adopting personnel analysis equipment, the personnel analysis equipment is respectively connected with the lighting driving equipment and the data adjusting equipment and is used for combining a plurality of data adjusting areas to obtain a combined image, and personnel identity analysis operation based on personnel body shape characteristics is carried out on the combined image to obtain a corresponding personnel name; in a specific image processing, the variation of the cyan component, the magenta component, the yellow component and the black component of the pixel point is respectively searched out to output each region with the most prominent variation of each component.

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 (2)

1. A lighting lamp driving system, comprising:

the T-shaped smoking machine structure comprises a T-shaped shell, a lighting lamp, an operation panel, an impeller, a brushless motor, an oil collecting ring and a cover cap, wherein a first light touch switch, a second light touch switch and a third light touch switch are arranged on the operation panel;

the first touch switch is electrically connected with the illuminating lamp and used for controlling the opening or closing of the illuminating lamp under the touch of a user;

the method is characterized in that:

the second light touch switch is connected with the brushless motor and used for controlling the brushless motor to be turned on or off under the touch of a user;

the third tact switch is connected with the brushless motor and used for controlling a rotation gear of the brushless motor under the touch of a user;

the system further comprises:

the lighting driving device is connected with the lighting lamp and used for turning on the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is yes, or turning off the lighting lamp when the cooking lighting attribute corresponding to the name of the received person is not yes;

the annular acquisition structure is arranged on the T-shaped shell and comprises a plurality of image acquisition units, the image acquisition units are arranged in an annular shape, the distance between each two image acquisition units is the same, so that image acquisition operation is carried out on each visual field to obtain a plurality of acquired visual field images;

the component extraction device is connected with the annular acquisition structure and used for receiving the plurality of acquisition view images, and executing the following operation aiming at each of the plurality of acquisition view images to extract cyan components, magenta components, yellow components and black components of each pixel point in the view images;

the distribution statistical device is connected with the component extraction device and used for executing the following operations for each of the plurality of collected visual field images, determining an image region with the most changed cyan component values as a cyan salient region based on each cyan component of each pixel point in the visual field images, determining an image region with the most changed magenta component values as a magenta salient region based on each magenta component of each pixel point in the visual field images, determining an image region with the most changed yellow component values as a yellow salient region based on each yellow component of each pixel point in the visual field images, and determining an image region with the most changed black component values as a black salient region based on each black component of each pixel point in the visual field images;

a region induction device connected to the distribution statistics device, for performing, for each of the plurality of captured visual field images, an operation of outputting the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region together as a plurality of protrusion regions;

the content analysis equipment is connected with the region induction equipment and is used for receiving a plurality of salient regions corresponding to each of the plurality of collected visual field images and outputting the same salient regions in the plurality of collected visual field images as signal matching regions;

the data enhancement equipment is connected with the content analysis equipment and used for receiving each signal matching area and respectively executing image enhancement processing on each signal matching area to obtain each data enhancement area;

in the content analysis device, the same salient regions are same-shaped salient regions that appear in the plurality of captured field-of-view images, respectively;

the first capturing device is connected with the data enhancement device and used for receiving each data enhancement area and acquiring a brightness component of each data enhancement area and a non-brightness component of each data enhancement area;

the second capturing device is used for receiving each data enhancement area, obtaining the brightness average value of each data enhancement area, obtaining an image brightness predicted value based on the current moment, and correcting the image brightness predicted value through the brightness average value of each data enhancement area to obtain a reference brightness value of each data enhancement area;

a data adjusting device, connected to the first capturing device and the second capturing device, respectively, for correcting the luminance component of each data enhancement region based on the reference luminance value of each data enhancement region to obtain a corrected luminance component, and superimposing the corrected luminance component of each data enhancement region and the non-luminance component of each data enhancement region to obtain a data adjustment region corresponding to each data enhancement region, the data adjusting device outputting a plurality of data adjustment regions;

the personnel analysis equipment is respectively connected with the illumination driving equipment and the data adjustment equipment and is used for combining the plurality of data adjustment areas to obtain a combined image, and personnel identity analysis operation based on personnel body shape characteristics is performed on the combined image to obtain a corresponding personnel name;

wherein the distribution statistics device comprises a cyan component statistics sub-device, a magenta component statistics sub-device, a yellow component statistics sub-device, and a black component statistics sub-device;

wherein, in the region summarization device, when there is an overlapping region of the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region, a plurality of regions in which the cyan protrusion region, the magenta protrusion region, the yellow protrusion region, and the black protrusion region are subjected to region de-duplication are output as a plurality of protrusion regions;

the system further comprises:

the parallel communication interface is connected with the component extraction equipment and used for receiving and transmitting the plurality of collected visual field images;

the first capturing device, the second capturing device and the data adjusting device are respectively realized by adopting programmable logic devices with different models;

the first capture device, the second capture device and the data adjustment device are all designed in VHDL language, and the first capture device, the second capture device and the data adjustment device are respectively integrated on the same printed circuit board;

the VHDL is used for describing the structure, the behavior, the function and the interface of a digital system; except that it contains many statements with hardware features, the linguistic form, description style, and syntax of VHDL are similar to computer high-level languages; the VHDL program structure is characterized in that an engineering design, or design entity is divided into an external part and an internal part, which relates to the internal function and algorithm completion part of the entity; after an external interface is defined for a design entity, once the internal development is completed, other designs can directly call the entity; this concept of dividing the design entity into inner and outer parts belongs to VHDL system design.

2. The lamp driving system according to claim 1, wherein said system further comprises:

and the MMC memory card is connected with the data adjusting equipment and used for receiving the data adjusting image and temporarily storing the data adjusting image.