CN108770146B - Multi-scene-change intelligent control lighting device - Google Patents

Abstract

The invention discloses a multi-scene-change intelligent control lighting device, which is applied to lighting a specific scene and comprises at least one lighting device and an intelligent processing system which is in communication connection with the lighting device, wherein an intelligent imager is arranged on the lighting device, the intelligent processing system generates adjusting information, and the adjusting information is transmitted to the intelligent imager on the lighting device to adjust the light emitting effect of the lighting device, so that the intelligent control lighting device is intelligently applied to a multi-scene environment.

Description

Multi-scene-change intelligent control lighting device

Technical Field

The invention relates to the field of intelligent lamps, in particular to an intelligent control lighting device with multi-scene change, which can be intelligently controlled and applied to multi-scene use.

Background

A lighting device, as the name implies, is a device that can provide a bright lighting effect. With the improvement of living standard and the development of scientific technology, the lighting device is not only providing single illumination, but also generating different illumination effects to be applied in different scenes. For example, in a home environment, the color temperature and chromaticity of a home lamp need to be adjusted at some time to create a comfortable environment atmosphere in a home. For another example, in a photographing environment, the color temperature, chromaticity and the lighting range need to be changed continuously to adapt to different photographing environments. That is, there are many scenes in real life that require constantly changing lighting effects of the lighting device.

In order to meet the requirement of multiple scenes in real life, the multi-scene change lamp is produced, but the existing multiple types of multi-scene change lamps on the market have some defects:

1. the multi-scene change lamp for controlling the color temperature and the chromaticity of the luminous source by controlling a circuit of the luminous source comprises: for the lamp, the circuit is provided with a communication device for receiving a control signal and controlling the current of the circuit and the change of the circuit structure according to the control signal. However, in this way, the light variable range of the lamp is limited, the chromaticity of the lamp can only be changed within the range which can be borne by the circuit, and the change of the color temperature is completely dependent on the composition of the circuit structure. Secondly, the circuit of the luminous source is easily lost through the circuit adjustment mode, so that the service life of the luminous source is rapidly reduced, and potential safety hazards exist. In addition, the lamp in this way cannot change various light-emitting images at will, and the application scene is also limited.

2. Multi-type lamps and lanterns parallel control's multi-scene lamp system: the multiple types of lamps are arranged according to a certain rule, and different light-emitting effects are created by independently controlling the multiple lamps. The first problem of this method is high cost, and it needs the combination of multiple types of lamps to install such a multi-scene lamp system, and secondly, the multi-scene lamp system is bulky, occupies space in practical application, and is not easy to disassemble and assemble, and in addition, the adjustment process of the multi-scene lamp system is very tedious, so it cannot be widely applied.

3. The light emitting area of the lamp is adjusted by arranging a driving motor on the lamp holder: the driving motor is controlled to adjust the position within a certain range, correspondingly, the lamp is also driven to be in different positions, so that the light emitting area of the lamp is adjusted, the driving motor is particularly suitable for being used when the light of an object is tracked, at the moment, the driving circuit is communicated with a tracker, the position of the driving circuit is adjusted according to the tracking condition of the tracker, and the lamp can track a detected object in real time. However, in this way, an additional driving circuit is required, which leads to an increase in cost and size, and secondly, the driving motor rotates the lamp at intervals while driving the lamp to rotate, that is, the lamp has a time difference while tracking the movement of the object. In addition, the arrangement of the driving circuit necessarily involves circuit winding, which not only brings burden to installation, but also causes certain potential safety hazard.

In summary, the multi-scene change lamps in the market currently have more or less defects, and these defects make the multi-scene change lamps not well suitable for the application in the special scene.

Disclosure of Invention

The invention aims to provide a multi-scene-change intelligent control lighting device, which comprises an intelligent imager, wherein the intelligent imager is adjusted to adjust the light-emitting effect of the lighting device, so that the intelligent control lighting device is intelligently controlled to be applied to a multi-scene environment.

The invention aims to provide a multi-scene-change intelligent control illuminating device, which can quickly and efficiently adjust a luminous pattern, a luminous color effect, a luminous light effect and a luminous region in real time according to actual conditions, in other words, the multi-scene-change intelligent control illuminating device is linked with an application scene in real time, and the adjusting efficiency is high.

The invention aims to provide a multi-scene-change intelligent control illuminating device, which does not need to replace a light-emitting source when the light-emitting effect is changed, does not make requirements on the type and the type of the light-emitting source, further reduces the manufacturing cost of the multi-scene-change intelligent control illuminating device, prolongs the service life of the light-emitting source and facilitates the installation and the maintenance of the multi-scene-change intelligent control illuminating device.

The invention aims to provide a multi-scene-change intelligent control illuminating device, which projects light beams by adopting a DLP technology, has adjustable projection effect and high adjustment precision, and ensures that the light-emitting effect is better.

The invention aims to provide a multi-scene-change intelligent control illuminating device which has wide application scenes and can be particularly applied to a photographic environment.

In order to achieve any of the above objects, the present invention provides a multi-scene change intelligent control lighting device, which is applied to lighting a specific scene, and comprises:

the intelligent processing system is in communication connection with the lighting equipment;

the lighting equipment comprises a luminous source, a detection recognition device, an intelligent imager and a projection lens, wherein the intelligent imager and the projection lens are sequentially arranged in the luminous direction of the luminous source, the detection recognition device recognizes and acquires detection information of the specific scene, the intelligent imager is provided with a wireless signal receiving element and an image display element which are communicated with each other, and a light beam emitted from the luminous source passes through the image display element and then is emitted from the projection lens;

the intelligent processing system comprises an information unit, a range unit, a processing unit and an adjusting unit which are in communication connection with each other, wherein the information unit is communicated with the detection identification device to acquire the detection information, the range unit selects a selected area and a non-selected area according to the detection information, the processing unit processes the selected area and/or the non-selected area to obtain adjusting information, the adjusting information is transmitted to the wireless signal receiving element through the adjusting unit to adjust the image display element, and the selected area and/or the non-selected area are/is an adjusting area.

In some embodiments, the detection recognition apparatus includes an image pickup device, a sensing device and a sending device, the image pickup device and the sensing device collectively obtain the detection information, wherein the detection information includes, but is not limited to, shape information, contour information, color information, brightness information, temperature information and speed information, and the sending device sends the detection information to the intelligent processing system.

In some embodiments, the processing unit includes a color effect adjusting module and a light effect adjusting module, which respectively adjust the color effect and the light effect of the adjusting area, wherein the color effect includes, but is not limited to, the color temperature, the chromaticity and the color hue of the adjusting area, and the light effect includes, but is not limited to, the progressiveness and the vignetting of the adjusting area.

In some embodiments, the processing unit includes a display adjustment module, where the display adjustment module acquires built-in or external display data and displays the display data in the adjustment area to obtain the adjustment information, or a graphics processing algorithm is built in the display adjustment module, where the graphics processing algorithm processes a superimposed preferred image based on multiple images to obtain the adjustment information, or the display adjustment module communicates with an image processor to acquire additional information obtained on the image processor, where the additional information is added to the adjustment area to obtain the adjustment information, and the adjustment information adjusts a display condition of the adjustment area.

In some embodiments, the image display element is a digital light processing chip, and the light source, the detection and identification device and the projection lens form a digital light processing projection system.

In some embodiments, the sensing device is selected from one or a combination of an infrared sensor, a wavelength sensor, a grating sensor, a thermal sensor, and a motion capture sensor, and acquires the shape information, the contour information, the color information, the brightness information, the temperature information, and the velocity information, respectively.

In some embodiments, the range unit identifies the detection information to identify an object of the particular scene, the selected region and the non-selected region being automatically or otherwise selected.

In some embodiments, the lighting device includes a condenser lens, wherein the condenser lens is disposed between the light source and the smart imager to condense the emitted light beam of the light source.

In some embodiments, the multi-scene change intelligent control lighting device comprises a physical control system, wherein the physical control system comprises an energy supply module, the energy supply module provides energy support for the lighting equipment, wherein the energy supply module comprises one or a combination of a direct current power supply, an alternating current power supply and a rechargeable built-in battery.

In some embodiments, the physical control system includes an image processing system and a display screen, the image processing system obtains the detection information, the image processing system processes an image through an external mobile terminal, and a processing process is displayed on the display screen.

Drawings

Fig. 1 is a schematic product structure diagram of a multi-scene change intelligent control lighting device according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a smart imager of the multi-scene change intelligent lighting device according to the embodiment of the invention.

Fig. 3 is a schematic diagram of the detection and recognition device of the multi-scene-change intelligent-control lighting device according to the embodiment of the invention.

FIG. 4 is a block diagram schematic of an intelligent processing system according to the described embodiment of the invention.

Fig. 5 is a schematic diagram of an application of the multi-scene change intelligent lighting device according to the embodiment of the invention.

Detailed Description

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

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

The invention provides a multi-scene-change intelligent control illuminating device, which does not need to change a light emitting source, but realizes the change of the light emitting effect of the multi-scene-change intelligent control illuminating device in a mode of intelligently changing an intelligent imager arranged in front of the light emitting source, so that the multi-scene-change intelligent control illuminating device is applied to multiple scenes. Different from the multi-scene change lamp in the prior art, the multi-scene intelligent control lighting device does not directly change the circuit structure of the light emitting source, does not need multiple lamps to be used simultaneously, and can quickly and efficiently complete the quick change of the light emitting patterns, the light emitting colors and the light emitting brightness without an external driving machine.

The multi-scene-change intelligent control illuminating device can be applied to multiple scenes, and in the embodiment of the invention, the multi-scene-change intelligent control illuminating device is particularly suitable for application scenes such as camera shooting and the like needing environment adjustment, and can realize man-machine interaction intelligent control operation.

As shown in fig. 1, the multi-scene-change intelligent-control lighting device comprises a lighting device 10 and an intelligent processing system 20 for intelligently controlling the lighting device 10, wherein the lighting device 10 comprises a light source 11, an intelligent imager 12, a detection recognition device 13, a physical control system 14 and an auxiliary lens 15, the intelligent imager 12 is disposed in the light emitting direction of the light source 11, the detection recognition device 13 detects at least one detected object and obtains the detection information of the detected object, the physical control system 14 supports the normal operation of the lighting device 10, the auxiliary lens 15 collects the emitted light beam emitted from the light source 11 and projects the light beam, the intelligent processing system 20 is communicatively connected to the lighting device 10 to obtain the detection information and send adjustment information to the intelligent imager 12, the intelligent imager 12 adjusts its presented image according to the adjustment information, thereby producing a light emission effect suitable for different applications.

In the embodiment of the present invention, the auxiliary lens 15 includes a condenser lens 151 and a projection lens 152, wherein the condenser lens 151 is disposed in the light emitting direction of the light emitting source 11 to condense the light beams, and generally, the light emitting source 11 emits a light emitting beam, and the condenser lens 151 condenses the light beams so that the light beams propagate along a set direction, although it should be understood by those skilled in the art that the condenser lens 151 is not necessary for some light emitting sources 11.

The projection lens 152 is disposed at the projection end of the illumination device 10, the projection lens 152 is composed of at least one optical lens arranged according to a certain order, and the projection lens 152 is disposed as an optical lens capable of adjusting the focal length and the focal point to project the light beam of the illumination device 10.

In the embodiment of the present invention, the light source 11 includes, but is not limited to, an LED lamp, a halogen lamp, a COB, a laser lamp, a flashlight and a fluorescent lamp, and in addition, the light source 11 may also be set to be in a normally on or flashing state, and the specific structure and implementation principle of the light source 11 are not described herein since the light source can be implemented as any lamp in the prior art.

The intelligent imager 12 is disposed in the light emitting direction of the light emitting source 11, and light beams emitted from the light emitting source 11 pass through the intelligent imager 12 to generate different light emitting effects.

Specifically, the intelligent imager 12 includes a wireless signal receiving element 121 and an image display element 122, wherein the wireless signal receiving element 121 is communicatively connected to the intelligent processing system 20 to receive the adjustment information fed back from the intelligent processing system 20 and transmit the adjustment information to the image display element 122, the image display element 122 displays the image information corresponding to the adjustment information, and the light beam emitted from the light emitting source 11 and/or the condenser lens 151 passes through the image display element 122 and then is projected outward from the projection lens 152.

It is worth mentioning that the intelligent imager 12 comprises at least one image display element 122, and the plurality of image display elements 122 are individually controlled, in other words, each image display element 122 can receive the adjustment information of the wireless signal receiving element 121 and make individual image adjustment according to the adjustment information, thereby making the imaging of the intelligent imager 12 richer.

The intelligent imager 12 is implemented by using a commercially available DLP technology, which is abbreviated as Digital Light processing, and the technology is to digitally process an image signal and then project Light. Specifically, the image display element 122 includes at least one DLP chip that, when used in conjunction with a digital video or graphics signal, a light source, and a projection lens 152, has a lens that reflects digital images onto any surface.

In particular, the micromirrors on the DLP chip are moved toward or away from the light-emitting source, thus forming bright or dark pixels on the projection surface thereof, thereby converting video or graphic signals into extremely fine gray-scale images. And the smart imager 12 includes a color filter therein that filters white light into the simple three colors red, green and blue, thereby producing at least 1670 thousand colors from the three primary colors, the on/off state of each micromirror will be closely related to these basic color blocks, e.g., the mirror responsible for projecting the purple pixel will only reflect red and blue light to the projection surface, and then the two colors will mix to produce the target hue on the projected image.

The detection and recognition device 13 includes an image pickup device 131, a sensing device 132 and a sending device 133, wherein the image pickup device 131 and the sensing device 132 cooperate to complete detection of a detected object, acquire the detection information, the detection information is sent to the intelligent processing system 20 through the sending device 133, and the setting position of the detection and recognition device 13 in the lighting device 10 has no special requirement and should not be taken as a limitation.

Specifically, the image capturing device 131 and the sensing device 132 can be implemented in various ways, such as infrared sensing, wavelength, grating, thermal sensing, dynamic capturing, face recognition, etc., to detect the shape, contour, color, brightness, temperature, and speed of the detected object, i.e., the detected information includes, but is not limited to, shape information, contour information, color information, brightness information, temperature information, speed information, and identification information about the detected object.

The image pickup device 131 performs an image pickup action corresponding to the detected object to acquire image information of the detected object, and the image pickup device 131 can communicate with the identification function to further identify the detected object after acquiring the image information of the detected object, thereby acquiring identification information of the detected object.

In some cases, the sensing device 132 includes an infrared sensor, wherein the infrared sensor emits infrared rays to the detected object, the infrared rays interact with the detected object by using infrared radiation, and detection information of the detected object can be obtained by detection of the infrared sensor due to different objects having different effects on infrared induction, wherein the detection information includes, but is not limited to, shape information and contour information of the detected object. The sensing device 132 includes a wavelength sensor that emits a wavelength to the detected object, the wavelength identifying objects of different colors, thereby acquiring color information of the detected object. The sensing device 132 includes a grating sensor, which obtains brightness information of the detected object, and objects with different brightness are fed back as different grating information. The sensing device 132 includes a thermal sensor that senses a problem with the surface of an object and obtains temperature information about the object being sensed. The sensor device 132 includes a motion capture sensor that acquires velocity information of the detected object. Since the sensing technology of the above-mentioned sensing devices is well-established, it will not be described in much detail here.

It should be noted that the above-mentioned sensing device 132 may be integrated or independent, a single sensor may be disposed therein to obtain a plurality of detection information of the detected object, or a plurality of sensors may be disposed therein to obtain a plurality of detection information of the detected object separately, and the present invention is not limited in this respect.

In summary, the image capturing device 131 and the sensing device 132 are combined to obtain the detection information, wherein the detection information includes, but is not limited to, shape information, contour information, color information, brightness information, temperature information, speed information and identification information about the detected object, the detection information is transmitted to the transmitting device 133 and then transmitted to the intelligent processing system 20, and the transmitting device 133 can be communicated with the intelligent processing system 20 in various manners such as WiFi, bluetooth, 3G/4G/5G, etc.

The lighting of the lighting device 10 is supported and assisted in the physical control system 14, specifically, the physical control system 14 includes an energy supply module 141, the energy supply module 141 provides energy support for the lighting device 10, the energy supply module 141 may be a dc power supply, an ac power supply may also be an internal battery, and the energy supply module 141 may be an external charger, compatible with various charging devices.

The physical control system 14 additionally includes auxiliary equipment such as a physical manual switch system, signal line input jacks, and wireless signal receiving devices, wherein the presence of the auxiliary equipment ensures proper illumination of the lighting device 10.

It should be particularly noted that in an embodiment of the present invention, the physical control system 14 includes an image processing system and a display screen, the image processing system obtains the detection information, the image processing system can process the image through an external mobile terminal, in order to facilitate the intuitiveness of the processing, the display screen displays the processing mode, the processing mode of the detection information is the same as that of the intelligent control system 20, and the following description focuses on the working mode of the intelligent control system 20.

The intelligent control system 20 includes an information unit 21, a range unit 22, a processing unit 23, a data unit 24, and an adjusting unit 25, wherein the information unit 21 obtains the detection information, the range unit 22 obtains a selected area and a non-selected area according to the detection information, the processing unit 23 adjusts the effect of the selected area and the non-selected area to obtain adjustment information, and the adjustment information is transmitted to the intelligent imager 12 through the adjusting unit 25, so as to complete the adjustment and control of the illumination device 10 through the adjustment and control of the intelligent imager 12.

Specifically, the information unit 21 is communicatively connected to the transmitting device 133 to receive the detection information, which includes, but is not limited to, shape information, contour information, color information, brightness information, temperature information, speed information, and identification information about the detected object. Of course, the detection information actually depends on the information identified by the detection identification device 13, and after the information unit 21 acquires the detection information, it can generate scene information about the detection scene, wherein the scene information can be a single object or a combination of multiple objects, in this way, the intelligent processing system 20 can obtain the information of the illumination range of the lighting device.

The range unit 22 is communicatively connected to the information unit 21 to select an object to be controlled as a selected area content. Specifically, based on the detection information including shape information, contour information, color information, luminance information, temperature information, speed information, and identification information of the object to be detected, the object can be distinguished by identifying the temperature of the human body and the static object, by matching different shapes with the contour information, or by identifying different objects according to the identification information. In view of the different detection information of different objects, different objects in the detection scene can be identified by the detection information, so that the selected area and the non-selected area can be automatically or manually selected, wherein the selected area and the non-selected area are relative concepts, that is, the selection mode of the range unit 22 can be a positive selection or a negative selection.

The processing unit 23 is communicatively connected to the range unit 22, obtains the selected area and the non-selected area, and performs processing such as brightness, color temperature, gradient, vignetting, hue, and the like on the selected range. Specifically, the processing unit 23 includes a color effect adjusting module 231, a light effect adjusting module 232, and a display adjusting module 233, which respectively adjust the color effect, the light effect, the display effect, and the like of the selected area and/or the non-selected area, and hereinafter, the selected area and the selected area will be referred to as an adjusting area because the adjusting manners for the two types of areas are the same.

The color effect of the color effect adjusting module 231 is mainly used for adjusting the color effect of the adjusting area, the color effect comprises the color temperature, the chromaticity and the hue of the adjusting area, at the moment, the color effect adjusting module 231 automatically identifies the object effect thereof, formulates the color effect of a specific object or a specific environment, for example, sets the color effect of irradiating the front object as warm yellow light, and irradiates the rear character as blue cold light, the color effect adjusting mode is carried out on the basis of identifying the object, the color effect adjusting principle is common in a DLP projection system based on the color effect adjusting principle, and the description is not carried out.

Similarly, the light effect adjusting module 232 mainly adjusts the light effect of the adjusting region, the light effect includes gradual change and vignetting of the adjusting region, similarly, the light effect adjusting module 232 automatically or manually adds different light effect treatments to the object in the adjusting region, similar to the function of the automatic cropping software, and the light effect adjusting principle is common in the DLP projection system, and the description is not provided here. It is worth mentioning that the light effect adjusting module 232 is internally provided with image beautifying algorithm software, and the light effect can be adjusted according to manual selection and can also be automatically adjusted.

The display adjustment module 233 may perform superimposition of elements such as patterns, graphics, images, and videos in the adjustment range, or may even manually add various brush functions to perform display processing.

In an embodiment of the present invention, the display adjusting module 233 is communicatively connected to the data unit 24, wherein the data unit 24 is embedded or externally connected with a large amount of graphic data or video data, and the display adjusting module 233 acquires the display data in the data unit 24 and adds the data to the adjusting area. For example, the display adjustment module 233 acquires a star-shaped image, and the image is transmitted to the display adjustment module 233 to be displayed. In this case, the data unit 24 may be implemented as a smart terminal, which may be communicatively coupled to obtain a large amount of display data.

In another embodiment of the present invention, the display adjustment module 233 is internally provided with a graphics processing algorithm, and at this time, the display adjustment module 233 acquires a plurality of images of the same scene, and the graphics processing algorithm comprehensively processes the superimposed preferred images based on the plurality of images.

In another embodiment of the present invention, the display adjustment module 233 communicates with an image processor, wherein the image processor is similar to a hand drawing board on which a user can draw an image, thereby obtaining display data, which is added to the adjustment region.

In this way, the processing unit 23 processes the adjustment area to obtain new display information, which is transmitted to the smart imager 12 through the adjustment unit 25 to adjust the display on the smart imager 12. In which the display information is transmitted as a DLP recognizable signal and then projected by DLP technology, where the user can intelligently adjust the lighting effect of the lighting device 10 by adjusting the intelligent processing system 20 without making unnecessary changes to the lighting source 11 itself.

It should be noted that the intelligent processing system 20 is an upper system relative to the lighting device 10, and the intelligent processing system 20 is compatible with IOS, android and Windows systems and is configured to operate on various upper computer devices such as smart phones, PCs and tablets. And a plurality of channels are arranged in the intelligent processing system 20, each channel can control a single lighting device, and the intelligent processing system 20 can independently process a plurality of objects in the channel. In addition, the intelligent processing system 20 may have a large number of algorithms built therein, and may be compatible with other algorithm software, as the present invention is not limited in this respect.

As shown, an application of the multi-scene change intelligent control lighting device is presented. In a first scene, the detection recognition device 13 obtains detection information of the scene, where the detection information shows that an object of the scene is at a first position and brightness of a person is dark, and the intelligent processing system 20 processes the detection information and controls a first area on the intelligent imager 12 to emit bright light, so that a light beam emitted from the light emitting source 11 passes through the intelligent imager 12 and is projected to the first position by the projection lens 152, where the first area corresponds to the first position.

In the second scene, the detection recognition device 13 still obtains the detection information of the scene, except that the detection information recognizes that the scene object is at the second position and the brightness of the person is bright, the intelligent processing system 20 processes the detection information and controls the second area on the intelligent imager 12 to emit dark light, so that the light beam emitted from the light emitting source 11 passes through the intelligent imager 12 and is projected to the second position by the projection lens 152, where the second area corresponds to the first position.

It should be further appreciated that the intelligent processing system 20 can be intelligently controlled in various forms and manners, such as the intelligent processing system 20 can be remotely, manually, and/or in voice, and a corresponding signal receiving and converting device is provided therein.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims (7)

1. A multi-scene change intelligent control lighting device, applied to illuminate a specific scene, comprising:

the intelligent processing system is in communication connection with the lighting equipment;

the lighting device comprises a light emitting source, a detection recognition device, an intelligent imager and a projection lens, wherein the intelligent imager and the projection lens are sequentially arranged in the light emitting direction of the light emitting source, the detection recognition device recognizes and acquires detection information of the specific scene, the intelligent imager is provided with a wireless signal receiving element, a color filter and at least one image display element which are communicated with each other, the image display element is independently controlled, the color filter can filter white light into three colors of simple red, green and blue, and a light emitting beam emitted from the light emitting source passes through the image display element and then is emitted from the projection lens;

the detection recognition device comprises an image pickup device, a sensing device and a sending device, wherein the image pickup device and the sensing device jointly acquire the detection information, the detection information comprises shape information, contour information, color information, brightness information, temperature information and speed information, and the sending device sends the detection information to the intelligent processing system;

the intelligent processing system comprises an information unit, a range unit, a processing unit and an adjusting unit which are in communication connection with each other, wherein the information unit is communicated with the detection identification device to acquire the detection information and generate scene information of the detection scene, the range unit selects an object to be controlled as a selected area according to the detection information, the selected area and a non-selected area are selected, different objects in the detection scene are identified through the detection information based on different detection information of different objects, the selected area and the non-selected area are automatically or manually selected, the selected area and the non-selected area are distinguished by identifying the temperature of a human body and a static object, the selected area and/or the non-selected area are/is an adjusting area, the processing unit processes the selected area and/or the non-selected area to obtain the adjusting information, the processing unit comprises a color effect adjusting module and a light effect adjusting module, and the color effect and the light effect of the adjusting area are respectively adjusted, wherein the color effect comprises the color temperature, the chromaticity and the hue of the adjusting area, and the light effect comprises the asymptosis and the vignetting of the adjusting area; the color effect adjusting module automatically identifies the object effect, formulates the color effect of specific object or specific environment, the light effect adjusting module automatically or manually adds different light effect processing to the object in the adjusting region, the display adjusting module carries out the superposition of pattern, graph, image and video element in the adjusting range, or manually adds various painting brush functions to display and process, the adjusting information passes through the adjusting unit is conveyed to the wireless signal receiving element to adjust the image display element.

2. The lighting device is intelligently controlled according to claim 1, wherein the processing unit comprises a display adjusting module, the display adjusting module obtains internal or external display data and displays the display data in the adjusting area to obtain the adjusting information, or a graphic processing algorithm is arranged in the display adjusting module, the graphic processing algorithm comprehensively processes a superimposed preferred image based on a plurality of images to obtain the adjusting information, or the display adjusting module is communicated with the image processor to obtain additional information obtained on the image processor, the additional information is added to the adjusting area to obtain the adjusting information, and the adjusting information adjusts the display condition of the adjusting area.

3. The intelligent multi-scene-change lighting device as claimed in claim 2, wherein the image display element is a digital light processing chip, and the light source, the detection and recognition device and the projection lens form a digital light processing projection system.

4. The multi-scene change intelligent-control lighting device according to claim 1, wherein the sensing device is selected from one or a combination of an infrared sensor, a wavelength sensor, a grating sensor, a thermal sensor and a dynamic capture sensor, and is used for respectively acquiring the shape information, the contour information, the color information, the brightness information, the temperature information and the speed information.

5. The multi-scene-change intelligent-control lighting device according to claim 2, wherein the lighting apparatus comprises a condenser lens, wherein the condenser lens is disposed between the light emitting source and the intelligent imager to condense the emitted light beam of the light emitting source.

6. The multi-scene change intelligent lighting device according to claim 2, wherein the multi-scene change intelligent lighting device comprises a physical control system, wherein the physical control system comprises an energy supply module, the energy supply module provides energy support for the lighting device, wherein the energy supply module comprises one or a combination of a dc power supply, an ac power supply and a rechargeable built-in battery.

7. The lighting device of claim 6, wherein the physical control system comprises an image processing system and a display screen, the image processing system obtains the detection information, the image processing system processes the image through an external mobile terminal, and the processing process is displayed on the display screen.

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