CN113784485A - Intelligent micro-rail type mirror front makeup mimicry lighting device and lighting method - Google Patents
Intelligent micro-rail type mirror front makeup mimicry lighting device and lighting method Download PDFInfo
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- CN113784485A CN113784485A CN202111031455.6A CN202111031455A CN113784485A CN 113784485 A CN113784485 A CN 113784485A CN 202111031455 A CN202111031455 A CN 202111031455A CN 113784485 A CN113784485 A CN 113784485A
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/165—Controlling the light source following a pre-assigned programmed sequence; Logic control [LC]
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/155—Coordinated control of two or more light sources
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
- H05B47/175—Controlling the light source by remote control
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
- Y02B20/40—Control techniques providing energy savings, e.g. smart controller or presence detection
Abstract
The invention discloses an intelligent micro-rail type mirror front makeup mimicry lighting device and a lighting method, which relate to the field of lighting equipment and comprise the following specific steps: firstly, embedding a micro embedded intelligent track power supply system in a wooden or preset groove on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, wherein each track is required to be respectively arranged according to top light, bottom light and side light, and a code is arranged on each track; and secondly, each track is orderly connected with the intelligent power supply with the corresponding number, and the intelligent control is to control the lamps with the same property in the whole track to synchronously convert the output luminosity performance according to the power supply. Through setting up the miniature embedded intelligent track power supply system of embedding, cooperation intelligent track and intelligent power use are controlled through control center, make the regulation of lamps and lanterns removal, illumination angle, illumination intensity, colour temperature and colour on the intelligent track of intelligent power control, have reached the effect that the light of lamps and lanterns can simulate the light efficiency of various scene environments.
Description
Technical Field
The invention relates to lighting equipment, in particular to an intelligent micro-rail type mirror front makeup mimicry lighting device and a lighting method.
Background
Because the work rhythm and social rhythm of modern people are very rich and colorful, people need to frequently bring makeup and dresses to different places, such as: outdoors, offices, entertainment, parties, banquet, night, street view, negotiations, teaching, display stands, etc.
However, the general makeup and fitting environment only has illumination, and the better condition is only limited to high luminosity plus multi-angle illumination, but has single light characteristic, light flux-brightness; the color temperature of the light; the color of the light; the main light angle and light source characteristics, i.e., diffused light, direct light, flashing light, bottom light, front light, photometry, back light and the like, often cannot meet the aesthetic requirements of people on multi-scene dressing and dress effects, for example, the bright-degree color difference gradient of the dressing is different from the effect that the color system matching and the color rendering of the clothes are reflected in different environments; the makeup and clothing matching drawn in a single environment often finds that the makeup and clothing matching is not matched in a target environment sometimes and is not the effect wanted by the user, the illumination difference degree of various rich and colorful working and living scenes is very large at present, the situation that the user still cannot do the work is changed and compensated becomes regret, for example, the makeup and clothing fitting environment of the user is a bright LED white light environment, the environment is bright, clear and comfortable, and the satisfactory makeup and clothing matching in the environment often appears pale and decolored in a night banquet environment; the conference occasion of the office meeting appears intense in color development; the night store entertainment environment may appear to lose silhouettes and color differences; and so on.
For the light color development effect and illumination characteristic reaction of the dressing effect of the makeup effect, the user can clearly rely on the aesthetic experience, the light sensation experience and the color development experience to be pre-adjusted, and the method is unreliable and unrealistic.
Disclosure of Invention
The invention aims to solve the problem that single light cannot meet the aesthetic requirements of people on multi-scene makeup and inspection effects (color development effect and the like).
In order to achieve the purpose, the invention provides the following technical scheme:
an intelligent micro-rail mirror front makeup mimicry lighting method comprises the following specific steps:
firstly, embedding a micro embedded intelligent track power supply system in a wooden or preset groove on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, wherein each track is required to be respectively arranged according to top light, bottom light and side light, and a code is arranged on each track;
secondly, each track is orderly connected with an intelligent power supply with a corresponding number, and intelligent control is to control the same-property lamps in the whole track to synchronously convert the output luminosity performance according to the power supply;
thirdly, controllable lighting pieces with enough functional quantity are inserted into the micro-embedded tracks, the lighting pieces with the same function in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, the software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease, and the actual usage amount needs to be input into configuration data of the control center;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: threads or production line tracks with different control functions are embedded in the front periphery of the cosmetic mirror or the fitting mirror, wherein the threads are provided with high-power lamps; the color-mixing light source lamp is controlled by the primary colors or the primary colors in a thread mode, and the tracks are arranged according to a top light source track, a left/right light source track, a bottom light color light source track and a double track;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is used as a constant voltage control circuit, and controlled power supply can be provided for lamps controlled by constant voltage, such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like.
Preferably: the control center is an APP software or cloud software processing port.
Preferably: the controllable illuminating part has special functions of dimming, adjusting temperature and mixing colors.
The utility model provides a make up mimicry lighting device before intelligence microtrack formula mirror, includes the mirror body, the side of the mirror body is seted up flutedly, and the inside of recess is embedded to have an intelligent track, and orbital one end of intelligence all is provided with four intelligent power supplies that are used for power supply control, and the intelligent power supply is embedded in the inside of recess, and four intelligent power supplies are connected with the intelligent track electricity that corresponds according to clockwise in proper order, and orbital inside of intelligence is fixed with the busbar, and orbital inner wall sliding connection of intelligence has lamps and lanterns, the surface contact of the surface of lamps and lanterns and busbar.
Preferably: the intelligent power supply is positioned at four corner positions of the mirror body.
Due to the adoption of the technical scheme, the invention has the following advantages:
through setting up the miniature embedded intelligent track power supply system of embedding, cooperation intelligent track and intelligent power use are controlled through control center, make the regulation of lamps and lanterns removal, illumination angle, illumination intensity, colour temperature and colour on the intelligent track of intelligent power control, have reached the effect that the light of lamps and lanterns can simulate the light efficiency of various scene environments.
Drawings
Fig. 1 is a control flow diagram of an intelligent micro-rail mirror front makeup mimicry lighting method.
Fig. 2 is a schematic control flow diagram of an intelligent track in an intelligent micro-track mirror front makeup mimicry illumination method.
Fig. 3 is a schematic view of the overall structure of an intelligent micro-rail type mirror front dressing mimicry lighting device.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
Referring to fig. 1 to 3, in an embodiment of the present invention, an intelligent micro-track mirror front makeup simulation lighting method includes the following embodiments:
example 1
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Outdoor/street view/daytime: mainly using side top light; the diffuse reflection bottom light is used as an auxiliary light; the main action light is high intensity light; the color temperature is mainly 5500-6500 medium-luminescence light, and the luminous flux per unit area is very high; assisting with purple light and near ultraviolet light; a certain amount of blue white light and a small amount of warm white light are added.
Example 2
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Night view/street view/evening: side light is mainly used; the flickering bottom light is used as an auxiliary light, the main acting light is weak light, the color temperature is mainly medium-warm light of 3000k-4500k, the luminous flux of unit area is very low, red light and flickering polychromatic light are used as auxiliary lights, and a certain amount of orange white light and a small amount of cold green light are added.
Example 3
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Office/classroom/conference: the side top light is mainly used, the diffuse reflection side light is used as the auxiliary light, the main acting light is medium-intensity light, the color temperature is mainly medium-cold light of 5000k-6500k, the luminous flux ratio of unit area is high, the fluorescence and near-violet light are used as the auxiliary light, and a certain amount of blue white light and a small amount of warm white light are added.
Example 4
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Party/night/recreation: side light is mainly used; colorful flashing bottom light is used as an auxiliary light; the main acting light is medium and weak intensity warm light; the color temperature is mainly 3000k-4500k of warm light, the luminous flux of unit area is low, red light and flickering polychromatic light are used as auxiliary materials, and a certain amount of warm white light is added.
Example 56
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Banquet/wedding/celebration: mainly using side top light; the diffuse reflection side light is auxiliary; the main acting light is moderate and strong slightly warm light; the color temperature is mainly medium warm light of 4000k-4500k, the luminous flux per unit area is higher, purple light and fluorescence are used as auxiliary materials, and a certain amount of white light is added.
Example 6
The method comprises the following specific steps:
firstly, a power supply system of a micro embedded intelligent track 3 is embedded in a wooden or preset groove 2 on the edge of a cosmetic mirror or a fitting mirror on the front vertical face of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply 4 with a corresponding number, and intelligent control is to control the lamps 6 with the same property in the whole track to synchronously convert the output luminosity performance according to power supply;
thirdly, controllable illuminating pieces with enough functional quantity are inserted into the micro-embedded tracks, the controllable illuminating pieces have special functions of dimming, temperature adjustment and color adjustment, the illuminating pieces with the same functions in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, a software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease the scene setting lighting part setting suggestions, the actual usage amount needs to be input into configuration data of the control center, the control center is an APP software or cloud software processing port, the control center sends correct instructions to each control power supply, and the light effect required by a user can be converted through accurate power supply output values;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with a high-power lamp 6; the 4-thread installation 3-primary color or 4-primary color control color-mixing light source lamp 6, the track is according to the orbit of the top light source, the orbit of the left/right light source, the orbit of the bottom light colored light source, double orbit;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is a constant voltage control circuit, controlled power supply can be provided for lamps 6 under constant voltage control such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like, and part of the lamps 6 need constant voltage control power supply, so that a pair of tracks can be reserved for the constant voltage lamps 6 to use while the 4-thread track meets the requirements of the lamps 6 under light and temperature adjustment, namely, a common zero line is reserved.
Exhibition/stand/lecture: mainly using side top light; the diffuse reflection side light is auxiliary; the main acting light is high-intensity partial cold light; the color temperature is mainly the partial cold light of 5000k-6000k, the luminous flux of unit area is higher, and a certain amount of warm white light is added with the assistance of purple light and fluorescence.
Example 7
The utility model provides a make up mimicry lighting device before little rail formula mirror of intelligence, including the mirror body 1, recess 2 has been seted up to the side of the mirror body 1, the inside of recess 2 is embedded to have intelligent track 3, the one end of intelligent track 3 all is provided with four intelligent power sources 4 that are used for power supply control, intelligent power source 4 is embedded in the inside of recess 2, intelligent power source 4 is located four turning positions of the mirror body 1, it is obtrusive not to make the surface like this set up, and have pleasing to the eye degree, also fine corresponding intelligent track 3 behind the ability, conveniently control intelligent track 3, four intelligent power sources 4 are connected with the intelligent track 3 electricity that corresponds according to clockwise in proper order, intelligent track 3's inside is fixed with busbar 5, the inner wall sliding connection of intelligent track 3 has lamps and lanterns 6, the surface of lamps and lanterns 6 and busbar 5's surface contact.
Claims (5)
1. An intelligent micro-rail mirror front makeup mimicry lighting method is characterized by comprising the following specific steps:
firstly, a power supply system of a micro embedded intelligent track (3) is embedded in a wooden or preset groove (2) on the edge of a cosmetic mirror or a fitting mirror on the front vertical surface of a user, each track is required to be respectively arranged according to top light, bottom light and side light, and codes are arranged on the tracks;
secondly, each track is orderly connected with an intelligent power supply (4) with a corresponding number, and intelligent control is to control the same-property lamps (6) in the whole track to synchronously convert the output luminosity performance according to the power supply;
thirdly, controllable lighting pieces with enough functional quantity are inserted into the micro-embedded tracks, the lighting pieces with the same function in each track are uniformly distributed, and output details such as total illumination power, illumination adjusting range and the like are stored in a scene control center for setting and allocating scenes;
fourthly, the software interface of the control center can provide scene setting lighting part setting suggestions, increase or decrease, and the actual usage amount needs to be input into configuration data of the control center;
fifthly, a built-in four-wire track is used for the micro-embedded track, wherein three live wires share a zero line, and the control modes of light adjustment, temperature adjustment and color adjustment can be completed;
sixthly, configuring a control node on the track: embedding 3 threads or 4 production line tracks with different control functions at the front periphery of a cosmetic mirror or a fitting mirror, wherein the 3 threads are provided with high-power lamps (6); a 3-primary color or 4-primary color control color-mixing light source lamp (6) is installed in a 4-thread mode, and the tracks are arranged according to a top light source track, a left/right light source track, a bottom light color light source track and a double track;
seventhly, reserving a constant-voltage power supply track: a track passage is reserved in the tracks in the two side directions and is used as a constant voltage control circuit, and controlled power supply can be provided for lamps (6) which are controlled by constant voltage, such as ultraviolet lamps, infrared lamps, fluorescent lamps, flash lamps, atomization lamps and the like.
2. The intelligent micro-rail mirror front dressing-up mimicry lighting method according to claim 1, wherein the control center is an APP software or cloud software processing port.
3. The intelligent micro-track mirror-front makeup mimicry lighting method according to claim 1, wherein the controllable lighting element has a dedicated light-adjusting, temperature-adjusting, and color-adjusting function.
4. The utility model provides a make up appearance mimicry lighting device before intelligence micro-rail formula mirror, including the mirror body (1), a serial communication port, recess (2) are seted up to the side of the mirror body (1), the inside of recess (2) is embedded to have intelligent track (3), the one end of intelligent track (3) all is provided with four intelligent power supplies (4) that are used for power supply control, embedded inside at recess (2) of intelligent power supply (4), four intelligent power supplies (4) are connected with intelligent track (3) electricity that corresponds according to clockwise in proper order, the inside of intelligent track (3) is fixed with busbar (5), the inner wall sliding connection of intelligent track (3) has lamps and lanterns (6), the surface contact of the surface of lamps and lanterns (6) and busbar (5).
5. An intelligent micro-rail mirror front dressing-up mimicry lighting device according to claim 4, characterized in that the intelligent power supply (4) is located at four corner positions of the mirror body (1).
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Citations (14)
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