CN105718273B - Time information visualization expression system based on lamplight - Google Patents

Abstract

The invention discloses a lamplight-based time information visualization expression system.A partition plate divides the space in a lampshade into two regions, namely a reference region and a contrast region, light emitted by a first independent light source is reference light, the reference region transmits reference light with corresponding chromaticity, brightness and saturation of 100%, light emitted by a second independent light source in the contrast region changes the saturation along with time in a set time period, the saturation of the light in the contrast region is 0 and changes into light with the saturation of 100% at the beginning, the light in the contrast region changes into the same light as the reference light in the saturation change process, and the light in the contrast region is projected through a dynamic change contrast region to generate dynamic contrast in the set time, so that the specific time can be determined in real time. The system enriches the range of light expression information, and does not need to translate abstract light patterns into specific detailed information in a close-distance interaction area by means of a handheld terminal when the specific information is expressed.

Description

Time information visualization expression system based on lamplight

Technical Field

The invention relates to the field of information visualization, in particular to a time information visualization expression technology based on a light medium, and specifically relates to a time information visualization expression system based on light.

Background

The light is a visual medium with abstraction. Meanwhile, smart lighting has proven to be an effective communication medium for communicating information in new environmental display designs, and enables people to perceive situations and information while beautifying and enhancing specific atmospheres. However, because of the abstract nature of lights in terms of information decoration, smart lights are used to convey specific detailed information, such as: the specific time information becomes a difficult point in the environment display design and information visualization technology.

The existing light information display technology is also applied to different situations such as family life, office work, social contact and the like. For example: 1. the real-time information such as traffic congestion condition, real-time weather condition, stock market quotation and the like is displayed by using monochromatic light. But all use the single area, single color attribute of the lamp to correspond to the corresponding information; the information expressed is limited to simple high, low, hot, cold, yes, no, etc. 2. Various light patterns are used for representing different information, but the abstract light patterns are translated into specific detailed information by means of the handheld terminal in a close interaction area, namely a method for conveying the specific detailed information by means of another screen.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a time information visualization expression system based on lamplight, which expresses and transmits specific time information based on lamplight, a space with a luminous body in a lampshade is divided into two areas, one area is used as a reference area, the other area is used as a comparison area, an independent luminous source is arranged in each area space, the two luminous sources can independently emit different lights, the two area spaces generate light comparison by utilizing the different lights emitted by the two luminous sources, and the light comparison can well express the specific time information.

In the invention, the light of the two independent light emitting sources has the same chromaticity and brightness, and the relative saturation is different, and the light of the reference area is taken as the reference, the larger the difference between the saturation of the light of the contrast area and the saturation of the reference light is, the longer the representation time is, and the smaller the difference is, the closer the representation time is.

On the basis of setting the chromaticity and the brightness of reference light and the time corresponding to the reference light for a lighting system, the reference area can transmit the corresponding chromaticity and the brightness, the saturation is 0 from the beginning and is changed to be 100 percent, namely the reference light is close to white light from the beginning and is changed to be the same as the reference light, the light of the two areas is completely the same, the time is 0, and dynamic contrast is generated by dynamically changing the projection light of the corresponding area in the set time, so that a user can determine the specific time in real time.

In order to achieve the technical purpose and achieve the technical effect, the invention is realized by the following technical scheme:

a light-based time information visual representation system, comprising: the lamp shade with set up the inside bracket component of lamp shade, the bracket component is used for placing the light source, the bracket component includes:

the bottom plate is arranged at the bottom end of the bracket assembly;

the first bracket is supported by the bottom plate and comprises two first supporting legs and a first plane supported by the two first supporting legs, and a first independent light source is arranged on the first plane;

a second bracket supported by the first plane, the second bracket including two second legs and a second plane supported by the two second legs;

a third support supported by the second plane, the third support including two third legs and a third plane supported by the two third legs, a second independent light source being disposed on the third plane;

the space in the lampshade is divided into two regions by the second plane serving as a partition board, the region below the second plane serves as a reference region, the region above the second plane serves as a contrast region, the light emitted by the first independent light source serves as reference light, the reference region transmits reference light with corresponding chromaticity, brightness and saturation of 100%, the light emitted by the second independent light source in the contrast region changes the saturation along with time within a set time period, the saturation of the light in the contrast region is 0 at the beginning and changes into the light with the saturation of 100%, the light in the contrast region changes into the same light as the reference light during the change of the saturation, dynamic contrast is generated by dynamically changing the projection light in the contrast region within the set time, and the specific time can be determined in real time.

In a preferred embodiment of the present invention, the lamp further comprises a space between the two end edges of the second plane and the inner wall of the lamp cover, so that the light between the two areas of the reference area and the contrast area is crossed, and the light projected from the boundary of the reference area and the contrast area is soft.

In a preferred embodiment of the present invention, the second plane is a medium density fiberboard, and the surface of the second plane is sprayed with a white paint.

In a preferred embodiment of the present invention, the thickness of the second plane is 2-4mm.

In a preferred embodiment of the present invention, the first independent light source and the second independent light source are programmable full-color LED strips.

In a preferred embodiment of the present invention, the first and third supports are organic glass supports, and the thickness of the first and third supports is 4mm.

In a preferred embodiment of the present invention, further comprising, a light dynamic change program,

the lamplight dynamic change kernel program segment:

void settimerColor (int seconds, int hue)// seconds is the time input by the user, and hue are the chromaticity and brightness of the reference light input by the user

{

rgbLamps [ REFERENCE _ LAMP ] - > hsbTo (hue, 255, hue, DEFAULT _, DURATION); setting the chroma and brightness of the reference light source and setting the saturation as 100%

rgbLamps [ TIMER _ LAMP ] - > setHSB (hue, 0, hue, true); setting initial value of comparison area light source, chroma and brightness identical to those of reference light source, and initial saturation of 0

rgbLamps [ TIMER _ LAMP ] - > update (); v/updating the contrast area light Source with the initial value

Signaled length duration = count 32_ t (seconds) × 1000; v/converting the time of user input to milliseconds

rgbLamps [ TIMER _ LAMP ] - > saturrationTo (255, duration); v/changing the saturation of the light source in the contrast area by 100% over time

}。

The invention has the beneficial effects that:

the invention relates to a time information visualization expression system based on lamplight, which expresses and transmits specific time information based on lamplight, divides a space with a luminous body in a lampshade into two regions, wherein one region is used as a reference region, the other region is used as a comparison region, an independent luminous source is arranged in each region space, the two luminous sources can independently emit different lights, the two region spaces generate light comparison by utilizing the different lights emitted by the two luminous sources, and the light comparison can well express the specific time information. The system enriches the range of the light expression information, does not need to translate abstract light patterns into specific detailed information in a close-distance interaction area by means of the handheld terminal when expressing different information, and does not need to convey the specific detailed information by means of an additional screen.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

the LED lamp comprises a lamp shade 1, a lamp shade 2, a bracket assembly 20, a bottom plate 21, a first bracket 211, a first support leg 212, a first plane 22, a second bracket 221, a second support leg 222, a second plane 23, a third bracket 231, a third support leg 232, a third plane 3, a first independent light source and a second independent light source 4.

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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, embodiment 1 discloses a time information visualization expression system based on light, which mainly includes: the lamp cover 1 and the bracket assembly 2, the bracket assembly 2 is disposed in the inner space of the lamp cover 1, in order to divide two regions in the inner space of the lamp cover 1, the bracket assembly 2 is structured to form two separated spaces and provide support for two independent light sources.

Specifically, the above-mentioned bracket assembly includes: a base plate 20, a first bracket 21, a second bracket 22, and a third bracket 23.

The bottom plate 20 is a bottom supporting member of the rack assembly 2; the first bracket 21 is disposed on the base plate 20, the first bracket 21 is supported by the base plate 20, the first bracket 21 includes two first legs 211 and a first plane 212 supported by the two first legs 211, and a first independent light source 3 is disposed on the first plane 212, that is, the first plane 212 provides the first independent light source 3 as a supporting portion.

Each part of above-mentioned first support is organic glass material, and thickness is 4mm.

The second bracket 22 is disposed on the top of the first bracket 21, that is, the second bracket 22 is supported by the first plane 212, the second bracket 22 includes two second legs 221 and a second plane 222 supported by the two second legs 221, and the second legs are made of organic glass and have a thickness of 4mm.

The second plane 221 is used as a partition to divide the space in the lamp housing 1 into two regions, the second plane 221 is a medium density fiberboard, the thickness is selected to be 2-4mm, and white paint is sprayed on the surface of the second plane 221 to ensure that the light of the light source can be projected normally. The edges of the two ends of the second plane 221 are spaced from the inner wall of the lampshade 1 to make the light between the reference area and the contrast area cross each other, and the light projected from the boundary of the reference area and the contrast area is softer.

The third holder 23 is placed on the second holder 22, that is, the third holder 23 is supported by the second plane 222, the third holder 23 includes two third legs 231 and a third plane 232 supported by the two third legs 231, and a second independent light source 4 is provided on the third plane 232.

The second plane 222 is a partition plate that divides the space in the globe 1 into two regions, the region below the second plane 222 is a reference region, the region above the second plane 222 is a contrast region, the light emitted from the first individual light source 3 is reference light, the reference region transmits reference light having 100% saturation, luminance, and saturation, and the light emitted from the second individual light source 4 in the contrast region changes the saturation with time in a predetermined period of time, and at the beginning, the saturation of the light in the contrast region is 0 and changes to 100% saturation, and during the change in the saturation, the light in the contrast region changes to the same light as the reference light, and dynamic contrast is generated by projecting light in the dynamic contrast region in a predetermined period of time, so that the specific time can be determined in real time.

The dynamic change of the light is needed to be realized, different chromaticity and brightness are needed to be set according to the requirements of users, and the time is needed to correspond to the requirements. Therefore, a programmable full-color LED strip is used as an independent light source. An independent LED lamp strip is respectively arranged in the two areas. The first independent light source 3 is arranged on the first plane 212, the second independent light source 4 is arranged on the third plane 232, the two light emitting sources are connected through the control panel, the light emitting and dynamic change of the two light emitting sources are controlled through a program segment, and the two light emitting sources can communicate with the input end of a user through the connected Bluetooth module, so that the two light emitting sources obtain the chromaticity, the brightness and the corresponding time set by the user.

When the user uses the lighting system, the user can select the chromaticity and the brightness of the reference light and set the time correspondingly expressed by the reference light through the user input terminal capable of communicating with the lighting system.

The principle of the embodiment: the invention relates to a time information visualization expression system based on lamplight and a lamplight dynamic change program.

The light of the two independent luminous sources has the same chromaticity and brightness, the relative ratio is different saturation, and the larger the difference between the saturation of the light of the reference area and the saturation of the reference light is, the longer the representation time is, and the smaller the difference is, the closer the representation time is.

On the basis of setting the chromaticity and the brightness of reference light and the time corresponding to the reference light for a lighting system, the reference area can transmit corresponding chromaticity and brightness, the saturation is changed to be 100% from 0, namely the reference area is close to white light from the beginning, the reference area is changed to be the same as the reference light, the light of the two areas is completely the same, the time is 0, and dynamic contrast is generated by dynamically changing the projection light of the corresponding area within the set time, so that a user can determine the specific time in real time.

Example 2

Embodiment 2 discloses a light dynamic change program, which specifically includes the following steps:

light dynamic change kernel program segment:

void settimerColor (int seconds, int hue)// seconds is the time input by the user, hue and hue are the chromaticity and brightness of the reference light input by the user

{

rgbLamps [ REFERENCE _ LAMP ] - > hsbTo (hue, 255, hue, DEFAULT _, DURATION); setting the chroma and brightness of the reference light source and setting the saturation as 100%

rgbLamps [ TIMER _ LAMP ] - > setHSB (hue, 0, hue, true); setting and comparing initial values of regional light sources, wherein the chromaticity and the brightness are the same as those of a reference light source, and the initial saturation is 0

rgbLamps [ TIMER _ LAMP ] - > update (); v/updating the contrast area light Source with the initial value

Signaled length duration = count 32_ t (seconds) × 1000; v/converting the time of user input to milliseconds

rgbLamps [ TIMER _ LAMP ] - > saturrationTo (255, duration); v/changing the saturation of the light source in the contrast area by 100% over time

}。

The system in the embodiment enriches the range of the light expression information, and when different information is expressed, the abstract light patterns are not required to be translated into specific detailed information in a short-distance interaction area by means of the handheld terminal, and the specific detailed information is not required to be conveyed by an additional screen.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A time information visualization expression system based on lamplight is characterized by comprising: the lamp shade with set up the inside bracket component of lamp shade, the bracket component is used for placing the light source, the bracket component includes:

the bottom plate is arranged at the bottom end of the bracket component;

a first bracket supported by the base plate, the first bracket comprising: the light source comprises at least two first supporting legs and a first plane supported by the first supporting legs, wherein a first independent light source is arranged on the first plane;

a second bracket supported by the first plane, the second bracket comprising: at least two second legs and a second planar surface supported by the second legs;

a third cradle supported by the second plane, the third cradle comprising: at least two third legs and a third plane supported by the third legs, a second independent light source being disposed on the third plane;

the space in the lampshade is divided into two areas by the second plane as a partition board, the area below the second plane is used as a reference area, the area above the second plane is used as a contrast area, the light emitted by the first independent light source is reference light, the reference area transmits reference light with corresponding chromaticity, brightness and saturation of 100%, the light emitted by the second independent light source in the contrast area changes the saturation along with time in a set time period, the saturation of the light in the contrast area is 0 and changes into the light with the saturation of 100% at the beginning, the light in the contrast area changes into the same light as the reference light in the saturation changing process, and the light projected by the dynamic change contrast area generates dynamic contrast in the set time, so that the specific time can be determined in real time.

2. A visual expression system of time information based on lamplight as claimed in claim 1, wherein a space is formed between the edges of the two ends of the second plane and the inner wall of the lampshade, so that light rays between the two areas of the reference area and the contrast area are crossed, and the light rays projected from the boundary of the reference area and the contrast area are soft.

3. The visual expression system of time information based on light of claim 2, characterized in that the second plane is a medium density fiberboard, and the surface of the second plane is sprayed with white paint.

4. A visual representation system of time information based on light according to claim 3, characterized in that the thickness of said second plane is 2-4mm.

5. The light-based time information visualization expression system according to claim 1, wherein the first independent light source and the second independent light source are both programmable full-color LED strips.

6. The light-based time information visualization expression system according to claim 1, wherein the first support and the third support are organic glass supports, and the thickness of the first support and the third support is 4mm.

Images