CN106304535B - Lighting control user interface and lighting control system - Google Patents
Lighting control user interface and lighting control system Download PDFInfo
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- CN106304535B CN106304535B CN201510324987.7A CN201510324987A CN106304535B CN 106304535 B CN106304535 B CN 106304535B CN 201510324987 A CN201510324987 A CN 201510324987A CN 106304535 B CN106304535 B CN 106304535B
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Abstract
The Lighting control user interface and lighting control system of adjustment operation of the operation of control model and the light characteristic of light source can seamlessly be carried out by providing user.Have: control unit (170) controls the light characteristic of light source;First movable part (120) can be displaced on establishing corresponding multiple mode selective regions (110) with multiple control models respectively depending on the user's operation;And second movable part (130), it can be depending on the user's operation, it is displaced on the first movable part (120), control unit (170), it selects to establish corresponding control model with the mode selective region by the first movable part (120) overlapping among multiple mode selective regions (110), according to the displacement of the second movable part (130), light characteristic corresponding with the control model selected is controlled.
Description
Technical field
The present invention relates to Lighting control user interface and lighting control systems.
Background technique
It is well known that the light output for the light that light source issues and the relationship of colour temperature, affect to the psychology of people.For example,
The light (for example, bluish light of colour temperature 6500K) high for colour temperature is brought in the case where its light output height to people salubrious
Impression still brings melancholy impression in the case where its light output is low to people.Also, for example, the light (example low for colour temperature
Such as, the reddish light of colour temperature 2000K), sultry impression is brought to people in the case where its light output height, still, in its light
Export it is low in the case where tranquil impression is brought to people.In this way, according to the combination of light output and colour temperature, people is to its light sensation to relaxing
Clothes are uncomfortable.It then,, can be to make one to light sensation to comfortable there are known controller for example, such as patent document 1
The light output of the light of mode and light source output changes colour temperature in linkage.
(existing technical literature)
(patent document)
Patent document 1: Japanese Unexamined Patent Publication 2010-176986 bulletin
The controller of patent document 1, operates operation portion, (same so as to change the size of light output of light source
Shi Biangeng colour temperature).However, for example, there is the regulation only adjusted among multiple light characteristics (light output, colour temperature and photochromic etc.)
The mode of light characteristic or multiple control models of whole modes for adjusting multiple light characteristics in linkage etc. in the case where, need
It is respectively controlled the change operation of mode and adjustment (such as change of the size of the light output) operation of light characteristic.
Summary of the invention
Then, the operation of control model and the light of light source can be seamlessly carried out the object of the present invention is to provide user
The Lighting control user interface and lighting control system of the adjustment operation of characteristic.
The Lighting control user interface that one embodiment of the present invention is related to, has: control unit, to the light characteristic of light source
It is controlled;First movable part can establish corresponding multiple moulds depending on the user's operation with multiple control models respectively
It is displaced in formula selection region;And second movable part, it can be displaced on first movable part, institute depending on the user's operation
Control unit is stated, selection is built with the mode selective region Chong Die by first movable part among the multiple mode selective region
Corresponding control model is found, according to the displacement of second movable part, to light characteristic corresponding with the control model selected
It is controlled.
The lighting control system that one embodiment of the present invention is related to has the Lighting control user interface.
The Lighting control user interface and lighting control system, user that one of embodiment according to the present invention is related to can
Seamlessly carry out the operation of control model and the adjustment operation of the light characteristic of light source.
Detailed description of the invention
Fig. 1 is the structure chart for showing an example of the lighting control system that embodiment is related to.
Fig. 2 is the figure for showing an example of display for the touch panel display that embodiment is related to.
Fig. 3 is the flow chart for showing an example of work for the lighting control interface that embodiment is related to.
Fig. 4 is the explanation of the work of the control unit for the displacement by the first movable part and the second movable part that embodiment is related to
Figure.
Fig. 5 is the explanatory diagram of the work of the control unit when scene storage unit that embodiment is related to is selected by user.
Fig. 6 is the work of the Lighting control user interface when control model for the control unit selection that embodiment is related to is changed
Explanatory diagram.
Fig. 7 is the figure for showing the range of chromaticity coordinate of the main light source that embodiment is related to and secondary light source change.
Fig. 8 is the figure for showing the luminaire that embodiment is related to and Lighting control user interface.
Fig. 9 is the explanatory diagram of the performance in the illumination space by luminaire that embodiment is related to.
Figure 10 is the explanatory diagram for the prespecified rule that embodiment is related to.
Specific embodiment
Hereinafter, the Lighting control user interface and lighting control system, utilization that are related to for the embodiment of the present invention are attached
Figure is described in detail.Moreover, embodiment explained below, shows that a preferred specific example of the invention.Therefore, with
Under embodiment shown in numerical value, shape, material, constituent element, the allocation position of constituent element and connection form etc. be one
A example, rather than limit spirit of the invention.Therefore, for it is in the constituent element of embodiment below, the present invention is shown
Upper concept independent claims in do not have record constituent element, illustrated as arbitrary constituent element.
Also, each figure is ideograph, the figure not necessarily tightly shown.Also, in each figure, to identical structure
Identical symbol is enclosed at component.
(embodiment)
Hereinafter, being illustrated for embodiment using Fig. 1 to Figure 10.
[structure of lighting control system]
Fig. 1 is the structure chart for showing an example of the lighting control system 10 that embodiment is related to.
Then, illustrate to change the light output of white light and the specific method of colour temperature.Main light source 20, as shown in figure 1, for example,
With first light source 21 and second light source 22.First light source 21 makes indigo plant for example, being made of blue led and yellow fluorophor
The illumination of color LED is mapped to yellow fluorophor to export the light of yellow.Moreover, first light source 21, mixes the blue from blue led
Light and the light of yellow from yellow fluorophor export white light.First light source 21, for example, the colour temperature of output 6500K is white
Light.Second light source 22 is equally made of blue led and yellow fluorophor with first light source 21, still, for example, because addition is red
Color fluorophor and colour temperature are adjusted to low.Second light source 22, for example, the white light of the colour temperature of output 2000K.Moreover, main light source 20,
By the white light from first light source 21 and the white light from second light source 22, exported with defined light output and ratio.According to
This, main light source 20 is able to carry out the change of the light output and colour temperature of white light.Specifically, main light source 20, for example, can be with
Defined light output exports the white light of 2000K to 6500K.Moreover, the white light that first light source 21 and second light source 22 export
Colour temperature respectively, be not limited only to 6500K and 2000K.
Then, illustrate the photochromic specific method for changing colored light.Secondary light source 30, as shown in figure 1, for example, by red
LED31, green LED 32 and blue led 33 are constituted.Secondary light source 30 will come from red LED 31, green LED 32 and blue
The light of LED33 is exported with defined ratio, thus allows for the photochromic change of colored light.
In this way, in the state that the white light exported with main light source 20 is to irradiate the major part for illuminating space, with secondary light source 30
Therefore the colored light of output shows illumination space by the colored light that secondary light source 30 exports to irradiate a part in illumination space.It is right
Performance in illumination space, is described in detail using aftermentioned Fig. 9.
Lighting control user interface 100 is, such as terminal installation, specifically, being smart phone or tablet PC
The portable terminal of (Personal Computer) etc..Lighting control user interface 100 has, touch panel display 101 and
Control unit 170.
The portion GUI 180 carries out output corresponding with operation (input) of user that touch panel display 101 receives.Example
Such as, the portion GUI 180 makes the defined region of touch panel display 101 shine according to input.Also, for example, the portion GUI 180, is pressed
Make to export determination section 40 according to input and determines the photochromic of the light output of white light, colour temperature and colored light.
Moreover, Lighting control user interface 100 can also be not to be portable terminal.For example, Lighting control user interface 100
It is also possible to that the remote controler etc. of the wall in room is arranged in.Also, Lighting control user interface 100 can also be with, with it is wired come with
Main light source 20 and secondary light source 30 are communicated.Also, Lighting control user interface 100 can also be it is aobvious not have touch panel
Show device 101, and has the operation portion being made of physical switch.
[display of touch panel display]
Then, illustrate an example of the display for the touch panel display 101 that Lighting control user interface 100 has
Son.
Fig. 2 is the figure for showing an example of display for the touch panel display 101 that embodiment is related to.
Multiple mode selective regions 110 have, for example, mode selective region 110a to 110c.In the present embodiment, multiple
Mode selective region 110 is, for example, the image shown in touch panel display 101.Mode selective region 110a to 110c,
It is configured adjacently.Specifically, mode selective region 110a to 110c, is matched along a direction (for example, longitudinal direction of Fig. 2)
It sets, mode selective region 110a and mode selective region 110b are configured adjacently, mode selective region 110b and mode selective region
110c is configured adjacently.As shown in Figure 2, multiple mode selective regions 110 respectively have, such as rectangular shape.Also, it is multiple
Mode selective region 110 establishes with multiple control models corresponding respectively.Multiple control models include, for example, the first control mould
Formula, the second control model and third control model.Mode selective region 110a is established pair with such as the first control model
It answers.Mode selective region 110b is established corresponding with such as the second control model.Mode selective region 110c, with such as third
Control model establishes correspondence.Here, illustrating the first control model to third control model.
In the first control model, the light output of white light as light characteristic, that main light source 20 exports only is changed.Second
In control model, the light output and colour temperature of the white light that as light characteristic, main light source 20 exports are changed.In third control model
In, light output and colour temperature and the colored light of secondary light source 30 output of the change as light characteristic, the output of main light source 20 white light
It is photochromic.The light output of white light, colour temperature and colored light it is photochromic, be determined respectively according to prespecified rule.But
The light output of white light, colour temperature and colored light it is photochromic among more than two light characteristics controlled in the case where (this
In embodiment, the second control model and third control model), light characteristic is determined according to prespecified rule.Specifically,
In the second control model, if the light output for the white light that main light source 20 exports is changed, main light source is changed according to its light output
The colour temperature of the white light of 20 outputs.In third control model, if the light output for the white light that main light source 20 exports is changed, according to
The colored light that its light output changes the colour temperature for the white light that main light source 20 exports and secondary light source 30 exports it is photochromic.
Moreover, multiple mode selective regions 110 also can have, for example, two mode selective regions, multiple control models
Also it may include, two control models.For example, multiple control models also may include, first mode and the third mode or second
Mode and the third mode etc..Also, multiple mode selective regions 110 also can have, for example, more than four model selection areas
Domain, multiple control models also may include, more than four control models.
First movable part 120 can be displaced on multiple mode selective regions 110 depending on the user's operation.In this implementation
In example, the first movable part 120 is, for example, on one side by user's touch, while the upper and lower that exists on multiple mode selective regions 110
To displacement, the image of movable item that is shown in touch panel display 101.As shown in figure 1, the first movable part 120, with mode
Selection region 110 is same, has for example rectangular shape.For the first movable part 120, carried out using aftermentioned Fig. 4 detailed
Explanation.
Second movable part 130 can be displaced on the first movable part 120 depending on the user's operation.That is, second can
Dynamic portion 130, is configured to one with the first movable part 120.In the present embodiment, the second movable part 130 is, for example, one side quilt
It is user's touch, on one side the left and right directions displacement on the sliding block on the first movable part 120, aobvious in touch panel display 101
The image of the handle (mentioning button) shown.As shown in Figure 2, the second movable part 130 has for example rectangular shape.It is movable for second
Portion 130 is described in detail using aftermentioned Fig. 4.
Multiple scene storage units 150 have such as scene storage unit 150a to 150c.In the present embodiment, multiple scenes are deposited
Storage portion 150 is, for example, image being touched by user, showing in touch panel display 101.As shown in Figure 2, multiple scenes
Storage unit 150 is respectively provided with for example rectangular shape.Such as scene 1 is shown in scene storage unit 150a.In scene storage unit
150b shows such as scene 2.Such as scene 3 is shown in scene storage unit 150c.For scene storage unit 150, utilization is aftermentioned
Fig. 5 is described in detail.
It turns off the light display unit 161, (such as being touched by user) is selected, thus the key light for having lighting control system 10
Source 20 and secondary light source 30 are turned off the light.When main light source 20 (and secondary light source 30) is turned off the light, display unit 161 of turning off the light, such as shine, from
And it informs the user main light source 20 (and secondary light source 30) and turns off the light.
In the present embodiment, lighting display unit 160 and display unit 161 of turning off the light be, for example, touched by user, touch
The image shown on panel display 101 has for example rectangular shape as shown in Figure 2.
[work of Lighting control user interface]
Then, illustrate the work of Lighting control user interface 100.
Fig. 3 is the flow chart for showing an example of work for the lighting control interface 100 that embodiment is related to.
Firstly, control unit 170 (portion GUI 180), selection among multiple mode selective regions 110 by the first movable part
The mode selective region 110 of 120 overlappings establishes corresponding control model (S101).
Moreover, control unit 170 (output determination section 40), displaced position pair according to the second movable part 130 with select
The corresponding light characteristic of control model is controlled (S102).
For the displacement by the first movable part 120 and the second movable part 130 in step S101 and step S102
Work, is described in detail using Fig. 4.
Fig. 4 is the control unit 170 for the displacement by the first movable part 120 and the second movable part 130 that embodiment is related to
The explanatory diagram of work.In step s101, specifically, control unit 170 (portion GUI 180), selects touch panel viewed from above aobvious
Show when device 101 established with the mode selective region 110 of most regions overlappings among the region of the first movable part 120 it is corresponding
Control model.Moreover, the portion GUI 180, is highlighted among multiple display sections 140 and selects with by the first movable part 120
The corresponding display section 140 of control model.
In (a) of Fig. 4, the first movable part 120 is when viewed from above, Chong Die with mode selective region 110b and 110c, but
It is that most region among the region of the first movable part 120 is Chong Die with mode selective region 110c.Therefore, the portion GUI 180, choosing
Select third control model.Also, the portion GUI 180, for example, by changing color, to be highlighted corresponding with third control model
Display section 140c.Accordingly, user is able to know that third control model is selected.Moreover, shown in (a) of user such as Fig. 4,
For example, being displaced the first movable part 120 downwards with finger.
It is shown in (b) of Fig. 4, the first movable part 120, second after the first movable part 120 is displaced downwards is movable
The state of portion 130 and display section 140.First movable part 120, when viewed from above, with mode selective region 110b and
110c overlapping, still, most region among the region of the first movable part 120 is Chong Die with mode selective region 110b.Therefore,
The portion GUI 180 selects the second control model.Also, the portion GUI 180, for example, by changing color, to be highlighted and third
The corresponding display section 140c of control model.Accordingly, user is able to know that control model is changed to from third control model
Two control models.Moreover, the portion GUI 180, can also make flashing of display section 140 corresponding with the control model selected etc.
To be highlighted.Then, illustrate special to the corresponding light of the control model selected with the first movable part 120 in step s 102
Work when property is controlled.
In step s 102, for example, exporting determination section 40 in the case where the portion GUI 180 selects the first control model,
When second movable part 130 gets over right direction displacement, the light output for the white light for more exporting main light source 20 is got higher, more to the left
To when displacement, the light output for the white light for more exporting main light source 20 is lower.Also, for example, in second control of the selection of the portion GUI 180
In the case where molding formula, determination section 40 is exported, when the second movable part 130 gets over right direction displacement, more makes main light source 20 defeated
The light output of white light out is got higher, and further, gets higher the colour temperature of white light in linkage, to make one to feel comfortable.Also, second
When movable part 130 gets over left direction displacement, determination section 40 is exported, the light output for the white light for more exporting main light source 20 is lower,
Further, the colour temperature of white light is made to be lower in linkage, to make one to feel comfortable.For example, selecting third control model in the portion GUI 180
In the case where, determination section 40 is exported, when the second movable part 130 gets over right direction displacement, more exports main light source 20 white
The light output of light is got higher, and further, gets higher the colour temperature of white light in linkage, the photochromic linkage for the colored light for exporting secondary light source 30
Ground becomes cool colour, to make one to feel comfortable.Also, when the second movable part 130 gets over left direction displacement, export determination section
40, the light output for the white light for more exporting main light source 20 is lower, and further, the colour temperature of white light is made to be lower in linkage, makes secondary light
The photochromic of the colored light that source 30 exports becomes warm colour in linkage, to make one to feel comfortable.In this way, with the second movable part 130
Displacement corresponds to, and the light characteristic of the light source for the control model selected changes.
It is shown in (c) of Fig. 4, user will be such that the second movable part 130 is displaced, thus to selecting with the portion GUI 180
The state that the corresponding light characteristic of second control model is controlled.
It is shown in (d) of Fig. 4, the first movable part 120, second after the displacement of 130 right direction of the second movable part can
The state of dynamic portion 130 and display section 140.
In this way, control model is changed to the second control model from third control model in Fig. 4, determination section 40 is exported, is made
The light output for the white light that main light source 20 as light characteristic corresponding with the second control model exports is got higher, and joins the colour temperature of white light
It gets higher dynamicly, to make one to feel comfortable.
Moreover, in Fig. 4, when the first movable part 120 is displaced by, user touches the first movable part 120 to be displaced, second
When movable part 130 is displaced by, user touches the second movable part 130 to be displaced, and still, is not limited only to this.For example, it can be,
When user touches the second movable part 130, it is displaced the first movable part 120 and the second movable part 130.For example, it can be users
When touching the second movable part 130, in the case where variation above and below the finger of touch, the displacement of the first movable part 120.Also, user
When touching the second movable part 130, in the case where finger of touch or so changes, the displacement of the second movable part 130.Accordingly, user
The first movable part 120 and the second movable part 130 can be made to be displaced with primary touch.
Also, the movable direction of the first movable part 120 and the movable direction of the second movable part 130 intersect.As described above, the
One movable part 120 can be displaced in above-below direction, and the second movable part 130 can be displaced in left and right directions.For example, movable first
The movable direction in portion 120 and the movable direction of the second movable part 130 make the first movable part 120 close in the case where parallel
When shifting, wrong the case where making the second movable part 130 be displaced is understood.It equally, can be wrong when being displaced the second movable part 130
The case where being displaced the first movable part 120.It is preferred, therefore, that movable direction and the second movable part of the first movable part 120
The intersecting angle in 130 movable direction is, 90 degree or close to 90 degree.
Then, illustrate the work of the control unit 170 when scene storage unit 150 is selected by user.
Fig. 5 is the explanatory diagram of the work of the control unit 170 when the scene storage unit 150 that embodiment is related to is selected by user.
Control unit 170 (portion GUI 180), scene storage unit 150 select (touch) by user, thus storage or reproduction first
The displaced position of movable part 120 and the second movable part 130.For example, user to scene storage unit 150 carry out touch 2 seconds with
In the case where upper, the portion GUI 180 stores the displaced position of the first movable part 120 and the second movable part 130.Also, for example,
User carries out in the case where touching less than 2 seconds scene storage unit 150, the portion GUI 180, reproduces the first movable part 120 and second
The displaced position of movable part 130.Specifically, carrying out work below.
It shows, scene storage unit 150a, is touched such as 2 seconds or more by user, the portion GUI 180 in (a) of Fig. 5, storage is existing
The case where displaced position of first movable part 120 of shape and the second movable part 130.That is, the portion GUI 180, by status
The displaced position of first movable part 120 and the second movable part 130, which is mapped, to be stored to scene storage unit 150a.At this point, GUI
Portion 180, in order to show scene storage unit 150a by touch 2 seconds or more, for example, it is also possible to store the scene touched to user
Portion 150a shine etc., to be highlighted.
Then, it is shown in (b) of Fig. 5, the first movable part 120 and the second movable part 130 shown in (a) of Fig. 5
The case where displaced position, state after being changed by user.If (b) of Fig. 5 is shown, the first movable part 120 is displaced downwards, and second
The displacement of 130 left direction of movable part.
Then, the case where showing in (c) of Fig. 5, scene storage unit 150a, being touched such as less than 2 seconds by user.This
When, the portion GUI 180 is touched less than 2 seconds to show scene storage unit 150a to user, for example, it is also possible to make the field touched
Scape storage unit 150a flashing etc., to be highlighted.
Moreover, shown in (d) of Fig. 5, reproduces in (a) of Fig. 5 and storage is mapped to scene storage by the portion GUI 180
The case where displaced position of the first movable part 120 of portion 150a and the second movable part 130.
It is also same as scene storage unit 150a to select for scene storage unit 150b and 150c, thus storage or reproduction
The displaced position of first movable part 120 and the second movable part 130.That is, in the present embodiment, it is possible to store first can
Three displaced positions of dynamic portion 120 and the second movable part 130.Moreover, the first movable part 120 and the second movable part 130
Displaced position can store the memory having in such as Lighting control user interface 100, also can store and is for example servicing
Device etc..
In this way, scene storage unit 150 is easily selected by a user, so as to store or reproduce the first movable part 120 and second
State of a control (light output of white light and the height of colour temperature of the displaced position of movable part 130, i.e. control model and light characteristic
Spend the photochromic of colored light).
Then, (the portable end of Lighting control user interface 100 when the control model for illustrating that the portion GUI 180 selects is changed
End) work.
Fig. 6 is the Lighting control when control model for control unit 170 (portion the GUI 180) selection that embodiment is related to is changed
The explanatory diagram of the work of user interface 100 (portable terminal).
In the case where the selected control model of first movable part 120 is changed due to the displacement of the first movable part 120, shine
Bright control user interface 100 (portable terminal) vibration.Specifically carry out work below.
It is shown in (a) of Fig. 6, user, the first movable part 120 will be made to be displaced downwards, so that the portion GUI 180 be selected
The case where control model selected is changed to the first control model from the second control model.
Moreover, showing in (b) of Fig. 6, the control model that the portion GUI 180 selects is changed to first from the second control model
The case where control model, Lighting control user interface 100 (portable terminal) is vibrated.
In this way, being shone in the case where the selected control model in the portion GUI 180 is changed due to the displacement of the first movable part 120
Bright control user interface 100 (portable terminal) vibration.
[CIE1960UCS chromatic diagram]
Then, illustrate the model of main light source 20 and the chromaticity coordinate on the CIE1960UCS chromatic diagram of the secondary control of light source 30
It encloses.
Fig. 7 is the explanatory diagram of the range for the chromaticity coordinate that the main light source 20 that embodiment is related to and secondary light source 30 change.Fig. 7
(a) be CIE1960UCS chromatic diagram.It is inclined within 0.02 that (b) of Fig. 7 is that black body radiation track shown in Fig. 7 (a) starts
The enlarged drawing on the periphery of poor range.
The range of chromaticity coordinate that main light source 20 changes is, as shown in (a) of Fig. 7, black body radiation track start 0.02 with
Interior deviation range, that is, range 20a.The chromaticity coordinate of the light source of physical presence is not necessarily located on black body radiation track, because
This, setting black body radiation track starts such as 0.02 deviation.Specifically, solid line shows black matrix spoke as shown in (b) of Fig. 7
Penetrate track, dotted line show with line connection black body radiation track start Duv ± 10 respectively, 20 chromaticity coordinate range.Also, it is empty
Line is shown, with the range of the equal chromaticity coordinate of line connection colour temperature.Hereby it is possible to provide the color being not present on black body radiation track
Spend the colour temperature of the white light of coordinate.For example, main light source 20 will in the case where main light source 20 exports the white light that colour temperature is 3000K
Chromaticity coordinate is changed on the dotted line of 3000K shown in (a) of Fig. 7.
Also, the range for the chromaticity coordinate that secondary light source 30 changes is, as shown in (a) of Fig. 7, for example, other than range 20a
Range 30a.For example, chromaticity coordinate is changed to figure by secondary light source 30 in the case where the colored light of secondary light source 30 output warm colour
In range 30b shown in 7 (a).Also, for example, secondary light source 30 output cool colour colored light in the case where, secondary light source
30, chromaticity coordinate is changed in range 30c shown in (a) of Fig. 7.
In this way, main light source 20, changes chromaticity coordinate in range 20a to control the colour temperature of white light, secondary light source 30, in range
Change chromaticity coordinate in range 30a other than 20a, Lai Biangeng colored light it is photochromic.Moreover, the chromaticity coordinate that secondary light source 30 changes
Range, be also possible to the range 30a of scope 20a.
[luminaire]
Then, illustrate the luminaire 50 for including in lighting control system 10 and the photograph controlled luminaire 50
Bright control user interface 100.
Fig. 8 is the figure for showing the luminaire 50 that embodiment is related to and Lighting control user interface 100.
Lighting control user interface 100 will show colour temperature, the light output, Yi Jiyou of the white light that output determination section 40 determines
The photochromic information of coloured light, such as to be wirelessly transferred to main light source 20 and secondary light source 30.
[performance in illumination space]
Then, illustrate by the performance in the illumination space of luminaire 50.
Fig. 9 is the explanatory diagram of the performance in the illumination space 60 by luminaire 50 that embodiment is related to.
If Fig. 9 is shown, luminaire 50, for example, being arranged on the ceiling in illumination space 60.Luminaire 50 is had
The optical axis direction of main light source 20 be the lower section of luminaire 50.Here, the optical axis of main light source 20 is, the light distribution of main light source 20
Central axis.Main light source 20 exports white light as the arrow line of solid line shown in Fig. 9 centered on the optical axis of main light source 20,
Irradiation illumination space 60 is whole.Also, multiple secondary respective optical axis directions of light source 30 that luminaire 50 has are luminaires
The side of tool 50 or the more top compared with the side of luminaire 50.Here, multiple pair respective optical axises of light source 30 are each pairs
The central axis of the light distribution of light source 30.Each pair light source 30, centered on the optical axis of each secondary light source 30, as dotted line shown in Fig. 9
Arrow line export colored light like that, a part (ceiling) in irradiation illumination space 60.In this way, being exported with main light source 20
White light irradiates illumination space 60 come in the state of irradiating the major part in illumination space 60, with the colored light of secondary light source 30 output
A part of (ceiling).Accordingly, user 70 can enjoy the illumination space 60 showed by luminaire 50.At this point, 70 benefit of user
With Lighting control user interface 100, lighting control system 10 is controlled, so as to change from luminaire 50 to illumination
The light characteristic for the light that space 60 is irradiated.For example, wanting the light output for only changing the white light in irradiation illumination space 60 in user 70
In the case of, user 70 selects the first control model via Lighting control user interface 100, only changes the light output of white light.For example,
In the case where user 70 wants the light output and colour temperature of the white light in change irradiation illumination space 60, user 70 is controlled via illumination
User interface 100 processed selects the second control model, changes the light output and colour temperature of white light in linkage.For example, thinking in user 70
Change the light output of white light in irradiation illumination space 60, colour temperature and colored light it is photochromic in the case where, user 70 is via photograph
Bright control user interface 100 selects third control model, in linkage the light output, colour temperature of change white light and the light of colored light
Color.According to the second control model and third control model, light characteristic is changed in linkage, to make one to feel comfortable.
[prespecified rule]
Here, the rule that explanation is prespecified.
Figure 10 is the explanatory diagram for the prespecified rule that embodiment is related to.Figure 10 (a) and (b) in show, people
To the light output of white light when feeling comfortable with white light and colored light come the illumination space irradiated, colour temperature and colored light
A photochromic example.Figure 10 (c) and (d) in show, people to white light and colored light come the illumination space irradiated
A photochromic example for the light output of white light when not feeling well, colour temperature and colored light.
As shown in (a) of Figure 10, for example, the white light low for colour temperature, in the case where its light output is low (dark) to people with
Carry out tranquil impression, people feels comfortable.When with the low white light of light output and colour temperature to irradiate illumination space entirety, into one
Step, if irradiating a part (ceiling or wall etc.) in illumination space with red colored light, people compares prescribed space and feels more
It is tranquil.That is, according to prespecified rule, it is preferred that the light output of white light is lower (dark), and the colour temperature of white light is got over
Low (close to light bulb color), further, photochromic closer red (close to warm colour) of colored light.Also, as shown in (b) of Figure 10,
For example, the white light high for colour temperature, brings salubrious impression to people in the case where its light output high (bright), people feels easypro
Clothes.When with the high white light of light output and colour temperature to irradiate illumination space entirety, further, if being irradiated with blue colored light
The a part in space is illuminated, then people compares prescribed space and feels more clearly.That is, according to prespecified rule, preferably
It is that the light output for the white light that main light source 20 exports is higher (bright), and the colour temperature of white light is higher (close to color of sunshine), further,
Photochromic closer blue (close to cool colour) for the colored light that secondary light source 30 exports.
But as shown in (c) of Figure 10, when with the low white light of colour temperature and light output to irradiate illumination space entirety,
Further, if irradiating a part in illumination space with blue colored light, according to two photochromic mismatches, people compares prescribed space
Do not feel well.Also, as shown in (d) of Figure 10, whole to irradiate illumination space with the high white light of colour temperature and light output
When, further, if irradiating a part in illumination space with red colored light, people compares prescribed space and does not feel well equally.
In this way, prespecified rule, corresponding by the photochromic colored light of the low white light of light output, colour temperature and warm colour
Get up, the photochromic colored light of the high white light of light output, colour temperature and cool colour is mapped.That is, prespecified
Rule be the photochromic correspondence for the colored light for exporting the light output for the white light that main light source 20 exports, colour temperature and secondary light source 30
Get up changed rule.Accordingly, when the second control model is selected, determination section 40 is exported, according to prespecified rule
Then determine light output, the colour temperature of the white light that main light source 20 exports.Also, when third control model is selected, determination section is exported
40, what light output, colour temperature and the secondary light source 30 of the white light exported according to prespecified rule decision main light source 20 exported has
Coloured light it is photochromic.
[effect etc.]
There is the mode for only adjusting the defined light characteristic among multiple light characteristics (light output, colour temperature and photochromic etc.)
Or in the case where multiple control models of whole modes for adjusting multiple light characteristics in linkage etc., exists and be visually difficult to know
Which is being selected according to the lighting controller of mode.
Then, the Lighting control user interface 100 that the present embodiment is related to, has: control unit 170, to the light characteristic of light source
It is controlled;First movable part 120 is establishing corresponding multiple moulds depending on the user's operation with multiple control models respectively
It can be displaced in formula selection region 110;And second movable part 130, it can depending on the user's operation, in the first movable part 120
Upper displacement.Control unit 170 selects and the model selection be overlapped by the first movable part 120 among multiple mode selective regions 110
Region 110 establishes corresponding control model, according to the displacement of the second movable part 130, to corresponding with the control model selected
Light characteristic controlled.
Accordingly, the first movable part 120 that control model is changed due to by operation and adjustment are configured in a manner of being integrally formed
Second movable part 130 of the light characteristic of light source.Moreover, user, can seamlessly operate configured in a manner of being integrally formed
One movable part 120 and the second movable part 130.Therefore, the light of user, the operation and light source that can seamlessly carry out control model are special
Property adjustment operation.
Also, user is displaced the first movable part 120, is overlapped in and establishes corresponding mould with desired control model
Formula selection region 110, so as to select desired control in a manner of being visually readily apparent that from multiple control models
Mode.Moreover, corresponding with the displacement of the second movable part 130, the light characteristic of the light source for the control model selected changes, because
This, user is displaced the second movable part 130, so as to by the setting state of the light characteristic of the light source for the control model selected
It is changed to the state being visually readily apparent that.
Also, the movable direction of the first movable part 120 and the movable direction of the second movable part 130 intersect.
Accordingly, user, it is difficult to generate the maloperation of the first movable part 120 and the second movable part 130, Lighting control user
The operability at interface 100 improves.
Also, multiple control models include at least, and only change the first control mould of the light output of the white light as light characteristic
Formula, change are as the light output of white light and the second control model of colour temperature of light characteristic and change as the white of light characteristic
Any one mode among the light output and colour temperature of light and the photochromic third control model of colored light.Moreover, light output,
Colour temperature and photochromic, determines according to prespecified rule respectively.
Accordingly, user can, only change white light light output, alternatively, change white light light output, colour temperature and colored light
It is photochromic, to make one to feel comfortable.
In turn, Lighting control user interface 100 has, and it is aobvious to establish corresponding multiple modes respectively with multiple control models
Show portion 140, control unit 170 is adjusted and shows that the mode corresponding with the control model selected among multiple display sections 140 is aobvious
Show portion 140.
Hereby it is possible to be readily apparent that the control model selected.
In turn, Lighting control user interface 100 has, scene storage unit 150, is selected in scene storage unit 150 by user
In the case where, the storage of control unit 170 or the displaced position for reproducing the first movable part 120 and the second movable part 130.
Hereby it is possible to simply reproduce the state of light characteristic desired by the user of main light source 20 and secondary light source 30.
Also, Lighting control user interface 100 is the terminal installation for having touch panel display 101, the first movable part
120 and second movable part 130 be the image shown in touch panel display 101.
Accordingly, user can, with touch operation come be easy to make the first movable part 120 and the second movable part 130 displacement, shine
The operability of bright control user interface 100 improves.
And Lighting control user interface 100 (terminal installation) is portable terminal, is controlled because of the displacement of the first movable part 120
In the case that the control model that portion 170 processed selects is changed, portable terminal vibration.
Accordingly, user, in the case where the vibration of the portable terminal of holding, it can be known easily that control model changes.
Also, the lighting control system 10 that the present embodiment is related to has, Lighting control user interface 100.
Accordingly, user also can only change the light output of white light without troublesome operation, alternatively, the light of change white light
Output, colour temperature and colored light it is photochromic, to make one to feel comfortable.
(other embodiments)
More than, for Lighting control user interface of the present invention and lighting control system, according to the embodiment
It is illustrated, still, the present invention is not limited only to the embodiment described.
In the described embodiment, control unit 170 have output determination section 40 be still not limited only to this.For example, luminaire
Tool 50 can also have output determination section 40.
Also, in the described embodiment, mode selective region 110, the first movable part 120, the second movable part 130, mode
Display unit 140, scene storage unit 150, lighting display unit 160 and display unit 161 of turning off the light shape be rectangle, still, not only
It is limited to this, for example, it can be multi-party shape or circles etc..
Also, in the described embodiment, display section 140 are highlighted, and still, are not limited only to this.For example,
When control unit 170 selects defined control model, the first movable part 120 is located to be shown with the mode for corresponding to defined control model
Show the adjacent position in portion 140, therefore, user is able to know that defined control model is selected.Therefore, display section 140
It can be to be not emphasized display.
Also, it in the described embodiment, is arranged and establishes corresponding display section 140 with identical control model
And mode selective region 110 is still not limited only to this.For example, it is also possible to which configuration mode is aobvious on mode selective region 110
Show portion 140.In other words, display shown by display pattern display unit 140 (mode 1 etc.) on mode selective region 110.
Also, in the described embodiment, control unit 170 have selected the region with the first movable part 120 when viewed from above
Among the mode selective regions 110 of most regions overlappings establish corresponding control model, still, be not limited only to this.Example
Such as, control unit 170 do not have because of the region before being displaced to the displacement of the first movable part 120 when viewed from above with the first movable part 120
There is the mode selective region 110 of overlapping, and in the case that a part is also overlapped, it also can choose the mode Chong Die with a part and select
It selects region 110 and establishes corresponding control model.Specifically, the first movable part 120 shown in Fig. 2 is displaced downwards, one
In the case that part is also Chong Die with mode selective region 110a, control unit 170 also can choose and build with mode selective region 110a
Corresponding control model is found.Also, for example, control unit 170, also can choose and be totally overlapped at the first movable part 120
The mode selective region 110 in region establishes corresponding control model.
Also, it in the described embodiment, is provided with three scene storage units 150 and is still not limited only to this.For example, can be with
Two scene storage units 150 below are set, more than four scene storage units 150 also can be set.Also, it can not also set
Set scene storage unit 150.
Also, it in the described embodiment, is still not only limited provided with lighting display unit 160 and display unit 161 of turning off the light
In this.For example, it is also possible to be not provided with lighting display unit 160 and display unit 161 of turning off the light.
Also, in the described embodiment, Lighting control user interface 100 has, and changes light output, the color of white light in linkage
Temperature and photochromic the second control model and third control model of colored light are still not limited only to this.For example, illumination control
User interface 100 processed also can have, separately the light output, colour temperature of change white light and the photochromic control of colored light
Mode.For example, in the case where Lighting control user interface 100 is portable terminal, portable terminal is shaken, to can also cut
It is changed to the photochromic control model of the light output for separately changing white light, colour temperature and colored light.
In addition, implementing form obtained from the various modifications that those skilled in the art expect to embodiment, and do not taking off
Constituent element and function from each embodiment of any combination in the range of spirit of the invention also include come the form realized
In the present invention.
Symbol description
10 lighting control systems
100 Lighting control user interfaces
101 touch panel displays
110, the mode selective region 110a, 110b, 110c
120 first movable parts
130 second movable parts
140,140a, 140b, 140c display section
150,150a, 150b, 150c scene storage unit
170 control units
Claims (8)
1. a kind of Lighting control user interface, has:
Control unit controls the light characteristic of light source;
First movable part can establish corresponding multiple mode choosings depending on the user's operation with multiple control models respectively
It selects and is displaced on region;And
Second movable part can be displaced on first movable part depending on the user's operation,
The control unit selects and the model selection Chong Die by first movable part among the multiple mode selective region
Region establishes corresponding control model, according to the displacement of second movable part, to corresponding with the control model selected
Light characteristic is controlled.
2. Lighting control user interface as described in claim 1,
The movable direction of first movable part and the movable direction of second movable part intersect.
3. Lighting control user interface as claimed in claim 1 or 2,
The multiple control model includes at least appointing among the first control model, the second control model and third control model
One mode,
First control model is only to change the mode of the light output of the white light as the light characteristic,
Second control model is to change the light output of the white light as the light characteristic and the mode of colour temperature,
The third control model is light output and colour temperature and colored light of the change as the white light of the light characteristic
Photochromic mode,
The light output, the colour temperature and described photochromic, determine according to prespecified rule respectively.
4. Lighting control user interface as claimed in claim 1 or 2,
It is also equipped with and establishes corresponding multiple display sections respectively with multiple control models,
The control unit, the mode corresponding with the control model selected being highlighted among the multiple display section are aobvious
Show portion.
5. Lighting control user interface as claimed in claim 1 or 2,
It is also equipped with scene storage unit,
In the scene storage unit situation selected by user, control unit storage or reproduce first movable part and
The displaced position of second movable part.
6. Lighting control user interface as claimed in claim 1 or 2,
The Lighting control user interface is the terminal installation for having touch panel display,
First movable part and second movable part are the images shown in the touch panel display.
7. Lighting control user interface as claimed in claim 6,
The terminal installation is portable terminal,
In the case where the control model of the control unit selection described because of first movable part displacement is changed, the portable end
End vibration.
8. a kind of lighting control system,
The described in any item Lighting control user interfaces for having claim 1 to 7.
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CN108235521B (en) * | 2018-02-09 | 2019-11-05 | 闵泳鑫 | Intelligent lamp and its control method |
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CN1784932A (en) * | 2003-05-07 | 2006-06-07 | 皇家飞利浦电子股份有限公司 | User interface for controlling light emitting diodes |
CN102017804B (en) * | 2008-04-23 | 2014-09-24 | 皇家飞利浦电子股份有限公司 | Light system controller and method for controlling a lighting scene |
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