CN112612560A

CN112612560A - Lighting parameter setting method, application program and lighting device

Info

Publication number: CN112612560A
Application number: CN202011425778.9A
Authority: CN
Inventors: 程亚兵
Original assignee: Hytronik Electronics Co ltd
Current assignee: Hytronik Electronics Co ltd
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2021-04-06

Abstract

The invention discloses a method for setting illumination parameters, which comprises the steps of establishing a parameter value comparison table of an illumination device based on time intervals; in the active setting mode, when the parameter value corresponding to any time period in the parameter comparison table changes, the parameter values of other time periods are automatically adjusted according to a set strategy; the parameter is illuminance, color temperature or brightness level, the parameter value is illuminance value, color temperature value and brightness level value, and the setting strategy is that the illuminance value, the color temperature value or the brightness level value of the lighting device at other time periods are correspondingly increased or decreased by the same amplitude. The invention has the beneficial effect that the original complex setting process becomes very simple. The invention also provides a lamp group lighting parameter setting method, an application program, a storage medium and a lighting device.

Description

Lighting parameter setting method, application program and lighting device

Technical Field

The invention relates to the technical field of illumination, in particular to an illumination parameter setting method, an application program and an illumination system.

Background

The lighting parameters of the lighting device include illuminance, color temperature and brightness; wherein, the illuminance represents the luminous flux received by the surface of the subject per unit area, and the measurement unit is "Lux" (Lux); the color temperature is a unit of measurement representing that a color component is contained in the light, and the unit of measurement is "K" (kelvin); luminance represents the luminous intensity per unit projected area. In practical applications, the brightness is usually adjusted by adjusting the percentage of the output power of the driving power supply (hereinafter referred to as brightness level).

In the intelligent control mode of the lighting device, different parameters including the illuminance, the color temperature and the brightness of the light source can be set according to different time periods in a day, and automatic switching is performed at the set time, for example, a scheme that the day is divided into 12 time periods and the color temperature parameter of the light source is set and adjusted according to the time periods is disclosed in the chinese patent application with the publication number of CN 210403140U (No. [ 0040 ] to [ 0052 ] in the specification).

Because different users have different preferences on lighting effects or because of reasons such as seasonal changes, weather, user moods, etc., sometimes will need to adjust the illuminance, color temperature and brightness parameter of the lighting device, to the above-mentioned needs, the existing technical solution is to reset the illuminance, color temperature and brightness parameter of each time interval of each lamp one by one, its patent is strong and the process is very tedious. In particular, a site may include several lighting devices (hereinafter referred to as a lamp set), and the work load of resetting the illuminance, color temperature and brightness parameters of the lamp set is doubled on the basis of the above.

Therefore, a solution to the above-mentioned problems is needed.

Disclosure of Invention

The invention mainly aims to provide a lamp group lighting parameter setting method, an application program and a lighting system, so as to solve the problem that the lighting parameters of the current lamp group lighting device cannot be rapidly and automatically configured.

The invention adopts the following technical scheme:

in a first aspect, the present invention provides a lighting parameter setting method, including:

establishing a parameter value comparison table of the lighting device based on time periods;

in the active setting mode, when the parameter value corresponding to any time period in the parameter comparison table changes, the parameter values of other time periods are automatically adjusted according to a set strategy;

the parameter is any one of illuminance, color temperature or brightness level, and the parameter value is one of an illuminance value, a color temperature value or a brightness level value corresponding to the parameter.

The scheme of the invention has the advantages that only the parameter value of one time interval needs to be adjusted, and the parameter values of other time intervals are automatically completed, so that the setting process is simplified, and the professional requirement of setting operators is reduced;

further, when the parameter is illuminance and the parameter value is an illuminance value, the setting strategy is that the illuminance values in other periods of the lighting device are correspondingly increased or decreased by the same magnitude when the illuminance value corresponding to any period of the parameter comparison table is changed.

Further, before adjusting the illumination value of the illumination device, it is measured in advance whether the illumination value of the illumination device in the adjusted time interval is within the range of the maximum or minimum illumination limit value of the illumination device, if so, the maximum or minimum illumination limit value of the illumination device is used as a new setting value of the illumination device in the time interval.

Further, when the parameter is a color temperature and the parameter value is a color temperature value, the setting strategy is that when the color temperature value corresponding to any time period in the parameter comparison table changes, the color temperature values of other time periods of the lighting device correspondingly increase or decrease by the same amplitude.

Further, before adjusting the color temperature value of the illumination device, it is measured in advance whether the adjusted time interval color temperature value is within the limit range of the highest or lowest color temperature value of the illumination device, if so, the limit of the highest or lowest color temperature value of the illumination device is used as a new setting value of the time interval color temperature value of the illumination device.

Further, when the parameter is a brightness level and the parameter value is a brightness level value, the setting strategy is that when the brightness level value corresponding to any time period in the parameter comparison table changes, the brightness level values of other time periods of the lighting device correspondingly increase or decrease by the same amplitude.

Further, before adjusting the brightness level value of the illumination device, it is measured in advance whether the adjusted time interval brightness level value is within the limit value range of the highest or lowest brightness level value of the illumination device, if so, the limit value of the highest or lowest brightness level value of the illumination device is used as a new set value of the brightness level value of the illumination device in the time interval.

Further, the increasing or decreasing of the same amplitude is an absolute amplitude value, and the adjusted illuminance or color temperature parameter value or brightness level value is not less than zero.

Alternatively, the increasing or decreasing is by the same magnitude as the relative magnitude value.

The illumination value, color temperature value and brightness level value of the lighting device are also limited by the performance of the lighting device itself, and cannot be lower than zero or higher than the maximum performance limit of the lighting device. The improved scheme has the beneficial effects that the parameter set value is ensured to be consistent with the actual performances of the illuminance, the color temperature and the brightness of the lighting device.

In a second aspect, the present invention provides a method for setting lighting parameters of a lamp set, where the lamp set includes two or more networked lighting devices, and when any one of the lighting devices in the lamp set is set according to any one of the above-mentioned lighting parameter setting methods, the parameters of illuminance, color temperature, or brightness level of other lighting devices in the lamp set are automatically adjusted according to the same policy.

The scheme of the invention has the beneficial effects that only the parameter value of one lighting device in the lamp group needs to be adjusted, and the parameter values of other lighting devices in the lamp group are automatically completed, thereby simplifying the setting process of the lighting parameters of the lamp group.

In a third aspect, the invention provides an application configured for implementing the steps of the above-described lighting parameter setting method.

Further, the parameter value is a light illumination value, a color temperature value or a brightness grade value;

the application program displays a graphical interface during running, and the graphical interface comprises a parameter rhythm curve; the parameter rhythm curve is generated by the lighting device based on a parameter value comparison table of a time period, and is formed by sequentially connecting time as an abscissa, a parameter value as an ordinate and coordinate points; the time is the starting time of the current time period and is the ending time point of the last time period.

Furthermore, the graphical interface further comprises a key, and the key is used for enabling the application program to realize the adjustment of the light illumination value, the color temperature value or the brightness level value by using one key.

The scheme of the invention has the beneficial effects that:

1. by using the application program, the requirements of intelligence, multiple terminals (computers, mobile phones and the like) and remote control can be met;

2. the graphical interface and the rhythm curve can lead the parameter display before and after the adjustment of the lighting device to be more visual; especially, when the parameter value in a certain period is very much, the table method cannot be listed, and the rhythm curve can be displayed by a function curve.

3. The virtual keys in the graphical interface can better accord with the use habits of general users and realize one-key adjustment.

In a fourth aspect, the present invention provides a storage medium, wherein the storage medium stores the above application program.

In a fourth aspect, the present invention provides a lighting device comprising:

a lighting module;

the controller is configured to execute the steps of the lighting parameter setting method or receive an instruction sent by the application program to set the illuminance or color temperature parameter or brightness level value of the lighting device.

Compared with the prior art, the invention has the following advantages: the setting process is simplified, and the professional requirement for setting operators is reduced. Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments 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 to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a flow chart of an embodiment of a method of setting lighting parameters in the present invention;

FIG. 2 is an application program interface before adjusting a illuminance parameter according to an embodiment of a method for setting an illumination parameter;

FIG. 3 is an application program interface after adjusting the illuminance parameter according to an embodiment of a method for setting an illumination parameter in the present invention;

FIG. 4 is a pre-color temperature parameter adjustment application interface of an embodiment of a method for setting lighting parameters in accordance with the present invention;

FIG. 5 is an application program interface after adjustment of color temperature parameters according to an embodiment of a method for setting lighting parameters;

FIG. 6 is an application program interface before brightness level parameter adjustment for an embodiment of a method for setting lighting parameters in accordance with the present invention;

FIG. 7 is an application program interface after adjustment of a brightness level parameter according to an embodiment of a method for setting a lighting parameter of the present invention;

FIG. 8 is a flow chart of one embodiment of a lamp group parameter setting method of the present invention;

fig. 9 is a schematic structural diagram of an embodiment of a lighting device according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, 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

As shown in fig. 1, a flow chart of an embodiment of a method for setting illumination parameters in the present invention is shown.

Step 100, establishing a parameter value comparison table of the lighting device based on time intervals;

s200, in the active setting mode, when the parameter value corresponding to any time interval in the parameter comparison table changes, the parameter values of other time intervals are automatically adjusted according to the set strategy.

The parameter is illuminance, the parameter value is illuminance value,

the increasing or decreasing of the same amplitude is an absolute amplitude value, and the adjusted illumination value is not less than zero; alternatively, the increasing or decreasing is by the same magnitude as the relative magnitude value.

The following table 1 is a comparison table of illuminance parameter values of the lighting device based on time periods in the embodiment;

TABLE 1

Time period	Illuminance value
			0 hour to 6 hours	450Lux
6 th to 10 th	450Lux～570Lux
		10 th to 12 th	570Lux～660Lux
12 th hour to 15 th hour	660Lux～640Lux
		Time
15 to time 17	640Lux～570Lux
		17 th to 21 th	570Lux～500Lux
17 th to 24 th	500Lux～450Lux

In table 1, the illuminance value in some time periods is represented by a section, which indicates that the illuminance changes from the section boundary value 1 to the section boundary value 2 in the time period, and in order to reduce discomfort to the user caused by abrupt changes in illuminance, the optimal speed for changing the illuminance value is selected as the uniform speed adjustment.

Table 2 shows an embodiment of a method for setting illumination parameters, in which when the illumination value from 0 to 6 is increased by 420Lux in an active setting manner, the illumination values in other time periods are increased by 420Lux in an automatic configuration manner, and before the illumination value of the illumination device is adjusted, it is measured in advance whether the illumination value in the adjusted time period is within the maximum or minimum illumination limit range of the illumination device, and if so, the maximum or minimum illumination limit of the illumination device is used as a new setting value of the illumination device in the time period. The maximum illumination limit value of the lighting device in this example is 1000Lux, and the minimum illumination limit value is 0 Lux.

TABLE 2

Time period	Adjusting the front light illumination value	Adjusted illuminance value	Setting mode
					0 hour to 6 hours	450Lux	870Lux	Active setup
6 th to 10 th	450Lux～570Lux	870Lux～990Lux	Automatic configuration
					10 th to 12 th	570Lux～660Lux	990Lux～1000Lux	Automatic configuration
12 th hour to 15 th hour	660Lux～640Lux	1000Lux	Automatic configuration
				Time
15 to time 17	640Lux～570Lux	1000Lux～990Lux	Automatic configuration
				17 th to 21 th		570Lux～500Lux	990Lux～920Lux	Automatic configuration
17 th to 24 th	500Lux～450Lux	920Lux～870Lux	Automatic configuration

The present embodiment also provides an application program configured to implement the steps of the lighting device illuminance parameter setting method described above.

The application program can be installed on a device which can run the application program and is provided with an input module, such as a mobile terminal, a notebook computer, a PC and the like, according to requirements, and the device provided with a touch screen display module is preferably considered.

The application program can meet the requirements of intelligence, multiple terminals (computers, mobile phones and the like) and remote control.

FIG. 2 is a diagram illustrating an embodiment of an application installed on a device having a touch screen display module, the application displaying a graphical interface during operation, the graphical interface including a parametric rhythm curve; the parameter rhythm curve is generated by the lighting device based on a parameter value comparison table of a time period, takes the time as an abscissa and takes the illumination value as an ordinate, and coordinate points are sequentially connected into a curve; the time is the starting time of the current time period and is the ending time point of the last time period. The graphical interface and the rhythm curve can lead the parameter display before and after the adjustment of the lighting device to be more visual; especially, when the parameter value in a certain period is very much, the table method cannot be listed, and the rhythm curve can be displayed by a function curve.

And the graphical interface also comprises a key, and the key is clicked to ↓ or ↓ to represent decreasing or increasing the illumination value. According to the method, the illuminance parameter in any time period is actively configured, and the illuminance parameter can be automatically configured in the other time periods according to the same amplitude, so that the operation step of selecting which time period to adjust the illuminance parameter first can be further omitted in the actual operation of the application program, and the keys ↓or ↓ can be used by the application program to realize the adjustment of the illuminance value by using one key. The virtual keys in the graphical interface can better accord with the use habits of general users.

Fig. 3 is a graph showing the modified luminance value of the rhythm curve of fig. 2, as described above. The maximum value of the rhythm curve ordinate is 1000Lux, because the maximum value of the illumination intensity of the illumination device is 1000 Lux.

Table 3 shows another embodiment of the method for setting lighting parameters, in which when the illuminance value between 0 and 6 is reduced to 50% in the active setting mode, the illuminance values in other time periods are reduced to 50% in the automatic configuration mode,

TABLE 3

Time period	Adjusting the front light illumination value	Adjusted illuminance value	Setting mode
					0 hour to 6 hours	450Lux	225Lux	Active setup
6 th to 10 th	450Lux～570Lux	250Lux～285Lux	Automatic configuration
					10 th to 12 th	570Lux～660Lux	285Lux～330Lux	Automatic configuration
12 th hour to 15 th hour	660Lux～640Lux	330Lux～320Lux	Automatic configuration
				Time
15 to time 17	640Lux～570Lux	320Lux～285Lux	Automatic configuration
				17 th to 21 th		570Lux～500Lux	285Lux～250Lux	Automatic configuration
17 th to 24 th	500Lux～450Lux	250Lux～225Lux	Automatic configuration

Example 2

The parameter is color temperature, the parameter value is color temperature value,

the increasing or decreasing of the same amplitude is an absolute amplitude value, and the set value of the adjusted color temperature parameter is not less than zero; alternatively, the increasing or decreasing is by the same magnitude as the relative magnitude value.

The following table 4 is a color temperature parameter value comparison table based on time periods for the lighting device of the embodiment;

TABLE 4

Time period	Illuminance value
			0 hour to 6 hours	6350K
6 th to 8 th	6350K～8000K
		8 th to 20 th	8000K
20 th to 22 th	8000K～6350K
		22 hours to 24 hours	6350K

In table 1, the color temperature values in some time periods are represented by intervals, which indicates that the color temperature changes from an interval boundary value 1 to an interval boundary value 2 in the time period, and the optimal color temperature value changing speed is selected as uniform speed adjustment in order to reduce discomfort caused by rapid color temperature changes to users.

Table 5 shows an embodiment of a method for setting lighting parameters, wherein when the color temperature values from 0 to 6 are decreased by 5250K in an active setting manner, the color temperature values in other time periods are increased by 5250K in an automatic configuration manner, and before adjusting the color temperature value of the lighting device, it is measured in advance whether the adjusted color temperature value in the time period is within the maximum or minimum color temperature limit range of the lighting device, and if so, the maximum or minimum color temperature limit of the lighting device is used as a new setting value of the color temperature of the lighting device in the time period. The maximum color temperature limit value of the lighting device in the embodiment is 8000K, and the minimum color temperature limit value is 2000K.

TABLE 5

Time period	Adjusting the color temperature value before	Adjusted color temperature value	Setting mode
				0 hour to 6 hours	6350K	2000K	Active setup
6 th to 8 th	6350K～8000K	2000K～2750K	Automatic configuration
				9 th to 20 th	8000K	2750K	Automatic configuration
20 th to 22 th	8000K～6350K	2750K～2000K	Automatic configuration
				22 hours to 24 hours	6350K	2000K	Automatic configuration

The present embodiment also provides an application program configured to implement the steps of the above-described lighting apparatus color temperature parameter setting method.

FIG. 4 is a diagram illustrating an embodiment of an application installed on a device having a touch screen display module, the application displaying a graphical interface during operation, the graphical interface including a parametric rhythm curve; the parameter rhythm curve is generated by the lighting device based on a parameter value comparison table of a time period, and is formed by sequentially connecting coordinate points by taking time as an abscissa and a color temperature value as an ordinate; the time is the starting time of the current time period and is the ending time point of the last time period. The graphical interface and the rhythm curve can lead the parameter display before and after the adjustment of the lighting device to be more visual; especially, when the parameter value in a certain period is very much, the table method cannot be listed, and the rhythm curve can be displayed by a function curve.

According to the method, any time period color temperature parameter is actively configured, and the color temperature parameter can be automatically configured according to the same amplitude in other time periods, so that in the actual operation of the application program, the operation step of selecting which time period color temperature parameter is adjusted first can be further omitted, and the keys ↓or ↓canenable the application program to realize the adjustment of the color temperature value by using one key. The virtual keys in the graphical interface can better accord with the use habits of general users.

Fig. 5 is a graph showing the rhythm curve of fig. 4 adjusted in color temperature values in the manner described above. Since the minimum color temperature limit value of the lighting device is 2000K, the minimum value of the ordinate of the rhythm curve is 2000K.

Table 6 shows another embodiment of the method for setting lighting parameters, in which when the color temperature value decreases by 20% from 0 to 6 in the active setting mode, the color temperature values in other time periods increase by 20% in the auto-configuration mode at the same time,

TABLE 5

Time period	Adjusting the color temperature value before	Adjusted color temperature value	Setting mode
				0 hour to 6 hours	6350K	7620K	Active setup
6 th to 8 th	6350K～8000K	7620K～8000K	Automatic configuration
				9 th to 20 th	8000K	8000K	Automatic configuration
20 th to 22 th	8000K～6350K	8000K～7620K	Automatic configuration
				22 hours to 24 hours	6350K	7620K	Automatic configuration

The maximum color temperature limit value of the lighting device is 8000K, so the maximum value of the ordinate of the rhythm curve is 8000K.

Compared with the prior art, the invention has the following advantages: the setting process is simplified, and the professional requirement for setting operators is reduced.

Example 3

and S200, in the active setting mode, when the parameter value corresponding to any time period in the parameter comparison table changes, automatically adjusting the parameter values of other time periods according to a set strategy.

The parameter is a brightness level, and the parameter value is a brightness level value.

The increasing or decreasing of the same amplitude is an absolute amplitude value, and the adjusted brightness level value is not less than zero; alternatively, the increasing or decreasing is by the same magnitude as the relative magnitude value.

The following table 1 is a comparison table of brightness level parameter values based on time periods of the lighting device according to the embodiment;

TABLE 6

Time period	Value of brightness level
		0 hour to 7 hours and 30 minutes	10％
30 minutes to 9 hours and 0 minute at 7 hours	10％～70％
		0 minute to 12 minutes at 9 hours and 0 minute	70％～40％
30 minutes at 12 th time to 30 minutes at 15 th time	40％～50％
		30 minutes at 15 hours to 18 minutes at 0 minutes	50％～70％
0 part at 18 th time to 0 part at 21 th time	70％～10％
		0 part at 21 to 24	10％

In table 6, the brightness level values in some time periods are represented by intervals, and this indicates that the brightness level is changed from the interval boundary value 1 to the interval boundary value 2 in the time period, and the brightness level value changing speed is optimally selected to be constant speed adjustment in order to reduce the uncomfortable feeling given to the user by the rapid change of brightness.

Table 7 shows an embodiment of a method for setting lighting parameters, in which when the percentage value of the brightness level values from 0 to 6 is increased by 15% in an active setting manner, the percentage values of the brightness level values in other time periods are increased by 15% in an automatic configuration manner, and before the brightness level value of the lighting apparatus is adjusted, it is measured in advance whether the adjusted brightness level value of the time period is within the limit range of the highest or lowest brightness level value of the lighting apparatus, and if so, the highest or lowest brightness level value of the lighting apparatus is used as a new setting value of the brightness level of the lighting apparatus in the time period. The maximum brightness level limit of the lighting device of this example is 100% and the minimum brightness level limit is 0%.

TABLE 7

The present embodiment also provides an application program configured to implement the steps of the above-described lighting device brightness level parameter setting method.

FIG. 6 is a diagram illustrating an embodiment of an application installed on a device having a touch screen display module, the application displaying a graphical interface during operation, the graphical interface including a parametric rhythm curve; the parameter rhythm curve is generated by the lighting device based on a parameter value comparison table of a time period, and is formed by sequentially connecting coordinate points by taking time as an abscissa and a brightness grade value as an ordinate; the time is the starting time of the current time period and is the ending time point of the last time period. The graphical interface and the rhythm curve can lead the parameter display before and after the adjustment of the lighting device to be more visual; especially, when the parameter value in a certain period is very much, the table method cannot be listed, and the rhythm curve can be displayed by a function curve.

According to the method, because the brightness level parameter of any time period is actively configured, and the brightness level parameter of the other time periods can be automatically configured according to the same amplitude, in the actual operation of the application program, the operation step of selecting which time period to adjust the brightness level parameter first can be further omitted, and the keys ↓or ↓ ] can be used by the application program to realize the brightness level value adjustment by using one key. The virtual keys in the graphical interface can better accord with the use habits of general users.

Fig. 7 is a graph showing the luminance level value of the rhythm curve of fig. 6 adjusted in the manner described above.

Table 8 shows another embodiment of the method for setting lighting parameters, in which when the percentage value of the brightness level values from 0 to 6 is increased by 35% in the active setting manner, the percentage values of the brightness level values in other time periods are simultaneously increased by 35% in the automatic configuration manner, the maximum brightness level limit value of the lighting device is 100%, and the minimum brightness level limit value is 0%.

TABLE 8

Time period	Adjusting the value of the brightness level before adjustment	Adjusted brightness gradation value
			0 hour to 7 hours and 30 minutes	10％	45％
30 minutes to 9 hours and 0 minute at 7 hours	10％～70％	45％～100％
			0 minute to 12 minutes at 9 hours and 0 minute	70％～40％	100％～75％
30 minutes at 12 th time to 30 minutes at 15 th time	40％～50％	75％～85％
			30 minutes at 15 hours to 18 minutes at 0 minutes	50％～70％	85％～100％
18 hours 0 min to 21 hours0 portion of	70％～10％	100％～45％
			0 part at 21 to 24	10％	45％

Example 4

As shown in fig. 8, the present invention provides a method for setting lighting parameters of a lamp set, where the lamp set includes two or more networked lighting devices, and when any one of the lighting devices in the lamp set is set according to the method for setting lighting parameters in embodiment 1 or embodiment 2, the parameters of illuminance and color temperature of other lighting devices in the lamp set are automatically adjusted according to the same strategy.

The same strategy is that within the range of the maximum or minimum illuminance or color temperature limit value of the other lighting devices, the illuminance value or the color temperature value is adjusted according to the same amplitude, and the same amplitude comprises an absolute amplitude or a relative amplitude.

Table 6 shows an example of setting the illumination light intensity parameter of the lamp set, when the lamp 1 actively sets the increased illumination 50Lux, the lamps 2 to 6 will automatically configure the light intensity parameter, and the setting strategy is that, on the premise that the maximum value is not exceeded, the lamps 2 to 5 increase the illumination value 50Lux, and the lamp 6 increases the illumination value to the maximum value.

TABLE 9

Table 7 shows an embodiment of setting the illumination color temperature parameters of the lamp set, when the lamp 1 actively sets to decrease the color temperature value by 10%, the lamps 2 to 6 will automatically configure the color temperature parameters, and the setting strategy is that, on the premise of not being lower than the minimum limit value, the lamps 2 to 5 decrease the color temperature value by 10%, and the lamp 6 decreases the color temperature value to the minimum limit value.

Watch 10

Lamp number	Arrangement mode	Color temperature original value	Adjusted color temperature and adjustment amplitude
				Lamp
1	Active setup	3500K	3150K (10% reduction)
				Lamp 2	Automatic configuration	3000K	2800K (minimum 2800K)
Lamp 3	Automatic configuration	3500K	3150K (10% reduction)
				Lamp 4	Automatic configuration	4000K	3600K (10% reduction)
Lamp 5	Automatic configuration	4500K	4050K (10% reduction)
				Lamp 6	Automatic configuration	5000K	4500K (10% reduction)

It is understood that the maximum or minimum illuminance or color temperature limit of each lighting device in the lamp set may be the same or different; meanwhile, in the lamp group, initial set values of illuminance or color temperature of each lighting device can be the same or different; therefore, even if each lighting device in the lamp group is adjusted according to the same strategy, the illuminance or color temperature setting value of each lighting device may be different after the configuration is completed.

In the embodiment, after the illuminance or color temperature parameter of each lighting device in the lamp group is set for the first time, the illuminance or color temperature parameter setting of any lighting device in the lamp group is changed, so that the illuminance or color temperature parameter setting of all the lighting devices in the lamp group can be completed, the maximum limit value and the minimum limit value of the parameters cannot be exceeded, and the originally complex setting process becomes very simple.

Example 5

The present invention provides a storage medium storing an application program that implements the lighting parameter setting method described in embodiments 1 to 4.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by hardware that is instructed to implement by a program, and the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only storage medium, a magnetic disk or an optical disk, etc.

Example 6

As shown in fig. 9, the present invention provides an illumination device, including:

a lighting module 10;

a controller 20, wherein the controller 20 is configured to execute the steps of the lighting parameter setting method described in embodiments 1-4, or accept an instruction from an application program of the lighting parameter setting method described in embodiments 1-4 to set the illuminance or color temperature parameter or brightness level value of the lighting device.

In summary, the present disclosure should not be construed as limiting the present disclosure, and the embodiments and the application scope of the present disclosure may be modified by those skilled in the art according to the concepts of the present disclosure.

Claims

1. A method of setting lighting parameters, comprising the steps of:

2. The method as claimed in claim 1, wherein the parameter is illumination, and the parameter value is an illumination value, and the setting policy is that when the illumination value corresponding to any time period in the parameter comparison table is changed, the illumination values of other time periods of the lighting apparatus are increased or decreased by the same magnitude.

3. The method as claimed in claim 2, wherein before adjusting the illumination value of the illumination device, it is measured in advance whether the illumination value of the period after adjustment is within the maximum or minimum illumination limit of the illumination device, and if so, the maximum or minimum illumination limit of the illumination device is used as the new setting value of the illumination device in the period.

4. The method according to claim 1, wherein the parameter is a color temperature, and the parameter value is a color temperature value, and the setting policy is that when the color temperature value corresponding to any time period in the parameter comparison table changes, the color temperature values of other time periods of the lighting device increase or decrease by the same magnitude.

5. The method as claimed in claim 4, wherein before adjusting the color temperature value of the illumination device, it is measured in advance whether the adjusted time interval color temperature value is within a limit of a maximum or minimum color temperature value of the illumination device, and if so, the limit of the maximum or minimum color temperature value of the illumination device is used as a new setting value of the time interval color temperature value of the illumination device.

6. The method according to claim 1, wherein the parameter is a brightness level, and when the parameter is a brightness level value, the setting strategy is that when the brightness level value corresponding to any time slot in the parameter comparison table is changed, the brightness level values of other time slots of the lighting device are correspondingly increased or decreased by the same magnitude.

7. The method as claimed in claim 6, wherein before adjusting the brightness level of the illumination device, it is calculated in advance whether the adjusted brightness level of the time slot is within a limit of the highest or lowest brightness level of the illumination device, if yes, the limit of the highest or lowest brightness level of the illumination device is used as a new setting value of the brightness level of the time slot of the illumination device.

8. The lighting parameter setting method of any of claims 2-7, wherein the increasing or decreasing by the same magnitude is an absolute magnitude value, and the adjusted parameter value is not less than zero,

9. A method for setting lighting parameters of a lamp set, wherein the lamp set comprises two or more networked lighting devices, and when any one of the lighting devices in the lamp set is set according to the method for setting lighting parameters of any one of claims 2 to 8, the lighting parameter values of other lighting devices in the lamp set are automatically adjusted according to the same strategy.

10. An application, characterized in that the application is configured for implementing the steps of the lighting parameter setting method of any of claims 1-9.

11. An application according to claim 10,

the parameter value is any one of a light illumination value, a color temperature value or a brightness grade value;

12. An application according to claim 10, further comprising a button on the graphical interface, wherein the button is used for the application to implement the adjustment of the illumination parameter value according to any one of claims 2 to 8 by using a human key.

13. A storage medium, characterized in that it stores an application program according to any one of claims 10-12.

14. An illumination device, comprising:

a lighting module;

a controller configured to execute the steps of the lighting parameter setting method of any one of claims 1 to 9, or to accept instructions from the application program of claims 10 to 12 to set the lighting parameters of the lighting device.