CN112738962B - Lighting system - Google Patents
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- CN112738962B CN112738962B CN201911031390.8A CN201911031390A CN112738962B CN 112738962 B CN112738962 B CN 112738962B CN 201911031390 A CN201911031390 A CN 201911031390A CN 112738962 B CN112738962 B CN 112738962B
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- 238000005286 illumination Methods 0.000 claims abstract description 11
- 125000004122 cyclic group Chemical group 0.000 claims description 31
- 230000001960 triggered effect Effects 0.000 claims description 6
- 230000001276 controlling effect Effects 0.000 claims description 4
- 230000001105 regulatory effect Effects 0.000 claims description 4
- 230000004044 response Effects 0.000 claims description 3
- 230000001360 synchronised effect Effects 0.000 description 9
- 238000010586 diagram Methods 0.000 description 7
- 230000000694 effects Effects 0.000 description 5
- 230000005540 biological transmission Effects 0.000 description 4
- 230000000712 assembly Effects 0.000 description 3
- 238000000429 assembly Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000003086 colorant Substances 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 230000015654 memory Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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Abstract
The invention provides an illumination system comprising: the first light-emitting component and the second light-emitting component can be used for switching dimming in a first circulation sequence and a second circulation sequence respectively; the first signal receiving unit and the second signal receiving unit are respectively and correspondingly electrically connected with the first light-emitting component and the second light-emitting component; the first control part is electrically or communicatively connected with the first light-emitting component and/or the second light-emitting component through the first signal receiving unit and/or the second signal receiving unit; and the second control part is electrically or communicatively connected with the first light-emitting component and the second light-emitting component through the first signal receiving unit and the second signal receiving unit, and synchronizes the switching progress of the first circulation sequence and the second circulation sequence when at least one of the first signal receiving unit or the second signal receiving unit receives the control signal sent by the first control part, so that the switching progress of the dimming state is prevented from being disordered.
Description
Technical Field
The invention relates to the technical field of illumination, in particular to an illumination system.
Background
In the prior art, when a plurality of light emitting components are combined for use, for example, one light emitting component performs light modulation switching in a cycle sequence having a plurality of switching states in a specific order, and other light emitting components perform light modulation switching in another cycle sequence having a plurality of switching states corresponding to the light emitting component.
Accordingly, there is a need for improvements over existing lighting systems.
Disclosure of Invention
In order to solve the problem that when a plurality of light emitting components are used as a combination and control instructions are sent out in sequence in different control modes, the combined illumination sequence and the illumination effect are easy to disorder, the invention provides an illumination system for solving the problem, which comprises: a first light emitting assembly and a second light emitting assembly; the first signal receiving unit is correspondingly and electrically connected with the first light-emitting component; the second signal receiving unit is correspondingly and electrically connected with the second light-emitting component; the first control part is electrically or communicatively connected with the first light emitting component and/or the second light emitting component through the first signal receiving unit and/or the second signal receiving unit, and can send a control signal for regulating and controlling the dimming state of the first light emitting component and/or the second light emitting component to the first signal receiving unit and/or the second signal receiving unit; and a second control part electrically or communicatively connected to the first light emitting component and the second light emitting component via the first signal receiving unit and the second signal receiving unit, and capable of sending a control signal for regulating the dimming states of the first light emitting component and the second light emitting component to the first signal receiving unit and the second signal receiving unit, wherein, in response to a preset operation of the second control part, the first light emitting component performs dimming switching in a first cyclic sequence having a plurality of switching states in a specific order, and the second light emitting component performs dimming switching in a second cyclic sequence having a plurality of switching states corresponding to the first light emitting component in a specific order, and synchronizes the switching progress of the first cyclic sequence and the second cyclic sequence when at least one of the first signal receiving unit or the second signal receiving unit receives the control signal sent by the first control part.
In this technical solution, the switching schedule of the dimming states of the first light emitting component and the second light emitting component is synchronized, so that the first light emitting component can also perform dimming switching in the first cyclic sequence having a plurality of switching states in a predetermined specific order when receiving the signal from the second control section, and, in particular, the second light emitting component can also perform dimming switching in the second cyclic sequence having a plurality of switching states in a predetermined specific order in correspondence with the first light emitting component in a predetermined specific order when receiving the signal from the second control section, if at least one of the first signal receiving unit or the second signal receiving unit receives the control signal from the first control section, and the first cyclic sequence corresponding to the first light emitting component is synchronized with the second cyclic sequence corresponding to the second light emitting component.
Therefore, the method and the device avoid the disorder of the illumination sequence and the illumination effect caused by the fact that the synchronization is only carried out on the first cycle series corresponding to the first signal receiving unit which receives the control signal sent by the first control part or the synchronization is only carried out on the second cycle series corresponding to the second signal receiving unit which receives the control signal sent by the first control part, and the corresponding second cycle series or the first cycle series which do not receive the control signal are not synchronized.
In a preferred embodiment of the present invention, the first signal receiving unit and the second signal receiving unit are electrically connected or communicatively connected to each other.
In the technical scheme, the first signal receiving unit and the second signal receiving unit are electrically connected or in communication with each other, so that when any one of the first signal receiving unit or the second signal receiving unit receives a control signal from the first control part, the other signal receiving unit can also receive the control signal, and the switching progress of the first cyclic sequence and the second cyclic sequence can be synchronized at the same time.
In a preferred embodiment of the present invention, the second light-emitting component has a different light color than the first light-emitting component.
In the technical scheme, the first light-emitting component and the second light-emitting component are different in light color, so that the combined lamp can show more diversified lighting effects when being used as the combined lamp.
In the preferred technical scheme of the invention, the first signal receiving unit stores switching state information of a first cyclic sequence and dimming switching sequence information of a first light emitting component; the second signal receiving unit stores switching state information of the second cyclic sequence and dimming switching sequence information of the second light emitting component.
In a preferred technical solution of the present invention, after receiving the control signal sent by the first control unit, the first signal receiving unit or the second signal receiving unit can reset the switching schedule of the first cycle sequence and the second cycle sequence to the initial states respectively.
In the technical scheme, not only is the disorder of the switching progress of the dimming state avoided, but also the corresponding relation between the original switching state and the dimming switching sequence is maintained, and convenience is brought to the use of users.
In a preferred embodiment of the present invention, the first signal receiving unit and the second signal receiving unit are integrated in the same module.
In this configuration, it is ensured that the first signal receiving unit and the second signal receiving unit receive the control command from the first control unit at the same time.
In a preferred technical scheme of the invention, the first signal receiving unit and the second signal receiving unit are respectively and correspondingly arranged on the first light emitting component and the second light emitting component.
In a preferred technical scheme of the invention, the first signal receiving unit and the second signal receiving unit are both provided with signal forwarding units, and the signal forwarding units can forward the control signals from the first control part received by the first signal receiving unit or the second signal receiving unit to the second signal receiving unit or the first signal receiving unit.
In this technical scheme, even if first light emitting component and second light emitting component set up at certain distance each other, when first signal receiving element and second signal receiving element are difficult to receive the control signal of first control portion simultaneously, still can ensure that first signal receiving element and second signal receiving element can both receive the control signal from first control portion, in order to synchronize the switching progress of first cyclic sequence and second cyclic sequence, simultaneously, the setting of signal forwarding unit has solved comparatively near or direct the collection in same module with the position setting of first signal receiving element and second signal receiving element, can lead to lighting system's wiring comparatively complicated, and first signal receiving element and second signal receiving element can't correspond respectively with first light emitting component and second light emitting component integration, but can only singly set up the problem, the process has been simplified and manufacturing cost has been practiced thrift.
In a preferred embodiment of the present invention, the parameters of the switching states of the first light emitting component and the second light emitting component include one or more of brightness, color temperature, and on/off.
In a preferred embodiment of the present invention, the control signal sent by the first control unit is an infrared signal.
In a preferred embodiment of the present invention, the second control unit is a counting switch.
Drawings
FIG. 1 is a schematic diagram of an illumination system provided by the present invention;
FIG. 2 is a schematic view of the lighting system of FIG. 1 under control of a second control section;
fig. 3 is a schematic view of the lighting system of fig. 2 when a control signal of the first control part is interposed;
FIG. 4 is a schematic diagram of the lighting system of FIG. 3 after the switching schedule of the dimming states of the first and second light emitting assemblies is synchronized to the first switching state;
FIG. 5 is a schematic diagram of the lighting system of FIG. 3 after the switching schedule of the dimming states of the first and second light emitting assemblies is synchronized to a third switching state;
fig. 6 is a schematic diagram of the lighting system of fig. 3 when the switching schedule of the dimming states of the first and second light emitting assemblies is reset to an initial state;
fig. 7 is a schematic diagram of the lighting system according to the present invention when the first signal receiving unit and the second signal receiving unit are integrated in the same module;
fig. 8 is a schematic diagram of a lighting system according to the present invention when a first light emitting component and a second light emitting component are respectively provided with a signal forwarding unit.
Reference numerals illustrate:
1-a first light emitting component; 2-a second light emitting component; 3-a first control section; 4-a second control unit; 5-a first signal receiving unit; 6-a second signal receiving unit; 7-signal forwarding unit.
Detailed Description
The present invention will be described in further detail by way of embodiments with reference to the accompanying drawings. The description of the embodiments is provided to assist understanding of the present invention, but is not intended to limit the present invention.
Fig. 1 shows a schematic diagram of a dimming circuit according to the present embodiment, and a lighting system provided by the present embodiment includes: a first light emitting component 1; a second light emitting component 2; a first control part 3 and a second control part 4 for controlling dimming states of the first light emitting component 1 and the second light emitting component 2; the first signal receiving unit 5 and the second signal receiving unit 6 are respectively and electrically connected with the first light emitting component 1 and the second light emitting component 2, and can receive the control signals sent by the first control part 3 and the second control part 4.
Wherein, the control signal sent by the first control part 3 is an infrared signal, that is, the first control part 3 is an infrared remote controller, and the first signal receiving unit 5 and the second signal receiving unit 6 can receive the infrared signal and control the illumination states of the first light emitting component 1 and the second light emitting component 2; the second control part 4 is electrically connected to the first light emitting component 1 through the first signal receiving unit 5, the second signal receiving unit 6 is electrically connected to the second light emitting component 2, and in response to a preset operation of the second control part 4, preferably, the second control part 4 is a counting switch, each time the second control part triggers, the first light emitting component 1 performs dimming switching in a first cycle sequence having a plurality of switching states in a specific sequence, and the second light emitting component 2 performs dimming switching in a second cycle sequence having a plurality of switching states corresponding to the first light emitting component 1 in a specific sequence, further, each time the second control part 4 triggers, the counting is performed once, and the number of times of the counting is correspondingly circulated along with the circulation of the first cycle sequence and the second cycle sequence.
The first signal receiving unit 5 stores switching state information of the first cyclic sequence and dimming switching sequence information of the first light emitting component 1; the second signal receiving unit 6 stores switching state information of the second cyclic sequence and dimming switching sequence information of the second light emitting component 2 for the second control part 4 to call, and specifically, memories (not shown) for storing the above information are provided inside the first signal receiving unit 5 and the second signal receiving unit 6.
The working principle of the lighting system provided in this embodiment is described below with reference to fig. 2, in this embodiment, by way of example, the first cycle sequence and the second cycle sequence each include three switching states, which are respectively: the first switching state, the second switching state and the third switching state, and the parameters of each switching state include one or more of brightness, color temperature and on/off, and in this embodiment, the parameters of each state of the first light emitting component 1 and the second light emitting component 2 are taken as examples, and the dimming of the first light emitting component 1 and the second light emitting component 2 under the control of the second control part 4 is taken as an example. Each time the second control portion 4 is triggered, the first light emitting component 1 and the second light emitting component 2 correspondingly move forward by one state in the position in the first cycle sequence or the second cycle sequence, and switch to the dimming state corresponding to the state, so that the combination of the first light emitting component 1 and the second light emitting component 2 presents different lighting effects along with the switching of the dimming state, and the corresponding relation between the position of the first light emitting component 1 in the first cycle sequence and the switching sequence of the dimming state is: the corresponding relationship between the position of the second light emitting component 2 in the second cycle sequence and the dimming state switching sequence is that: the above correspondence relationship is defined herein as the initial states of the first light emitting element 1 and the second light emitting element 2, the first switching state-on, the second switching state-on, the third switching state-off.
The correspondence between the number of counts of the second control unit 4 and the first and second cyclic sequences will be specifically described below:
when the second control part 4 is triggered for the first time, the counting times are once, the first light-emitting component 1 and the second light-emitting component 2 are in a first switching state in a first cycle sequence and a second cycle sequence, and the dimming states are that the first light-emitting component 1 is lightened and the second light-emitting component 2 is lightened respectively;
when the second control part 4 is triggered again, the counting times are twice, the first light-emitting component 1 and the second light-emitting component 2 are both in the second switching state in the first circulation sequence and the second circulation sequence, the dimming state of the first light-emitting component 1 is turned off, and the dimming state of the second light-emitting component 2 is turned on;
when the second control part 4 is triggered for the third time, the counting times are three times, the first light-emitting component 1 and the second light-emitting component 2 are in a third switching state in the first cycle sequence and the second cycle sequence, the dimming state of the first light-emitting component 1 is on, and the dimming state of the second light-emitting component 2 is off;
when the second control part 4 is triggered for the fourth time, the count number is once, the first light emitting component 1 and the second light emitting component 2 return to the first switching state in the first circulation sequence and the second circulation sequence again, and the dimming states of the first light emitting component 1 and the second light emitting component 2 are switched to be on, so that one periodic circulation is completed.
When the user controls the first light emitting device 1 and the second light emitting device 2 by using the second control unit 4, adjusts the first light emitting device 1 and the second light emitting device 2 to a certain switching state in the order of the first cycle sequence and the second cycle sequence, and then performs dimming control on the first light emitting device 1 or the second light emitting device 2 by using the first control unit 3, for example, as shown in fig. 3, specifically, when the first light emitting device 1 and the second light emitting device 2 are both in the second switching state, the dimming state of the first light emitting device 1 is turned off, and the dimming state of the second light emitting device 2 is turned on, and at this time, the dimming state of the second light emitting device 2 is adjusted from on to off by the first control unit 3, so that the second light emitting device 2 jumps out of the predetermined second cycle sequence. At this time, if the switching control of the first light emitting device 1 and the second light emitting device 2 is performed again by the second control unit 4, the combined dimming state of the first light emitting device 1 and the second light emitting device 2 may be disturbed. In the lighting system provided in this embodiment, the first signal receiving unit 5 and the second signal receiving unit 6 are electrically connected or communicatively connected to each other, so as to ensure that the control signal sent by the first control portion 3, for example, an infrared signal, can transfer the information of the infrared signal to the second signal receiving unit 6 or the first signal receiving unit 5 when the control signal is received by the first signal receiving unit 5 or the second signal receiving unit 6 alone, so as to realize synchronous control of the first control portion 3 to the first signal receiving unit 5 and the second signal receiving unit 6, in the lighting system provided in this embodiment, after the first signal receiving unit 5 and the second signal receiving unit 6 directly or indirectly receive the infrared signal, the switching progress of the first cycle sequence and the second cycle sequence can be synchronized, as shown in fig. 4 to 6, the synchronous switching progress specifically refers to: the corresponding relationship between the dimming states of the first light emitting component 1 and the second light emitting component 2 when being readjusted to the initial state, that is, in each switching state, the corresponding relationship between the dimming states of the first light emitting component 1 and the second light emitting component 2 is matched with the initial state, which specifically can select the dimming states of the first light emitting component 1 and the second light emitting component 2 in the first switching state in the initial state as an adjustment target, and can also select the dimming states of the first light emitting component 1 and the second light emitting component 2 in the second switching state or the third switching state in the initial state as an adjustment target.
The synchronization result shown in fig. 6 is a preferred implementation manner of this embodiment, under which the switching schedule of the first cyclic sequence and the second cyclic sequence is reset to the initial state before the control signal of the first control unit 3 intervenes, so that not only is the disorder of the switching schedule of the dimming state avoided, but also the corresponding relationship between the original switching state and the dimming switching sequence is maintained, in some embodiments, the resetting of the switching schedule of the first cyclic sequence and the second cyclic sequence can be achieved by clearing the count number of the second control unit 4, specifically, when the control signal of the first control unit 3 intervenes, the count number of the second control unit 4 is automatically cleared, and when the dimming control is performed on the first light emitting component 1 and the second light emitting component 2 by the second control unit 4 next time, which is equivalent to the first triggering of the second control unit 4, the first light emitting component 1 and the second light emitting component 2 are simultaneously located in the first switching state, so that the dimming state is not only achieved, but also the switching schedule of the first cyclic sequence and the second cyclic sequence is restored to the initial state is convenient for the user.
Next, a specific explanation is given to the arrangement of the first light emitting component 1 and the second light emitting component 2, and since the infrared signal is limited by the transmission distance and the transmission directivity, in order to realize the simultaneous control of the first light emitting component 1 and the second light emitting component 2 using the first control unit 3, this embodiment provides three technical schemes: one of them is as shown in fig. 7, the positions of the first signal receiving unit 5 and the second signal receiving unit 6 are set to be relatively close to each other or are directly integrated in the same module, so as to ensure that the infrared signal sent by the first control unit 3 can be received by the first signal receiving unit 5 and the second signal receiving unit 6 at the same time; as shown in fig. 8, the first signal receiving unit 5 and the second signal receiving unit 6 are communicatively connected to be capable of forwarding the infrared signal to the second signal receiving unit 6 or the first signal receiving unit 5 when the first signal receiving unit 5 or the second signal receiving unit 6 receives the infrared signal, specifically, the first signal receiving unit 5 and the second signal receiving unit 6 are respectively provided with a signal forwarding unit 7 for forwarding the received infrared signal to each other, and since the positions of the first signal receiving unit 5 and the second signal receiving unit 6 are arranged relatively close to each other or are directly integrated into the same module, the first signal receiving unit 5 and the second signal receiving unit 6 need to be electrically connected to the first light emitting component 1 and the second light emitting component 2 respectively at the same time, which may lead to relatively complex wiring of the lighting system, and the first signal receiving unit 5 and the second signal receiving unit 6 cannot be integrated with the first light emitting component 1 and the second light emitting component 2 respectively and can only be separately set, thus increasing the manufacturing cost, the arrangement of the signal forwarding unit 7 solves the above problems, in addition, the arrangement of the signal forwarding unit 7 ensures that even if the first light emitting component 1 and the second light emitting component 2 are arranged at a certain distance from each other, when the first signal receiving unit 5 and the second signal receiving unit 6 are difficult to receive the control signal of the first control part 3 at the same time, the first signal receiving unit 5 and the second signal receiving unit 6 can both receive the control signal from the first control part 3 so as to synchronize the switching progress of the first cyclic sequence and the second cyclic sequence, wherein the signal forwarded by the signal forwarding unit 7 is a wireless signal and can be an infrared signal, the signal may be a bluetooth signal or other wireless transmission signals, and is not particularly limited; the third way is to electrically connect the first signal receiving unit 5 and the second signal receiving unit 6, thereby realizing mutual transmission of the control signal transmitted by the first control unit 3 between the first signal receiving unit 5 and the second signal receiving unit 6.
It should be noted that, the dimming states of the first light emitting component 1 and the second light emitting component 2 are taken as examples for illustration, and in the practical application process, the dimming states of the first light emitting component 1 and the second light emitting component 1 may be one or more of brightness, color temperature and on/off, for example, when the light colors of the first light emitting component 1 and the second light emitting component 2 are different, the different dimming states can combine into a more diversified lighting effect, so as to provide better use experience for the user.
Those of ordinary skill in the art will appreciate that in the various embodiments described above, numerous technical details are set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the claims of the present application can be basically implemented without these technical details and various changes and modifications based on the above embodiments. Accordingly, in actual practice, various changes may be made in the form and details of the above-described embodiments without departing from the spirit and scope of the invention.
Claims (10)
1. A lighting system, comprising:
a first light emitting assembly and a second light emitting assembly;
the first signal receiving unit is correspondingly and electrically connected with the first light-emitting component;
the second signal receiving unit is correspondingly and electrically connected with the second light-emitting component;
the first control part is electrically or communicatively connected with the first light-emitting component and/or the second light-emitting component through the first signal receiving unit and/or the second signal receiving unit, and can send a control signal for regulating and controlling the dimming state of the first light-emitting component and/or the second light-emitting component to the first signal receiving unit and/or the second signal receiving unit;
a second control part which is electrically or communicatively connected with the first light emitting component and the second light emitting component through the first signal receiving unit and the second signal receiving unit and can send control signals for regulating and controlling the dimming states of the first light emitting component and the second light emitting component to the first signal receiving unit and the second signal receiving unit,
wherein the first light emitting element performs dimming switching in a first cyclic sequence having a plurality of switching states in a specific order in response to a preset operation to the second control part, and the second light emitting element performs dimming switching in a second cyclic sequence having a plurality of switching states corresponding to the first light emitting element in a specific order,
and when at least one of the first signal receiving unit or the second signal receiving unit receives the control signal sent by the first control part, the second control part resets the switching progress of the first cyclic sequence and the second cyclic sequence to an initial state respectively, so that when the second control part is triggered next time, the first light emitting component and the second light emitting component are controlled to be switched to a dimming state corresponding to the initial state.
2. The lighting system of claim 1, wherein the first signal receiving unit and the second signal receiving unit are electrically or communicatively connected to each other.
3. A lighting system as recited in claim 1 or claim 2, wherein a light color of said second light emitting component is different than a light color of said first light emitting component.
4. The lighting system according to claim 1 or 2, wherein the switching state information of the first cyclic sequence and dimming switching order information of the first light emitting component are stored in the first signal receiving unit; the second signal receiving unit stores the switching state information of the second cyclic sequence and dimming switching sequence information of the second light emitting component.
5. The lighting system of claim 1, wherein the first signal receiving unit and the second signal receiving unit are integrated within the same module.
6. The illumination system of claim 2, wherein the first signal receiving unit and the second signal receiving unit are disposed in the first light emitting assembly and the second light emitting assembly, respectively.
7. The lighting system according to claim 1 or 2, wherein the first signal receiving unit and the second signal receiving unit each have a signal forwarding unit capable of forwarding a signal received by the first signal receiving unit or the second signal receiving unit to the second signal receiving unit or the first signal receiving unit.
8. The lighting system of claim 1 or 2, wherein the parameters of the switching state of the first light emitting component and the second light emitting component comprise one or more of brightness, color temperature, on/off.
9. A lighting system as claimed in claim 1 or 2, characterized in that the control signal transmitted by the first control part is an infrared signal.
10. A lighting system as claimed in claim 1 or 2, characterized in that the second control part is a counting switch.
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| CN201911031390.8A CN112738962B (en) | 2019-10-28 | 2019-10-28 | Lighting system |
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| CN201911031390.8A CN112738962B (en) | 2019-10-28 | 2019-10-28 | Lighting system |
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| CN112738962B true CN112738962B (en) | 2024-04-05 |
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