CN111405734A

CN111405734A - Lamp control system

Info

Publication number: CN111405734A
Application number: CN201910001965.5A
Authority: CN
Inventors: 唐逸文
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-01-02
Filing date: 2019-01-02
Publication date: 2020-07-10

Abstract

The invention relates to a lamp control system, wherein each lamp component is provided with a wireless radio frequency module (RF), when the RF module of one lamp component is started and transmits a starting signal, the other RF modules receiving the starting signal can control the lamp component to start.

Description

Lamp control system

Technical Field

The invention relates to a lamp control system.

Background

Accordingly, lamps in general household life, such as a main illuminating lamp, a lane lamp, an indoor lamp and the like, are normally closed, and are opened only when a user wants to use the lamps, so that power waste is avoided. Later, in order to be convenient to use, manufacturers add an inductor to the lamp, so that the step of manually starting the lamp is omitted. However, the cost of installing sensors in each lamp is too high, and when some sensors fail, the lamp with the failed sensor cannot be started smoothly, so there is a drawback to be improved.

In addition, in order to increase the convenience of turning on the light, a manufacturer can sell a set of matched lamps, and the lamps can be turned on or off collectively through infrared remote control transmission after being installed. However, such a set of paired lamps cannot be randomly replaced and paired, and if a newly purchased lamp cannot be paired, the whole set of lamps needs to be replaced again, which wastes a lot of money, and thus there is a drawback to be improved.

Therefore, there is a need for a novel and improved lamp control system to solve the above problems.

Disclosure of Invention

The invention mainly aims to provide a lamp control system, wherein each lamp component is provided with a radio frequency module (RF), pairing can be carried out at will, when the RF module of one lamp component is started and transmits a starting signal, the other RF modules receiving the starting signal can control the lamp component to be started, so as to effectively achieve the function of automatic control.

In order to achieve the above object, the present invention provides a lamp control system, which includes at least two lamp assemblies, each of the lamp assemblies includes a lamp, a control unit, a first pairing module and a first Radio Frequency (RF) module, the first pairing module of any two of the lamp assemblies can be selectively paired to generate a pairing code and enter a pairing mode, and the first pairing module of the remaining lamp assemblies can be paired with the first pairing module that has entered the pairing mode to obtain the pairing code. When the control unit of one of the lamp assemblies entering the pairing mode starts the lamp, the first wireless radio frequency module of the lamp assembly transmits a starting signal with the pairing code, when the first wireless radio frequency modules of the other lamp assemblies entering the pairing mode receive the starting signal, the first pairing modules of the lamp assemblies verify the starting signal, and the control unit of the lamp assembly after the verification succeeds starts the lamp.

Preferably, the lighting device further includes at least three lighting device assemblies, wherein the first pairing module of any two lighting device assemblies can be selectively paired to generate a pairing code and enter a pairing mode, and the first pairing module of each of the remaining lighting device assemblies can be paired with the first pairing module that has entered the pairing mode to obtain the pairing code.

Preferably, as the above technical solution, the wireless remote controller further includes a wireless remote controller, the wireless remote controller includes a second pairing module and a second wireless radio frequency module, the second pairing module can selectively pair with one of the first pairing modules that has entered into the pairing mode, obtain the pairing code, and enter into the pairing mode, and the second wireless radio frequency module of the wireless remote controller can transmit the start signal having the pairing code.

Preferably, as a preferred option of the above technical solution, the wireless remote controller further includes a wireless remote controller, the wireless remote controller includes a second pairing module and a second wireless rf module, the second pairing module selectively matches and pairs with a first pairing module that does not enter into the pairing mode to generate a pairing code and enters into the pairing mode, and the second wireless rf module of the wireless remote controller can transmit the start signal having the pairing code.

Preferably, each of the lamp members further includes a lamp holder and a light emitting element, the light emitting element is connected to the lamp holder, and the light emitting element is electrically connected to the control unit.

Preferably, as for the above technical solution, at least one of the lamp assemblies further includes a power supply device, the power supply device is provided with the first pairing module, the first wireless radio frequency module and the control unit, the power supply device is electrically connected to an external power source and the light emitting assembly, the power supply device is provided with a power supply socket, and the lamp assembly is further provided with a plug inserted into the power supply socket.

Preferably, as the above technical solution, each of the first pairing module and the second pairing module is provided with a pairing switch, when the pairing switch is controlled, the first pairing module and the second pairing module can be paired to enter a pairing mode, and the pairing switch can be controlled to unpair the first pairing module and the second pairing module, each of the first wireless radio frequency module and the second wireless radio frequency module is further provided with a communication switch, when the communication switch is turned on, the first wireless radio frequency module and the second wireless radio frequency module can be actuated, and when the communication switch is turned off, the first wireless radio frequency module and the second wireless radio frequency module cannot be actuated.

Preferably, as the above technical solution, a timer is provided for a part of the lamp assemblies and the power supply device, when the lamp assembly provided with the timer is started, the timer starts to time, and after a predetermined time elapses by the timer, the timer turns off the lamp assembly or the power supply device, wherein a detector is provided for a part of the lamp assemblies, and when the electrical device or the power supply device provided with the detector receives a detection signal, the lamp assembly or the power supply device is turned on and transmits a start signal having the pairing code.

As a preferred aspect of the foregoing technical solution, preferably, a part of the first radio frequency modules may have a function of sending and receiving the start signal at the same time; part of the first wireless radio frequency modules only have the function of receiving the starting signals and have no function of sending the starting signals; and part of the first wireless radio frequency module only has the function of sending the starting signal and does not have the function of receiving the starting signal.

Preferably, in the above technical solution, the lamp pieces are bar-shaped lamps; a timer is arranged in part of the lamp components and the power supply device, when the lamp components with the timer are started, the timer starts to time, and after the timer passes a preset time, the timer closes the lamp components or the power supply device; wherein, part of the lamp components are provided with a detector, when the electrical device or the power supply device provided with the detector receives a detection signal, the lamp components or the power supply device are started and transmit a starting signal with the pairing code; part of the first wireless radio frequency module can simultaneously have the functions of sending and receiving the starting signal; part of the first wireless radio frequency modules only have the function of receiving the starting signals and have no function of sending the starting signals; and part of the first wireless radio frequency module only has the function of sending the starting signal and does not have the function of receiving the starting signal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description will be given below of the drawings required for the embodiments or the technical solutions in the prior art, and it is obvious that the drawings in the following description are 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 first perspective view of a preferred embodiment of the present invention.

Fig. 2 is a second perspective view of a preferred embodiment of the present invention.

FIG. 3 is a block diagram of a preferred embodiment of the present invention.

FIG. 4 is a state diagram of the present invention.

FIG. 5 is a block flow diagram of a preferred embodiment of the present invention.

Wherein, 1: a lamp assembly; 2: a lamp member; 4: a wireless remote controller; 5: a power supply device; 21: a lamp socket; 22: a light emitting assembly; 31: a control unit; 32: a first pairing module; 33: a first wireless radio frequency module; 34: a start signal; 35: a plug; 36: a pairing switch; 37: a communication switch; 38: a timer; 39: a detector; 41: a second pairing module; 42: a second wireless radio frequency module; 51: a power supply socket.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The following description is given by way of example only, and is not intended to limit the scope of the present invention, as illustrated in .

As shown in fig. 1 to 5, a preferred embodiment of the present invention is shown, and the present invention provides a lamp control system, which includes at least two lamp assemblies 1, in this embodiment, a plurality of lamp assemblies 1, each of the lamp assemblies 1 includes a lamp 2, a control unit 31, a first pairing module 32 and a first Radio Frequency (RF) module, the first pairing modules 32 of any two of the lamp assemblies 1 can be selectively paired to generate a pairing code and enter a pairing mode, and the first pairing modules 32 of the remaining lamp assemblies 1 can be paired with one of the first pairing modules 32 that has entered the pairing mode and obtain the pairing code. Therefore, when a user purchases a plurality of lamp assemblies 1, the lamp assemblies 1 can be paired firstly, and if a new lamp assembly 1 is purchased later, the newly purchased lamp assembly 1 can be directly paired with the paired lamp assemblies 1, so that the lamp assembly pairing method is very convenient to use.

When the control unit 31 of one of the lamp assemblies 1 entering the pairing mode turns on the lamp 2, the first rf module 33 of the lamp assembly 1 transmits a start signal 34 with the pairing code, when the first rf modules 33 of the other lamp assemblies 1 entering the pairing mode receive the start signal 34, the first pairing module 32 of the lamp assembly 1 verifies the start signal 34, and the control unit 31 of the lamp assembly 1 after the verification succeeds turns on the lamp 2. Therefore, when the owner of the house returns home, only one of the lamp assemblies 1 needs to be turned on, and the lamp assembly 1 can transmit the starting signal 34 to turn on the other lamp assemblies 1, so as to improve the convenience of the home life.

Preferably, in the embodiment, the wireless remote controller 4 further includes a second pairing module 41 and a second radio frequency module 42, the second pairing module 41 can selectively pair with one of the first pairing modules 32 that has entered into the pairing mode, and obtain the pairing code, and enter into the pairing mode, and the wireless remote controller 4 can transmit the activation signal 34 with the pairing code. Preferably, the second pairing module 41 can also selectively pair with a first pairing module 32 that does not enter the pairing mode to generate a pairing code and enter the pairing mode, and the second rf module 42 of the wireless remote controller 4 can transmit the activation signal 34 with the pairing code. The user can decide whether to join the wireless remote controller 4 into a pairing group or to generate a pairing group by himself or herself according to whether the lamp assemblies 1 have been paired.

Specifically, each of the light members 2 further includes a lamp socket 21 and a light emitting element 22, the light emitting element 22 is assembled with the lamp socket 21, in this embodiment, the strip-shaped lamp socket 21, and the light emitting element 22 is electrically connected to the control unit 31.

It should be noted that at least one of the lamp assemblies 1 of the present invention further includes a power supply device 5, the power supply device 5 is provided with the first pairing module 32, the first wireless rf module 33 and the control unit 31, and the power supply device 5 is electrically connected to an external power source and the light emitting assembly 22. Furthermore, the power supply device 5 is provided with a power supply socket 51, and the lamp 2 is further provided with a plug 35 inserted into the power supply socket 51, so that the power supply device 5 can be used for a lamp without a matching module and a radio frequency module, and the lamp can be matched with the lamp control system in a radio frequency manner.

Preferably, each of the first pairing module 32 and the second pairing module 41 is provided with a pairing switch 36, when the pairing switch 36 is controlled, the first pairing module 32 and the second pairing module 41 can be paired and enter a pairing mode, and the pairing switch 36 can be controlled to enable the first pairing module 32 and the second pairing module 41 to be unpaired, so as to facilitate pairing or unpairing, and therefore, the lamp assembly 1 or the wireless remote control 4 which is newly added later can be paired or unpaired conveniently. In other embodiments, only each of the first pairing modules 32 may be provided with the pairing switch 36, but not limited thereto.

In addition, in this embodiment, each of the first wireless rf module 33 and the second wireless rf module 42 is further provided with a communication switch 37, when the communication switch 37 is turned on, the first wireless rf module 33 and the second wireless rf module 42 can be actuated, and when the communication switch 37 is turned off, the actuation cannot be performed, so as to prevent the lamp assembly 1 or the power supply device 5 from being started.

Preferably, a timer 38 is disposed on a portion of the lamp assemblies 1 and the power supply device 5, when the lamp assembly 1 having the timer 38 is started, the timer 38 starts to count time, and after a predetermined time elapses by the timer 38, the timer 38 turns off the lamp assembly 1 or the power supply device 5, so as to avoid wasting power.

Preferably, a detector 39 is disposed on a portion of the lamp assemblies 1, when the lamp assembly 1 having the detector 39 receives a detection signal, the lamp assembly 1 is turned on and transmits the start signal 34 having the pairing code, the detector 39 may be an infrared sensing device, and when a person passes through the device, the lamp assembly 1 can be turned on.

It should be noted that, as shown in fig. 4 and 5, some of the plurality of first wireless rf modules in this embodiment may have the function of sending and receiving the start signal 34 at the same time; part of the plurality of first wireless radio frequency modules only have the function of receiving the starting signal 34 and have no function of sending the starting signal 34; part of the plurality of first wireless RF modules only have the function of sending the start signal 34 and do not have the function of receiving the start signal 34. For example, the lamp assembly 1 installed in the hallway may only have a function of sending the starting signal 34, when the user goes home and turns on the lamp assembly 1 installed in the hallway, the starting signal 34 is sent, and the lamp assemblies 1 (such as ceiling lamps or wall lamps) installed in the living room and the kitchen have a function of sending and receiving the starting signal 34, and when the two receive the starting signal 34, the two lamp assemblies 1 can be turned on and transmit the starting signal 34, so that the lamp assemblies 1 located in the basement or the second floor room can receive the starting signal 34, and the lamp assemblies 1 can be turned on, so that the user does not need to turn on the lamp assemblies 1 located in the room in person, the lighting convenience of the building can be improved when living, and in general, the probability of staying in the bedroom in normal times is low, therefore, the light fitting components 1 with only the transmitting function can be arranged in the rooms with lower utilization rates, such as bedrooms, so as to prevent the light fitting components 1 positioned in the hallway from being started and started simultaneously, and when the light fitting components 1 positioned in the bedrooms are started when the resident gets up from the bed, the rest light fitting components 1 arranged in the building can be relatively started, so that all indoor places of the building can have brighter illumination when the resident gets up from the bed, and in addition, the first light fitting components 11 positioned in the hallway cannot be started but are not used, so that the electric quantity can be prevented from being wasted.

In summary, in the lamp control system of the present invention, the first radio frequency modules (RF) are disposed on each lamp assembly, so that pairing can be performed arbitrarily, and when the first RF module of one of the lamp assemblies is activated and transmits an activation signal, the remaining first RF modules receiving the activation signal will control the lamp assembly to be activated, thereby effectively achieving the function of automatic control.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A luminaire control system, comprising:

the system comprises at least two lamp assemblies, a control unit, a first pairing module and a first wireless radio frequency module, wherein the first pairing module of any two lamp assemblies is matched and paired to generate a pairing code and enter a pairing mode;

when the control unit of one of the lamp assemblies entering the pairing mode starts the lamp, the first wireless radio frequency module of the lamp assembly transmits a starting signal with the pairing code, when the first wireless radio frequency modules of the other lamp assemblies entering the pairing mode receive the starting signal, the first pairing module of the lamp assembly verifies the starting signal, and the control unit of the lamp assembly after the verification succeeds starts the lamp.

2. The lighting fixture control system of claim 1, comprising at least three lighting fixture assemblies, wherein the first pairing module of any two of the lighting fixture assemblies is paired to generate a pairing code and enters a pairing mode, and the first pairing module of each of the remaining lighting fixture assemblies is paired with the first pairing module that has entered the pairing mode to obtain the pairing code.

3. The lamp control system of claim 1, further comprising a wireless remote control, wherein the wireless remote control comprises a second pairing module and a second wireless radio frequency module, the second pairing module is paired with one of the first pairing modules that has entered a pairing mode, obtains the pairing code, and enters the pairing mode, and the second wireless radio frequency module of the wireless remote control transmits the start signal having the pairing code.

4. The lamp control system of claim 1, further comprising a wireless remote control, wherein the wireless remote control comprises a second pairing module and a second radio frequency module, the second pairing module is paired with a first pairing module that does not enter pairing mode to generate a pairing code and enters pairing mode, and the second radio frequency module of the wireless remote control transmits the start signal with the pairing code.

5. The lamp control system of claim 3 or 4, wherein each of the lamp units further comprises a lamp socket and a light emitting device, the light emitting device is connected to the lamp socket, and the light emitting device is electrically connected to the control unit.

6. The lamp control system of claim 5, wherein at least one of the lamp assemblies further comprises a power supply device, the power supply device is provided with the first mating module, the first wireless radio frequency module and the control unit, the power supply device is electrically connected with an external power source and the light emitting assembly, the power supply device is provided with a power supply socket, and the lamp assembly is further provided with a plug inserted into the power supply socket.

7. The lamp control system of claim 6, wherein each of the first and second pairing modules has a pairing switch, and when the pairing switch is controlled to enable the first and second pairing modules to be paired into a pairing mode, and the pairing switch is controlled to enable the first and second pairing modules to be unpaired, each of the first and second wireless RF modules further has a communication switch, and when the communication switch is turned on, the first and second wireless RF modules are activated, and when the communication switch is turned off, the first and second wireless RF modules are deactivated.

8. The lamp control system of claim 6, wherein the lamp assembly and the power supply device are provided with a timer, and when the lamp assembly provided with the timer is started, the timer starts to count time, and after a predetermined time elapses, the timer turns off the lamp assembly or the power supply device, wherein the lamp assembly is provided with a detector, and when the electrical device or the power supply device provided with the detector receives a detection signal, the lamp assembly or the power supply device is turned on and transmits a start signal having the pairing code.

9. The lamp control system of claim 1 or 2, wherein the first wireless rf module has a function of sending and receiving the start signal; the first wireless radio frequency module only has the function of receiving the starting signal and does not have the function of sending the starting signal; the first wireless radio frequency module only has the function of sending the starting signal and does not have the function of receiving the starting signal.

10. The lamp control system of claim 7, wherein the light fixtures are bar type lights; the lamp assembly and the power supply device are provided with a timer, when the lamp assembly provided with the timer is started, the timer starts to time, and after the timer passes a preset time, the timer closes the lamp assembly or the power supply device; the lamp assembly is provided with a detector, and when the electrical device or the power supply device provided with the detector receives a detection signal, the lamp assembly or the power supply device is started and transmits a starting signal with the pairing code; the first wireless radio frequency module has the functions of sending and receiving the starting signal at the same time; the first wireless radio frequency module only has the function of receiving the starting signal and does not have the function of sending the starting signal; the first wireless radio frequency module only has the function of sending the starting signal and does not have the function of receiving the starting signal.