CN105188202A - Intelligent light control system - Google Patents

Intelligent light control system Download PDF

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Publication number
CN105188202A
CN105188202A CN201510531595.8A CN201510531595A CN105188202A CN 105188202 A CN105188202 A CN 105188202A CN 201510531595 A CN201510531595 A CN 201510531595A CN 105188202 A CN105188202 A CN 105188202A
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China
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controller
module
wireless
lamp
key
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CN201510531595.8A
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Chinese (zh)
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汤毅
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Individual
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Individual
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Priority to CN201510531595.8A priority Critical patent/CN105188202A/en
Priority to CN201520651685.6U priority patent/CN204929348U/en
Publication of CN105188202A publication Critical patent/CN105188202A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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  • Circuit Arrangement For Electric Light Sources In General (AREA)

Abstract

The invention provides an intelligent light control system, which comprises a main controller used for generating a wireless control signal upon receiving a triggering instruction sent by a user; and a wireless controller used for controlling the on/off state of a light fixture according to the wireless control signal, detecting the current signal of the light fixture in real time, and then feeding the state information corresponding to the current signal back to the main controller. The main controller receives and displays the received state information to a user, so that the user can check the state information in real time. According to the technical scheme of the invention, by means of the main controller, the wireless controller and the light fixture, the visualization and the intellectualization of the entire intelligent light control system are realized, while the wiring operation is not required during the entire control process. Therefore, the waste of cables due to the traditional wiring mode can be avoided. The investment cost of the traditional wiring operation is effectively reduced. Meanwhile, the current signal of the light fixture is detected in real time by the wireless controller, and then the corresponding state information of the light fixture is fed back to the main controller. In this way, the complex process of the manual signal detection operation is avoided. The above system is time-saving and labor-saving in operation. The security of the whole control system is better and the later maintenance efficiency of the system is higher.

Description

Intelligent light control system
Technical Field
The invention relates to the field of light control, in particular to an intelligent light control system.
Background
The light is an indispensable part in people's life and work, and along with the increase of the use quantity of light, it has become a big difficult problem to control light, in order to better control light, makes it satisfy user's demand, needs a light control system to carry out the control state to light.
The traditional light control system adopts a wired mode, namely, a switch is connected with a controlled lamp through a wire, and the general steps of the light control system applying the wired mode are as follows: electricians firstly position the electric according to the use of users, and the positions of switches, lamps, sockets and the like are positioned; cutting the wiring groove according to the positioned position and the specific trend of the circuit; then embedding the wire tube in the cut wiring groove; and finally, the commercial power is led to the position of the control switch, the switch is installed, and the wall body is painted. In the light control process of the light control system, one controlled lamp is usually controlled by one mechanical switch, and even if one mechanical switch can control a plurality of controlled lamps in the light control of a building publishing area, the connection between the switch and the controlled lamps is established in a wired mode; wherein, the wired cable is preferably a copper cable; in addition, in order to obtain the current state of the controlled lamp, the user needs to manually detect the current signal of the lamp in a one-by-one checking manner to obtain the current state of the lamp.
The inventor finds in research that the light control system for controlling the lamp by triggering the switch in a wired manner in the prior art mainly has two problems: on one hand, wiring needs to be performed in advance, the investment cost is high, the construction is complex, the maintenance is not easy, the safety coefficient of a wired mode is low, and the phenomena of electric leakage and the like are easy to cause; on the other hand, the state of the controlled lamp cannot be known in time after the lamp is controlled, and the operation process for obtaining the state of the controlled lamp is complex, time-consuming and labor-consuming.
Disclosure of Invention
The invention aims to provide an intelligent light control system which controls a controlled lamp in a wireless control mode, so that wiring is avoided, and the cost of traditional wiring is reduced; the working state of the controlled lamp can be fed back in real time while the control is carried out, so that the complex process of manually detecting signals by a user is avoided, and time and labor are saved; therefore, the whole system is good in safety and the later maintenance efficiency is improved.
In a first aspect, an embodiment of the present invention provides an intelligent lighting control system, including: the system comprises a main controller, a wireless controller and a lamp;
the main controller is used for generating a wireless control signal when receiving a trigger instruction of a user; the wireless control signal is used for triggering the start-stop state of the wireless controller;
the wireless controller is respectively electrically connected with a mains supply and the lamp, and is used for controlling the starting and stopping states of the lamp according to the wireless control signal and detecting the current signal of the lamp in real time and feeding back the state information corresponding to the current signal to the main controller when the control system is powered on;
and the main controller receives and displays the state information for a user to check in real time.
With reference to the first aspect, an embodiment of the present invention provides a first possible implementation manner of the first aspect, where the radio controller includes:
the first wireless transceiving module is used for receiving the wireless control signal sent by the main controller and feeding back state information corresponding to the current signal detected by the current detection module to the main controller;
the decoding module is electrically connected with the first wireless transceiving module and is used for decoding the wireless control signal sent by the main controller to obtain a light driving command;
the relay control module is electrically connected with the decoding module and used for driving a relay to control the starting and stopping states of a lamp according to the received light driving command;
the current detection module is electrically connected with the relay control module and is used for detecting a current signal of the lamp in real time and sending state information corresponding to the current signal to the first wireless transceiving module; the state information corresponding to the current signal at least comprises: on and off.
With reference to the first possible implementation manner of the first aspect, an embodiment of the present invention provides a second possible implementation manner of the first aspect, where the wireless controller further includes a first key module, a first display module, a first power module, and a data interface;
the first key module is used for adjusting the starting and stopping states of the wireless controller;
the first display module is electrically connected with the first key module and used for indicating the current start-stop state of the wireless controller;
the first power supply module comprises a conversion circuit, and adjusts the input voltage to the voltage value required by the wireless controller through the conversion circuit so as to supply power to the wireless controller;
the wireless controller is electrically connected with the lamp through the data interface and is used for controlling the lamp.
With reference to the second possible implementation manner of the first aspect, an embodiment of the present invention provides a third possible implementation manner of the first aspect, where the first key module generates a first control instruction when receiving a first preset instruction; the first control instruction is used for adjusting a code matching mode of the wireless controller and the corresponding main controller; the first key module generates a second control instruction when receiving a second preset instruction; the second control instruction is used for adjusting the code clearing modes of the wireless controller and the corresponding main controller; the first preset instruction and the second preset instruction at least carry one or more of the following parameter information: the user triggering times, the user triggering time and the user triggering strength; the parameter values carried by the first preset instruction and the second preset instruction are different.
With reference to the third possible implementation manner of the first aspect, an embodiment of the present invention provides a fourth possible implementation manner of the first aspect, where the wireless controller further includes a code checking module and a code clearing module;
the code matching module extracts the address of the main controller from the control signal sent by the main controller according to the first control instruction, verifies the extracted address through the pre-stored address of the main controller, allocates a corresponding management lamp to the main controller with the corresponding address when the verification results are matched, and feeds back the result of success or failure of allocation to the main controller with the corresponding address;
and the code clearing module clears all the addresses which are stored in the wireless controller in advance and correspond to the main controller according to the second control instruction.
With reference to the first aspect, an embodiment of the present invention provides a fifth possible implementation manner of the first aspect, where the main controller includes one or more of the following controllers: a key controller and a terminal controller;
the key controller is used for controlling the starting and stopping states of the lamp indoors and displaying the working state of the lamp;
and the terminal controller is used for remotely controlling the starting and stopping states of the lamp and displaying the working state of the lamp.
With reference to the fifth possible implementation manner of the first aspect, an embodiment of the present invention provides a sixth possible implementation manner of the first aspect, where the key controller includes a second key module, a second wireless transceiver module, a second display module, and a second power module;
the second key module is used for generating a light control signal according to a key instruction of a user;
the second wireless transceiver module is electrically connected with the second key module and is used for sending the light control signal to the wireless controller and receiving state information corresponding to the current signal fed back by the wireless controller;
the second display module is used for displaying the working state of the key controller and the working state of the controlled lamp;
and the second power supply module is used for supplying power to the key controller.
With reference to the sixth possible implementation manner of the first aspect, an embodiment of the present invention provides the seventh possible implementation manner of the first aspect, where the key controller further includes a control module; the second power supply module comprises a lithium battery and a photovoltaic charging circuit;
the lithium battery is used for supplying power to the key controller according to the electric quantity stored by the lithium battery; the photovoltaic charging circuit is used for converting light energy into electric energy and supplying power to the key controller and/or charging the lithium battery through the electric energy;
the control module controls the photovoltaic charging circuit to directly supply power to the key controller when detecting that the current light intensity reaches a first threshold range; when the light intensity is detected to reach a second threshold value range, controlling the lithium battery to supply power to the key controller; when the light intensity is detected to reach a third threshold range, the lithium battery is controlled to supply power for the key controller, and meanwhile, the photovoltaic charging circuit is controlled to charge the lithium battery.
With reference to the fifth possible implementation manner of the first aspect, an embodiment of the present invention provides an eighth possible implementation manner of the first aspect, where the terminal controller includes an intelligent terminal and a wireless networking module;
the wireless networking module is used for networking the wireless controller;
the intelligent terminal is used for controlling the corresponding wireless controller through the networking and controlling the starting and stopping states of the corresponding lamp.
With reference to the first aspect, or any one of the first possible implementation manner of the first aspect to the eighth possible implementation manner of the first aspect, an embodiment of the present invention provides a ninth possible implementation manner of the first aspect, where one master controller is configured to match with multiple wireless controllers, and is configured to control the multiple wireless controllers; or a plurality of main controllers are matched with one wireless controller and used for controlling the wireless controller respectively.
According to the intelligent light control system provided by the embodiment of the invention, the whole light control system is visualized and intelligentized by adopting the main controller, the wireless controller and the lamp, and the control and monitoring of the lamp are realized by controlling the starting and stopping of the lamp and feeding back the working state of the controlled lamp through wireless signals; compared with the prior art that the light control is that the switch is connected with the controlled lamp through a wire, and the light is controlled directly by switching on and off the commercial power, the wiring cost is high, and the later maintenance efficiency is low, the wireless controller is controlled by the main controller in a wireless control signal mode, so that the starting and stopping of the lamp are controlled; in the embodiment, the whole control process does not need wiring, so that the problems of cable waste and blindness of later maintenance caused by the traditional wiring mode are avoided, and the input cost of the traditional wiring is effectively reduced; in the control process, the wireless controller also detects the current signal of the lamp in real time and feeds the state information of the corresponding lamp back to the main controller, so that the complex process of manually detecting the signal by a user is avoided, and time and labor are saved; the whole control system is good in safety and improves later maintenance efficiency.
In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.
Fig. 1 is a schematic structural diagram illustrating an intelligent light control system according to an embodiment of the present invention;
fig. 2 is a schematic diagram illustrating a design of a wireless controller in an intelligent lighting control system according to an embodiment of the present invention;
fig. 3 is a schematic diagram illustrating a design of a conversion circuit in an intelligent lighting control system according to an embodiment of the present invention;
fig. 4 shows a schematic design diagram of a key controller in an intelligent lighting control system according to an embodiment of the present invention;
fig. 5 is a schematic diagram illustrating a design of a second power module in an intelligent lighting control system according to an embodiment of the present invention;
fig. 6 shows a schematic design diagram of a terminal controller in an intelligent light control system according to an embodiment of the present invention;
the main elements in the figures are symbolically illustrated:
11. a main controller; 21. a wireless controller (among them, 21a, 21b, … … 21n, wireless controller); 31. a light fixture; 41. a key controller; 51. a terminal controller; 210. a first wireless transceiving module; 211. a decoding module; 212. a relay control module; 213. a current detection module; 214. a first key module; 215. a first display module; 216. a first power supply module; 217. a data interface; 218. a code matching module; 219. a code clearing module; 411. a second key module; 412. a second wireless transceiver module; 413. a second display module; 414. a second power supply module; 415. a control module; 511. a wireless networking module; 512. an intelligent terminal; 4141. a photovoltaic charging circuit; 4142. a lithium battery; 2161. a conversion circuit; 21611. an input module; 21612. a full-bridge rectification module; 21613. a voltage stabilization module; 21614. and an output module.
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. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.
In consideration of the traditional light control method in the related art, the traditional light control method depends on wiring and a method for manually troubleshooting, so that the wiring cost is high, and the efficiency of later maintenance is low. Based on the above, the embodiment of the invention provides the intelligent light control system, the wiring is not needed in the whole control process, the working state of the controlled lamp is fed back, and the cable waste and the blindness of later maintenance of the traditional wiring are avoided, so that the high cost of the traditional wiring is reduced, and the safety of light control and the efficiency of later maintenance are improved.
The invention provides an intelligent light control system which has the following specific structure:
referring to fig. 1, an embodiment of the present invention provides an intelligent light control system. The system specifically comprises: the main controller 11, the wireless controller 21 and the lamp 31; the main controller 11 is used for generating a wireless control signal when receiving a trigger instruction of a user; the wireless control signal is used for triggering the start-stop state of the wireless controller 21;
the wireless controller 21 is electrically connected to the commercial power and the lamp 31, and is configured to control a start-stop state of the lamp 31 according to a wireless control signal when the control system is powered on, detect a current signal of the lamp 31 in real time, and feed back state information corresponding to the signal to the main controller 11;
the main controller 11 receives and displays the status information for the user to view in real time.
According to the intelligent light control system provided by the embodiment of the invention, the main controller 11, the wireless controller 21 and the lamp 31 are adopted to enable the whole light control system to be visualized and intelligentized, and the control and monitoring of the lamp 31 are realized by controlling the starting and stopping of the lamp 31 through wireless signals and feeding back the working state of the controlled lamp 31; compared with the prior art that the light control is that the switch is connected with the controlled lamp 31 through a wire, the light is controlled directly by switching on and off the commercial power, the wiring cost is high, and the later maintenance efficiency is low, the main controller 11 controls the wireless controller 21 in a wireless control signal mode, and then controls the starting and stopping of the lamp 31; in the embodiment, the whole control process does not need wiring, so that the problems of cable waste and blindness of later maintenance caused by the traditional wiring mode are avoided, and the input cost of the traditional wiring is effectively reduced; in the control process, the wireless controller 21 also detects the current signal of the lamp 31 in real time and feeds the state information of the corresponding lamp 31 back to the main controller 11, so that the complex process of manually detecting the signal by a user is avoided, and time and labor are saved; the whole control system is good in safety and improves later maintenance efficiency.
Specifically, the trigger instruction corresponding to the wireless control signal generated by the main controller 11 may be the trigger of the user on an entity key or the trigger of the user on a touch screen key of the terminal; the wireless controller 21 is used for controlling the corresponding lamp 31, and the wireless control signal can control a start-stop state of the wireless controller 21, where the start-stop state includes: the wireless controller 21 is started to control the corresponding lamp 31 and the wireless controller 21 to stop, and the control of the corresponding lamp 31 is stopped.
In order to match and receive the wireless control signal sent by the main controller 11, the wireless controller 21 of the intelligent light control system provided by the embodiment is of a circular structure, and has a small volume and low power consumption; when the wireless controller 21 is used, one end of the wireless controller is connected to the commercial power in series, and the other end of the wireless controller is connected to the lamp 31 through the data interface 217 for setting. The wireless controller 21 may be disposed at any position between the commercial power and the lamp 31, which is not limited in the present invention.
In the present embodiment, in order to more efficiently and accurately receive the wireless control signal transmitted from the main controller 11, it is preferable to dispose the wireless controller 21 at a position matching the main controller 11. Note that the meaning of the wireless controller 21 and the main controller 11 matching is as follows: in the process of light control, the wireless controller 21 and the main controller 11 are arranged oppositely, and the distance between the main controller 11 and the wireless controller 21 for receiving and transmitting the wireless signals falls within the distance between the wireless controller 21 and the wireless controller for receiving and transmitting the wireless signals. In addition, referring to fig. 1, there are n wireless controllers 21 matching the main controller 11, and the present invention does not specifically limit the value n.
In addition, the wireless controller 21 may also detect a current signal of the lamp 31 in real time according to the wireless control signal sent by the main controller 11, where the current signal is the presence or absence of current passing through the lamp 31; if the wireless controller 21 detects the current signal, the wireless controller 21 generates feedback information that the lamp 31 is normally lighted, and feeds the feedback information back to the main controller 11; if the wireless controller 21 does not detect the current signal (i.e., the current signal is no), the wireless controller 21 generates feedback information that the lamp 31 is not lit, and feeds the feedback information back to the main controller 11. And storing and displaying the two pieces of information fed back by the controller so as to present the information to a user in real time.
In consideration of the fact that the user wants to check the status of the lamp 31 to check whether the lamp 31 is in failure, the wireless controller 21 of the present system not only receives the status information in real time, but also displays the status information in real time, so as to visually represent the status information for the user to check in real time.
It should be noted that the main controller 11 may directly control the wireless controller 21, and at this time, the background server in the intelligent lighting control system performs protocol configuration on the main controller 11 and the wireless controller 21 in advance, so that the main controller 11 and the wireless controller 21 may directly perform data communication; in addition, the main controller 11 may also control the wireless controller 21 through a backend server, for example, the main controller 11 accesses the backend server to control the wireless controller 21 or the main controller 11 accesses a network corresponding to the backend server to control the wireless controller 21.
Further, in the above-mentioned intelligent light control system, referring to fig. 2, the wireless controller 21 mainly includes: four devices of a first wireless transceiver module 210, a decoding module 211, a relay control module 212 and a current detection module 213; wherein,
the first wireless transceiving module 210 is configured to receive a wireless control signal sent by the main controller 11, and feed back status information corresponding to the current signal detected by the current detection module 213 to the main controller 11; a decoding module 211 electrically connected to the first wireless transceiving module 210, for decoding the wireless control signal sent by the main controller 11 to obtain a light driving command; the relay control module 212 is electrically connected with the decoding module 211 and is used for driving the relay to control the on-off state of the lamp 31 according to the received light driving command; the current detection module 213 is electrically connected to the relay control module 212, and configured to detect a current signal of the lamp 31 in real time, and send state information corresponding to the current signal to the first wireless transceiver module 210.
First, the first wireless transceiver module 210 is a core component of the wireless controller 21, and the transceiver module receives the wireless control signal sent by the main controller 11 and also feeds back status information corresponding to the current signal detected by the current detection module 213 to the main controller 11.
Secondly, considering that the specific information represented by the wireless control signal received by the first wireless transceiving module 210 is unknown, the decoding module 211 in the system decodes the received wireless control signal to obtain the light driving command, so as to restore the effective information contained in the wireless control signal.
In order to better control the on/off of the controlled lamp 31, in this embodiment, the state of the lamp 31 is controlled by the relay control module 212, the relay control module 212 includes a relay, and the relay control module 212 drives a switch, which is included in the relay control module and switches on and off of a working circuit, according to the decoded driving command, so as to automatically control the on/off state of the lamp 31.
Finally, in the present application, the current detection module 213 detects the working state of the controlled lamp 31, and the current detection module 213 may be connected in series with the relay control module 212, and like an ammeter connected in parallel to two ends of the switch, it may detect the current signal of the lamp 31 in real time; the current signal here is the presence or absence of current passing through the lamp 31; if the current signal is detected, generating feedback information that the lamp 31 is normally turned on; if the current signal is not detected (i.e. the current signal is none), generating feedback information that the lamp 31 is not on; meanwhile, the current detection module 213 sends the generated state information corresponding to the two current signals to the first wireless transceiver module 210, and the first wireless transceiver module 210 feeds the state information back to the main controller 11 for the user to check the state of the lamp 31 in real time. In addition, the main controller 11 may be provided with an alarm, and when the lamp 31 is in failure, the alarm is controlled to send out an alarm signal.
It should be noted that, in order to meet the requirements of different users, the first radio transceiver module 210 in the radio controller 21 preferably transmits and receives signals through the following frequency bands, where the frequency bands may be: 315Mhz, 433Mhz, or 2.4 Ghz; since the main controller 11 and the radio controller 21 are provided in a compatible manner, the main controller 11 preferably transmits and receives signals in the above frequency band.
Further, in order to better control the lamp 31 and perform initialization in cooperation with the main controller 11, in the above-mentioned intelligent lighting control system, the wireless controller 21 further includes four devices, i.e. a first key module 214, a first display module 215, a first power module 216, and a data interface 217, as shown in fig. 2, wherein,
the first key module 214 is used for adjusting the start-stop state of the wireless controller 21; the first display module 215 is electrically connected to the first key module 214, and is configured to indicate a current start-stop state of the wireless controller 21; the first power module 216 includes a conversion circuit 2161, and adjusts the input voltage to a voltage value required by the wireless controller 21 through the conversion circuit 2161, so as to supply power to the wireless controller 21; the wireless controller 21 includes a data interface 217, and electrically connects the wireless controller 21 and the lamp 31 through the data interface 217, so as to implement data transmission between the wireless controller 21 and the lamp 31.
The first display module 215 may be an indicator light or a display screen; in this embodiment, an indicator light is taken as an example for explanation; specifically, the first key module 214 and the first display module 215 are mutually matched, and the first display module 215 responds to the triggering condition of the first key module 214, for example, when the user triggers the first key module 214 for the first time, the indicator light is turned on or off; when the user triggers the first key module 214 for the second time, the indicator lights are correspondingly turned off or on, and the above process indicates that the wireless controller 21 is working normally.
Considering that the voltage of the ac mains cannot be directly applied to the wireless controller 21 and the input ac mains needs to be converted, the wireless controller 21 further includes a conversion circuit 2161, and referring to fig. 3, the conversion circuit 2161 can adjust the input high voltage (i.e. the input mains voltage) to the low voltage required by the wireless controller 21. Specifically, the converter circuit 2161 specifically includes four key devices, namely, an input module 21611, a full-bridge rectifier module 21612, a voltage regulator module 21613, and an output module 21614. Wherein, the input module 21611 is connected to the commercial power and used as the input of the conversion circuit 2161; the full-bridge rectification module 21612 is electrically connected with the input module 21611 and is used for rectifying the commercial power into a direct current signal; the voltage stabilizing module 21613 is electrically connected to the full-bridge rectifying module 21612, and is used for stabilizing the voltage of the dc signal; the output module 21614 is electrically connected to the voltage regulator module 21613, and is configured to output the stabilized dc signal to power the wireless controller 21.
It is worth mentioning that, through the conversion circuit 2161, the first power module 216 can be electrically connected to each functional module in the wireless controller 21 directly, so as to supply power to the individual functional modules; or may be electrically connected to any functional module in the wireless controller 21 to supply power to the wireless controller 21. The present invention is not limited in particular to the specific connection manner between the first power module 216 and the functional module.
Further, the first key module 214 in the intelligent lighting control system provided by this embodiment may generate a first control instruction when receiving a first preset instruction, and may also generate a second control instruction when receiving a second preset instruction. The first control instruction is used for adjusting a code matching mode between the wireless controller 21 and the corresponding main controller 11, and the second control instruction is used for adjusting a code clearing mode between the wireless controller 21 and the corresponding main controller 11; the first preset instruction and the second preset instruction may carry the following parameter information: the user triggering times, the user triggering time and the user triggering strength can also carry combined information of the parameter information, and meanwhile, parameter values carried by the first preset instruction and the second preset instruction are different.
Specifically, the parameter information may include only the number of times of triggering by the user, for example, when the number of times of triggering the first key module 214 by the user falls into 3 to 5 consecutive times, the code matching mode is started; when the number of times the user triggers the first key module 214 falls within 5 consecutive times or more, the clear code mode is started. The parameter information may also include only the user triggering time, for example, when the time for the user to trigger the first key module 214 is between 3 seconds and 5 seconds, the code matching mode is started; when the time for the user to trigger the first key module 214 is more than 5 seconds, the clear code mode is started. Similarly, the parameter information may include only the user trigger strength, the trigger strength is measured by a pressure sensor built in the first key module 214, and when the strength is a first strength threshold, the code matching mode is started; and when the strength is the second strength threshold, starting the clear code mode. The first threshold and the second threshold may be set according to the requirement, and the present invention is not limited in this regard.
In addition, the parameter information can also be any two or combination of three of the user triggering times, the user triggering time and the user triggering strength, for example, when the user triggering time is short and the triggering strength is light, a code matching mode is started; and when the departure time of the user is long and the triggering strength is heavy, starting a code clearing mode and the like.
Further, for better initialization of the wireless controller 21, referring to fig. 2, the wireless controller 21 further includes a code checking module 218 and a code clearing module 219; the code matching module 218 extracts an address of the main controller 11 from the control signal sent by the main controller 11 according to the first control instruction, verifies the extracted address by using the pre-stored address of the main controller 11, allocates a corresponding management lamp 31 to the main controller 11 with the corresponding address when the verification result is matched, and feeds back the result of whether the allocation is successful or not to the main controller 11 with the corresponding address; the clear code module 219 clears all the addresses corresponding to the main controller 11 and pre-stored in the wireless controller 21 according to the second control instruction.
Specifically, a communication protocol is previously established between the main controller 11 and the wireless controllers 21, that is, after the wireless controllers 21 receive the control signals sent by the main controller 11, the wireless controllers 21 assign control tasks, and meanwhile, the main controller 11 directly receives the signals fed back by the corresponding wireless controllers 21 according to the communication protocol. In the process of verifying the address of the main controller 11 pre-stored in the wireless controller 21 and the address extracted after the code matching mode is started, when the verification results are matched, the corresponding management lamp 31 is allocated to the main controller 11 corresponding to the address, and the result of whether the allocation is successful or not is fed back to the main controller 11 corresponding to the address.
Preferably, in order to improve the setting efficiency, the user may retain the corresponding address already stored when rearranging the control lights, and only updates the address not stored or deletes a part of the address already stored, so the wireless controller 21 may further include a selection module. Specifically, the first key module 214 may further generate a third control instruction when receiving a code pairing selection instruction sent by the user, and the first key module 214 may further generate a fourth control instruction when receiving a code clearing selection instruction sent by the user; wherein the third control instruction and the fourth control instruction are used for adjusting the selection module between the wireless controller 21 and the corresponding main controller 11. When the user wants to add a code matching address, the selection module is controlled by the third control instruction to select a corresponding address, so that the code matching module 218 is controlled to perform code matching according to the selected address; when the user wants to delete the address of the matched code, the fourth control instruction controls the selection module to select the corresponding address, so as to control the clear code module 219 to clear the selected address.
The main controller 11 provided in this embodiment may be a key controller 41 or a terminal controller 51, considering different scenes of light control. The key controller 41 is matched with the wireless controller 21 and used for controlling the starting and stopping states of the lamp 31 indoors in a short distance and displaying the working state of the lamp 31; the terminal controller 51 is matched with the wireless controller 21 and used for remotely controlling the on-off state of the lamp 31 and displaying the working state of the lamp 31. In a specific application, the key controller 41 can be used in indoor decoration, and the terminal controller 51 can be used for building control.
Further, in the system provided in this embodiment, referring to fig. 4, the key controller 41 mainly includes four devices, namely, a second key module 411, a second wireless transceiver module 412, a second display module 413, and a second power module 414; the second key module 411 is configured to generate a light control signal according to a key instruction of a user; the second wireless transceiver module 412 is electrically connected to the second key module 411, and is configured to send a light control signal to the wireless controller 21 and receive state information corresponding to a current signal fed back by the wireless controller 21; a second display module 413, configured to display an operating state of the key controller 41 and an operating state of the controlled lamp 31; and a second power module 414 for providing power to the key controller 41. The second display module 413 may be an indicator light or a display screen.
Specifically, the key controller 41 is in the form of a solid key, and compared with the unsafe factor caused by the traditional solid switch directly closing and cutting off the circuit connected with the commercial power, the key controller 41 is a micro switch and is not directly connected with the commercial power, so that the safety of the light control process is high.
Meanwhile, the key controller 41 further includes a second power module 414, referring to fig. 5, where the second power module 414 includes a lithium battery 4142 and a photovoltaic charging circuit 4141, where the lithium battery 4142 is configured to supply power to the key controller 41 according to the stored electric quantity; the photovoltaic charging circuit 4141 is configured to convert light energy into electric energy, and supply power to the key controller 41 and/or charge the lithium battery 4142 with the electric energy.
Specifically, in order to more effectively utilize the electric quantity in the lithium battery 4142 and the photovoltaic charging circuit 4141, the intelligent lighting control system provided by the embodiment further includes a control module 415, which controls the photovoltaic charging circuit 4141 to directly supply power to the key controller 41 when detecting that the current light intensity reaches a first threshold range (e.g., above 50 LUX); when the light intensity is detected to reach a second threshold range (e.g., below 20 LUX), controlling the lithium battery 4142 to supply power to the key controller 41; when the light intensity is detected to reach a third threshold range (e.g., 20LUX-50LUX), the lithium battery 4142 is controlled to supply power to the key controller 41, and the photovoltaic charging circuit 4141 is controlled to charge the lithium battery 4142;
specifically, in the process that the control module 415 controls the second power module 414 to supply power to the key controller 41, the light intensity is first detected by the light sensitive resistor, and the whole power supply process is controlled according to the detected light intensity. Preferably, when the indoor illumination is sufficient, the photovoltaic charging circuit 4141 can absorb sufficient illumination, and the light intensity measured by the photoresistor is higher than 200LUX, the photovoltaic charging circuit 4141 is controlled to directly supply power to the key controller 41; when the indoor illumination is very insufficient, the photovoltaic charging circuit 4141 cannot absorb light energy, and the light intensity measured by the photoresistor is lower than 20LUX, the electric quantity stored in the lithium battery 4142 is controlled to supply power to the key controller 41; when the light intensity detected by the photoresistor is between 20LUX and 200LUX, the lithium battery 4142 is controlled to supply power to the key controller 41, and the photovoltaic charging circuit 4141 is controlled to charge the lithium battery 4142. The above-described process of jointly supplying power enables the entire key controller 41 to be low in power consumption and photovoltaic charged without depending on a power source.
It should be noted that the second power module 414 can also be electrically connected to each functional module in the key controller 41 directly, so as to supply power to the individual functional modules; or may be electrically connected to any functional module in the key controller 41 to supply power to the key controller 41. The specific connection manner between the second power module 414 and the functional module is not specifically limited in the present invention.
Further, in the system provided by this embodiment, referring to fig. 6, the terminal controller 51 mainly includes two devices, namely, an intelligent terminal 512 and a wireless networking module 511, where the wireless networking module 511 is used for networking the wireless controller 21; the intelligent terminal 512 is configured to control the corresponding wireless controller 21 through networking, so as to control the start-stop state of the corresponding lamp 31.
Specifically, the wireless networking module 511 performs networking on the wireless controller 21 through a third wireless transceiver module included in the wireless networking module; the intelligent terminal 512 can directly access the networking (for example, directly access the WIFI signal released by the wireless networking module 511) to control the corresponding wireless controller 21; or, the intelligent terminal 512 may access a background server corresponding to the wireless networking module 511 through a connected 2G, 3G, 4G, or 5G network to control the corresponding wireless controller 21 to further control the start and stop of the luminaire 31, and meanwhile, the wireless networking module 511 may feed back the working state of the controlled luminaire 31 to the intelligent terminal 512, so that the intelligent terminal 512 displays the working state of the controlled luminaire 31.
It is worth proposing that the intelligent terminal 512 can be an electronic device with interface management and button triggering wireless signal functions, such as a computer, a smart phone, a tablet computer, and the like.
Further, in the system provided in this embodiment, one master controller 11 is configured to match with a plurality of wireless controllers 21, and is configured to control the plurality of wireless controllers 21 (that is, one master controller 11 may control a plurality of wireless controllers 21 at the same time); alternatively, a plurality of main controllers 11 are provided in association with one wireless controller 21 for controlling the above-mentioned one wireless controller 21, respectively (i.e., one wireless controller 21 may be controlled by a plurality of main controllers 11).
Specifically, the wireless controller 21 and the main controller 11 are in a many-to-many relationship, so that the function of controlling a plurality of lamps 31 by one key is realized, and the requirements of users are greatly met.
In addition, the intelligent light control system that this embodiment provided still includes monitor terminal, and this monitor terminal is connected with the server for real time monitoring whole intelligent light control system's state, and when unusual situation appears, generate alarm signal, be used for the suggestion staff to look over.
According to the intelligent light control system provided by the embodiment of the invention, the main controller 11, the wireless controller 21 and the lamp 31 are adopted to enable the whole light control system to be visualized and intelligentized, and the control and monitoring of the lamp 31 are realized by controlling the starting and stopping of the lamp 31 through wireless signals and feeding back the working state of the controlled lamp 31; compared with the prior art that the light control is that the switch is connected with the controlled lamp 31 through a wire, the light is controlled directly by switching on and off the commercial power, the wiring cost is high, and the later maintenance efficiency is low, the main controller 11 controls the wireless controller 21 in a wireless control signal mode, and then controls the starting and stopping of the lamp 31; in the embodiment, the whole control process does not need wiring, so that the problems of cable waste and blindness of later maintenance caused by the traditional wiring mode are avoided, and the input cost of the traditional wiring is effectively reduced; in the control process, the wireless controller 21 also detects the current signal of the lamp 31 in real time and feeds the state information of the corresponding lamp 31 back to the main controller 11, so that the complex process of manually detecting the signal by a user is avoided, and time and labor are saved; the whole control system is good in safety and improves later maintenance efficiency.
In addition, the intelligent light control system provided by the embodiment of the invention can be applied to house construction, the wiring is not required in the field construction, the light wiring and the wiring are not required to be considered, the operation is quick and convenient, and the labor cost and the time cost are reduced; the control of the parts of the building in the public area also no longer requires wiring between the public area and the general control room, but rather by wireless from the public lighting devices controlling the entire building.
In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.
The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. An intelligent light control system, comprising: the system comprises a main controller, a wireless controller and a lamp;
the main controller is used for generating a wireless control signal when receiving a trigger instruction of a user; the wireless control signal is used for triggering the start-stop state of the wireless controller;
the wireless controller is respectively electrically connected with a mains supply and the lamp, and is used for controlling the starting and stopping states of the lamp according to the wireless control signal and detecting the current signal of the lamp in real time and feeding back the state information corresponding to the current signal to the main controller when the control system is powered on;
and the main controller receives and displays the state information for a user to check in real time.
2. The intelligent light control system of claim 1, wherein the wireless controller comprises:
the first wireless transceiving module is used for receiving the wireless control signal sent by the main controller and feeding back state information corresponding to the current signal detected by the current detection module to the main controller;
the decoding module is electrically connected with the first wireless transceiving module and is used for decoding the wireless control signal sent by the main controller to obtain a light driving command;
the relay control module is electrically connected with the decoding module and used for driving a relay to control the starting and stopping states of a lamp according to the received light driving command;
the current detection module is electrically connected with the relay control module and is used for detecting a current signal of the lamp in real time and sending state information corresponding to the current signal to the first wireless transceiving module; the state information corresponding to the current signal at least comprises: on and off.
3. The intelligent light control system of claim 2, wherein the wireless controller further comprises a first key module, a first display module, a first power module, and a data interface;
the first key module is used for adjusting the starting and stopping states of the wireless controller;
the first display module is electrically connected with the first key module and used for indicating the current start-stop state of the wireless controller;
the first power supply module comprises a conversion circuit, and adjusts the input voltage to the voltage value required by the wireless controller through the conversion circuit so as to supply power to the wireless controller;
the wireless controller is electrically connected with the lamp through the data interface and is used for controlling the lamp.
4. The intelligent light control system of claim 3, wherein the first key module generates a first control instruction upon receiving a first preset instruction; the first control instruction is used for adjusting a code matching mode of the wireless controller and the corresponding main controller; the first key module generates a second control instruction when receiving a second preset instruction; the second control instruction is used for adjusting the code clearing modes of the wireless controller and the corresponding main controller; the first preset instruction and the second preset instruction at least carry one or more of the following parameter information: the user triggering times, the user triggering time and the user triggering strength; the parameter values carried by the first preset instruction and the second preset instruction are different.
5. The intelligent light control system of claim 4, wherein the wireless controller further comprises a code checking module and a code clearing module;
the code matching module extracts the address of the main controller from the control signal sent by the main controller according to the first control instruction, verifies the extracted address through the pre-stored address of the main controller, allocates a corresponding management lamp to the main controller with the corresponding address when the verification results are matched, and feeds back the result of whether the allocation is successful or not to the main controller with the corresponding address;
and the code clearing module clears all the addresses which are stored in the wireless controller in advance and correspond to the main controller according to the second control instruction.
6. The intelligent light control system of claim 1, wherein the master controller comprises one or more of the following: a key controller and a terminal controller;
the key controller is used for controlling the starting and stopping states of the lamp indoors and displaying the working state of the lamp;
and the terminal controller is used for remotely controlling the starting and stopping states of the lamp and displaying the working state of the lamp.
7. The intelligent light control system of claim 6, wherein the key controller comprises a second key module, a second wireless transceiver module, a second display module, and a second power module;
the second key module is used for generating a light control signal according to a key instruction of a user;
the second wireless transceiver module is electrically connected with the second key module and is used for sending the light control signal to the wireless controller and receiving state information corresponding to the current signal fed back by the wireless controller;
the second display module is used for displaying the working state of the key controller and the working state of the controlled lamp;
and the second power supply module is used for supplying power to the key controller.
8. The intelligent light control system of claim 7, wherein the key controller further comprises a control module; the second power supply module comprises a lithium battery and a photovoltaic charging circuit;
the lithium battery is used for supplying power to the key controller according to the electric quantity stored by the lithium battery; the photovoltaic charging circuit is used for converting light energy into electric energy and supplying power to the key controller and/or charging the lithium battery through the electric energy;
the control module controls the photovoltaic charging circuit to directly supply power to the key controller when detecting that the current light intensity reaches a first threshold range; when the light intensity is detected to reach a second threshold value range, controlling the lithium battery to supply power to the key controller; when the light intensity is detected to reach a third threshold range, the lithium battery is controlled to supply power for the key controller, and meanwhile, the photovoltaic charging circuit is controlled to charge the lithium battery.
9. The intelligent light control system of claim 6, wherein the terminal controller comprises an intelligent terminal and a wireless networking module;
the wireless networking module is used for networking the wireless controller; the intelligent terminal is used for controlling the corresponding wireless controller through the networking and controlling the starting and stopping states of the corresponding lamp.
10. The intelligent light control system according to any one of claims 1-9, wherein one master controller is matched with a plurality of wireless controllers for controlling the plurality of wireless controllers; or a plurality of main controllers are matched with one wireless controller and used for controlling the wireless controller respectively.
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CN114531758A (en) * 2022-01-12 2022-05-24 广东德赛矽镨技术有限公司 Non-contact type action induction intelligent control method and system based on radar radio frequency technology

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