CN103024975A - Light control device, light control method and illuminating device - Google Patents

Light control device, light control method and illuminating device Download PDF

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Publication number
CN103024975A
CN103024975A CN2011102941612A CN201110294161A CN103024975A CN 103024975 A CN103024975 A CN 103024975A CN 2011102941612 A CN2011102941612 A CN 2011102941612A CN 201110294161 A CN201110294161 A CN 201110294161A CN 103024975 A CN103024975 A CN 103024975A
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China
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id
control
instruction
control command
lighting
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CN2011102941612A
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Chinese (zh)
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黄喜荣
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北京同步科技有限公司
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Priority to CN2011102941612A priority Critical patent/CN103024975A/en
Publication of CN103024975A publication Critical patent/CN103024975A/en

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHTING NOT OTHERWISE PROVIDED FOR
    • H05B33/00Electroluminescent light sources
    • H05B33/02Details
    • H05B33/08Circuit arrangements not adapted to a particular application
    • H05B33/0803Circuit arrangements not adapted to a particular application for light emitting diodes [LEDs] comprising only inorganic semiconductor materials
    • H05B33/0806Structural details of the circuit
    • H05B33/0809Structural details of the circuit in the conversion stage
    • H05B33/0815Structural details of the circuit in the conversion stage with a controlled switching regulator
    • H05B33/0818Structural details of the circuit in the conversion stage with a controlled switching regulator wherein HF AC or pulses are generated in the final stage

Abstract

The invention discloses a light control device, light control method and an illuminating device, wherein the light control device comprises a command receiving module used for receiving a control command message from an operator, a processing module used for modulating a control command in the control command message to obtain a modulated control command, and an emitting module used for emitting the modulated control command to the illuminating device to ensure that at least one illuminating device identified by a target ID (identity) responds to the control command, wherein the control command carries the target ID, and each illuminating device has one ID. The light control device is capable of singly controlling the light of some illuminating device under an environment of multiple lamps, is also capable of intensively controlling the light of a plurality of illuminating devices, and has high accuracy.

Description

灯光控制装置和方法、照明装置技术领域[0001] 本发明涉及照明技术领域,更具体地,涉及一种灯光控制装置和方法、照明装置。 Lighting control apparatus and method, an illumination device Technical Field [0001] The present invention relates to illumination technology, and more particularly, to an apparatus and method for controlling the lighting, the lighting device. 背景技术[0002] 传统的照明装置通常仅设置一个电源控制开关,来控制照明装置的开启或关闭。 [0002] conventional lighting apparatus is usually provided only a power control switch to control the lighting device on or off. 为了方便使用者,目前,有一些照明装置配备有遥控装置,使用者可以使用遥控装置来控制照明装置的灯光的开启、关闭、和/或亮度等。 For the convenience of users, currently, there are some of the lighting device is equipped with a remote control device, a user may use a remote control device to control the lighting of the lighting device is turned on, off, and / or brightness. [0003] 现有技术的灯光控制方法一般是采用无线遥控器或红外控制器作为遥控装置来实现的。 Light Control Method [0003] The prior art generally used wireless remote controller as an infrared remote control device or implemented. 但是,在多灯(即一个区域中有很多的照明装置,例如LED灯,并且相邻的照明装置距离较近)的情况下,这种控制方法存在明显的缺点:[0004] 当使用无线遥控器来控制灯光时,由于无线遥控器是全区域发射,该区域中的所有照明装置都会响应无线遥控器的操作,不能独立地控制某一个/某一些照明装置;[0005] 而当使用红外遥控器来控制灯光时,由于红外遥控器发出的红外线的发射角度和红外反射的问题,可能会使附近的照明装置响应该红外遥控器的操作,使用很不方便,控制不准确。 However, under the multi-lamp (i.e., a region with a lot of lighting devices such as LED lights, and the lighting device adjacent short distance), the method of controlling the presence of such significant disadvantages: [0004] When using a wireless remote control time to control the light, since the wireless remote control is the whole area of ​​the transmitter, all lighting devices will be the area in response to operating a wireless remote control, can not be independently controlled one / some of the lighting apparatus; [0005] when using the infrared remote control when the lights to control, since the problem of the infrared remote controller emits the infrared emission angle and reflected infrared, may cause the lighting means in response to operation of the near infrared remote control, very easy to use, inaccurate control. [0006] 综上,现有技术的灯光控制方法均存在不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题。 [0006] In summary, the lighting control method of the prior art have a problem in a / independently of light can not be accurately controlled environment in which multiple light some of the lighting device. 发明内容[0007] 有鉴于此,本发明的主要目的在于提供一种灯光控制装置和方法、照明装置,能够解决现有技术中存在的不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题。 SUMMARY OF THE INVENTION [0007] In view of this, the main object of the present invention is to provide a light control apparatus and method, an illumination apparatus capable of solving the prior art can not exist independently and precisely control the environment of one of the multiple lamp / Some of the lighting problems illumination device. [0008] 为达到上述目的,本发明的技术方案是这样实现的:[0009] 一方面,提供了一种灯光控制装置,包括:指令接收模块,用于接收来自操作者的控制命令消息;处理模块,用于对控制命令消息中的控制指令进行调制,得到调制后的控制指令,其中,控制指令中携带有目标ID ;以及发射模块,用于将调制后的控制指令发射给照明装置,以使得仅目标ID所标识的至少一个照明装置响应控制指令,其中,每一个照明装置具有一个ID。 [0008] To achieve the above object, the technical solution of the present invention is implemented as follows: [0009] In one aspect, there is provided a lighting control apparatus comprising: instruction receiving means for receiving a control command message from the operator; Processing means for control commands in the message control command is modulated to obtain a modulated control instruction, wherein the instruction carries the control target ID; and a transmission module for transmitting the modulated control command to the lighting device, to such that only the target ID of the identified at least one lighting means in response to a control command, wherein each lighting unit has an ID. [0010] 另一方面,提供了一种照明装置,包括:接收模块,用于接收灯光控制装置发来的控制指令,其中,控制指令中携带有目标ID ;判断模块,用于判断接收模块接收到的控制指令中携带的目标ID与本地保存的ID是否相同;执行模块,用于在判断模块的判断结果为相同时,响应控制指令。 [0010] In another aspect, there is provided a lighting device, comprising: a receiving means for receiving light sent by the control means command control, wherein the control command carries the target ID; determining means for determining receiving module the control command stored in the target ID and the local ID is identical carried; execution module, the determination module for the same determination result, in response to control instructions. [0011] 又一方面,提供了一种灯光控制方法,包括:接收来自操作者的控制命令消息;对控制命令消息中的控制指令进行调制,得到调制后的控制指令,其中,控制指令中携带有目标ID ;以及将调制后的控制指令发射给照明装置,以使得仅控制指令中携带的目标ID所标识的至少一个照明装置响应控制指令,其中,每一个照明装置具有一个ID。 [0011] In yet another aspect, there is provided a lighting control method, comprising: receiving a control command message from the operator; control command message to the control command is modulated to obtain a modulated control command, wherein the control instruction contains target-ID; and the modulated control commands transmitted to the lighting device, so that only control at least one illumination means carried in the target instruction identified by the ID in response to the control command, wherein each lighting unit has an ID. [0012] 又一方面,提供了一种灯光控制方法,包括:接收灯光控制装置发来的控制指令, 其中,控制指令中携带有目标ID ;在判断接收到的控制指令中携带的目标ID与本地保存的ID相同之后,响应控制指令。 [0012] In yet another aspect, there is provided a lighting control method, comprising: means for receiving control commands sent by the lighting control, wherein the control command carries the target ID; carry control command determines whether the received ID and target after the same locally stored ID, in response to the control command. [0013] 本发明中,为每一个照明装置均设置了一个唯一的ID,灯光控制装置在接收到操作者的控制命令消息之后,会将其中需要转发给照明装置的控制指令进行调制后发射出去,由于控制指令中携带了所要控制的目标ID,这样就可以仅让该目标ID所标识的照明装置在接收到该控制指令之后响应该控制指令。 [0013] In the present invention, each lighting means to both set a a unique ID, lighting control device after receiving the control command by an operator message, which will be forwarded to the control command after modulated emitted illumination device Since the control command carries the ID of the target to be controlled, so that the lighting device can only make the object identified by the ID in response to the control command after receiving the control command. 使用该灯光控制装置能够在多灯的环境下单独地控制某一个照明装置的灯光,也可以集中地控制多个照明装置的灯光,具有精确控制的特性,其他无需控制的照明装置不会做出错误的响应动作,从而解决了现有技术存在的不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题。 The lighting control device can be used individually controlling a lighting device lighting a lamp in a multi-environment, you may collectively control a plurality of lights illuminating device, having a precisely controlled characteristics, other lighting control device does not need not make response to an error operation, thereby solving one / some of the light of the lighting device can not independently issue accurately control multiple ambient light present in the prior art. 附图说明[0014] 此处所说明的附图用来提供对本发明的进一步理解,构成本申请的一部分,本发明的示意性实施例及其说明用于解释本发明,并不构成对本发明的不当限定。 BRIEF DESCRIPTION [0014] The drawings described herein are provided for further understanding of the present invention, constitute a part of this application, exemplary embodiments of the present invention are used to explain the present invention without unduly of the present invention limited. 在附图中:[0015] 图1示出了根据本发明的实施例一的灯光控制装置的示意图[0016] 图2示出了根据本发明的实施例二的灯光控制装置的示意图[0017] 图3示出了根据本发明的实施例三的灯光控制装置的电路图[0018] 图4示出了根据本发明的实施例三的二与非门U4的A、B输入端的输入信号的波形以及输出端C的输出信号的波形;[0019] 图5示出了根据本发明实施例四的照明装置的示意图;[0020] 图6示出了根据本发明实施例五的灯光控制方法的流程示意图;[0021] 图7示出了根据本发明实施例五的会场的照明装置布局示意图;[0022] 图8示出了根据本发明实施例五的办公区域的照明装置布局示意图;[0023] 图9示出了根据本发明实施例六的灯光控制方法的流程示意图;[0024] 图10示出了根据本发明实施例六的照明装置的具体操作流程示意图。 In the drawings: [0015] FIG. 1 shows a schematic diagram of an embodiment of the present invention, lighting control apparatus of [0016] FIG. 2 shows a schematic view of the light control apparatus according to an embodiment of the present invention II [0017] FIG 3 shows a circuit diagram of a lighting control device according to an embodiment of the present invention, the three [0018] FIG. 4 shows a waveform of two NAND gates U4, a, B input of an input signal according to an embodiment of the present invention III and waveform of the output signal at the output C; and [0019] FIG. 5 shows a schematic view of an illumination apparatus according to a fourth of the present invention; and [0020] FIG. 6 shows a schematic flow diagram of the lighting control method according to a fifth embodiment of the present invention ; [0021] FIG. 7 shows a schematic layout of the conference site according to a fifth lighting device according to an embodiment of the present invention; FIG. [0023]; [0022] FIG. 8 shows a schematic view of an illumination device layout of office area according to a fifth embodiment of the present invention 9 shows a schematic flow diagram of the lighting control method according to a sixth embodiment of the present invention; [0024] FIG. 10 shows a schematic flow chart of operation of the specific lighting apparatus according to a sixth embodiment of the present invention. 具体实施方式[0025] 下面将参考附图并结合实施例,来详细说明本发明。 DETAILED DESCRIPTION [0025] below with reference to accompanying drawings and embodiments, the present invention will be described in detail. [0026] 实施例一[0027] 图1示出了根据本发明实施例一的灯光控制装置的示意图,该灯光控制装置包括:指令接收模块10、处理模块20和发射模块30,其中:[0028] 指令接收模块10,用于接收来自操作者的控制命令消息;该指令接收模块10可以通过以太网、USB (Universal Serial Bus,通用串行总线)、CANBus (Controller Area Net-work Bus,控制器局域网络总线)或串口等接收计算机(PC)或移动设备(如手机、PDA、 iPhone)等的控制命令消息,操作者可以通过操作计算机或移动终端等来向灯光控制装置发出控制命令消息;[0029] 处理模块20,用于对指令接收模块10接收到的控制命令消息中的控制指令进行调制,得到调制后的控制指令,其中,控制指令中携带有目标IDddentity的缩写);该目标ID就指示了所要控制的照明装置的ID,显然,该目标ID可以是一个ID、也可以是多个ID;[0030] 发射 [0026] Example a [0027] FIG. 1 shows a schematic diagram of the lighting control device according to one of the invention embodiment, the lighting control apparatus comprising: command receiving module 10, processing module 20 and transmitting module 30, wherein: [0028 ] command receiving module 10 for receiving a control command message from the operator; the command receiving module 10 may be via Ethernet, USB (universal serial bus, universal serial bus), CANBus (controller Area Net-work bus, the controller control area network bus) or serial receiving computer (PC) or mobile device (e.g. mobile phone, PDA, iPhone), etc. command message, the operator may control device issues a control command message to light by operating a computer or a mobile terminal or the like; [ 0029] the processing module 20, for receiving a control command received by the command control module 10 instruction message is modulated to obtain a modulated control command, wherein the control instruction carries certain abbreviations IDddentity); and the target ID to indicates the ID of the lighting device to be controlled, obviously, the object ID may be an ID, or may be a plurality of ID; [0030] emission 块30,用于将经处理模块20调制后的控制指令发射给照明装置,以使得仅控制指令中携带的目标ID所标识的照明装置响应该控制指令,其中,每一个照明装置具有一个ID。 Block 30, for transmitting the control command through the modulation processing module 20 to the lighting device, so that the lighting device only carries a target control command identified by the ID in response to the control command, wherein each lighting unit has an ID. [0031] 本实施例中,为每一个照明装置均设置了一个唯一的ID,灯光控制装置在接收到操作者的控制命令消息之后,会将其中需要转发给照明装置的控制指令进行调制后发射出去,由于控制指令中携带了所要控制的目标ID,这样就可以仅让该目标ID所标识的照明装置在接收到该控制指令之后响应该控制指令。 [0031] After the present embodiment, each lighting device is provided with a both a unique ID, lighting control device after receiving the control command by an operator message, which will be forwarded to the control command is modulated emission of the lighting device out, since the control command carries the ID of the target to be controlled, so that the lighting apparatus allows only the target identified by the ID in response to the control command after receiving the control command. 使用该灯光控制装置能够在多灯的环境下单独地控制某一个照明装置的灯光,也可以集中地控制多个照明装置的灯光,具有很高的准确性,其他无需控制的照明装置不会做出错误的响应动作,从而解决了现有技术存在的不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题。 The lighting control device can be used individually controlling a lighting device lighting a lamp in a multi-environment, may collectively control a plurality of lighting the lighting device, with high accuracy, without other lighting devices do not control an error response operation, thereby solving the prior art can not exist independently and precisely control the one / some of the lighting device lights the lamp of the problem of multi environment. [0032] 在实际应用中,当操作者只想控制多灯的环境中的某一个照明装置A时,控制指令中的目标ID即为照明装置A的ID ;当操作者想控制多灯的环境中的某一些照明装置A、 B... E时,控制指令中的目标ID即为照明装置A、B. . . E的ID ;当操作者想控制多灯的环境中的全部照明装置时,此时为了能够节约控制指令的长度空间,以及为了使照明装置能够更加快速地做出响应,这里可以定义一个通用ID,该通用ID用于指示接收到控制指令的照明装置均需响应该控制指令,这样,控制指令中的目标ID即为通用ID,照明装置接收到控制指令之后,通过其中的通用ID即可知道自己需要响应该控制指令。 [0032] In practice, when the operator want to control multiple lamp lighting environment means one of A, a control command is the target ID ID of the illumination device A; when the operator wants to control multiple ambient light Some of the illumination device a, B ... E, the control instruction is the target ID in the illumination device a, B E's ID;... when the operator wants to control the environment in all multi-lamp lighting device in this case the length of the space to be able to save control instruction, and to enable the illumination device can respond more quickly, a common ID may be defined herein, the illumination device receives the control command for instructing the generic ID required in response to the control command, so that the control command is the target ID in the common ID, the lighting apparatus upon receiving a control command, by which the common ID in response to the need to know the control command. [0033] 实施例二[0034] 图2示出了根据本发明实施例二的灯光控制装置的示意图,该灯光控制装置包括:指令接收模块10、处理模块20、发射模块30和载波生成模块40,其中:[0035] 指令接收模块10,用于接收来自操作者的控制命令消息;[0036] 载波生成模块40,用于产生频率为38KHz的载波;[0037] 处理模块20包括:单片机202,用于将控制命令消息中的控制指令以串行的方式输出到调制模块204 ;以及调制模块204,用于将串行的控制指令调制到频率为38KHz的载波上,得到调制后的控制指令;[0038] 发射模块30,用于通过红外线将经处理模块20调制后的控制指令发射给照明装置,以使得仅控制指令中携带的目标ID所标识的照明装置响应该控制指令,其中,每一个照明装置具有一个ID。 [0033] Second Embodiment [0034] FIG. 2 shows a schematic view of the light according to the second embodiment of control apparatus according to the present invention, the lighting control apparatus comprising: command receiving module 10, a processing module 20, transmission module 30 and the carrier generating module 40 wherein: [0035] the instruction receiving module 10 for receiving a control command message from the operator; [0036] carrier generating module 40 for generating a carrier frequency of 38KHz; [0037] processing module 20 includes: a microcontroller 202, a control command for output control command message to the serial modulation module 204; and a modulation module 204 for modulating the serial control instruction to the carrier frequency of 38KHz, the control instruction obtained after modulation; [0038] the transmitting module 30 for transmitting an infrared control command via the modulation processing module 20 to the lighting device, so that the lighting device only carries a target control command identified by the ID in response to the control command, wherein each of an illumination device having an ID. [0039] 显然,在实际应用中,该灯光控制装置中还需要设置有直流电源50为其他模块进行供电。 [0039] Obviously, in practical applications, the lighting control apparatus further provided with a DC power supply 50 needs to supply power to other modules. 发射模块除了可以通过红外线发射调制后的控制指令之外,也可以采用其他的无线信号发射,本发明对此不做限定,即,控制指令经过调制后除了可以使用红外线发射之外,也可以采用其他的无线信号发射。 In addition to a control command transmitting module modulated may be transmitted via infrared, may be employed other wireless signal transmitter, which is not defined in the present invention, i.e., control commands may be used after addition to the modulated infrared transmitter outside, may be employed other wireless signal transmitter. 当使用其他的无线信号发射时,显然应该使用相应频率的载波调制控制指令(即载波生成模块应该生成对应频率的载波)。 When using other wireless signal transmitter, should obviously be modulated using a carrier frequency corresponding to the control command (i.e., carrier frequency generating module should generate a corresponding carrier). [0040] 实施例三[0041] 上述实施例二中的灯光控制装置在具体实施时,可以采用如图3所示的电路,如图3所示,上述实施例二中的载波生成模块包括:反相器U2,电阻Rl和R2串联后形成的第一支路,电容CI和C2串联后形成的第二支路,以及频率为38KHz的晶体振荡器X ;其中: 反相器U2与第一支路并联,且反相器U2的输出端与调制模块的载波输入端连接;第一支路中的电阻R1、晶体振荡器X、以及第二支路并联,且电容Cl的与电容C2连接的一端接地。 [0040] Third Embodiment [0041] In the above two embodiments of light control means in the specific embodiment, the circuit shown in Figure 3 may be employed, as shown in FIG. 3, two in the embodiment described above carrier generation module comprises: inverter U2, a first branch formed after the series resistors Rl and R2, capacitor formed after the second branch CI and C2 in series, and the frequency of a crystal oscillator X-38KHz; wherein: the first inverter U2 parallels, and the carrier input of the modulation module and an output terminal of inverter U2 is connected; a first branch resistor R1, crystal oscillator X, and a second parallel branch, capacitor Cl and capacitor C2 is connected the end grounded. [0042] 调制模块包括:反相器U1、U3,二与非门U4,电阻R3,以及NPN三极管Ql ;其中••反相器Ul的输入端作为调制模块的指令输入端与单片机连接,输出端与二与非门U4的第一输入端连接,反相器Ul用于将接收到的串行的控制指令缓冲、倒相后,输出到二与非门U4 的第一输入端;反相器U3的输入端作为调制模块的载波输入端与载波生成模块连接,输出端与二与非门U4的第二输入端连接,反相器U3用于将载波生成模块产生的频率为38KHz 的载波缓冲、倒相后,输出到二与非门U4的第二输入端;二与非门U4的输出端通过电阻R3 与NPN三极管Ql的基极连接;NPN三极管Ql的集电极作为调制模块的输出端与发射模块中的红外发光二极管Dl的阴极连接,发射极接地。 [0042] The modulation module comprises: an inverter U1, U3, U4 two NAND gates, a resistor R3, and the NPN transistor Ql,; wherein an input terminal of the inverter Ul •• modulation module as a command input terminal connected with the microcontroller, the output a first end connected to the two input terminal of the NAND gate U4, Ul inverter for converting the received serial buffer control command, the inverter, the two outputs to a first input of the NAND gate U4; inverted U3 is input as a modulation input of the module carrier and the carrier generating module connected to the output terminal and the second terminal of two input NAND gate U4 is connected to the inverter U3 generation module for generating a carrier frequency of 38KHz carrier buffering, the inverted output to the two second input of NAND gate U4; second output of the NAND gate U4 is connected through a resistor R3 to the base of NPN transistor Ql; collector of NPN transistor Ql as the modulation output module infrared light emitting diode Dl and the terminal connected to the cathode emission module, an emitter is grounded. 实际实施过程中,为便于设计、生产和装配,UU U2、U3和U4可以用一个四二与非门代替。 The actual implementation process, in order to facilitate the design, production and assembly, UU U2, U3 and U4 may be replaced with a NAND gate forty-two. Ul、U2和U3用四二与非门中间的三组, 将两个输入脚短接后作为一个输入脚使用。 Ul, U2 and U3 using the intermediate NAND gate forty-two three groups, the two input pins after short use as an input pin. [0043] 发射模块可以由一个或多个红外发光二极管组成(图3中仅示出了一个的情况), 当由多个组成时,这多个红外发光二极管可以串联或并联连接,如图3所示,红外发光二极管Dl的阴极连接NPN三极管Ql的集电极,阳极通过电阻R4与直流电源VCC的正极连接。 [0043] The transmitter module may be composed of one or more infrared light emitting diodes (Figure 3 shows only a case), when composed of a plurality, the plurality of infrared light emitting diodes in series or in parallel, as shown in FIG 3 , the collector of NPN transistor Ql is connected to the cathode of infrared light emitting diode Dl, and an anode connected through a resistor R4 to the positive electrode of the DC power supply VCC. [0044] 在图3中,灯光控制模块中的其他模块(单片机、指令接收模块)未示出。 [0044] In FIG. 3, the light control module to other modules (SCM instruction receiving module), not shown. [0045] 如图3所示的灯光控制装置的工作原理如下:[0046] 指令接收模块接收到完整的控制命令消息之后,单片机将该控制命令消息中需要转发的控制指令串行化后(即串行的控制指令,图3中用“串行指令”表示)送到反相器U1,该串行指令经Ul缓冲、倒相后送到二与非门U4的A输入端(经倒相后的串行指令的波形参见图4中的A波形);反相器U2与电阻R1、R2,电容C 1、C2和38KHz晶振X组成一个38KHz的载波振荡器(即载波生成模块),该载波振荡器生成的38KHz的载波振荡信号经反相器U3缓冲、倒相后,送到二与非门U4的B输入端(倒相后38KHz的载波信号的波形参见图4中的B波形);二与非门U4将串行指令调制在38KHz的载波上再经过红外发射管发射出去,调制后的控制指令的波形参见图4中的C波形,最终经NPN三极管Ql放大后从红外发光二级管发射出去的信号的波形与图4中 [0045] The principle of the lighting control device 3 shown below: [0046] The instruction receiving module receiving a complete message after a control command, the control command SCM control instruction message needs to be forwarded serialization (i.e. serial control command, FIG. 3 by "serial command" shown) to the inverter U1, the serial buffer Ul instructions, to the inverting input terminal a and the two non-gate U4 (by phase inversion after serial command waveform a waveform see FIG. 4); an inverter U2 and resistors R1, R2, capacitor C 1, C2, and X 38KHz crystal oscillator consisting of a 38KHz carrier (i.e. a carrier generation module), the carrier oscillator carrier oscillation signal generated via the inverter U3 of 38KHz buffer, the inverter, fed to the B input of the NAND gate U4 two (B 38KHz carrier signal waveform of a waveform see figure 4 after inverted) ; second NAND gate U4 serial instruction 38KHz modulated on a carrier and then emitted through the infrared emission, C 4 waveform modulated waveform Referring to FIG control command, after the final NPN transistor Ql amplifies the infrared light emitting FIG waveform level signal emitted pipe 4 的C波形相同。 C the same waveform. [0047] 其中,控制命令消息的格式可以如表I所示,其中包括:源ID、目的ID、控制指令和校验码。 [0047] wherein a control command message format may be as shown in Table I, which comprises: a source ID, object ID, and checksum control command. 而其中需要转发给照明装置的控制指令如表2所示,包含:目标ID、操作指令、操作数据、和校验码(可以为前面所有数据(即目标ID、操作指令和操作数据)相加后的低8 位,本发明对此不做限定)。 And wherein the control command of the lighting device needs to be forwarded to the Table 2, comprising: a target ID, as instructions, operating data, and check code (all of the foregoing may be added to the data (i.e., a target ID, as operation instructions and data) after the lower 8 bits, which is not defined in the present invention). [0048]表 I[0049] [0048] TABLE I [0049]

Figure CN103024975AD00081

[0050] 在表I中,源ID为发出控制命令消息的设备的ID ;目的ID为接收该控制命令消息的灯光控制装置的ID ;控制指令即为需要发送给照明装置的控制指令,其结构如表2所示;校验码为前面的数据(“源ID”、“目的ID”和“控制命令”)相加后取低8位。 [0050] In Table I, the source ID is the ID issue device control command message; ID object ID lighting means to receive the control command of the control message; control command is the control command to be transmitted to the lighting device, the structure as shown in table 2; check code for the preceding data ( "source ID", "object ID" and "control commands") taken after adding the lower 8 bits. [0051]表 2[0052] [0051] Table 2 [0052]

Figure CN103024975AD00082

[0053] 在表2中,目标ID为所要控制的照明装置的ID或者通用ID,操作指令包括以下之一:开/光、调整亮度、调整色温、发光方式(长亮,或按一定规律闪烁)等。 [0053] In Table 2, the target ID is the ID of the lighting device to be controlled or a universal ID, the operation instruction comprises one of the following: open / light, adjust brightness, adjust the color temperature, light emitting pattern (long light, or flashing according to certain rules )Wait. 当操作指令为开或关时,操作数据可以为空;当操作指令为调整亮度时,操作数据为指示亮度的数值,例如,可以占用一个字节即可,取值范围为O到255之间的任意整数,操作数据为O时,指示亮度为O (即不发光),操作数据为255时,指示亮度为最亮;当操作指令为调整色温时,操作数据为指示色温的数值。 When the operation instruction is on or off, the operation data may be empty; when the operation instruction is to adjust the brightness, operation data indicating luminance value, e.g., one byte can be in the range of between 255 to O is any integer, the operation data is O, indicates the brightness is O (i.e., non-light emitting), the operation data 255, indicates the brightness of the brightest; is the operation instruction when the color temperature adjustment, operation data indicating the color temperature value. 根据需要,“目标ID”、“操作指令”、“操作数据”和“校验码”都可以分别设置为单字节或多字节。 According to need, "target ID", "operation command", "operational data" and "check code" are respectively set to one or more bytes.

[0054] 在上述的实施例一至实施例三中,每一个照明装置的ID可以在照明装置安装之前就预先设置好,并保存在照明装置中。 [0054] In one embodiment to the embodiment described above in the third embodiment, each lighting device ID may be set in advance prior to the lighting device is installed and stored in the illumination device. [0055] 为了能够更加灵活地为每个照明装置设置ID,可以在照明装置安装完毕之后再为各个照明装置设置ID,发射模块30还可以用于发射配置指令,然后,在仅操作者所要配置的照明装置接收到配置指令并进入配置状态时,将所分配的ID发射给所要配置的照明装置,以及,发射第一结束指令,以使得所要配置的照明装置保存所分配的ID并退出配置状态;还可以用于在至少两个照明装置接收到配置指令并进入配置状态时,发射第二结束指令,以使得至少两个照明装置退出配置状态。 [0055] In order to more flexibility is provided for each illuminating device ID, the lighting device can be installed after each re-illuminating device ID is set, the transmission module 30 may be used to transmit further configuration instructions, and then, only by the operator to configure when the lighting apparatus receives configuration instructions and enters the configuration state, the allocated ID transmitter illuminating device to be configured, and, transmitting a first end instruction, so that the ID illumination means for holding be configured allocated and deconfiguration ; it may also be used when the at least two illumination device and receiving the configuration command into the configuration state, the second end transmit instructions to the illumination device such that the at least two exit configuration state. 这样,可以根据需要随意地调整每一个照明装置的ID,也避免了调整ID时可能出现的混乱。 This can adjust each lighting device ID needed freely, but also to avoid possible confusion adjustment ID. [0056] 其中,配置指令可以通过红外线的方式发射。 [0056] wherein the configuration command can be transmitted by way of infrared rays. 在实际实施过程中,为了使得灯光控制装置发射出的红外线等信号能够更加准确地对准所要配置的照明装置,可以调整灯光控制装置的红外发光二极管发射红外线的角度,角度越小就越能准确地对准所要配置的照明>JU ρςα装直。 In the actual implementation process, in order that the light control means such as infrared rays emitted from the lighting device signals can be aligned to be arranged more accurately can be adjusted infrared light emitting diode emits infrared light angle control means, the more accurate the smaller the angle configured to be aligned with an illumination> JU ρςα fitted straight. [0057] 实施例四[0058] 在上述实施例一至实施例三中,灯光控制装置发出控制指令之后,照明装置接收到该控制指令之后,需要根据其中携带的目标ID来确定自己是否需要响应该控制指令,从而,如图5所示,根据本发明实施例四的照明装置包括:接收模块10',用于接收如上述实施例一至实施例三的灯光控制装置发来的控制指令,其中,该控制指令中携带有目标ID ; 判断模块20',用于判断接收模块I0'接收到的控制指令中携带的目标ID与本地保存的ID是否相同;执行模块30',用于在判断模块20'的判断结果为相同时,响应该控制指令。 [0057] Fourth Embodiment [0058] In the above-described first embodiment to the third example, after the lighting control means a control command, the illumination device after receiving the control instructions, in accordance with the target ID carried in to determine whether they need to respond to the control command, whereby, as shown in FIG. 5, according to the present invention, the lighting apparatus according to a fourth embodiment comprises: a receiving module 10 ', for receiving light according to a third embodiment as above-described embodiment of the device to a control command sent by the control, wherein, the control command carries the target ID; determining module 20 ', the receiving module for determining I0' saved object ID and the local ID to the received control command is the same as carried; execution module 30 ', for determining module 20 determination result 'is the same, in response to the control command. [0059] 本发明实施例中,照明装置能够通过判断接收到的控制指令中的目标ID是否与本地保存的ID相同,来判断是否要响应该控制指令,从而能够准确地做出响应动作。 [0059] embodiment, the lighting device can be the same ID by determining whether the received control command to the target ID is stored locally embodiment of the present invention, to determine whether to respond to the control command, whereby the operation can respond accurately. [0060] 同实施例一,每一个照明装置设置有一个唯一的ID,控制指令中的目标ID可以为操作者所要控制的一个或多个照明装置的ID、或者为通用ID,该通用ID用于指示接收到控制指令的照明装置均需响应控制指令;则每一个照明装置在本地需要保存本照明装置的ID和通用ID。 [0060] with the first embodiment, each lighting device is provided with a unique ID, a control command in the target ID may ID one or more lighting devices for the operator to be controlled, or a universal ID, the common ID with indicates that the received control command to the lighting device in response to a control instruction required; the need to save each lighting device ID and the ID of the general lighting device locally. 这样,判断模块20'可以判断接收模块10'接收到的控制指令中携带的目标ID是否与本地保存的本照明装置的ID和通用ID中之一相同,即,先判断目标ID是否与本照明装置的ID相同,若不同,再判断是否与本地保存的通用ID相同,或者,先判断是否与本地保存的通用ID相同,若不同,再判断是否与本照明装置的ID相同。 Thus, the determining module 20 'may Analyzing receiving module 10' are the same ID and the one of the present general illumination device ID received control command to the target ID is carried in the local storage, i.e., first determine whether the target ID and the present lighting the same device ID, if different, then determine whether the same common ID stored locally, or, first determine whether the same common ID stored locally and, if different, then determines whether or not the same as the ID of the lighting device. 而执行模块30'在判断模块20'的判断结果为是时,就可以根据控制指令中携带的操作指令和操作数据来调整本照明装置的工作状态和亮度。 Execute module 30 'in the determining module 20' determines the result is YES, the operation state can be adjusted and the brightness of the lighting device according to this operation instruction and the operation instruction control data carried. [0061] 在实际应用中,灯光控制装置发来的控制指令(其数据结构可以参见上述表2)中除了携带有目标ID、操作指令和操作数据之外,还可以包括验证码,该验证码是目标ID、操作指令和操作数据之和的低8位,那么,照明装置中的判断模块20'在判断控制指令中携带的目标ID是否与本地保存的本照明装置的ID和通用ID中之一相同之前,还需要先判断一下控制指令中的验证码是否正确,例如:将控制指令中的前面的数据(即除验证码)相加后,判断其低8位与控制指令中的校验码是否相同,若相同即正确,否则不正确。 [0061] In practice, lighting control means control instructions sent (which can refer to data structures in Table 2) in addition to carrying target ID, as operation instructions and data, but also can include a verification code, the verification code a target ID, lower 8 bits of the instructions and operation data of, then, ID of this illumination device illuminating device determining module 20 'carried in the determined control instruction target ID is stored locally and the universal ID of the before a same, need to first determine what the codes in the control instruction is correct, for example: the front of the control instruction data (i.e., other codes) after the addition, which determines the lower eight bits of parity control command code is the same, if the same that is correct or incorrect. 在判断控制指令中的校验码为正确之后才进一步判断控制指令中携带的目标ID是否与本地保存的本照明装置的ID和通用ID中之一相同。 Checksum control command is determined to correct only after further determines the same ID of the lighting device control command carries the target ID is stored in the local and one common ID. [0062] 在上述的实施例四中,每一个照明装置的ID可以在照明装置安装之前就预先设置好,并保存在照明装置中。 [0062] In the above four embodiments, each lighting device ID may be set in advance prior to the lighting apparatus is installed, and stored in the illumination device. [0063] 为了能够更加灵活地为每个照明装置设置ID,可以在照明装置安装完毕之后再为各个照明装置设置ID,接收模块10'还可以用于接收灯光控制装置发来的配置指令、为照明装置所分配的ID、第一结束指令、以及第二结束指令;则,执行模块30'还可以用于根据接收模块10'接收到的配置指令进入配置状态,并在接收模块10'接收到第一结束指令之后,保存所分配的ID并退出配置状态,或者,在接收模块10'接收到第二结束指令之后, 退出配置状态。 [0063] In order to more flexibility is provided for each illuminating device ID, you can after re-lighting apparatus installed for each illuminating device ID is provided, the receiving module 10 'may also be configured to receive a light control means arranged to send instructions to the lighting device assigned ID, a first end of the instruction, and a second end command; is, the execution module 30 'may also be used in accordance with the receiving module 10' into the configuration state of the configuration instruction received, and the receiving module 10 'receives the after the first end of the instruction, the ID assigned to save and exit configuration state, or, after the receiving module 10 'receives a second end command to exit configuration state. [0064] 实施例五[0065] 在会场或者开敞的办公区域中,通常会安装有很多的照明装置(例如LED灯或者普通的电灯等,只要能够被遥控即可),每一个照明装置具有一个ID,每个照明装置的ID可以预先设置好。 [0064] Fifth Embodiment [0065] In the open office space or meeting place, a lot usually mounted lighting apparatus (e.g., an LED lamp or the like ordinary lamps, as long as it can be remotely controlled), each lighting device having an ID, ID of each lighting device can be set beforehand. 此时,就可以使用本发明实施例一至实施例三中的灯光控制装置来准确地远程控制这些照明装置的灯光的开、关、以及调整亮度和色温等。 In this case, the present invention can be used to light an embodiment according to a third embodiment of the control device to accurately control the remote on and off, and adjust the brightness and color temperature of the light illuminating device, and the like. 该灯光控制装置根据实际需要可以在任意的地方安装,安装数量也可以根据实际需要来确定。 The light control means may be installed at an arbitrary place according to actual needs, the number of installation may be determined according to actual needs. [0066] 实施例一至实施例三中的灯光控制装置的灯光控制方法如图6所示,包括以下步骤:[0067] 步骤S 102,接收来自操作者的控制命令消息(其数据结构可以参见上述表I),该控制命令消息中携带有控制指令(其数据结构可以参见上述表2),而该控制指令中携带有目标ID,该目标ID指示了所要控制的照明装置;[0068] 例如,在如图7所示的一个会场中,主席台区域经常需要放映幻灯片、投影等,这时可能需要单独降低主席台区域的照明装置的灯光亮度或者关掉部分照明装置。 [0066] Example to a lighting control method of the lighting control device according to a third embodiment shown in Figure 6, comprising the steps of: [0067] Step S 102, receives a control command message from the operator (see above data structure can be table the I), the control command message carries a control command (which data structures may be found in table 2), and the control command carries the object ID, the object ID indicates a lighting apparatus to be controlled; [0068] for example, in a meeting place as shown in Figure 7, G0 often need slideshow, projectors, etc., may require a separate case to reduce the light brightness of the illumination device G0 or part of the lighting apparatus switched off. 假设在放映幻灯、投影时,操作者想要关闭或调低主席台区域中“照明装置001”〜“照明装置00X”的亮度,此时,目标ID可以为001〜00X。 Assumes that the slide show, a projector, or the operator wants to close down the G0 "illumination device 001" Brightness ~ "illumination device 00X", in which case, the target ID may be 001~00X. [0069] 或者,在观众区如果有部分区域没有观众的时候,也可以关闭或调低没有观众的区域的照明装置的灯光亮度。 [0069] Alternatively, when the audience area if there is no part of the audience area, it can be turned off or down the lighting device without the audience area light levels. [0070] 在如图8所示的开敞的办公区域,如果有些区域没有人员办公,就可以很容易地关闭或调低该区域的照明装置的灯光亮度。 [0070] In the open office area shown in FIG. 8, if the person does not work in some regions, it can easily be shut down or reduce the light levels in the region of the lighting device. 假设只有在“照明装置012”附近有人办公,就可以保持“照明装置012”正常发光,附近的“照明装置011”、“照明装置002”、“照明装置013”和“照明装置022”降低亮度,其他照明装置仅微弱发光。 Assuming that only the 'illumination apparatus 012 "people nearby office, can be maintained" 012 lighting apparatus "normal light, near the" illumination device 011 "," illumination device 002 "," illumination device 013 "and" illumination device 022 "to decrease the brightness , other lighting means only weakly luminescent. 这样既符合人的视觉习惯、 减轻眼疲劳,同时达到了节能的效果。 This will not only meet the human visual habits, reduce eye fatigue, while achieving the energy saving effect. [0071] 步骤S104,对控制命令消息中的控制指令进行调制,得到调制后的控制指令;[0072] 步骤S106,将调制后的控制指令发射给照明装置,以使得仅控制指令中携带的目标ID所标识的照明装置响应该控制指令,其中,每一个照明装置具有一个ID。 [0071] step S104, the message control command in a control command is modulated to obtain a control command modulated; [0072] step S106, the modulated control commands transmitted to the lighting device, so that target only the control instruction carried the lighting device identified by the ID in response to the control command, wherein each lighting unit has an ID. [0073] 例如,可以通过红外线发射控制指令。 [0073] For example, control commands may be transmitted via infrared. [0074] 本实施例中,为每一个照明装置均设置了一个唯一的ID,灯光控制装置在接收到操作者的控制命令消息之后,会将其中需要转发给照明装置的控制指令进行调制后发射出去,由于控制指令中携带了所要控制的目标ID,这样就可以仅让该目标ID所标识的照明装置在接收到该控制指令之后响应该控制指令。 [0074] In the present embodiment, each lighting device is provided with a both a unique ID, lighting control device after receiving the control command by an operator message, which will be forwarded to the control command after modulated emission of the lighting device out, since the control command carries the ID of the target to be controlled, so that the lighting apparatus allows only the target identified by the ID in response to the control command after receiving the control command. 使用该灯光控制装置能够在多灯的环境下单独地控制某一个照明装置的灯光,也可以集中地控制多个照明装置的灯光,具有很高的准确性,其他无需控制的照明装置不会做出错误的响应动作,从而解决了现有技术存在的不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题。 The lighting control device can be used individually controlling a lighting device lighting a lamp in a multi-environment, may collectively control a plurality of lighting the lighting device, with high accuracy, without other lighting devices do not control an error response operation, thereby solving the prior art can not exist independently and precisely control the one / some of the lighting device lights the lamp of the problem of multi environment. [0075] 在实际应用中,当操作者只想控制多灯的环境中的某一个照明装置A时,控制指令中的目标ID即为照明装置A的ID ;当操作者想控制多灯的环境中的某一些照明装置A、 B... E时,控制指令中的目标ID即为照明装置A、B. . . E的ID ;当操作者想控制多灯的环境中的全部照明装置时,此时为了能够节约控制指令的长度空间,以及为了使照明装置能够更加快速地做出响应,这里可以定义一个通用ID,该通用ID用于指示接收到控制指令的照明装置均需响应该控制指令,这样,控制指令中的目标ID即为通用ID,照明装置接收到控制指令之后,通过其中的通用ID即可知道自己需要响应该控制指令。 [0075] In practice, when the operator want to control multiple lamp lighting environment means one of A, a control command is the target ID ID of the illumination device A; when the operator wants to control multiple ambient light Some of the illumination device a, B ... E, the control instruction is the target ID in the illumination device a, B E's ID;... when the operator wants to control the environment in all multi-lamp lighting device in this case the length of the space to be able to save control instruction, and to enable the illumination device can respond more quickly, a common ID may be defined herein, the illumination device receives the control command for instructing the generic ID required in response to the control command, so that the control command is the target ID in the common ID, the lighting apparatus upon receiving a control command, by which the common ID in response to the need to know the control command. [0076] 如上述表2所示,控制指令中还携带有:操作指令、操作数据和校验码。 [0076] As shown in Table 2, the control command further carries: an operation instruction, the operation data and check code. 具体含义参见上述实施例三,这里不再赘述。 Specific meanings see above third embodiment, it is omitted here. [0077] 实施例六[0078] 在上述实施例五中,灯光控制装置发出的控制指令之后,如实施例四的照明装置的相应操作步骤如图9所示,包括以下步骤:[0079] 步骤S202,接收如上述实施例一至三的灯光控制装置发来的控制指令,其中,该控制指令中携带有目标ID;[0080] 步骤S204,在判断接收到的控制指令中携带的目标ID与本地保存的ID相同之后, 响应该控制指令。 Corresponding Procedure [0077] Sixth Embodiment [0078] In the fifth embodiment, after the above-described embodiment, the control device emits light control instruction, such as the lighting apparatus according to a fourth embodiment shown in Figure 9, comprising the steps of: [0079] Step S202, receiving as described in Example I to III of the lighting device sent a control command from the control, wherein the control command carries the target ID; [0080] step S204, the target ID carried in the control command determines the received and local after saving the same ID, in response to the control command. [0081] 本发明实施例中,照明装置能够通过判断接收到的控制指令中的目标ID是否与本地保存的ID相同,来判断是否要响应该控制指令,从而能够准确地做出响应动作。 [0081] embodiment, the lighting device can be the same ID by determining whether the received control command to the target ID is stored locally embodiment of the present invention, to determine whether to respond to the control command, whereby the operation can respond accurately. [0082] 每一个照明装置设置有一个唯一的ID,控制指令中的目标ID可以为操作者所要控制的一个或多个照明装置的ID,则照明装置可以将接收到的控制指令中包含的目标ID 与本身的ID比较,以判断是否为发给本照明装置的控制指令。 Target [0082] each lighting device is provided with a unique ID, ID of one or more illuminating device control command in the target ID may be an operator to be controlled, the lighting device may be received control instruction included comparison own ID and ID to determine whether the control command is issued to the present lighting device. 或者目标ID也可以为一通用ID,该通用ID用于指示接收到控制指令的照明装置均需响应控制指令;则每一个照明装置在本地需要保存本照明装置的ID和通用ID。 Or the target ID may be a universal ID, the ID is used to indicate common illumination means for receiving the control command in response to a control instruction required; the need to save each lighting device ID and the ID of the general lighting device locally. [0083] 这样,在实际实施时,每一个如上述实施例四的照明装置的具体操作流程如图10 包括以下步骤:[0084] 步骤S302,启动后,处于等待控制指令的状态;[0085] 步骤S304,判断是否接收到了灯光控制装置发来的控制指令,若是,则进入步骤S306,否则返回步骤S302,继续等待控制指令;[0086] 步骤S306-S308,待接收到完整的控制指令之后,判断该控制指令中携带的校验码是否正确,若是,则进入步骤S310,否则,返回步骤S302,继续等待控制指令;[0087] 其中,控制指令的数据结构可以参见表2所示。 [0083] Thus, in the actual embodiment, each step 10 comprising the illumination apparatus according to a fourth embodiment of the above-described specific operation flow of FIG: [0084] step S302, the after starting, the control command in a wait state; [0085] step S304, the determination whether it has received the lighting device sent a control command to control, and if yes, the process proceeds to step S306, the otherwise step S302, the continued wait control command; then [0086] step S306-S308, after receiving a complete control command, Analyzing the control instruction carried check code is correct, and if yes, the process proceeds to step S310, the otherwise returns to step S302, the control continues to wait for instructions; [0087] wherein the control instructions can be data structures shown in Table 2. 此时,判断校验码时,可以将接收到的完整的控制指令中的前面的数据(包括目标ID、操作指令和操作数据)相加后取低8 位,将其与控制指令中的校验码进行比较,若相同,则确定校验码正确,否则不正确。 Preceding control command data integrity At this time, when the check code is determined to be received (including target ID, as operation instructions and data) taken after adding the lower 8 bits, the correction with the control instruction check code comparison, if the same, it is determined that the check code is correct or not correct. [0088] 步骤S310,判断是否为发给本照明装置的控制指令,即判断控制指令中包含的目标ID是否与本照明装置的ID相同,若是,则进入步骤S314,否则,进入步骤S312 ;[0089] 步骤S312,继续检查控制指令中包含的目标ID是否为通用ID,若是,则进入步骤S314,否则,返回步骤S302,继续等待控制指令;[0090] 步骤S314,根据控制指令中包含的操作指令和操作数据设置灯光的状态和亮度。 [0088] step S310, the control instruction is determined whether the distributed lighting device according to the present, that is, whether the target ID control ID contained in the instruction and the same according to the present lighting device, if yes, the process proceeds to step S314, the otherwise, to step S312; [ 0089] step S312, the continued inspection target ID control instruction includes whether the common ID, if yes, the process proceeds to step S314, the otherwise returns to step S302, the continued wait control instruction; [0090] step S314, the included control command operation operation instructions and setting data and the status light brightness. [0091] 本发明上述实施例的灯光控制装置可以应用于多灯的环境下的灯光的远程的独立或集中控制。 Light [0091] The above-described embodiment of the present invention may be applied to the light control apparatus at a remote environment multiple lamp independent or centralized control. [0092] 实施例七[0093] 为了能够更加灵活地为每个照明装置设置ID,可以在照明装置安装完毕之后再为各个照明装置设置ID,在上述实施例五和实施例六中,灯光控制装置为每一个照明装置设置ID的处理方法包括以下步骤:[0094] 步骤S402,灯光控制装置发射配置指令,可以通过红外线发射;[0095] 为了避免红外线发送的配置指令被多灯接收、响应,配置了专用的配置指令。 [0092] Seventh Embodiment [0093] In order to be more flexible after, the lighting apparatus may be installed in the illumination device ID is provided for each individual lighting device is further provided ID, fifth and sixth embodiment, the above-described embodiments light control apparatus for the processing method for each illuminating device ID set comprising the steps of: [0094] step S402, the light control means for transmitting configuration instructions, can be transmitted by infrared rays; [0095] to avoid configuration instruction infrared transmission is received multi-lamp, in response, Configuring the specific configuration instructions. [0096] 步骤S404,当照明装置接收到配置指令进入配置状态时,照明装置会出现“亮-暗-亮......”的循环显示,以表明自己已经进入了配置状态;[0097] 步骤S406,当只有所要配置的照明装置出现了“亮-暗-亮......”的循环显示时,即可确认该照明装置进入了配置状态,接下来灯光控制装置发送为其分配的ID以及结束指令“OxFF” (称为第一结束指令),以使得照明装置保存该ID并退出配置状态;如果此时有多个照明装置进入了配置状态,可以发送一次或连续多次结束指令“0x00”(称为第二结束指令)使得这多个照明装置退出配置状态,然后再调整角度,再次发送配置指令直到只有所要配置的照明装置进入配置状态,然后再发送为其分配的ID以及结束指令“OxFF”;[0098] 在实际应用中,照明装置的ID可以为一个字节,也可以为多个字节,由于红外线每次只能发 [0096] step S404, the receiving apparatus when the illumination configuration command into the configuration state, the lighting device will be "light - dark - light ......" cycle displayed to indicate that they have entered the configuration state; [0097 ] step S406, when the lighting device has only to be configured as a "light - dark - light ......" cycle is displayed, to confirm the lighting device enters the configuration state, the lighting control device transmits its next assigned ID and end command "OxFF" (referred to as first end instruction), so that the illumination device ID and saves the configuration state exit; if there is a plurality of illuminating devices at this time into the configuration state may be transmitted once or repeatedly end instruction "0x00" (referred to as second end instruction) so that the plurality of exit configuration state lighting device, and then adjust the angle, sends a configuration command again until only the illumination device to be configured into the configuration state, and then assign the transmission end ID and the instruction "OxFF"; [0098] in practice, the illumination device ID may be one byte, multiple bytes may be, since you can only send IR 一个字节,因此,当ID为多个字节时,需要发送多次才能发送完毕整个ID。 A byte, and therefore, when a plurality of ID byte, transmitted multiple times to complete the entire transmission ID. [0099] 以ID为两个字节为例进行说明,如果ID多于两个字节可以依此类推。 [0099] In two-byte ID is described as an example, if more than two bytes may ID and so on. [0100] 步骤1,灯光控制装置设置照明装置的ID的第一个字节,并发送;[0101] 步骤2,当进入了配置状态的照明装置接收到灯光控制装置发来的ID的第一个字节后,该照明装置会停止“亮-暗-亮......”的循环显示,而显示一种特定的颜色或亮度(比如显示蓝色或最亮),以表明自己接收到了第一个字节。 [0100] Step 1, an illumination light control means disposed in the first byte of the device ID and the transmission; [0101] Step 2, enters the configuration state when an illumination light control means for receiving the device ID sent by a first bytes later, the lighting device will stop "light - dark - light ......" cycle display, displaying a particular color or brightness (such as blue or brightest) to provide its received to the first byte. 而没有进入配置状态的照明装置接收到该第一个字节后不会响应;[0102] 步骤3,灯光控制装置设置ID的第二个字节,并发送,此时,整个ID已经发送完毕;[0103] 步骤4,当照明装置接收到第二个字节后,照明装置会将当前显示的颜色或亮度(比如显示蓝色或最亮)改为另外一种颜色或亮度(比如红色或低亮)。 Without entering the state of the lighting apparatus arranged not respond after receiving the first byte; [0102] Step 3, the lighting control means disposed second byte ID, and transmitting, In this case, the entire ID has been sent ; [0103] step 4, when the illumination device receives the second byte, color or brightness of the lighting device will currently displayed (for example, blue or the brightest display) is changed to another color or brightness (such as red or low light). 而没有进入配置状态的照明装置接收到第二个字节后不会响应;[0104] 步骤5,发送设置照明装置ID的结束指令。 Without entering the state of the lighting apparatus arranged not respond after receiving the second byte; [0104] Step 5, the end instruction sets the transmission illumination device ID. 结束指令分为两种:一种是“OxFF”表示正常结束,照明装置接收到给字节后,会将接收到的ID保存到本地;一种是“0x00”表示非正常结束,接收到的ID不保存,并退出配置状态。 End instruction is divided into two: one is "OxFF" indicates a normal end, an illumination device, after receiving the bytes to save local copies of the received ID; one is "0x00" denotes a non-normal end, the received ID does not save and exit configuration status. 当照明装置接收到“OxFF”或“0x00”后,照明装置会将当前显示的颜色或亮度(比如显示红色或低亮)改为正常显示的颜色或亮度。 When the lighting apparatus receives the "OxFF" or "0x00", color or brightness of the lighting device will currently displayed (or low light such as red) in color or brightness to the normal display. 没有进入配置状态的照明装置接收到结束指令后不会响应。 Not enter configuration state lighting device will not respond after receiving the instruction. [0105] 在该实施例中,采用状态控制、显示的方法实现了在多灯的环境下,直观地对指定照明装置设置ID,该方法简单、方便,能够在照明装置安装完毕以后,再用红外线通讯的方式对各个照明装置设置ID,避免了重新调整ID时可能出现的混乱。 [0105] In this embodiment, using the state control method of the display is achieved in a multi-lamp environment, intuitively specify the illumination device ID set, the method is simple, convenient, can be installed after the lighting device, and then way infrared communication device ID for each set lighting, to avoid the confusion that can occur when re-adjust the ID. [0106] 本实施例的ID设置方法也可以应用于其他需要集中或独立控制、而需要设置ID 的场合。 [0106] The present embodiments ID setting method may also be applied to other applications or require centralized control independently and need to set the ID. [0107] 从以上的描述中,可以看出,本发明上述的实施例实现了如下技术效果:[0108] (I)为每一个照明装置均设置了一个唯一的ID,灯光控制装置在接收到操作者的控制命令消息之后,会将其中需要转发给照明装置的控制指令进行调制后发射出去,由于控制指令中携带了所要控制的目标ID,这样就可以仅让该目标ID所标识的照明装置在接收到该控制指令之后响应该控制指令。 [0107] From the above description, it can be seen that the present invention is the above-described embodiment achieves the following technical effects: [0108] (I) for each of a lighting device are set a unique ID, upon receiving the light control means operator control after the command message, will which need to be forwarded to the control command the lighting device will be emitted after modulation, since the control instruction contains the target ID to be controlled, which would allow only the target identified by the ID illumination device after receiving the control command in response to the control instruction. 使用该灯光控制装置能够在多灯的环境下单独地控制某一个照明装置的灯光,也可以集中地控制多个照明装置的灯光,具有精确控制的特性, 其他无需控制的照明装置不会做出错误的响应动作,从而解决了现有技术存在的不能独立、准确地控制多灯的环境中的某一个/某一些照明装置的灯光的问题;[0109] (2)在大面积的多灯的环境中,使用本发明实施例的灯光控制装置和方法、照明装置时可以很容易地控制指定照明装置的灯光的状态和亮度、色温等,也可以控制指定区域中全部照明装置的灯光状态,使用起来非常方便、灵活,起到了节能的效果。 The lighting control device can be used individually controlling a lighting device lighting a lamp in a multi-environment, you may collectively control a plurality of lights illuminating device, having a precisely controlled characteristics, other lighting control device does not need not make response to an error operation, thereby solving the prior art can not exist independently and precisely control the one / some of the problem of light illumination device of the multi-lamp environment; [0109] (2) a large area of ​​the lamp environment, using the embodiment of the invention the light control device and method can be easily controlled to specify the lighting device lighting state and brightness, the color temperature of the illumination device and the like, may control the lighting state of the specified area of ​​the entire illumination device, using very convenient, flexible, and has played a saving effect. [0110] 显然,本领域的技术人员应该明白,上述的本发明的各模块或各步骤可以用通用的计算装置来实现,它们可以集中在单个的计算装置上,或者分布在多个计算装置所组成的网络上,可选地,它们可以用计算装置可执行的程序代码来实现,从而,可以将它们存储在存储装置中由计算装置来执行,或者将它们分别制作成各个集成电路模块,或者将它们中的多个模块或步骤制作成单个集成电路模块来实现。 [0110] Obviously, those skilled in the art should understand that the modules or steps of the present invention described above can be used general-purpose computing device, they can be integrated in a single computing device or distributed across multiple computing devices available on the Internet, optionally, they can be implemented with program codes executable by a computing device, so that, to be performed by a computing device stored in a storage device, or they are made into integrated circuit modules, or they plurality of modules or steps are manufactured into a single integrated circuit module. 这样,本发明不限制于任何特定的硬件和软件结合。 Thus, the present invention is not limited to any particular hardware and software combination. [0111] 以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。 [0111] The foregoing is only preferred embodiments of the present invention, it is not intended to limit the invention to those skilled in the art, the present invention may have various changes and variations. 凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。 Any modification within the spirit and principle of the present invention, made, equivalent substitutions, improvements, etc., should be included within the scope of the present invention.

Claims (16)

1. 一种灯光控制装置,其特征在于,包括: 指令接收模块,用于接收来自操作者的控制命令消息; 处理模块,用于对所述控制命令消息中的控制指令进行调制,得到调制后的控制指令,其中,所述控制指令中携带有目标标识ID ;以及发射模块,用于将所述调制后的控制指令发射给照明装置,以使得仅所述目标ID所标识的至少一个照明装置响应所述控制指令,其中,每一个照明装置具有一个ID。 Post-processing module, a control command for the control instruction message is modulated, the modulation obtained; instruction receiving module for receiving a control command message from the operator: 1. A lighting control apparatus comprising control command, wherein the command carries the control target identifier ID; and a transmission module for the modulated control command transmitted to the lighting device, so that only the target ID of the at least one identified lighting device in response to the control command, wherein each lighting unit has an ID.
2.根据权利要求1所述的灯光控制装置,其特征在于,所述目标ID为所述操作者所要控制的至少一个照明装置的ID、或者为通用ID,其中,所述通用ID用于指示接收到所述控制指令的照明装置均需响应所述控制指令。 The lighting of the control device of claim 1, wherein the target ID is the ID of at least one lighting device to be controlled by the operator, or a universal ID, wherein the ID is used to indicate common the lighting device receiving the control command in response to the control instruction required.
3.根据权利要求1所述的灯光控制装置,其特征在于,还包括: 载波生成模块,用于产生频率为38KHz的载波; 贝U,所述处理模块包括:单片机,用于将所述控制指令以串行的方式输出到调制模块;以及所述调制模块,用于将串行的所述控制指令调制到所述频率为38KHz的载波上,得到所述调制后的控制指令; 所述发射模块用于通过红外线将所述调制后的控制指令发射给照明装置。 3. The lighting control device according to claim 1, characterized by further comprising: carrier wave generating means for generating a carrier frequency of 38KHz; shell U, the processing module comprising: a microcontroller, for controlling the instruction in serial fashion to modulation module; and said modulation module, for converting the serial control command to the frequency modulation on a carrier of 38KHz, the control instruction obtained after the modulation; the emission It means for the modulated infrared rays emitted by the control command to the lighting device.
4.根据权利要求3所述的灯光控制装置,其特征在于,所述载波生成模块包括:反相器U2,电阻Rl和R2串联后形成的第一支路,电容Cl和C2串联后形成的第二支路,以及频率为38KHz的晶体振荡器X ;其中: 所述反相器U2与所述第一支路并联,且所述反相器U2的输出端与所述调制模块的载波输入端连接; 所述第一支路中的电阻R1、所述晶体振荡器X、以及所述第二支路并联,且所述电容CI的与电容C2连接的一端接地。 The light according to claim 3, wherein the control means, wherein said carrier generating module comprising: an inverter U2, the first branch and resistors Rl, R2 formed after the capacitor Cl and C2 series formed in series a second branch, and the frequency of a crystal oscillator X-38KHz; wherein: said inverter U2 in parallel with the first branch, and the carrier input terminal of the inverter U2 output to the modulation module terminal; a first branch resistor R1, a crystal oscillator X, and the second parallel branch, and is connected to the capacitor grounded at one end of the capacitor C2 of the CI.
5.根据权利要求3或4所述的灯光控制装置,其特征在于,所述调制模块包括:反相器U1、U3,二与非门U4,电阻R3,以及NPN三极管Ql ;其中: 所述反相器U1,其输入端作为所述调制模块的指令输入端与所述单片机连接,输出端与所述二与非门U4的第一输入端连接,所述反相器Ul用于将接收到的串行的所述控制指令缓冲、倒相后,输出到所述二与非门U4的第一输入端; 所述反相器U3,其输入端作为所述调制模块的载波输入端与所述载波生成模块连接,输出端与所述二与非门U4的第二输入端连接,所述反相器U3用于将所述载波生成模块产生的频率为38KHz的载波缓冲、倒相后,输出到所述二与非门U4的第二输入端; 所述二与非门U4,其输出端通过所述电阻R3与所述NPN三极管Ql的基极连接; 所述NPN三极管Q1,其集电极作为所述调制模块的输出端与所述发射模块连接,发 The lighting control device of claim 3 or claim 4, wherein said modulation module comprises: an inverter U1, U3, U4 two NAND gates, a resistor R3, and the NPN transistor Ql,; wherein: said an inverter U1, the input terminal of the modulation block as a command input terminal of the microcontroller is connected to the output terminal and the second connection to the first input of the NAND gate U4, the inverter for receiving Ul the serial control command to the buffer, the inverter, the two outputs to the first input of the NAND gate U4; U3 of the inverter, an input terminal of the input terminal as a carrier wave and modulation module the carrier generation module is connected, an output terminal and the second connection to the second input of the NAND gate U4, inverter U3 for the frequency of the carrier wave generated by the carrier generation module buffer of 38KHz, the inverted , and two second output to the input of the NAND gate U4; the two NAND gate U4, its output through the resistor R3 and the NPN transistor Ql is connected to the base; the NPN transistor Q1, which the collector of the modulation module as an output terminal of the transmission module is connected, hair 射极接地。 Emitter grounded.
6.根据权利要求1至4中任一项所述的灯光控制装置,其特征在于, 所述发射模块还用于发射配置指令,在仅操作者所要配置的照明装置接收到所述配置指令并进入配置状态时,将所分配的ID发射给所述所要配置的照明装置,以及,发射第一结束指令,以使得所述所要配置的照明装置保存所述所分配的ID并退出配置状态;还用于在至少两个照明装置接收到所述配置指令并进入配置状态时,发射第二结束指令,以使得所述至少两个照明装置退出配置状态。 Light according to any one of claims 1 to 4, a control apparatus, wherein the transmitting means is further arranged for transmitting instruction is received only in the illumination device to be configured by the operator and the configuration instructions configuration state when entering the ID transmitter assigned to the illumination device to be configured, and, transmitting a first end instruction, such that the ID storage configuration of an illumination apparatus to be allocated and exit the configuration state; further for at least two illumination device and receiving the configuration command into the configuration state, the second end transmit instructions to the illumination device such that the at least two exit configuration state.
7. 一种照明装置,其特征在于,包括: 接收模块,用于接收灯光控制装置发来的控制指令,其中,所述控制指令中携带有目标标识ID ; 判断模块,用于判断所述接收模块接收到的控制指令中携带的目标ID与本地保存的ID是否相同; 执行模块,用于在所述判断模块的判断结果为相同时,响应所述控制指令。 An illumination apparatus characterized by comprising: receiving means for receiving light means control command sent by the control, wherein said control command carries the target identifier ID; determining means for determining said receiving save destination ID and the local ID to the received control command carried in the module are the same; executing module, the judging module judging result is the same, in response to the control instruction.
8.根据权利要求7所述的照明装置,其特征在于,所述目标ID为所述操作者所要控制的至少一个照明装置的ID、或者为通用ID,所述本地保存的ID为本照明装置的ID和通用ID,其中,通用ID用于指示接收到所述控制指令的照明装置均需响应所述控制指令; 贝U,所述判断模块具体用于判断所述接收模块接收到的控制指令中携带的目标ID是否与本地保存的本照明装置的ID和通用ID中之一相同; 所述执行模块具体用于在所述判断模块的判断结果为是时,根据所述控制指令中携带的操作指令和操作数据调整本照明装置的工作状态和亮度。 The lighting device according to claim 7, characterized in that at least the target ID is the ID of a lighting device to be controlled by the operator, or a universal ID, local ID stored in the present lighting device ID and universal ID, wherein the common ID indicating reception of said illuminating means in response to the control command required to control instruction; Pui U, the determination module is configured to determine the control command receiving module to receive the same ID and the ID of the general lighting device ID is carried in the target stored in the local one; the execution determination module is configured as a result of the judging module is, according to the control instruction carrying the instructions and manipulating data and brightness adjustment of the present state of the lighting device.
9.根据权利要求7或8所述的照明装置,其特征在于, 所述接收模块还用于接收灯光控制装置发来的配置指令、为所述照明装置所分配的ID、第一结束指令、以及第二结束指令; 所述执行模块还用于根据所述接收模块接收到的所述配置指令进入配置状态,并在所述接收模块接收到所述第一结束指令之后,保存所述所分配的ID,退出配置状态;在所述接收模块接收到所述第二结束指令之后,不保存所述所分配的ID,退出配置状态。 The lighting device of claim 7 or claim 8, wherein the receiving module is further configured to receive a light control means arranged to send commands to the device ID assigned to the illumination, the first end of the instruction, instruction and a second end; the execution module is further configured to receive the configuration instruction into the receiving module according to the configuration state, and receiving the first end instruction after the receiving module, storing the allocated the ID, deconfiguration; after the second receiving module receives the end instruction does not save the ID assigned to exit configuration state.
10. 一种灯光控制方法,其特征在于,包括: 接收来自操作者的控制命令消息; 对所述控制命令消息中的控制指令进行调制,得到调制后的控制指令,其中,所述控制指令中携带有目标标识ID ;以及将所述调制后的控制指令发射给照明装置,以使得仅所述控制指令中携带的目标ID所标识的至少一个照明装置响应所述控制指令,其中,每一个照明装置具有一个ID。 A lighting control method characterized by comprising: receiving a control command message from the operator; control instruction to the control message is modulated to obtain a modulated control instruction, wherein said instruction control carries the destination identification ID; and to the modulated control command transmitted to the lighting device such that the at least one lighting means is responsive only to the control target instruction carries the ID of the identified control command, wherein each lighting It means having an ID.
11.根据权利要求10所述的方法,其特征在于,所述目标ID为所述操作者所要控制的至少一个照明装置的ID、或者为通用ID,其中,所述通用ID用于指示接收到所述控制指令的照明装置均需响应所述控制指令;所述控制指令中还携带有:操作指令、操作数据和校验码。 11. The method according to claim 10, wherein the target ID is the ID of the at least one lighting device to be controlled by the operator, or a universal ID, wherein the common ID indicating reception the lighting device is required in response to the control command to the control command; the control instruction further carries: an operation instruction, the operation data and check code.
12.根据权利要求10或11所述的方法,其特征在于,还包括: 发射配置指令; 若仅所要配置的照明装置接收到所述配置指令并进入配置状态,则将所分配的ID发射给所述所要配置的照明装置,之后发射第一结束指令,以使得所述所要配置的照明装置保存所述所分配的ID,并退出配置状态; 若至少两个照明装置接收到所述配置指令并进入配置状态,则发射第二结束指令,以使得所述至少两个照明装置退出配置状态。 12. The method of claim 10 or claim 11, characterized in that, further comprising: transmitting configuration instruction; if only the illumination device configured to be received and the configuration instruction into the configuration state, the ID transmitter assigned to the lighting device is configured to, after transmitting a first end instruction, so that the ID storage configuration of an illumination apparatus to be allocated, and exit the configuration state; if the at least two illumination device and receiving the configuration instructions into the configuration state, the instruction to transmit a second end, such that the at least two exit configuration state lighting device.
13. —种灯光控制方法,其特征在于,包括: 接收灯光控制装置发来的控制指令,其中,所述控制指令中携带有目标标识ID ; 在判断接收到的控制指令中携带的目标ID与本地保存的ID相冋之后,响应所述控制指令。 13. - kind of lighting control method characterized by comprising: means for receiving control commands sent by the lighting control, wherein said control command carries the target identifier ID; carried in the received control command is determined in the target ID and after phase Jiong ID stored locally, in response to the control instruction.
14.根据权利要求13所述的方法,其特征在于,所述目标ID为所述操作者所要控制的至少一个照明装置的ID、或者为通用ID, 所述本地保存的ID为本照明装置的ID和通用ID,其中,通用ID用于指示接收到所述控制指令的照明装置均需响应所述控制指令; 贝U,所述判断接收到的控制指令中携带的目标ID与本地保存的ID相同包括:判断所述控制指令中携带的目标ID与本地保存的本照明装置的ID和通用ID中之一相同; 所述响应所述控制指令包括:根据所述控制指令中携带的操作指令和操作数据调整本照明装置的工作状态和亮度。 14. The method according to claim 13, wherein the target ID is the ID of the at least one lighting device to be controlled by the operator, or a universal ID, local ID stored in the present lighting device universal ID and ID, wherein the common ID indicating reception of said illuminating means in response to the control command required to control instruction; Pui U, said save destination determination ID received control command carried in the local ID the same comprises: determining whether the control of the same ID and the ID of the general lighting device carries instructions retained in one of the local object ID; the response to the control instructions comprising: an instruction of the control instruction according to an operation carried and operation data and brightness adjustment of the present state of the lighting device.
15.根据权利要求13或14所述的方法,其特征在于,在判断接收到的控制指令中携带的目标ID与本地保存的ID是否相同之前,还包括: 确定所述控制指令中携带的校验码正确。 15. The method of claim 13 or claim 14, characterized in that, before the save destination ID and the local ID carried in the received control command is determined whether or not the same, further comprising: determining the control instruction carried correction test code is correct.
16.根据权利要求13或14所述的方法,其特征在于,还包括: 接收灯光控制装置发来的配置指令并根据所述配置指令进入配置状态; 在接收到灯光控制装置发来的所分配的ID以及第一结束指令之后,保存所述所分配的ID并退出配置状态,或者,在接收到灯光控制装置发来的第二结束指令之后,退出配置状态。 16. The method of claim 13 or claim 14, characterized in that, further comprising: receiving a light control means arranged to send configuration commands and enter a state according to the configuration command; receiving the light sent by the control device allocated after the end of the first instruction after the ID and the stored ID, and the allocated exit configuration state, or, in the light control means receiving the second end instruction sent exit configuration state.
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CN106922057A (en) * 2015-12-24 2017-07-04 北京奇虎科技有限公司 The closely control method and system of illuminating lamp
CN106922058A (en) * 2015-12-25 2017-07-04 北京奇虎科技有限公司 The control method of light fixture, device and system
CN106922058B (en) * 2015-12-25 2019-11-26 北京奇虎科技有限公司 Control method, the device and system of lamps and lanterns
CN109246902A (en) * 2018-08-03 2019-01-18 福建星网视易信息系统有限公司 Light edit methods and computer readable storage medium

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