WO2008098444A1 - Controlling system for electrical lighting instrument and peripheral electrical appliance - Google Patents

Abstract

A controlling system for electrical lighting instrument and peripheral electrical appliance is provided. The electrical lighting instruments and the peripheral electrical appliances in this system are divided into an electrical lighting instrument controlling group and a peripheral electrical appliance controlling group by a controlling instruction communication protocol. A lighting instrument controller of the electrical lighting instrument controlling group receives system controlling instructions and electrical lighting instrument zone controlling instructions, is provided with an electrical lighting instrument name labeling means, and enables individual control. An electrical appliance controller of the peripheral electrical appliance controlling group does not receive the system controlling instructions, only receives the peripheral electrical appliance zone controlling instructions, is provided with a peripheral electrical appliance name labeling means, and enables individual control. The peripheral electrical appliances of the peripheral electrical appliance controlling group and peripheral electrical appliance zone controlling instructions constitute an independent zone controlling subsystem in the controlling system. According to the present invention, the peripheral electrical appliances are included in the controlling system, the controlling for electrical lighting instruments and peripheral electrical appliances becomes unified and simplified, and the electrical lighting zone controlling system is extended to the controlling for general electrical appliances in the residence environment.

Description

 Electric lighting fixture and peripheral electrical control system

 The invention relates to the technical field of digital electric lighting fixtures and electrical appliances, in particular to an electric lighting fixture and a peripheral electrical control system based on digital electric lighting partition control, wherein the control system takes the overall lighting scene as a control object, and simultaneously Electrical lighting fixtures or peripherals can be individually controlled to suit different needs. Background technique

 With the development of electronic components and electronic control technology, the electric lighting process has developed into a digital control system, which is specified in Annex E of IEC60929. Digital Addressable Lighting Interface (DALI in Europe and America) Representative. This was originally a specification for fluorescent dimming control, but due to its reliability, simplicity, and reasonable price, it gradually became the control system specification covering all electric lighting systems. Especially in the face of worldwide energy and environmental issues, energy-saving technologies are becoming more and more important, and lighting systems that can be automatically controlled are gradually becoming necessary.

 In addition to the control of electric lighting fixtures, some automated control systems further include general electrical appliances in the home environment and evolve into residential automation systems. For example, U.S. Patent Nos. 6,229,943 B1 and US 6,868,295 B2, some systems further include all electrical appliances in a building environment to develop a building automation management system, such as shown in U.S. Patent No. 5,658,585. The Digital Addressable Light Interface System (DALI) is in a state of flux in these areas.

 The Digital Addressable Light Interface System (DALI), which was developed successfully in Europe and gradually accepted by the world, is a system that is still evolving. The architecture of the DALI system consists essentially of a bus power supply, at least one controller, and a luminaire with a digitally addressable light interface receiver. Each digital addressable light loop can control up to 64 individual luminaires, each of which is assigned an address code at initial setup. Based on this address, the system can issue instructions for each fixture.

 However, in practical applications, the luminaires should be grouped first. After the group data is stored in the memory of each luminaire, as shown in European Patent EP90100465. 6 (USPAT5352957), the instructions can be directly issued for the group. A loop can be set up to 16 groups (0~15). Each fixture can belong to several groups at the same time. However, depending on the actual system, some products only allow one group to be set.

After the grouping is completed, each group of lights can be separately adjusted to an appropriate brightness to form an overall lighting scene. Some locations, such as multi-purpose conference rooms, may require several different lighting scenarios to suit different needs. In order To avoid the trouble of frequent adjustments, you can use the lighting scene controller to pre-store the data related to the group, brightness and other data of each lighting scene. When you use it, you only need to press the scene selection button to retrieve the original 3⁄4. Common twilight scene controllers typically have 4 to 8 scene keys to choose from, and the Digital Addressable Light Interface System (DALI) can set up to 16 lighting scenes.

 The addressability of digital addressable lighting interface systems is characterized by the grouping, scene setting, and dimming of the entire system. However, the initial grouping, setting the scene, and setting the brightness can be very complicated and require professional and specialized tools.

 In addition to the simple lighting function in many normal life, many places often need to set multiple lighting scenes to meet the actual needs. These needs are sometimes functional, sometimes for energy savings, and sometimes for both. For example - general halls and walkways, all work should be bright when cleaning work, usually half-bright; merchandise display space, the key theme of the display should be brighter, the surrounding of the background should be darker, to create contrast, highlight the theme, but When doing cleaning work, it should be fully lit; when meeting in the conference room, the lighting on the conference table should be brighter, the surrounding should be darker, when the briefing is made, the whole room should be darker, only the projection screen near the desk should be completely dark. Eli projected images. Other living spaces such as living rooms and restaurants can also use the changes in lighting scenes to create an energy-saving and colorful living atmosphere.

 This overall lighting scene atmosphere, in addition to making people feel comfortable and happy, because the lighting is not always in a state of full light, it also achieves energy-saving purposes. For places with complex lamp types, the control method of one lamp and one switch will be cumbersome, and the overall lighting scene control is actually a necessity.

 Basically, the control of the lighting scene is achieved by changing the brightness of the light source of each luminaire. The luminaires are grouped for convenience in setting and executing instructions. If the scene brightness setting of each luminaire can be easily performed, and each luminaire can easily receive and execute scene instructions directly, grouping is not necessary, thus eliminating many restrictions.

 The brightness of the light source can be changed to full brightness or off, and the simple switching type two-stage dimming; it can be semi-bright, 3/4 bright, full bright, off-off four-stage dimming; or can be fine-tuned dimming the way. For example: 16-step dimming; Digital Addressable Lighting Interface System (DALI) can have up to 256-step dimming (including off), and for general applications, 256-step dimming is a bit wasteful.

 With the rise of energy prices and competition among industry peers, operators of various industries have found that electric lighting control systems occupy an important position in business management, especially in places where lighting effects are more demanding. For example, high-end restaurants, hotel rooms, fashion stores, etc., electric lighting control systems have a critical impact on energy efficiency and customer satisfaction.

From the perspective of electric lighting, the hotel room is a very special place, a personal request is high but A place that feels strange, a place of high privacy but public use. Some modern hotels are very particular about lighting, but in these more modern hotels, the most common thing for homeowners to discover is the lighting control panel on the bedside, which often makes people feel overwhelmed. People who travel frequently are even more confused. The more upscale hotels, the more complex the electric lighting control system is, the more daunting and unwilling to use it. In order to improve the quality of lighting and meet the needs of housing guests, modern hotels are in great need of breakthroughs in lighting control systems.

 The above-mentioned situation also often occurs in the home environment, and some of the more modern lighting control systems cause inconvenience to the elderly and young people in the home.

 Because the lighting requirements of hotel rooms are quite special and more comprehensive, the following description will be aimed at hotel room lighting. An ideal hotel electric lighting control system should be convenient, stress-free and easy to use, making people feel at home and feel at home. How to make the best use of the lighting for the guests in a natural and easy way is also an important consideration.

 Housing guests, if they can use the lights naturally and easily, can eliminate unnecessary energy waste. For hotel operators, they will immediately generate economic benefits due to energy conservation. However, because the level of knowledge, age, life experience, and even language of the guest are very different, an electric lighting and electrical appliance control system that can be easily used without the need of men, women and children, poses a challenge to technicians. .

 Practical experience shows that lighting scene control is a simple and effective energy-saving method. The overall lighting scene can be put in place with one click, which is simple and easy to use. In addition to the comfortable lighting, the preset lighting scene is not always bright. The state, thus also achieving energy saving purposes. However, the hotel room is a place for public use. The preset standard lighting scene is impossible to meet the needs of everyone. The flexibility of the lighting scene and the lighting of the hotel room are also a problem to be considered.

 For hotel operators, how to carry out regular maintenance work, replacement of lamps, additions and deletions of lamps, and even all updates in the room can be easily carried out, whether to re-wire, or to reset the software. It is also a factor that needs to be included in the assessment, especially the re-drawing, time and engineering costs are huge.

Despite the Digital Addressable Light Interface Control System (DALI), DALI has many advantages over other lighting control systems, such as the US Patent Nos. US6229433B1, US7042339B2, which transmit control information over a commercial power line. For example, a very free wiring topology saves a lot of copper wire compared to traditional centralized wiring, and the transmission of control information is more reliable. Compared with the US patent number US5565855, US68682952 emphasizes intelligent control system, digital addressable light interface The control system (DALI) is also clearly streamlined, but overall the Digital Addressable Light Interface Control System (DALI) controller is still relatively expensive, and the price of expensive controllers limits the popularity of these systems. When applied to hotel room lighting control, because the hotel room is a place with fierce commercial competition, how to reduce the equipment investment price of hotel rooms, reduce maintenance costs, improve customer satisfaction, etc., are closely related to operational efficiency, and management personnel must Careful consideration, therefore, a more economical, easier to use electric lighting control system is very much expected.

 At the same time, there are many peripheral electrical appliances in the hotel room that need to be controlled, such as do not disturb lights, clean room lights, air conditioning temperature controller, air conditioning air volume controller, main window curtain controller, main window shade controller, sub-window curtain controller , secondary window shade controller, night light, TV, stereo, etc. The control of these peripheral electrical appliances and the control of hotel room electrical lighting can be simplistic and simple, and will certainly be welcomed by the guests and hotel managers of the housing. Summary of the invention

 (1) Technical problems to be solved

 In view of this, the main object of the present invention is to provide an electric lighting fixture and a peripheral electrical control system, and to integrate peripheral electrical appliances other than the main electric lighting fixture into the control system, so that the electric lighting and the peripheral electrical control are realized simplification and simplification. Extend the electric lighting zone control system to the control of an electrical appliance in the living environment.

(2) Technical plan

 In order to achieve the above object, the technical solution of the present invention is achieved as follows:

 An electric lighting fixture and a peripheral electrical control system, the system comprising a mains power line 1, a digital two-phase digital information bus 2, at least one electric lighting controller 3, at least one peripheral electrical controller 3P, a digital two-phase Information bus power supply 5, a system controller 7, a handheld wireless remote control relay controller 8R, a handheld wireless remote control 8M;

 The bus interface of the electric lighting fixture controller 3, the peripheral electrical controller 3P, the digital two-phase information bus power supply 5, the system controller 7 and the handheld wireless remote controller relay controller 8R and the digital two-phase digital information bus 2 Parallel connection;

 The electric lighting fixture and the peripheral electric appliance in the system are divided into an electric lighting fixture control group and a peripheral electric appliance control group, and the electric lighting fixture controller 3 is controlled according to the electric lighting fixture control instruction received from the digital two-phase digital information bus 2. The electric lighting fixture control group controls the peripheral electrical control group according to the peripheral electrical control command received from the digital two-phase digital information bus 2.

The electric lighting fixture controller 3 receives the system electric lighting fixture control instruction and the section electric lighting fixture control finger And filtering, obtaining an effective electric lighting fixture control instruction; and setting an electric lighting fixture name labeling device 3T, and receiving the electric lighting fixture interval control instruction individually; the electric lighting fixture controller 3 comprises:

 The optical isolator 31 is configured to input the light scene control command transmitted on the digital two-phase digital information bus 2 to the information data restoring device 41;

 The information data restoring device 41 is configured to restore the light scene control command input from the optical isolator 31, output the restored digital data to the system shift register 37 and the interval shift register 38, and output the clock signal to the clock management. Device 40;

 The system shift register 37 and the interval shift register 38 are configured to store the digital data restored by the information data restoration device, and output the upper byte of the digital data to the system instruction decoding device 44 to set the lower byte interval in the digital data. The instruction is output to the content addressable control switching device 39;

 The system instruction decoding device 44 is configured to decode the system instruction high byte input by the system shift register 37, output the consistent energy information or remove the function information according to the decoding result to the content addressable control switch device 39; The address control switch device 39 is configured to compare and decode the interval instruction input by the interval instruction shift register 38 in parallel, and if there is a comparison complete command, generate a light control switch signal for the luminaire, and pass the latch 43 is output to the light scene control device 42;

 The latch 43 is configured to store the information input by the content addressable control switch device 39, and output the information input by the content addressable control switch device 39 to the light scene control device 42;

 The light scene setting device 42 is configured to decode the scene control switch signal and the single lamp dimmer switch signal received from the content addressable control switch device 39, and output the decoded result to the light source driving device 34;

 a light source driving device 34, configured to drive a switch and brightness of the light source according to the decoding result received from the light scene control device 42;

 The luminaire name labeling device 3T is used to identify a specific luminaire, and the setting content can address the memory data of the control switch device 39.

 The content addressable control switching device 39 is fabricated from a single core semiconductor integrated circuit, including a content addressable memory device 390 and a content addressable memory setting device 391 for storing the content addressable memory device 390 And comparing the control command with the address of the lamp, the comparison result is output to the light scene control device 42 through the latch 43; the content addressable memory setting device 391 is used to set the content addressable memory The address of device 390.

 The system shift register 37 is shared with the lower byte of the interval shift register 38;

The lamp name labeling device 3 is a jumper plugging device, or a dial switch device, or a digital dial The off device is identified by number, color code, and graphic to facilitate resolution.

 The peripheral electrical controller 3P receives the interval peripheral electrical control command, filters and obtains a valid peripheral electrical control command; and is provided with a peripheral electrical name tag device 3PT, and the receiving interval peripheral electrical control command is individually controlled; the peripheral electrical controller 3P includes :

 The optical isolator 31P is configured to input a peripheral electrical control command transmitted on the digital two-phase digital information bus 2 to the information data restoring device 41P;

 The information data restoring device 41P is configured to restore the peripheral electrical control command input by the optical isolator 31P, output the restored digital data to the peripheral electrical control command shift register 37P, and output the clock signal to the clock management device 40P;

 The peripheral electrical control instruction shift register 37P is configured to store the digital data restored by the information data restoration device, and output the high order byte of the peripheral electrical control command in the digital data to the peripheral electrical control command decoding device 44P, and the periphery of the digital data The appliance control command low byte segment instruction is output to the content addressable control switch device 39P;

 The system instruction decoding device 44P is configured to decode the high-order byte of the peripheral electrical control command input by the peripheral electrical control instruction shift register 37P, output the consistent energy information or remove the function information according to the decoding result to the content addressable control switch Device 39P;

 The content addressable control switch device 39P is configured to compare and decode the interval instruction bits input in parallel by the peripheral electrical control instruction shift register 37P, and if there is a comparison complete command, generate a switch signal for the peripheral electrical device, and Output to the peripheral electrical control command control device 34P through the latch 43P;

 The latch 43P is configured to store control information input by the content addressable control switch device 39P, and output control information input by the content addressable control switch device 39P to the peripheral electrical control device 34P;

 The peripheral electrical control command control device 34P is configured to implement control of the peripheral electrical device according to the control information received from the latch 43P;

 The peripheral appliance name tag device 3PT is used to identify a specific peripheral device, and the setting content can address the memory data of the control switch device 39P.

The content addressable control switching device 39P is made up of logic circuitry, including a content addressable memory device 390P and a content addressable memory setting device 391P, which are P8, P4, P2 in the content addressable memory device 390P , PI is an address bit of the peripheral appliance name tag device 3PT; the content addressable memory device 390P is used to store and compare control commands; the content addressable memory setting device 391P is used to set content to be found The address of the address memory device 390P. The peripheral electrical name labeling device 3PT is a jumper plugging device, or a dial switch device, or a digital dial switch device, which is identified by a number, a color code, and a graphic to facilitate resolution.

 The digital two-phase information bus power supply 5 is used for supplying a DC voltage to the digital two-phase information bus 2; the system controller 7 is a fixed device, and has a total switch control button of the electric lighting fixture, and the lighting scene selection of the electric lighting fixture The control button, the system controller 7 issues a system control command, and controls the switch of the electric lighting fixture and the lighting scene of the electric lighting fixture via the digital two-phase digital information bus 2;

 The handheld wireless remote controller 8M sends an interval electric lighting fixture control command or an interval peripheral electrical control command to the handheld wireless remote controller relay controller 8R to control the lighting scene, individual lamps and individual peripheral appliances of the electric lighting fixture in the interval. ; ' '

 The handheld wireless remote controller relay controller 8R is configured to relay the radio frequency signal received from the handheld wireless remote controller 8M, and issue an interval electric lighting fixture control command or an interval peripheral electrical control command to control the electric lighting in the interval. Lighting scenes of lamps, individual lamps and individual peripherals; main switch key for electric lighting fixtures, overall lighting scene selection button, individual lighting buttons for all lighting fixtures, and electric lighting fixtures for turning on, off, dimming, dimming control buttons, The individual selection keys and peripherals of all peripheral appliances open or raise, close or lower the control keys.

 The system further includes:

 An empty chamber sensor 4 is configured to emit an energy-saving control command to turn off the light when no one is present, and control the switch and the lighting scene of the electric lighting fixture via the digital two-phase digital information bus 2;

 And/or an interval controller 8, which is used to control the lighting scene of the luminaire in its zone, or to control individual luminaires within its zone, or to control individual peripherals within its zone.

 The lamp name tag device 3T or the peripheral appliance name tag device 3PT is an address tag, and controllers having the same name tag device have the same address and are controlled synchronously.

(3) Beneficial effects

 As can be seen from the above technical solutions, the present invention has the following beneficial effects:

 1. The electric lighting fixture and the peripheral electrical control system provided by the invention are based on the electric lighting partition control system, and the peripheral electrical appliances other than the main electric lighting fixtures are incorporated into the control system, so that the electric lighting and the peripheral electrical control are realized single. The simplification and simplification realize the control of extending the electric lighting zone control system to the general electrical appliances in the living environment.

2. The electric lighting fixture and the peripheral electrical control system provided by the invention utilize the interval peripheral electrical control command and the matched peripheral electrical controller, without increasing the complexity of the electric lighting partition control system, in the electrophotography An independent subsystem is established within the control interval to incorporate peripherals into the control system to simplify and simplify electrical lighting and electrical control while maintaining the features of the electric lighting zone control system that are inexpensive, reliable, and easy to use.

 3. The electric lighting fixture and the peripheral electrical control system provided by the invention provide a digital electric lighting system with a simpler and easier to use system structure than the traditional control panel centralized hotel room electric lighting and electrical control system. The electrical control system, when deployed, maintained, and updated, does not have the trouble of setting software. Even a suite with multiple rooms can be easily built. The general technicians can be competent, and the technicians do not need special training. Conducive to the popularity of digital hotel room lighting and electrical control systems.

 4. The electric lighting fixture and the peripheral electrical control system provided by the invention provide a standardized hand-held remote controller, which is supplemented with graphically easy-to-recognize buttons, which can be easily used by both men and women. In particular, when the present invention is applied to a hotel room, the needs of the guest and the hotel management personnel are taken into consideration, and the guest who is in the house can operate with common sense, improve the lighting quality, improve the energy-saving efficiency of the lighting, and simplify the hotel room. The accommodation process of the housing guests reduces the discomfort of the travellers in the unfamiliar environment. Because there is no software setting problem, the handheld remote control can be used in any room, and thus the guest and hotel manager of the house, Its benefits.

 5. The electric lighting fixture and the peripheral electrical control system provided by the invention provide benefits in reducing price, reducing maintenance cost, being easy to use, improving customer satisfaction, saving energy, and improving overall management efficiency.

 6. The electric lighting fixture and peripheral electrical control system provided by the invention, the digital bus distributed architecture, is very flexible in the selection and layout of the lamps, and can be replaced at any time or the layout of the lamps can be changed without resetting the software. Or pull the cable again. When electric lighting and electrical control systems and luminaires are deployed, maintained, and updated, they are more flexible and economical.

 7. The electric lighting fixture and the peripheral electrical control system provided by the invention, on the basis of the electric lighting partition control system, establish a technical solution of another completely independent subsystem, in addition to saving system resources, for planning and design For the maintenance technicians, the system architecture is concise, easy to grasp, can be added or cancelled at any time, does not involve the software setting procedure; for the user, it is transparent and directly easy to use, the invention highlights the characteristics of the digital control system However, it eliminates the trouble of software setting and achieves the goal of being cheap, reliable and easy to use.

8. The electric lighting fixture and the peripheral electrical control system provided by the invention, the standardized and graphical hand-held remote controller, simplify the learning process, eliminate unnecessary learning and adapt to the tension; the simple lighting scene control button can make the lighting scene control With one button in place, it can be used regardless of gender, no need to learn. It is natural and easy to use the light to eliminate unnecessary energy waste. Single lamp control button can be used for special lamps. Control, taking into account the special requirements of personalization and the simple operation requirements of the mass, especially suitable for hotel rooms.

9. The electric lighting fixture and the peripheral electrical control system provided by the invention combine the personnel movable empty room sensing controller to achieve the purpose of balancing the lighting quality and automatically saving energy, and the lighting control is completely independent, and the peripheral electrical appliances are not affected at all. .

 10. The electric lighting fixture and the peripheral electrical control system provided by the invention, the all-digital system, and the network bridge technology, are easy to be networked with other systems, such as a building management system. DRAWINGS

 1 is a schematic structural view of an electric lighting fixture and a peripheral electrical control system provided by the present invention;

 2 is a schematic view of a hotel room of an electric lighting fixture and a peripheral electrical control system provided by the present invention; FIG. 3 is a schematic structural view of an electric lighting fixture controller of an electric lighting fixture and a peripheral electrical control system provided by the present invention;

 4 is a schematic structural view of a peripheral electrical controller in an electric lighting fixture and a peripheral electrical control system provided by the present invention;

 5 is a schematic diagram of a system control instruction frame in an electric lighting fixture and a peripheral electrical control system provided by the present invention;

 6 is a schematic diagram of a control instruction frame of an electric lighting fixture in an electric lighting fixture and a peripheral electrical control system provided by the present invention;

 FIG. 7 is a schematic diagram of a control frame of a peripheral peripheral electrical control instruction in an electric lighting fixture and a peripheral electrical control system provided by the present invention. detailed description

 In order to make the objects, the technical solutions and the advantages of the present invention more comprehensible, the present invention will be further described in detail below with reference to the accompanying drawings.

 The electric lighting fixture and the peripheral electrical control system provided by the invention realize the main purpose of electric lighting control, and can control the general electrical appliances in the living space, and achieve standardization, simplification, low cost, reliability and easy use. The goal.

The invention is based on a digital electric lighting partition control system, and is a core technical solution for establishing an independent peripheral electrical control sub-system in an electric lighting partition control system, which will be in a living space, such as a hotel room, and a periphery. The electric appliance is incorporated into the digital electric lighting zone control system, which expands the electric lighting zone control system technology. The scope of application further exploits the advantages of low-cost, reliable and easy-to-use digital electric lighting partition control system technology. Different from the existing digital residential management system, the present invention has no software setting problem, and the independent peripheral electrical control sub-system enables automatic control of electric lighting, which is easy to handle separately. For example, when adding an energy-saving light automata, the peripheral electrical appliances are not Subject to any influence.

 For reference documents related to digital electric lighting partition control system, please refer to the Chinese patent application number.

200610076528. 2, 200610111783. 6, 200610111784. 0 and other related documents. Chinese Patent Application No. 200610076528. 2 illustrates a method and apparatus for reaching a natural partition by a border repeater, 200610111783. 6 illustrates a content addressable technology and apparatus for controlling a single lamp, 200610111784. The content of the lighting scene control can be the address light scene switch controller device.

 The electric lighting fixture and the peripheral electric appliance in the electric lighting fixture and the peripheral electric appliance control system provided by the invention are divided into two control groups by the control command communication protocol: the electric lighting fixture control group and the peripheral electric appliance control group; the electric lighting fixture control The group controller receives the system control command and the interval control command, and is provided with the electric lighting name tag device, which can accept individual control; the peripheral electrical control group controller only receives the interval peripheral electrical control command, does not accept the system control command, and has the setting Peripheral appliance name labeling devices, subject to individual control.

 The peripheral electrical controller communicates with the interval peripheral electrical control command communication protocol to form an independent subsystem in a control interval; the handheld remote controller is a zone controller, which issues a standardized interval overall lighting scene control command or interval single light control command or interval peripheral electrical device Control instructions, control the overall lighting scene of the interval, or individually control each electric lighting fixture or peripheral appliance in the interval, without software setting, can be used in any interval (or room). As shown in FIG. 1 , FIG. 1 is a schematic structural diagram of an electric lighting fixture and a peripheral electrical control system provided by the present invention. The system includes a mains power line 1, a digital two-phase digital information bus 2, and at least one electric lighting controller. 3. At least one peripheral electrical controller 3P, a digital two-phase information bus power supply 5, a system controller 7, a handheld wireless remote control relay controller 8R and a handheld wireless remote control 8M.

 The bus interface of the electric lighting controller 3, the peripheral electrical controller 3P, the digital two-phase information bus power supply 5, the system controller 7 and the handheld wireless remote control relay controller 8R and the digital two-phase digital information bus 2 Parallel connection; the electric lighting fixture and the peripheral electrical appliance in the system are divided into an electric lighting fixture control group and a peripheral electrical control group, and the electric lighting fixture controller 3 is based on the electric lighting fixture received from the digital two-phase digital information bus 2 The control command controls the electric lighting fixture control group, and the peripheral electrical controller 3P controls the peripheral electrical control group based on the peripheral electrical control command received from the digital two-phase digital information bus 2.

The electric lighting controller 3 receives the system electric lighting control command and the interval electric lighting control command, Filtering to obtain effective electric lighting fixture control instructions; and setting up an electric lighting fixture name labeling device 3T, receiving individual control of the electric lighting fixture interval control command.

 The peripheral electrical controller 3Ρ receives the peripheral electrical control command of the interval, filters and obtains the valid peripheral electrical control command; and sets the peripheral electrical name labeling device 3ΡΤ, and receives the peripheral electrical control command for individual control.

 The digital two-phase information bus power supply 5 is used to supply a DC voltage to the digital two-phase information bus 2.

 The system controller 7 is a fixed device, and has a main switch control button of the electric lighting fixture, an electric lighting fixture light scene selection control button, the system controller 7 issues a system control command, and controls the electric lighting fixture via the digital two-phase digital information bus 2. Switch and electric lighting fixture lighting scenes.

 Handheld wireless remote control 8Μ Send the interval electric lighting control command or interval peripheral electrical control command to the handheld wireless remote control relay controller 8R to control the lighting scene, individual lamps and individual peripherals of the electric lighting fixtures in the interval. Since the hand-held wireless controller 8 is an interval controller, the interval controller 8 indicated by a broken line can be canceled. The border repeater 6 indicated by the dotted line is used in multiple sections (or rooms) to separate sections (or rooms), such as hotel suites with multiple rooms.

 The handheld wireless remote controller relay controller 8R is used for relaying the radio frequency signal received from the handheld wireless remote controller, and issuing an interval electric lighting fixture control command or an interval peripheral electrical control command to control the electric lighting fixture in the interval. Lighting scenes, individual lamps and individual peripherals; with the main switch key for electric lighting fixtures, overall lighting scene selection button, all electric lighting fixtures individual selection keys and electric lighting fixtures on, off, brightening, dimming control keys, all peripherals Individual selection keys and peripherals of the appliance or raise, close or lower control keys.

The system may further comprise an empty chamber sensor 4 and/or a section controller 8 for issuing an energy saving control command to turn off the light when no one is present, and controlling the electricity via the digital two-phase digital information bus 2 The switch and lighting scene of the lighting fixture; the interval controller 8 is used to control the lighting scene of the lighting fixture in the zone in which it is located, or to control individual lighting fixtures in the zone in which it is located, or to control individual peripheral electrical appliances in the zone in which it is located. As shown in FIG. 2, FIG. 2 is a schematic diagram of an electric lighting fixture and a peripheral electrical control system hotel room provided by the present invention. In the hotel room, the mains power line 1 and the digital two-phase information bus 2 (1 + 2) are connected to the controller of the electric lighting fixture. Electric lighting fixtures include chandelier Ll, floor lamp L2, desk lamp L3, coffee table lamp L4, wall lamp L5, left bedside reading lamp L6, right bedside reading lamp L7, left bedside table lamp L8, right bedside table lamp L9, bedside lamp L10, mirror lamp L11, lamp L12, bar lamp L13, dome lamps L14a, L14b and its controller L14, each lamp controller is inserted with a name tag device according to its name. Peripheral appliances include Do Not Disturb P101, Clean Room Light P102, Air Conditioning Temperature Controller P103, Air Conditioning Air Controller P104, Main Window Curtain Controller P105, Main Window Cover Light curtain controller P106, sub-window curtain controller P107, sub-window shade controller P108, night light P109, bathroom lighting main switch P110, TV switch P111, audio switch P112, each peripheral electrical controller is inserted according to its name Name tag device. The controller of each peripheral device is also connected to the mains power line 1 and the digital two-phase information bus 2 (1 + 2). At least one handheld wireless remote controller relay controller 8R is disposed in the room to receive control information of at least one handheld wireless remote controller 8M. The handheld wireless remote control 8M and the handheld wireless remote control relay controller 8R can be connected by infrared. The interval controller 8 controls the lighting scene of the luminaire in its interval, or controls individual luminaires within its interval, or controls individual peripherals within its range. The handheld wireless controller 8M is a zone controller that controls the lighting scene of the luminaire in its zone by the hand-held wireless remote controller relay controller 8R, or controls the individual luminaires in the zone in which it is located, or controls the individual periphery in the zone in which it is located. Electrical appliances. The system controller 7 is a fixed device, and has at least a main switch control button of the electric lighting fixture, and an electric lighting fixture light scene selection control button. When there is no one, the empty room sensor 4 issues an energy-saving control command to turn off the light, and the system controller issues a system command to control the switch and the lighting scene of the electric lighting fixture via the digital bus 2.

 In this embodiment, considering that the handheld wireless controller is not suitable for carrying the bathroom, the bathroom lighting switch is concentrated on the traditional bathroom lighting main switch P110. In order to make the bathroom lighting remote control, the bathroom lighting total P110 is planned as one. Peripheral appliances; For safety reasons, a night light P109 is installed in the bathroom, and the night light P109 is a peripheral appliance. The wiring of the mains power line 1 and the digital two-phase information bus 2 (1 + 2) and the electric lighting controller and the peripheral electrical controller shown in Fig. 2 compares the conventional control panel radiant wiring, and concisely saves the copper wire.

 There can be up to sixteen lighting scenes, but in general, four lighting scenes are enough. For example, lighting scenes are for welcoming guests, lighting scenes are for home, lighting scenes are for meditation, and lighting scenes are four. Read for bedtime.

 As shown in FIG. 3, FIG. 3 is a schematic structural diagram of an electric lighting fixture controller for an electric lighting fixture and a peripheral electrical control system according to the present invention. The electric lighting controller 3 includes an optical isolator 31, an information data restoring device 41, a system shift register 37, an interval shift register 38, a system instruction decoding device 44, a content addressable control switching device 39, and a latch 43. The light scene setting device 42, the light source driving device 34, and the lamp name tag device 3T.

 The optical isolator 31 is configured to input a lighting scene control command transmitted on the digital two-phase digital information bus 2 to the information data restoring device 41.

The information data restoring device 41 is configured to restore the light scene control command input from the optical isolator 31, output the restored digital data to the system shift register 37 and the interval shift register 38, and output the clock signal to the clock management device. 40. The system shift register 37 and the interval shift register 38 are configured to store the digital data restored by the information data restoration device, and output the upper byte of the digital data to the system instruction decoding device 44 to set the lower byte interval in the digital data. The instructions are output to the content addressable control switching device 39. Interval instruction shift register 38 is shared with the lower byte of system instruction shift register 37. The system instruction decoding means 44 is operative to decode the system instruction upper byte input by the system instruction shift register 37, output the coincidence information or remove the function information to the content addressable control switching means 39 in accordance with the decoding result. The instruction to enter the information processor 32, if it is a 1-byte interval instruction, the system instruction decoding means 44 will directly output the coincidence information so that the content addressable control switching means 39 is in the execution state.

 The system instruction decoding means 44 is operative to decode the system instruction upper byte input from the system shift register 37, output the coincidence information or remove the function information to the content addressable control switching means 39 in accordance with the decoding result.

 The content addressable control switch device 39 is configured to compare and decode the interval instructions input by the interval instruction shift register 38 in parallel, and if there is a matching complete match command, generate a light control switch signal for the luminaire and pass the latch The device 43 outputs to the light scene control device 42. The content addressable control switching device 39 is made of a single core semiconductor integrated circuit, including a content addressable memory device 390 and a content addressable memory setting device 391 for storing and comparing The instruction relating to the control command and the address of the lamp outputs the comparison result to the light scene control device 42 through the latch 43; the content addressable memory setting device 391 is configured to set the content addressable memory device 390 the address of.

 The latch 43 is for storing information input by the content addressable control switching means 39, and outputs information input by the content addressable control switching means 39 to the light scene control means 42.

 The light scene setting means 42 is for decoding the scene control switch signal and the single lamp dimming switch signal received from the content addressable control switching means 39, and outputs the decoded result to the light source driving means 34.

 The light source driving means 34 is for driving the switch and brightness of the light source based on the decoded result received from the light scene control means 42.

 The luminaire name tag device 3T is used to identify a specific luminaire, and the setting content can address the memory data of the control switch device 39.

The lamp name labeling device 3T is a jumper plugging device, or a dial switch device, or a digital dial switch device, which is identified by a number, a color code, and a graphic to facilitate resolution. The luminaire name tag device 3T is an address tag, and controllers having the same name tag device have the same address and are controlled synchronously. As shown in FIG. 4, FIG. 4 is a peripheral electrical control system for an electric lighting fixture and a peripheral electrical control system provided by the present invention. Schematic diagram of the structure of the controller. The peripheral electrical controller 3P includes an optical isolator 31P, an information data restoring device 41P, a system shift register 37P, an interval shift register 38P, a system instruction decoding device 44P, a content addressable control switching device 39P, a latch 43P, The light scene setting device 42P, the peripheral electrical controller control device 34P, and the lamp name tag device 3PT.

 The optical isolator 31P is for inputting a peripheral electrical control command transmitted on the digital two-phase digital information bus 2 to the information data restoring device 41.

 The information data restoring device 41P is for restoring the peripheral electric appliance control command input from the optical isolator 31P, and outputs the restored digital data to the peripheral electric appliance control command shift register 37, and outputs the clock signal to the clock management device 40A.

 The peripheral electrical control command shift register 37 is configured to store the digital data restored by the information data restoration device, and output the high order byte of the peripheral electrical control command in the digital data to the peripheral electrical control command decoding device 44, and the peripheral electrical device in the digital data The control instruction low byte interval instruction is output to the content addressable control switching device system instruction decoding device 44 for decoding the high order byte of the peripheral electrical control command input by the peripheral electrical control instruction shift register 37Ρ, according to the decoding result The coincidence information or the function information is removed to the content addressable control switching device 39A. The peripheral device control command high byte alignment is completely matched, and the output information of the AND gate 441 is matched to the latch DS, latched when the clock management device 40 issues the latch signal L, and the data latched by the latch DS is buffered. The output of the device A is sent to the peripheral electrical control command comparison lines mP0, mP1.

 The content addressable control switching device 39P is configured to compare and decode the interval instruction bits input by the peripheral electrical control instruction shift register 37P in parallel, and if there is a matching complete instruction, generate a switching signal for the peripheral electrical device, and pass the The latch 43P is output to the peripheral electric appliance control command control means 34P.

 The content addressable control switching device 39P is made up of logic circuits, including a content addressable memory device 390P and a content addressable memory setting device 391P, which are P8, P4, P2, PI in the content addressable memory device 390P Is an address bit of the peripheral appliance name tag device 3PT; the content addressable memory device 390P is for storing and comparing control commands; the content addressable memory setting device 391P is configured to set content addressable memory The address of device 390P. Content Addressable Memory Device 390P P8, P4, P2, PI are peripheral electrical control function unit name tag device 3PT address bit, four address bits, can provide sixteen addresses for name tags.

The content addressable switching device 39 compares the interval command bits B0 to B7 input in parallel by the peripheral electrical control instruction shift register 37P, and if there is a complete match, the comparison lines mP0 and mP1 remain at a high potential to generate The switching signal for the peripheral device is input to the latch 43. The latch devices Dp0, Dpi of the latch 43 are used to store The stored content can address control information of the peripheral appliance control command, and output the control information input by the content searchable switching device 39 to the peripheral electrical controller control device 34P.

 The latch 43P is for storing control information input by the content addressable control switching means 39P, and outputs control information input by the content addressable control switching means 39P to the peripheral electric appliance control means 34P.

 The peripheral electric appliance control command control means 34P is for realizing control of the peripheral electric appliance based on the control information received from the latch 43P.

 The peripheral appliance name tag device 3PT is used to identify a specific peripheral device, and the setting content can address the memory data of the control switch device 39P.

 The peripheral electrical name tag device 3PT is a jumper plugging device, or a dialing device, or a digital dial device, which is identified by number, color code, and graphic to facilitate resolution. The peripheral appliance name tag device 3PT is an address tag, and controllers with the same name tag device have the same address and are controlled synchronously.

 The information data restoring device 41P, the peripheral electric appliance control command shift register 37P, the clock management device 40P, the system command decoding device 44P, the content addressable control switch device 39P, and the latch 43P constitute an information processor 32P for The light scene control command input by the optical isolator is decoded, and the control switch signal generated by the decoding is output to the peripheral electrical controller control device 34P to realize control of the peripheral electrical device P.

 In the information processor 32P, the upper byte of the system instruction is decoded by the system instruction decoding device 44P, and the low order byte and the interval instruction of the system instruction are compared and decoded by the content addressable light control switch 39P, and The switch signal is output to the peripheral electrical controller control device 34P via the latch 43P. The content addressable memory device 390P is used for storing and comparing control instructions, and the content addressable memory setting device 391P sets the address data by the name tag device 3PT and the instructions related to the peripheral appliance name tags to complete the decoding. The output control signal name tag device is a jumper plug device or a dial switch device or a digital dial switch device, and the name tag device is an address tag, and the tag device of the same name has the same address and is controlled synchronously; the name tag device shown in FIG. The PPT jumper of the 3PT is short-circuited, and the address of the peripheral is (0100).

 Controlling a general peripheral device requires only a simple switching function, and the content-addressable switching device 39P for comparing the decoded contents can also be completed by a logic circuit.

For some special applications, such as the lighting of shop windows, the decorative lighting of the exterior walls of the building, because it is less associated with the main lighting in the room, it is more advantageous to plan for the peripheral appliances, but such lighting sometimes needs some dimming changes, in order to In response to such applications, in the dotted box in Figure 4, the lighting scheme control switch device can be set up according to the technical scheme of Chinese Patent Application No. 200610111784. 0, so that the peripheral electrical fixtures have the ability to change light in addition to the switching function. . FIG. 5 is a schematic diagram of a system control instruction frame in an electric lighting fixture and a peripheral electrical control system provided by the present invention. The system control command has two nodes, and the highest bit after the start bit is "1".

 FIG. 6 is a schematic diagram of a control instruction frame of an electric lighting fixture in an electric lighting fixture and a peripheral electrical control system provided by the present invention. The interval electric lighting control command has one byte, and the highest bit after the start bit is "0".

 FIG. 7 is a schematic diagram of a control frame of a peripheral peripheral electrical control instruction in an electric lighting fixture and a peripheral electrical control system provided by the present invention. The interval peripheral electrical control command has two bytes, and the highest bit after the start bit is "0"; P8, P4, P2, PI are the peripheral electrical control function unit name tag address bits, and the name tag device 3PT determines the address of the peripheral electrical device. Four address bits can provide sixteen addresses for the name tag; the highest bit after the start bit of the interval peripheral electrical control command is "0", so that the interval peripheral electrical control command is limited to the local interval, and cannot cross the Chinese patent application number. The picture boundary repeater described in 200610076528. 2 is different from the two-byte system control instruction shown in FIG. 5; the highest bit of the lower byte of the interval peripheral electrical control command is "1", and is also shown in FIG. The maximum position of the control command of the section electric lighting fixture is "0"; the interval peripheral electrical control command is matched with the peripheral electrical controller, and becomes an independent subsystem in the interval. The interval peripheral electrical control command can be as shown in Table 1:

 Table 1

 For suites with multiple rooms, each room is separated by a picture repeater, and the interval control command issued by the handheld remote control is valid only in the room interval, so the handheld remote control can be used in each room, no Changing the room is a matter of changing the handheld remote control or updating the settings.

 The embodiment provided by the present invention takes the hotel room as an application embodiment object because the requirements of the hotel room are relatively complicated and are more suitable for comprehensive description. The technical solutions provided by the present invention are equally applicable to general homes, restaurants, shops, and the like.

 The above described specific embodiments of the present invention are described in detail, and are not intended to limit the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and scope of the present invention are intended to be included within the scope of the present invention.

Claims

 1. An electric lighting fixture and a peripheral electrical control system, characterized in that the system comprises a mains power line (1), a digital two-phase digital information bus (2), at least one electric lighting controller (3), At least one peripheral electrical controller (3P), a digital two-phase information bus power supply (5), a system controller (7), a handheld wireless remote control relay controller (8R), a handheld wireless remote control ( 8M);

 The electric lighting controller (3), the peripheral electrical controller (3P), the digital two-phase information bus power supply (5), the system controller (7) and the handheld wireless remote control relay controller (8R) The bus interface is connected in parallel with the digital two-phase digital information bus (2);

 The electric lighting fixtures and peripheral electrical appliances in the system are divided into an electric lighting fixture control group and a peripheral electrical control group, and the electric lighting fixture controller (3) is based on electric lighting received from the digital two-phase digital information bus (2) The lamp control command controls the electric lighting fixture control group, and the peripheral electrical control controller (3P) controls the peripheral electrical control group according to the peripheral electrical control command received from the digital two-phase digital information bus (2).

 2 . The electric lighting fixture and the peripheral electrical control system according to claim 1 , wherein the electric lighting fixture controller ( 3 ) receives the system electric lighting fixture control instruction and the section electric lighting fixture control instruction, and the filtering is effective. The electric lighting fixture control instruction; and the electric lighting fixture name labeling device (3T) is provided, and the electric lighting fixture interval control instruction is individually controlled; the electric lighting fixture controller (3) comprises:

 An optical isolator (31) for inputting a lighting scene control command transmitted on the digital two-phase digital information bus (2) to the information data restoring device (41);

 The information data restoring device (41) is configured to restore the light scene control command input by the optical isolator (31), and output the restored digital data to the system shift register (37) and the interval shift register (38). And outputting a clock signal to the clock management device (40);

 a system shift register (37) and an interval shift register (38) for storing digital data restored by the information data restoration device, outputting the upper byte of the digital data to the system instruction decoding device (44), and the digital data The lower byte segment instruction is output to the content addressable control switching device (39);

 The system instruction decoding device (44) is configured to decode the system instruction high byte input by the system shift register (37), output the consistent energy information or remove the function information according to the decoding result to the content addressable control switch device. (39);

The content addressable control switching device (39) is configured to compare and decode the interval instructions input in parallel by the interval instruction shift register (38), and if there is a matching complete instruction, generate a light control switch signal for the luminaire Number, and output to the light scene control device (42) through the latch (43);

 a latch (43) for storing information input by the content addressable control switching device (39), and outputting information input by the content 'addressable control switching device (39) to the light scene control device (42);

 a light scene setting device (42) for decoding a scene control switch signal and a single lamp dimmer switch signal received from the content addressable control switch device (39), and outputting the decoded result to the light source driving device ( 34); a light source driving device (34), configured to drive the switch and brightness of the light source according to the decoding result received from the light scene control device (42);

 The luminaire name labeling device (3T) is used to identify a specific luminaire, and the setting content can address the memory data of the control switching device (39).

 3. An electric lighting fixture and peripheral appliance control system according to claim 2, wherein said content addressable control switch means (39) is made of a single core semiconductor integrated circuit, including a content addressable memory device

(390) and content addressable memory setting means (391) for storing and comparing the instructions related to the control instruction and the address of the luminaire, and comparing the result by latching The device (43) outputs to the light scene control device (42); the content addressable memory setting device (391) is used to set the address of the content addressable memory device (390).

 4. The electric lighting fixture and peripheral appliance control system according to claim 2, wherein said system shift register (37) is shared with a lower byte of an interval shift register (38);

 The lamp name labeling device (3T) is a jumper plugging device, or a dial switch device, or a digital dial switch device, which is identified by a number, a color code, and a graphic to facilitate resolution.

 The electric lighting fixture and the peripheral electrical control system according to claim 1, wherein the peripheral electrical controller (3P) receives an interval peripheral electrical control command, and filters and obtains an effective peripheral electrical control command; The peripheral electrical name tag device (3PT), the receiving interval peripheral electrical control command is individually controlled; the peripheral electrical controller (3P) includes:

 An optical isolator (31P) for inputting a peripheral electrical control command transmitted on the digital two-phase digital information bus (2) to the information data restoring device (41P);

 The information data restoring device (41P) is configured to restore the peripheral electrical control command input by the optical isolator (31P), output the restored digital data to the peripheral electrical control command shift register (37P), and output the clock signal Clock management device (40P);

a peripheral electrical control instruction shift register (37P) for storing digital data restored by the information data restoration device, and outputting a high order byte of the peripheral electrical control command in the digital data to the peripheral electrical control command decoding device (44P), outputting the peripheral electrical control command low byte interval instruction in the digital data to the content addressable control device (39P);

 The system instruction decoding device (44P) is configured to decode the high-order byte of the peripheral electrical control command input by the peripheral electrical control instruction shift register (37P), output the consistent energy information or remove the function information according to the decoding result to the content Addressable control switch device (39P);

 The content addressable control switch device (39P) is used for comparing and decoding the interval instruction bits input in parallel by the peripheral electrical control instruction shift register (37P), and if there is a matching complete instruction, generating a peripheral electrical device Switching signal, and outputting to the peripheral electrical control command control device (34P) through the latch (43P);

 a latch (43P) for storing control information input by the content addressable control switching device (39P), and outputting control information input by the content addressable control switching device (39P) to the peripheral electrical control device (34P) a peripheral electrical control command control device (34P) for controlling the peripheral electrical device according to the control information received from the latch (43P);

 The peripheral appliance name tag device (3PT) is used to identify the specific peripheral device, and the setting content can address the memory data of the control switch device (39P).

 6. An electric lighting fixture and peripheral appliance control system according to claim 5, wherein said content addressable control switching means (39P) is made of logic circuitry, including a content addressable memory device (390P) And a content addressable memory setting device (391P), wherein the content addressable memory device (390P) P8, P4, P2, PI is an address bit of a peripheral appliance name tag device (3PT); The address memory device (390P) is for storing and comparing control instructions; the content addressable memory setting device (391P) is configured to set an address of the content addressable memory device (390P).

 The electric lighting fixture and the peripheral electrical control system according to claim 5, wherein the peripheral appliance name labeling device (3PT) is a jumper plugging device, or a dial switch device, or a digital dialing The disk switch device is identified by number, color code, and graphic to facilitate resolution.

 8. The electric lighting fixture and peripheral electrical control system according to claim 1, wherein the digital two-phase information bus power supply (5) is configured to supply a DC voltage to the digital two-phase information bus (2). ;

 The system controller (7) is a fixed device, and has a main switch control button of an electric lighting fixture, a lighting control scene selection control button, and a system controller (7) issues a system control command via a digital two-phase digital information bus ( 2) Control the lighting of the electric lighting fixtures and the lighting scenes of the electric lighting fixtures;

The handheld wireless remote controller (8M) transmits the interval power to the handheld wireless remote controller relay controller (8R) Lighting control command or interval peripheral electrical control command to control the lighting scene of the electric lighting fixture in the interval, individual lamps and individual peripheral appliances;

 The handheld wireless remote controller relay controller (8R) is configured to relay a radio frequency signal received from the handheld wireless remote controller (8M), issue an interval electric lighting fixture control command or an interval peripheral electrical control command, and control the location thereof. Lighting scenes of electric lighting fixtures, individual lamps and individual peripherals; electric lighting fixtures, total lighting key selection, overall lighting scene selection keys, all electric lighting fixtures, individual selection keys and electric lighting fixtures on, off, brightening, tuning Dark control button, individual selection buttons for all peripherals and peripherals open or raise, close or lower control buttons.

 9. The electric lighting fixture and peripheral electrical control system of claim 1, wherein the system further comprises:

 An empty chamber sensor (4) is used to issue an energy-saving control command to turn off the light when no one is present, and to control the switch and lighting scene of the electric lighting fixture via the digital two-phase digital information bus (2);

 And / or a range controller (8) for controlling the lighting scene of the luminaire in its zone, or controlling individual luminaires within its zone, or controlling individual peripherals within its zone.

 10. The electric lighting fixture and peripheral appliance control system according to claim 1, wherein the fixture name labeling device (3T) or the peripheral appliance name labeling device (3PT) is an address label having the same name labeling device. The controllers have the same address and are controlled synchronously.