CN212628509U - Intelligent lighting control system - Google Patents

Abstract

The utility model discloses an intelligence lighting control system, intelligence lighting control system includes: the central lighting master control terminal and the steam turbine room lamp control system, the stair lamp control system, the distribution room lamp control system, the conference room lamp control system and the centralized control room lamp control system which are connected with the central lighting master control terminal; the central lighting master control terminal is respectively connected with a steam engine room lamp control system, a stair lamp control system, a distribution room lamp control system, a conference room lamp control system and a centralized control room lamp control system through communication equipment, and sends subsystem on-off control instructions to each lamp system through a radio communication system, and simultaneously each lamp system returns subsystem parameters to the central lighting master control terminal through the radio communication system; the intelligent lighting control system adopts an intelligent LED lamp control system, so that the manual inspection cost can be reduced, and the management quality and the working efficiency are improved; the service life of the lamp is prolonged, and the secondary investment cost is saved.

Description

Intelligent lighting control system

Technical Field

The utility model relates to an intelligent system field especially relates to an intelligent lighting control system.

Background

The lighting industry was emerging in the united states as early as the 80 s; in the 90 th century, intelligent lighting entered the Chinese market, and with the arrival of the information era, a large number of new products and new technologies appeared, so that the intelligent lighting technology developed towards the direction of system integration; meanwhile, network technology is also continuously permeating into various industries, particularly lighting industries, so that systems in different control modes are mutually associated, and data sharing, remote monitoring, setting and control and integrated management of system abnormal information are realized.

At present, in various workplaces such as power plant garages, boiler bodies, coal conveying areas and the like, the illumination generally adopts a common management mode, lamps often have 24-hour pilot lights, the lamps are controlled by manual switches, and the dimming and energy-saving control cannot be realized; like the similar areas such as 0m layer of computer lab, intermediate level, below the boiler operation layer, peripheral daylight light filling has daytime, need not to turn on the light, and central area daylighting is not enough to need to turn on the light illumination, and peripheral lamps and central area lamps and lanterns can't fine separately control, cause can daylighting regional illumination waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem that just only have ordinary management mode and can not realize the lighting system of the energy control of adjusting luminance at present and improve, provide an intelligent lighting control system.

In order to achieve the above object, the utility model provides an intelligence lighting control system, intelligence lighting control system includes: the central lighting master control terminal and the steam turbine room lamp control system, the stair lamp control system, the distribution room lamp control system, the conference room lamp control system and the centralized control room lamp control system which are connected with the central lighting master control terminal; the central lighting master control terminal is respectively connected with a steam engine room lamp control system, a stair lamp control system, a distribution room lamp control system, a conference room lamp control system and a centralized control room lamp control system through communication equipment, and sends subsystem on-off control instructions to the lamp systems through a radio communication system, and meanwhile, the lamp systems return subsystem parameters to the central lighting master control terminal through the radio communication system.

The steam turbine room lamp control system comprises a concentrator, a server, a user terminal, at least one lamp and a lamp controller matched with the lamp, wherein the lamp controller is connected with the concentrator through a power line, the concentrator is connected with the server and the user terminal through a network cable, the user terminal is connected with the server through the network cable, the user terminal and the server send a user instruction to the lamp controller through the concentrator, and the lamp controller is connected with the lamp controller through the power line and controls the lamp matched with the lamp controller.

The stair lamp control system comprises at least one lamp, a light sensation sensor and a human body sensor, wherein the light sensation sensor and the human body sensor are matched with the lamps, the light sensation sensor and the human body sensor are connected with the corresponding lamps through the same communication module, and adjacent lamps are connected through a power line.

The control system of the lamp in the power distribution room comprises at least one lamp, an alternating current contactor, a lamp controller, a light sensor and a human body sensor, wherein all the lamps are connected with the same alternating current contactor through the same power line, the alternating current contactor is connected with the lamp controller through the power line, the lamp controller is connected with the light sensor and the human body sensor through the power line, and the light sensor and the human body sensor transmit control signals to the lamp controller through the power line to indirectly control all the lamps.

The conference room lamp control system comprises a constant illumination sensor, at least one lamp, a lamp controller matched with the lamp, a concentrator, an intelligent instrument and a user terminal, wherein the constant illumination sensor is connected with each lamp controller through a PWM (pulse width modulation) signal and sends a constant illumination control instruction to the lamp controllers, the lamp controllers are connected through power lines and control corresponding lamps, the lamp controllers are connected to the same concentrator through the power lines, the user terminal controls the concentrator through the intelligent instrument, and meanwhile, the concentrator transmits a user instruction to the lamp controllers through the power lines.

The centralized control room lamp control system comprises at least one lamp, a lamp controller matched with the lamp, a concentrator and a user terminal, wherein the user terminal is connected with the concentrator through an asynchronous transmission interface and sends a user instruction to the concentrator, the concentrator is connected with the lamp controller through a power line and transmits the user instruction to a specified lamp controller, and the lamp controller is connected with and controls the corresponding lamp through the power line.

The utility model has the advantages of it is following:

(1) by adopting the intelligent LED lamp control system, the labor inspection cost can be reduced, and the management quality and the working efficiency are improved;

(2) the illumination of the lamp is controlled by lighting according to needs, so that the service life of the lamp is prolonged, and the secondary investment cost is saved;

(3) because of the intelligent optimization design, the energy is saved by 58 percent compared with the common LED lamp, and the initial investment cost can be recovered in 3 years at the fastest speed;

(4) and each area of the power plant is set with a detailed contextual model, so that secondary energy conservation is realized.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings used in the following description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a control schematic diagram of embodiment 1 of the present invention;

fig. 2 is a control schematic diagram of embodiment 2 of the present invention;

fig. 3 is a control schematic diagram of embodiment 3 of the present invention;

fig. 4 is a control schematic diagram of embodiment 4 of the present invention;

fig. 5 is a control schematic diagram of embodiment 5 of the present invention;

fig. 6 is a control schematic diagram of embodiment 6 of the present invention;

fig. 7 is a control schematic diagram of embodiment 7 of the present invention;

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

The intelligent lighting control system comprises: the central lighting master control terminal and the steam turbine room lamp control system, the stair lamp control system, the distribution room lamp control system, the conference room lamp control system and the centralized control room lamp control system which are connected with the central lighting master control terminal; the central lighting master control terminal is respectively connected with a steam engine room lamp control system, a stair lamp control system, a distribution room lamp control system, a conference room lamp control system and a centralized control room lamp control system through communication equipment, and sends subsystem on-off control instructions to the lamp systems through a radio communication system, and meanwhile, the lamp systems return subsystem parameters to the central lighting master control terminal through the radio communication system.

The steam turbine room lamp control system comprises a concentrator, a server, a user terminal, at least one lamp and a lamp controller matched with the lamp, wherein the lamp controller is connected with the concentrator through a power line, the concentrator is connected with the server and the user terminal through a network cable, the user terminal is connected with the server through the network cable, the user terminal and the server send a user instruction to the lamp controller through the concentrator, and the lamp controller is connected with the lamp controller through the power line and controls the lamp matched with the lamp controller.

The stair lamp control system comprises at least one lamp, a light sensation sensor and a human body sensor, wherein the light sensation sensor and the human body sensor are matched with the lamps, the light sensation sensor and the human body sensor are connected with the corresponding lamps through the same communication module, and adjacent lamps are connected through a power line.

The control system of the lamp in the power distribution room comprises at least one lamp, an alternating current contactor, a lamp controller, a light sensor and a human body sensor, wherein all the lamps are connected with the same alternating current contactor through the same power line, the alternating current contactor is connected with the lamp controller through the power line, the lamp controller is connected with the light sensor and the human body sensor through the power line, and the light sensor and the human body sensor transmit control signals to the lamp controller through the power line to indirectly control all the lamps.

The conference room lamp control system comprises a constant illumination sensor, at least one lamp, a lamp controller matched with the lamp, a concentrator, an intelligent instrument and a user terminal, wherein the constant illumination sensor is connected with each lamp controller through a PWM (pulse width modulation) signal and sends a constant illumination control instruction to the lamp controllers, the lamp controllers are connected through power lines and control corresponding lamps, the lamp controllers are connected to the same concentrator through the power lines, the user terminal controls the concentrator through the intelligent instrument, and meanwhile, the concentrator transmits a user instruction to the lamp controllers through the power lines.

The centralized control room lamp control system comprises at least one lamp, a lamp controller matched with the lamp, a concentrator and a user terminal, wherein the user terminal is connected with the concentrator through an asynchronous transmission interface and sends a user instruction to the concentrator, the concentrator is connected with the lamp controller through a power line and transmits the user instruction to a specified lamp controller, and the lamp controller is connected with and controls the corresponding lamp through the power line.

In light of the above description, seven specific embodiments are set forth herein.

Example 1

Set up the intelligent lighting control system's of steam turbine room operation layer contextual model, turn off the light daytime under the general condition, be unmanned low power mode and patrol and examine the normal bright mode night under the normal condition, but also can artificially intervene the direct selection contextual model, include: an unmanned low-power mode, a polling normally-on mode and a maintenance full-on mode; the intelligent lighting system comprises: lamps and lanterns, intelligent maintenance switch, intelligent lighting system backstage, PC terminal, control screen and lamp accuse ware.

The method is characterized in that a program is set in a lamp controller, a lamp is turned off in the daytime according to a time schedule, when nobody is at night, a low-power mode is adopted, a polling mode is set on a computer during polling, the power percentage of each mode can be set from 0% to 100% according to needs, and percentage parameters can be reset through a computer background at any time after the power percentage is set.

When in maintenance, a full-bright mode is set on any computer.

When needed, the contextual model can be directly selected through human intervention of any computer.

Under the condition that the network cable or the centralized controller has a fault, the lamp controller can maintain to turn off the lamp in the daytime according to a set program, and realize low-power lamp lighting and inspection mode lamp lighting according to a time schedule at night.

Example 2

The scene mode of setting up the intelligent lighting control system below steam turbine room 0m layer, intermediate level, the boiler operation layer is patrolled and examined the normal bright mode for daytime under the general condition, is unmanned low power mode under the normal condition night, but also the human intervention selects the scene mode, includes: an unmanned low-power mode, an overhaul full-bright mode and a patrol constant-bright mode; the intelligent lighting control system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, intelligent lighting system backstage, PC terminal, control panel and lamp controller.

The method is characterized in that a program is set in a lamp controller, a daytime inspection mode is set to be a light-on mode according to a schedule, a night low-power mode is set, the power percentage can be set from 0% to 100% according to actual conditions, and percentage parameters can be reset through a computer background after the setting is finished.

When the inspection or overhaul is carried out, a corresponding lighting mode can be set on the computer.

When needed, the needed contextual model can be directly selected by human intervention on any computer.

Under the condition that the network cable or the centralized controller has a fault, the lamp controller can maintain a daytime inspection mode and an unmanned low-power mode at night according to a set program.

Example 3

Set up the profile of intelligent lighting control system in areas such as other outdoor equipment districts in factory, coal conveying trestle, GIL piping lane, light not enough region lights daytime, and all the other most regions remain the lamp that goes out, keeps unmanned low power mode under the normal condition night, and when the sensor sensed someone, power increase luminance improved, also can artificially intervene the direct choice profile of profile when needing, include: an unmanned low-power mode and a polling normally-on mode; the intelligent lighting control system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, light sense sensor, intelligent lighting system backstage, PC terminal, control screen and lamp accuse ware.

Setting a program in the lamp controller, setting a low-power mode of turning off the lamp in the daytime and no person at night according to a time schedule; when the light sensor senses that light in a certain area is insufficient in the daytime, the light sensor controls the light controller connected with the light sensor, and the lamp is lightened according to a preset dimming value.

When someone enters a certain area at night, the human body motion sensor controls the lamp controller connected with the human body motion sensor, and the lamp is turned on according to a preset dimming value.

When needed, the needed scene mode can be directly selected by human intervention on a computer.

Example 4

Setting contextual models of intelligent lighting systems in areas such as walkways, stairs and the like, wherein the contextual models are light-adjusting or light-adjusting, the light-adjusting mode is that a main factory building is not lightened in daytime according to a time schedule, the lowest brightness is kept at night, a human body sensor is arranged on each stair floor, the corresponding floor (provided with a light-adjustable LED lamp) and the same-direction adjacent floor are sequentially lightened according to the walking of a person, and the low-power brightness is restored after the person leaves the floor in a delayed manner; the non-dimming stair is not bright in the daytime and is fully bright by people at night; the intelligent lighting control system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, light sense sensor, intelligent lighting system backstage, PC terminal, control screen and lamp accuse ware.

And judging according to the value, turning off the lamp in the daytime and setting the lamp as the lowest brightness mode at night.

Going upstairs and downstairs at night: when a person arrives at the position A, the position A and the position B are lightened simultaneously; when a person arrives at the position B, the position A, the position B and the position C are lightened simultaneously; and so on.

When the person leaves and delays for a certain time (the delay time can be set according to minutes), the brightness is changed to be low.

Example 5

Setting scene modes of intelligent lighting control systems in areas such as distribution rooms, relay rooms, storage battery rooms, small excitation rooms, variable frequency rooms and thermal control electronic equipment rooms of a whole plant except a GIS (geographic information system), wherein lamps are not lighted when no person passes through the intelligent lighting control systems, and a sensor is arranged at a doorway, so that lighting is automatically lighted when people are sensed to enter the intelligent lighting control systems; the scene mode can also be directly selected by human intervention, including: the indoor lighting system comprises an unmanned non-lighting mode, a patrol inspection mode and an overhaul full-lighting mode, wherein an overhaul switch is arranged indoors, so that indoor lighting can be switched on and off forcibly; the intelligent lighting system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, light sense sensor, intelligent lighting system backstage, PC terminal, control screen and lamp accuse ware.

One lamp at the door of the room is always on and is not intelligently controlled.

When no one enters the low-power mode, the low-power mode is operated, and when one enters all the lamps, all the lamps are lightened.

When the person leaves, the lamps except the 1 door lamp are turned off in a delayed way (the delay time can be set according to minutes).

The doorway is provided with a panel switch, and when actions such as maintenance and the like are needed, all lamps can be controlled to be lightened through the panel switch.

Example 6

Setting a scene mode of an intelligent illumination control system of a conference room, and turning off a light when no one is available; when people do not need projection, the light is adjusted in a constant illumination mode according to the outdoor lighting condition, and the brightness can be manually adjusted; when projection is needed, the low-power constant illumination mode is linked with a projection curtain and an electric curtain and is controlled by one key; the intelligent lighting system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, constant illumination sensor, intelligent lighting system backstage, PC terminal, electronic curtain, electronic (window) curtain, control screen and lamp accuse ware.

And manual switching and dimming operations are realized through the industrial control screen.

The industrial control screen is set to be in a constant illumination mode, so that the indoor illumination is constant.

When the projection or the curtain acts, the lamp is linked with the projection or the curtain to automatically adjust the brightness.

One-key control is realized through the industrial control screen.

Example 7

Setting the scene modes of the intelligent illumination control systems in the areas such as a duty room, a control room, a centralized control room and the like, and only starting partial area illumination and constant illumination when the intelligent illumination control system is normally on duty, namely an unmanned low-power mode and a duty partial illumination mode; when patrolling before and after a shift or visiting by an external person, the illumination is full bright; the intelligent lighting control system comprises: lamps and lanterns, intelligent maintenance switch, human body sensor, intelligent lighting system backstage, PC terminal, control screen and lamp accuse ware.

And manual switching and dimming operations are realized through the industrial control screen.

All lamps and lanterns can be grouped, realize the illumination of part region.

Through the industrial control screen, arbitrary constant brightness is set.

One-key control is realized through an industrial control screen, such as a duty mode, a visit mode and the like.

The above description is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, under the premise of different departures from the inventive concept, several modifications and improvements can be made, which all belong to the protection scope of the present invention.

Claims (6)

1. An intelligent lighting control system, comprising: the central lighting master control terminal comprises a steam engine room lamp control system, a stair lamp control system, a distribution room lamp control system, a conference room lamp control system and a centralized control room lamp control system; the central lighting master control terminal is respectively connected with the steam engine room lamp control system, the stair lamp control system, the distribution room lamp control system, the conference room lamp control system and the centralized control room lamp control system through communication equipment, sends a subsystem power-on and power-off control instruction to the lamp system through the radio communication system, and simultaneously returns subsystem parameters to the central lighting master control terminal through the radio communication system.

2. The intelligent lighting control system of claim 1, wherein the steam turbine room lamp control system comprises a concentrator, a server, a user terminal and at least one lamp, and a lamp controller matched with the lamp, the lamp controller is connected with the concentrator through a power line, the concentrator is connected with the server and the user terminal through a network cable, the user terminal is connected with the server through a network cable, the user terminal and the server send a user instruction to the lamp controller through the concentrator, and the lamp controller is connected with the lamp controller through a power line and controls the lamp matched with the lamp.

3. The intelligent lighting control system of claim 1, wherein the stair light control system comprises at least one light fixture and light sensation and human body sensors matched with the light fixture, the light sensation and human body sensors and the corresponding light fixture are connected to the same communication module, and adjacent light fixtures are connected through a power line.

4. The intelligent lighting control system of claim 1, wherein the control system comprises at least one lamp, an ac contactor, a light controller and a light-sensing and human body sensor, wherein all lamps are connected to the same ac contactor through the same power line, the ac contactor is connected to the light controller through the power line, the light controller is connected to the light-sensing and human body sensor through the power line, and the light-sensing and human body sensor transmits a control signal to the light controller through the power line to indirectly control all lamps.

5. The intelligent lighting control system according to claim 1, wherein the conference room light control system comprises a constant illumination sensor, at least one light, and a light controller, a concentrator, an intelligent instrument and a user terminal which are matched with the light, wherein the constant illumination sensor is connected with each light controller through a PWM signal and sends a constant illumination control command to the light controller, the light controller is connected with and controls the corresponding light through a power line, the light controllers are connected with the same concentrator through the power line, the user terminal controls the concentrator through the intelligent instrument, and the concentrator transmits a user command to the light controllers through the power line.

6. The intelligent lighting control system of claim 1 wherein the centralized control room light control system comprises at least one light and light controllers, concentrators and user terminals matched to the light, the user terminals are connected to the concentrators through asynchronous transmission interfaces and send user commands to the concentrators, the concentrators are connected to the light controllers through power lines and communicate the user commands to the designated light controllers, and the light controllers are connected to and control the corresponding light through power lines.

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