CN110621107A - Office lighting system - Google Patents

Abstract

The invention discloses an office lighting system, which comprises a lighting module, a control module, an operation module, a layout module and an energy-saving module, wherein a lighting lamp provides a proper lighting environment through an instruction of a control unit, can adjust light and color, is controlled by the control unit in lighting time, and comprises sensors used for identifying whether a user exists and feeding back information to the control unit; the task lighting can be equipped with infrared or microwave sensors to identify whether a user is nearby, and also needs to be equipped with distance sensors to judge whether the user is near a desk for reading and writing operation, the lighting lamp needs to contain a communication module to implement intercommunication among the lamps and intercommunication with a control device, working light is directly irradiated to a desk or a working area by a fluorescent lamp light source, and the incident angle and distance can be adjusted to the optimal state to ensure that light in reading and working areas is uniformly distributed, so that the office quality is ensured, and the eyesight and physical and mental health of working personnel are protected.

Description

Office lighting system

Technical Field

The invention belongs to the technical field related to lighting systems, and particularly relates to an office lighting system.

Background

With the development of society, the continuous acceleration of urbanization and informatization and the progress of production modes, people have more and more time to work indoors. The office, as the important place of people's daily work, its environmental quality has not neglected the influence to people's physical and mental health. Among the many factors that contribute to an office environment, lighting is considered to be one of the most important factors. Light can affect a person's circadian health through physiological, psychological and biological pathways.

The prior office lighting system method has the following problems: in the conventional office lighting system, although the illumination with a high correlated color temperature subjectively reduces sleepiness and improves the cognitive efficiency compared with other illuminations, psychological comfort and glare are adversely affected, and the degree of concentration can be improved by long-term blue light irradiation, but the degree of fatigue can be increased.

Disclosure of Invention

The present invention is directed to an office lighting system to solve the above-mentioned problems of the prior art, such as fatigue and bad influence of the psychological comfort and glare.

In order to achieve the purpose, the invention provides the following technical scheme:

an office lighting system comprises a lighting module, a control module, an operation module, a layout module and an energy-saving module, wherein the lighting module consists of a communication module, a lighting lamp, a distance sensor and a timer, the communication module in the lighting module has the functions of implementing intercommunication among the lamps and intercommunication with a control device, the lighting lamp in the lighting module has the function of sensing the surrounding environment, the distance sensor in the lighting module has the function of identifying whether a user is nearby, and the timer in the lighting module has the function of timing;

preferably, the control module is composed of an infrared sensor and a control unit, the infrared sensor in the control module is used for detecting whether a person is nearby, and the control unit in the control module is used for controlling the lighting lamp to work;

preferably, the operation module is composed of a controller and an internet module, the controller in the operation module is used for controlling the circuit, and the internet module in the operation module is used for providing information transmission;

preferably, the layout module consists of an LED lamp and a COB light source, the LED lamp in the layout module has the functions of energy conservation, environmental protection, long service life, quick response, safety, flexibility and intellectualization, and the COB light source in the layout module has the functions of improving the lighting quality, high color development, uniform light emission, no light spot, no glare, health, environmental protection and high light efficiency;

preferably, the energy-saving module is composed of infrared or microwave sensors of the same type of lighting fixtures, and the infrared or microwave sensors in the energy-saving module are used for transmitting and detecting information.

Preferably, the lighting fixture is a control unit and a terminal, the light source spectrum wavelength of which is between 460nm and 600nm for controlling the lighting fixture, the control information of the lighting fixture can be input by a user through the terminal, and the lighting fixture in the lighting system must include more than two basic lighting fixtures such as a grille lamp and a reading and writing lighting fixture such as a desk lamp.

Preferably, the use requirements of the lighting fixture are as follows:

firstly, the method comprises the following steps: the lighting fixtures eventually contain sensors for identifying the presence of a user: the basic lighting lamp can judge whether a person is present through an infrared or microwave sensor and feed information back to the control unit; the task lighting can be provided with an infrared or microwave sensor to identify whether a user is nearby, and also needs to be provided with a distance sensor and a timer so as to judge whether the user is reading and writing at the desk;

II, secondly: the lighting fixture is only used for sensing the surrounding environment and providing a proper lighting environment through the instructions of the control unit. The light can be adjusted and adjusted, and the illumination time is controlled by the control unit;

thirdly, the method comprises the following steps: the lighting lamps need to contain a communication module to implement intercommunication among the lamps and intercommunication with the control device;

fourthly, the method comprises the following steps: the lamp A comprises the sensor described in the step one, and after being triggered, the lamp A can inform the most similar lamp to be lightened to provide proper illumination so as to achieve the function of predicting illumination and avoid the condition that timely illumination cannot be provided for a moving user;

fifthly: the four times set by the control device are subject to the time nodes of the lighting control strategy.

Preferably, the layout requirement of the energy-saving module is as follows:

firstly, the method comprises the following steps: 9 in the morning: 00-12: 00 (assuming noon break start time) should be adjusted linearly from 300lx-500 lx;

II, secondly: 12: 00-14: 00 (noon break time) should turn on the [ adaptive illumination ] mode, non-mobile or non-special work area to implement 10lx illumination management strategy; 14: 00-20: 00 should be 50lx-500lx (wake-up skill, done within 10 minutes) and then 500-300lx down-regulated lighting management strategy (done within 2.5 hours).

Thirdly, the method comprises the following steps: 20: 00-24: 00 turning on an [ adaptive illumination ] mode, and implementing a lighting management strategy of 10lx in a non-mobile or non-special work area;

fourthly, the method comprises the following steps: 24: 00-7: 00 turning on a [ adaptive illumination ] mode, and implementing an illumination management strategy for turning off equipment in a non-mobile or non-special work area;

fifthly: 7: 00-9: 00 turning on [ adaptive illumination ] mode, non-moving or non-special work area implements a lighting management strategy of 10 lx.

Compared with the prior art, the invention provides an office lighting system, which has the following beneficial effects:

the lighting lamp provides a proper illumination environment through the instruction of the control unit. The lighting lamp is adjustable in light and color, the illumination time is controlled by the control unit, and the lighting lamp comprises a sensor for identifying whether a user exists or not and feeding information back to the control unit; the task lighting can be equipped with infrared or microwave sensor to identify whether the user is nearby, also has to be equipped with distance sensor, and has to be equipped with timer to judge whether the user is at the desk for reading and writing operation, the lighting lamp has to contain communication module to implement intercommunication between lamps and control device, and the ambient light can be obtained by diffuse reflection by adopting reflection type fluorescent lamp. The working light is directly irradiated to the desk or the working area by the fluorescent lamp light source, the incident angle and the distance can be adjusted to the optimal state, so that the light in the reading and working area is uniformly distributed, the office quality is ensured, the working efficiency is improved, and the eyesight, the physical and mental health of workers are protected.

Detailed Description

The invention provides a technical scheme of an office lighting system, which comprises the following steps:

an office lighting system comprises a lighting module, a control module, an operation module, a layout module and an energy-saving module, wherein the lighting module consists of a communication module, a lighting lamp, a distance sensor and a timer;

the control module consists of an infrared sensor and a control unit, the infrared sensor in the control module is used for detecting whether a person is nearby, and the control unit in the control module is used for controlling the lighting lamp to work;

the operation module consists of a controller and an internet module, the controller in the operation module plays a role of a control circuit, and the internet module in the operation module plays a role of providing information transmission;

the layout module consists of an LED lamp and a COB light source, and is a fourth-generation revolutionary lighting source following a kerosene lamp, an incandescent lamp and a gas discharge lamp, the LED lamp inside the layout module has the functions of energy conservation, environmental protection, long service life, quick response, safety, flexibility and intellectualization, the COB light source inside the layout module has the functions of improving lighting quality, high color rendering, uniform light emission, no light spot, no glare, health and environmental protection and high light efficiency, the COB light source is simple to install and convenient to use, the design difficulty of the lamp is reduced, and the lamp processing and subsequent maintenance costs are saved;

the energy-saving module is composed of infrared or microwave sensors of the same type of lighting lamps, and the infrared or microwave sensors in the energy-saving module are used for transmitting and detecting information.

The lighting fixtures are control units and terminals with light source spectrum wavelength between 460nm and 600nm for controlling the lighting fixtures, the control information of the lighting fixtures can be input by users through the terminals, and the lighting fixtures in the lighting system must include more than two basic lighting fixtures such as grille lamps and reading and writing lighting fixtures such as desk lamps.

The use requirements of the lighting fixture are as follows:

firstly, the method comprises the following steps: the lighting fixtures eventually contain sensors for identifying the presence of a user: the basic lighting lamp can judge whether a person is present through an infrared or microwave sensor and feed information back to the control unit; the task lighting can be provided with an infrared or microwave sensor to identify whether a user is nearby, and also needs to be provided with a distance sensor and a timer so as to judge whether the user is reading and writing at the desk;

II, secondly: the lighting fixture is only used for sensing the surrounding environment and providing a proper lighting environment through the instructions of the control unit. The light can be adjusted and adjusted, and the illumination time is controlled by the control unit;

thirdly, the method comprises the following steps: the lighting lamps need to contain a communication module to implement intercommunication among the lamps and intercommunication with the control device;

fourthly, the method comprises the following steps: the lamp A comprises the sensor described in the step one, and after being triggered, the lamp A can inform the most similar lamp to be lightened to provide proper illumination so as to achieve the function of predicting illumination and avoid the condition that timely illumination cannot be provided for a moving user;

fifthly: the four times set by the control device are subject to the time nodes of the lighting control strategy.

The layout requirements of the energy-saving module are as follows:

firstly, the method comprises the following steps: 9 in the morning: 00-12: 00 (assuming noon break start time) should be adjusted linearly from 300lx-500 lx;

II, secondly: 12: 00-14: 00 (noon break time) should turn on the [ adaptive illumination ] mode, non-mobile or non-special work area to implement 10lx illumination management strategy; 14: 00-20: 00 should be 50lx-500lx (wake-up skill, done within 10 minutes) and then 500-300lx down-regulated lighting management strategy (done within 2.5 hours).

Thirdly, the method comprises the following steps: 20: 00-24: 00 turning on an [ adaptive illumination ] mode, and implementing a lighting management strategy of 10lx in a non-mobile or non-special work area;

fourthly, the method comprises the following steps: 24: 00-7: 00 turning on a [ adaptive illumination ] mode, and implementing an illumination management strategy for turning off equipment in a non-mobile or non-special work area;

fifthly: 7: 00-9: 00 turning on [ adaptive illumination ] mode, non-moving or non-special work area implements a lighting management strategy of 10 lx.

The working principle and the using process of the invention are as follows:

when the lighting system is used, firstly, information is transmitted and detected through the Internet, the lighting lamps comprise sensors for identifying whether users exist, meanwhile, the lighting module consists of a communication module, a lighting lamp, a distance sensor and a timer, and the basic lighting lamp can judge whether people exist through infrared or microwave sensors of the same type of lighting lamps and feed information back to the control unit; the task lighting can be equipped with an infrared or microwave sensor to identify whether a user is nearby, a distance sensor is also needed to be equipped, a timer is needed to be equipped so as to judge whether the user is reading and writing at the desk, meanwhile, the lighting lamp is only used for sensing the surrounding environment, provides a proper lighting environment through the instruction of the control unit, can adjust light and color, the lighting time is controlled by the control unit, the lighting lamp needs to be provided with a communication module to implement intercommunication between the lamps and the control device, and the communication between the lamps is mainly used between the same type of lighting lamps, the lamps contain the infrared or microwave sensor and can inform the most same type of lamps to be lightened to provide proper lighting after being triggered, so that the function of predicting lighting is achieved, the condition that timely lighting cannot be provided for the moving user is avoided, and the energy-saving module is composed of the same type of the infrared or microwave sensor of the lighting lamps, an infrared or microwave sensor inside the energy-saving module is used for transmitting and detecting information, the lighting lamp is a control unit and a terminal, the light source spectrum wavelength of the lighting lamp is between 460nm and 600nm and is used for controlling the lighting lamp, the control information of the lighting lamp can be input by a user through the terminal, the lighting lamp in the lighting system must include more than two basic lighting lamps such as a grille lamp and a reading and writing lighting lamp such as a desk lamp, four times set by the control device are time nodes of a lighting control strategy, and in the morning 9: 00-12: 00 should be adjusted linearly from 300lx-500lx, at noon 12: 00-14: 00, an [ adaptive illumination ] mode is started, and a non-mobile or non-special working area implements a lighting management strategy of 10 lx; 14: 00-20: 00 should be 50lx-500lx (wake up skill, done within 10 minutes), then 500 + 300lx down-tuned lighting management strategy (done within 2.5 hours), 20: 00-24: 00 turn on [ adaptive ] mode, non-mobile or non-special work area implements a lighting management strategy of 10lx, 24: 00-7: 00 [ adaptive illumination ] mode, non-mobile or non-special work area implement lighting management strategy to turn off the device, in the morning 7: 00-9: 00 turning on [ adaptive illumination ] mode, non-moving or non-special work area implements a lighting management strategy of 10 lx.

In light of the foregoing description of the preferred embodiments according to the present application, it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the invention. The technical scope of the present application is not limited to the contents of the specification, and must be determined according to the scope of the claims.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Claims (4)

1. An office lighting system, includes lighting module, control module, operation module, overall arrangement module and energy-conserving module, its characterized in that: the lighting module consists of a communication module, a lighting lamp, a distance sensor and a timer, wherein the communication module in the lighting module is used for implementing intercommunication among lamps and intercommunication with a control device, the lighting lamp in the lighting module is used for sensing the surrounding environment, the distance sensor in the lighting module is used for identifying whether a user is nearby, and the timer in the lighting module is used for timing;

the control module consists of an infrared sensor and a control unit, the infrared sensor in the control module is used for detecting whether a person is nearby, and the control unit in the control module is used for controlling the lighting lamp to work;

the operation module consists of a controller and an internet module, the controller in the operation module plays a role of a control circuit, and the internet module in the operation module plays a role of providing information transmission;

the LED lamp in the layout module has the functions of energy conservation, environmental protection, long service life, quick response, safety, flexibility and intellectualization, and the COB light source in the layout module has the functions of improving the lighting quality, high color development, uniform light emission, no light spot, no glare, health, environmental protection and high light efficiency;

the energy-saving module is composed of infrared or microwave sensors of the same type of lighting lamps, and the infrared or microwave sensors in the energy-saving module are used for transmitting and detecting information.

2. An office lighting system according to claim 1, wherein: the lighting lamp is a control unit and a terminal, the wavelength of a light source spectrum of the lighting lamp is between 460nm and 600nm, the control information of the lighting lamp can be input by a user through the terminal, and the lighting lamp in the lighting system must comprise more than two basic lighting lamps such as a grille lamp and reading and writing lighting lamps such as a desk lamp.

3. An office lighting system according to claim 1, wherein: the use requirements of the lighting fixture are as follows:

firstly, the method comprises the following steps: the lighting fixtures eventually contain sensors for identifying the presence of a user: the basic lighting lamp can judge whether a person is present through an infrared or microwave sensor and feed information back to the control unit; the task lighting can be provided with an infrared or microwave sensor to identify whether a user is nearby, and also needs to be provided with a distance sensor and a timer so as to judge whether the user is reading and writing at the desk;

II, secondly: the lighting lamp is only used for sensing the surrounding environment, provides a proper illumination environment through the instruction of the control unit, and can adjust light and color, and the illumination time is controlled by the control unit;

thirdly, the method comprises the following steps: the lighting lamps need to contain a communication module to implement intercommunication among the lamps and intercommunication with the control device;

fourthly, the method comprises the following steps: the lamp A comprises the sensor described in the step one, and after being triggered, the lamp A can inform the most similar lamp to be lightened to provide proper illumination so as to achieve the function of predicting illumination and avoid the condition that timely illumination cannot be provided for a moving user;

fifthly: the four times set by the control device are subject to the time nodes of the lighting control strategy.

4. An office lighting system according to claim 1, wherein: the layout requirements of the energy-saving module are as follows:

firstly, the method comprises the following steps: 9 in the morning: 00-12: 00 (assuming noon break start time) should be adjusted linearly from 300lx-500 lx;

II, secondly: 12: 00-14: 00 (noon break time) should turn on the [ adaptive illumination ] mode, non-mobile or non-special work area to implement 10lx illumination management strategy; 14: 00-20: 00 should be 50lx-500lx (wake-up skill, completed within 10 minutes) and then 500- > 300lx down-regulated lighting management strategy (completed within 2.5 hours);

thirdly, the method comprises the following steps: 20: 00-24: 00 turning on an [ adaptive illumination ] mode, and implementing a lighting management strategy of 10lx in a non-mobile or non-special work area;

fourthly, the method comprises the following steps: 24: 00-7: 00 turning on a [ adaptive illumination ] mode, and implementing an illumination management strategy for turning off equipment in a non-mobile or non-special work area;

fifthly: 7: 00-9: 00 turning on [ adaptive illumination ] mode, non-moving or non-special work area implements a lighting management strategy of 10 lx.