CN216820149U - Corridor lighting system - Google Patents

Abstract

The utility model relates to a corridor lighting system, it includes power module, time switch controller, main control unit, a plurality of electric control switch and a plurality of lighting module, a plurality of lighting module set up at the corridor, electric control switch with lighting module one-to-one, lighting module includes light and human microwave inductor, the time switch controller is connected respectively power module and electric control switch, electric control switch connects the light, main control unit connects respectively human microwave inductor and electric control switch. The application has the effect of realizing the energy conservation.

Description

Corridor lighting system

Technical Field

The application relates to the field of lighting, in particular to a corridor lighting system.

Background

The promotion of energy conservation and emission reduction and the creation of green life are a lifestyle promoted at present, and energy shortage becomes the focus of world attention.

At present, be provided with a plurality of lights in some large-scale office building stairways, a plurality of lights are by staff manual control, when dark, the staff opens the light in the corridor, even when the corridor has no man-hour, the light still is in the on-state, when the staff is whole leaves in the office building, by the manual light in the corridor of closing of staff again, adopt above-mentioned mode to realize that the control of illumination is not only extravagant the energy in the corridor, increase staff's intensity of labour simultaneously.

SUMMERY OF THE UTILITY MODEL

In order to realize the energy conservation, the application provides a corridor lighting system.

The application provides a corridor lighting system adopts following technical scheme:

a corridor lighting system comprises a power supply module, a timing switch controller, a main controller, a plurality of electric control switches and a plurality of lighting modules, wherein the lighting modules are arranged in a corridor, the electric control switches are in one-to-one correspondence with the lighting modules, each lighting module comprises a lighting lamp and a human body microwave inductor, the timing switch controller is respectively connected with the power supply module and the electric control switches, the electric control switches are connected with the lighting lamps, and the main controller is respectively connected with the human body microwave inductors and the electric control switches;

the timing switch controller sets a preset time period and is closed in the preset time period to switch on the power supply module and the electric control switch;

the human body microwave sensor is used for outputting a first person detection signal when detecting that a person is within a preset range;

the main controller receives the first person detection signal and outputs a first control signal;

and the electric control switch receives the first control signal to close.

By adopting the technical scheme, the timing switch controller is arranged, the starting time period is set, the timing switch controller is connected with the power supply and each electric control switch after the starting time period is reached, when a certain human body microwave sensor detects that a person enters a preset range, a first person detection signal is output, the main controller receives the first person detection signal and outputs a first control signal, the electric control switch corresponding to the human body microwave sensor is controlled to be closed, the power supply and the corresponding illuminating lamp are switched on, a specific illuminating lamp is controlled to be started, when the human body microwave sensor detects that the person leaves the preset range, a second person detection signal is output, the main controller receives the second person detection signal and outputs a second control signal, the electric control switch is controlled to be closed to control the illuminating lamp to be turned off, and by adopting the scheme, when the person walks in a corridor within the preset time period, the illuminating lamp can be controlled to be sequentially lightened along the walking direction of the personnel, the personnel are extinguished after leaving the preset range, and the energy conservation is realized by reducing the condition that the illuminating lamp is lightened for a long time.

Optionally, the lighting module further comprises an alarm module, the lighting module further comprises an ambient light sensor, the alarm module and the ambient light sensor are both connected with the main controller, and a preset distance is reserved between two adjacent lighting modules;

the ambient light sensor is used for detecting the brightness of the ambient environment and outputting a brightness detection signal;

the human body microwave sensor is also used for outputting a second human body detection signal when detecting that the person leaves the preset range;

the main controller is used for receiving the brightness detection signal and the second personnel detection signal and outputting an alarm signal when the brightness detection signal exceeds a first brightness threshold value;

the alarm module is used for receiving the alarm signal and giving an alarm.

Through adopting above-mentioned technical scheme, through setting up ambient light sensor and alarm module, when the master controller received second personnel detected signal, personnel left the within range of predetermineeing this moment, and the illumination was sealed and should be in the off state this moment, explains when the luminance detected signal of ambient light detection module output surpassed first luminance threshold value that the light is still in the on-state this moment, and master controller output alarm signal this moment, alarm module received alarm signal and reports to the police in order to indicate the staff, and the staff can in time look over the definite reason.

Optionally, a manual switch is connected in series between the power module and the timing switch controller.

Through adopting above-mentioned technical scheme, through setting up manual switch, manual switch is in the normally closed state under the normal condition, and when the unusual reason of appearing led to the light to shine often, all lights are extinguished to accessible manual switch, reduce the waste of electric energy.

Optionally, the master controller and the alarm module are both connected with a wireless communication module to realize communication connection between the master controller and the alarm module.

By adopting the technical scheme, the main controller is in communication connection with the alarm module by arranging the wireless communication module, so that the alarm module is arranged more flexibly, and when the alarm module gives an alarm, a worker can be prompted in time.

Optionally, the alarm module is a buzzer alarm.

Optionally, the lighting module further includes a housing, the lighting lamp is disposed in the housing, and the human body microwave sensor and the ambient light sensor are both fixedly disposed on an outer side wall of the housing.

Through adopting above-mentioned technical scheme, the setting of casing is convenient for the installation of light, human microwave inductor and ambient light sensor, still can play the guard action to the light lamp simultaneously.

Optionally, the housing is a PMMA housing.

Through adopting above-mentioned technical scheme, the PMMA casing has good light transmissivity, has guaranteed illuminating effect to a certain extent.

Optionally, the illuminating lamp is an LED lamp.

In summary, the present application includes at least one of the following beneficial technical effects:

1. in a preset time period, when people walk in the corridor, the illuminating lamps can be controlled to be sequentially turned on along the walking direction of the people, and the people are turned off after leaving a preset range, so that the condition that the illuminating lamps are turned on for a long time is reduced, and energy is saved;

2. by arranging the ambient light sensor and the alarm module, when the main controller receives a second person detection signal, and a person leaves a preset range, the lighting seal is in an off state, when a brightness detection signal output by the ambient light detection module exceeds a first brightness threshold value, the lighting lamp is still in an on state, the main controller outputs an alarm signal, the alarm module receives the alarm signal to alarm so as to prompt a worker, and the worker can check and determine the reason in time;

3. through setting up hand switch, hand switch is in the normally closed state under the normal condition, and when the unusual reason of appearing leaded to the light to shine often, all lights are extinguished to the accessible hand switch, reduce the waste of electric energy.

Drawings

Fig. 1 is a schematic view of a part of the structure of a corridor lighting system.

Fig. 2 is a schematic view of the overall structure of the corridor lighting system.

Description of reference numerals: 1. a lighting module; 11. an illuminating lamp; 12. a human body microwave sensor; 13. an ambient light sensor; 2. a main controller; 3. an electric control switch; 4. a timing switch controller; 5. a power supply module; 6. a manual switch; 7. a wireless communication module; 8. and an alarm module.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-2 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses corridor lighting system. Referring to fig. 1 and 2, the corridor lighting system includes a power module 5, a time switch controller 4, a main controller 2, a plurality of electric control switches 3 and a plurality of lighting modules 1, lighting modules 1 include light 11 and human microwave inductor 12, time switch controller 4 connects power module 5 and a plurality of electric control switches 3 respectively, a plurality of electric control switches 3 are parallelly connected, every electric control switch 3 still all is connected with a light 11, a plurality of electric control switches 3 and a plurality of human microwave inductor 12 all are connected with main controller 2, a plurality of human microwave inductors 12 are parallelly connected, a plurality of lighting modules 1 are even to be set up in the corridor at intervals, distance between two adjacent lighting modules 1 equals the diameter of human microwave inductor 12 detection range.

When the device works, the timing switch controller 4 sets the switch-on within a preset time period to conduct the power module 5 with the plurality of electric control switches 3, when the device is out of the preset time period, the power module 5 is disconnected from the electric control switches 3, the human body microwave sensor 12 is used for outputting a first human detection signal when a detection person enters a preset range, the main controller 2 receives the first human detection signal to output a first control signal, the electric control switch 3 corresponding to the output of the first human detection signal receives the first control signal to control the electric control switches 3 to be switched on so as to conduct the illuminating lamps 11 corresponding to the power module 5 and the electric control switches 3, and the illuminating lamps 11 are lightened; when the human body microwave sensor 12 detects that the person leaves the preset range, the human body microwave sensor 12 outputs a second person detection signal, the main controller 2 receives the second person detection signal and outputs a second control signal, and the electric control switch 3 receives the second control signal and closes the connection between the disconnected power supply module 5 and the illuminating lamp 11, so that the illuminating lamp 11 is turned off. In this embodiment, the illumination lamp 11 is an LED lamp, and in other embodiments, a device capable of achieving illumination, such as an energy saving lamp, may also be used, which is not limited herein.

When the person enters the corridor within the preset time period, when the person enters the corridor, when the person enters the preset range of the human body microwave inductor 12 of the first illumination module 1, the electric quantity of the illuminating lamp 11 of the first illumination module 1 is extinguished, when the person leaves the preset range of the human body microwave inductor 12 of the first illumination module 1, the person enters the preset range of the human body microwave inductor 12 of the second illumination module 1, and at the same time, the electric quantity of the illuminating lamp 11 of the second illumination module 1 is eliminated, by adopting the scheme, when the person enters the corridor within the preset time period, the electric quantities of the illuminating lamps 11 in the corridor can be sequentially equalized according to the traveling direction of the person, when the person leaves the preset range corresponding to the illumination module 1, the illuminating lamp 11 of the illumination module 1 is extinguished, so that the illumination effect can be achieved, and the energy waste can be reduced as much as possible, simultaneously, the timing switch controller 4 and the electric control switch 3 are arranged, so that the electric quantity of the corridor illuminating lamp 11 is not required to be manually controlled by workers and extinguished, and the workload of the workers is reduced.

In order to reduce the situation that the illuminating lamp 11 is normally on due to abnormal conditions, the manual switch 6 is connected in series between the power module 5 and the timing switch controller 4, the manual switch 6 is in a normally closed state in a normal state, and when the illuminating module 1 is abnormal, the power module 5 can be disconnected from the illuminating module 1 through the manual switch 6 when the illuminating module 1 is still in an electric quantity state outside the preset time, so that the illuminating module 1 is turned off.

Illumination module 1 still includes ambient light sensor 13, ambient light sensor 13 is connected with main control unit 2, main control unit 2 is connected with alarm module 8, main control unit 2 and alarm module 8 army are connected with wireless communication module 7, realize main control unit 2 and alarm module 8's communication connection through wireless communication module 7, wireless communication module 7 set up make alarm module 8 set up the position more nimble, can be better play the suggestion effect to the staff.

The ambient light sensor 13 detects the brightness of the surrounding environment in real time to output a brightness detection signal, and within a preset time period: when the main controller 2 receives the brightness detection signal and the first person detection signal output by the same lighting module 1 at the same time, and the brightness value reflected by the brightness detection signal is smaller than a second brightness threshold value, outputting an alarm signal; when the main controller 2 receives a brightness detection signal and a second person detection signal output by the same lighting module 1 at the same time, and the brightness value reflected by the brightness detection signal is smaller than a first brightness threshold value, the main controller 2 outputs an alarm signal; the alarm module 8 receives the alarm signal to alarm so as to prompt the staff, and the staff can check in time after receiving the alarm signal, determine the reason and maintain. In this embodiment, the alarm module 8 is a buzzer alarm, and in other embodiments, other devices having an alarm prompting function may also be used, which is not limited herein.

In order to facilitate the installation of the lighting module 1, the lighting module 1 further comprises a shell, the shell comprises a base and a lampshade, the base is in threaded connection with the lampshade, the lighting lamp 11 is fixedly arranged on the base, and the human microwave sensor 12 and the ambient light sensor 13 are both arranged on the outer side wall of the lampshade. In this embodiment, the housing is a PMMA housing, the PMMA housing has good light transmittance, the housing can protect the illumination lamp 11 without affecting the illumination effect, and at the same time, the illumination module 1 is convenient to mount, and the housing is not shown in the figure.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (6)

1. A corridor lighting system, characterized in that: the intelligent illumination device comprises a power module (5), a timing switch controller (4), a main controller (2), a plurality of electric control switches (3) and a plurality of illumination modules (1), wherein the illumination modules (1) are arranged on a corridor, the electric control switches (3) correspond to the illumination modules (1) one by one, each illumination module (1) comprises an illumination lamp (11) and a human microwave inductor (12), the timing switch controller (4) is respectively connected with the power module (5) and the electric control switches (3), the electric control switches (3) are connected with the illumination lamps (11), the main controller (2) is respectively connected with the human microwave inductor (12) and the electric control switches (3), the intelligent illumination device further comprises an alarm module (8), the illumination module (1) further comprises an ambient light inductor (13), and the alarm module (8) and the ambient light inductor (13) are both connected with the main controller (2), a preset distance is arranged between every two adjacent lighting modules (1), the distance between every two adjacent lighting modules (1) is equal to the diameter of the detection range of the human body microwave inductor 12, and a manual switch (6) is connected in series between the power module (5) and the timing switch controller (4);

the timing switch controller (4) is used for setting a preset time period and is closed within the preset time period to switch on the power module (5) and the electric control switch (3);

the human body microwave sensor (12) is used for outputting a first person detection signal when detecting that a person is within a preset range;

the main controller (2) receives the first person detection signal and outputs a first control signal;

the electric control switch (3) receives the first control signal to close;

the ambient light sensor (13) is used for detecting the brightness of the ambient environment and outputting a brightness detection signal;

the human body microwave sensor (12) is also used for outputting a second human body detection signal when detecting that the person leaves the preset range;

the main controller (2) is used for receiving the brightness detection signal and the second personnel detection signal, and outputting an alarm signal when the brightness detection signal exceeds a first brightness threshold value;

the alarm module (8) is used for receiving the alarm signal and giving an alarm.

2. The corridor lighting system according to claim 1, wherein: the main controller (2) and the alarm module (8) are connected with a wireless communication module (7) to realize the communication connection of the main controller and the alarm module (8).

3. The corridor lighting system according to claim 2, wherein: the alarm module (8) is a buzzer alarm.

4. The corridor lighting system according to claim 1, wherein: the lighting module (1) further comprises a shell, the lighting lamp (11) is arranged in the shell, and the human body microwave sensor (12) and the ambient light sensor are fixedly arranged on the outer side wall of the shell.

5. The corridor lighting system according to claim 4, wherein: the shell is a PMMA shell.

6. The corridor lighting system according to claim 1, wherein: the illuminating lamp (11) is an LED lamp.

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