CN216291530U - Building wisdom lighting system - Google Patents

Abstract

The application relates to a building intelligent lighting system, which relates to the technical field of lighting control and comprises a lighting device, wherein the lighting device is fixedly arranged in an office; the illumination control module is arranged in an office and connected with the illumination device; the indoor light collection module is arranged in an office and is connected with the illumination control module; the indoor light collection module comprises a photoelectric sensor arranged in an office, and the illumination control module responds to a detection current signal of the photoelectric sensor to control the operation of the illumination device. This application has the effect that makes indoor natural light and indoor light can complement the cooperation each other, when satisfying user's lighting needs, reduces power resource's waste, and lighting control module control lighting device self-closing under indoor unmanned condition reaches the effect that the people went the lamp to go out simultaneously.

Description

Building wisdom lighting system

Technical Field

The application relates to the technical field of lighting control, especially, relate to a building wisdom lighting system.

Background

Most of the existing illumination systems for office buildings are provided with switches in offices to realize the independent control process of illumination lamps in the offices.

The related art can refer to the chinese patent with publication number CN104507236B, which discloses a building lighting system, including a floor control host connected with a power supply, a control panel in communication connection with the floor control host, an illumination sensor, a noise detector, an infrared sensor, a dimming lamp, and an infrared remote controller, wherein the dimming lamp includes a lighting lamp and a dimming controller, the dimming lamp is in communication connection with the floor control host through a gateway device, the floor control host is in communication connection with a floor control terminal through a floor device switch, the floor control host includes a wireless communication module, the floor control host is in communication connection with a mobile terminal through the wireless communication module, and the floor control host receives control information sent by the infrared remote controller through an infrared transceiver module.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: along with the change of weather, time, indoor natural light changes, consequently, is different to the light filling illumination intensity demand of light between the official working in different periods, if make indoor light keep bright light filling state all the time, causes the waste of electric power resource easily.

SUMMERY OF THE UTILITY MODEL

In order to make indoor natural light and indoor light can supply each other and satisfy the lighting demand, reduce the waste of power resource, this application provides a building wisdom lighting system.

The application provides a building wisdom lighting system adopts following technical scheme:

a building intelligent lighting system comprising:

the lighting device is fixedly arranged in an office;

the illumination control module is arranged in an office and connected with the illumination device;

the indoor light collection module is arranged in an office and is connected with the illumination control module;

the indoor light collection module comprises a photoelectric sensor arranged in an office, and the illumination control module responds to a detection current signal of the photoelectric sensor to control the operation of the illumination device.

Through adopting above-mentioned technical scheme, along with the change of weather, time, indoor natural light intensity changes, and when lighting device operated, photoelectric sensor real-time supervision office's illumination intensity changed the light signal into the signal of telecommunication, and when photoelectric sensor sensed the illumination luminance of different intensity, photoelectric sensor corresponded the current signal who generates not equidimension. When the indoor natural light is strong, the illumination control module reduces the illumination intensity of the illumination device; when indoor natural light is weaker, the illumination control module improves the illumination intensity of the illumination device, realizes the adjustment of the light supplement illumination intensity of the illumination device, enables the indoor natural light and the indoor light to be mutually supplemented and matched, and reduces the waste of power resources while meeting the illumination requirements of users.

Optionally, the lighting device further comprises a personnel detection module, the personnel detection module is connected with the lighting control module, the personnel detection module comprises an infrared sensor arranged in an office, and the lighting control module controls the switch of the lighting device in response to a detection signal of the infrared sensor.

Through adopting above-mentioned technical scheme, lighting device during operation, infrared sensor carries out real-time supervision to the personnel condition of flowing of official working, and after the user all left the official working, infrared sensor detected not have personnel's activity in the official working, and infrared sensor sends detecting signal this moment, makes lighting control module control lighting device close, reaches the effect that the people went the lamp and go out.

Optionally, the lighting control module further comprises a shading device, wherein the shading device is positioned at a window of an office, and the shading device is connected with the lighting control module and operates in response to a control signal of the lighting control module.

Through adopting above-mentioned technical scheme, shade is located the window department of official working and plays the sunshade effect, and when the user was arranged the official working internalization in, shade made the indoor light of entering comparatively soft, made the light environment in the official working more suitable human official working activity.

Optionally, the indoor light collection module further comprises an illuminometer, the illuminometer is located at a window of an office, and the lighting control module controls the operation of the shading device in response to a detection signal of the illuminometer.

Through adopting above-mentioned technical scheme, when external sunshine passed the window and gets into in the office, the illuminometer detected the irradiation intensity of sunlight this moment, and when sunlight irradiation intensity was too big, the illuminometer turned into the electric energy with light energy, and the detection current signal that the illumination control module response illuminometer sent this moment, and illumination control module control shade function makes shade can open automatically when needing.

Optionally, the lighting control system further comprises an intelligent operation module, the intelligent operation module is connected with the lighting control module, the intelligent operation module comprises a lighting remote controller, and the lighting control module controls the operation of the lighting device in response to a lighting remote control signal of the lighting remote controller.

Through adopting above-mentioned technical scheme, the user is through operation illumination remote controller control lighting device switch, simultaneously, because the user is when engaging in different types of office activities, required illumination intensity is different, and the user can input self required illumination intensity through the illumination remote controller this moment, makes lighting device can adjust self illumination intensity according to the user demand.

Optionally, the smart operating module further comprises a fingerprint recognizer, and the illumination remote controller is connected with the fingerprint recognizer and operates in response to an authentication signal of the fingerprint recognizer.

By adopting the technical scheme, before the user operates the illumination remote controller, the fingerprint identifier inputs the fingerprint of the user, judges whether the current user has a remote control authority, and can adjust the related parameters of the illumination remote controller when the user has the remote control authority, so that the privacy and the safety of the illumination device during use are improved.

Optionally, the smart operating module further comprises a display connected with the illumination remote controller and operating in response to an illumination remote control signal of the illumination remote controller.

By adopting the technical scheme, when a user operates the illumination remote controller, the display displays relevant parameters corresponding to the illumination remote controller at the moment in real time, so that the user can conveniently perform relevant adjustment work on the working process of the illumination device according to the current illumination information.

Optionally, the lighting remote controller further comprises a wireless communication module for transmitting information, and the lighting remote controller is connected with the wireless communication module.

By adopting the technical scheme, when a user operates the lighting remote controller to adjust the relevant working parameters of the lighting device, the lighting remote controller feeds back the updated parameters of the lighting device to the administrator side through the wireless communication module, so that the administrator can conveniently know the real-time working condition of the lighting device.

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

along with the change of weather, time, indoor natural light intensity changes, and when lighting device operated, photoelectric sensor real-time supervision office's illumination intensity, changes light signal into the signal of telecommunication, and when photoelectric sensor sensed the illumination luminance of different intensity, photoelectric sensor corresponded the current signal that generates not equidimension. When the indoor natural light is strong, the illumination control module reduces the illumination intensity of the illumination device; when indoor natural light is weaker, the illumination control module improves the illumination intensity of the illumination device, realizes the adjustment of the light supplement illumination intensity of the illumination device, enables the indoor natural light and the indoor light to be mutually supplemented and matched, and reduces the waste of power resources while meeting the illumination requirements of users.

When the illuminating device works, the infrared sensor monitors the flowing condition of the personnel in the office in real time, after the user leaves the office, the infrared sensor detects that no personnel move in the office, and the infrared sensor sends a detection signal at the moment to control the illuminating device to be closed by the illumination control module, so that the effect of turning off the lamp when the person walks is achieved.

The user is through operation illumination remote controller control lighting device switch, simultaneously, because the user is when engaging in different types of office activities, required illumination intensity is different, and the user can be through illumination remote controller input self required illumination intensity this moment, makes lighting device can adjust self illumination intensity according to the user's demand.

Drawings

Fig. 1 is a block diagram of the structure of an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an illumination remote controller and a fingerprint recognizer in the embodiment of the application.

Description of reference numerals:

1. an illumination device; 2. a lighting control module; 3. an indoor light collection module; 31. a photosensor; 32. an illuminometer; 4. a personnel detection module; 41. an infrared sensor; 5. a light shielding device; 6. an intelligent operation module; 61. an illumination remote controller; 62. a fingerprint identifier; 63. a display; 7. and a wireless communication module.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses building wisdom lighting system. Referring to fig. 1, the lighting device comprises an office as a carrying body, wherein a lighting device 1 is fixedly arranged on a ceiling of the office; an illumination control module 2 is installed in an office, and the illumination control module 2 is connected with an illumination device 1. When a user wants to operate the lighting device 1 to illuminate, the user operates the lighting control module 2 to make the lighting control module 2 perform relevant control adjustment on the working state of the lighting device 1, so as to realize the normal use function of the lighting device 1.

Referring to fig. 1 and 2, an intelligent operation module 6 is disposed on an inner wall of an office, and the intelligent operation module 6 is connected with the lighting control module 2. The user operates intelligent operation module 6, indirectly operates illumination control module 2, and intelligent operation module 6 sends user's concrete operation for illumination control module 2, and the illumination control module 2 of being convenient for operates lighting device 1 according to the user's demand and moves.

Referring to fig. 1 and 2, the smart operation module 6 includes an illumination remote controller 61, the illumination remote controller 61 generates and transmits an illumination remote control signal in response to illumination information input by a user, wherein the illumination information includes parameters such as an illumination state and an illumination level, the illumination control module 2 is in communication connection with the illumination remote controller 61, and the illumination control module 2 controls the operation of the illumination apparatus 1 in response to the illumination remote control signal of the illumination remote controller 61.

Referring to fig. 1 and 2, when the lighting apparatus 1 is in operation, a user inputs a currently required lighting state by operating the lighting remote controller 61, and the lighting control module 2 responds to a lighting remote control signal for changing the lighting state, thereby controlling the lighting apparatus 1 to be turned on and off. When a user is engaged in different kinds of office activities, the required illumination intensity is different, and the user can input the required illumination intensity through the illumination remote controller 61, and the user sets the current illumination level, so that the illumination control module 2 responds to the illumination remote control signal for changing the illumination level to control the operation of the illumination device 1, and the illumination device 1 can adjust the illumination brightness according to the user requirement.

Referring to fig. 1 and 2, the smart operating module 6 further includes a fingerprint identifier 62, the fingerprint identifier 62 is fixedly disposed at a lower end portion of the illumination remote controller 61, the illumination remote controller 61 is electrically connected to the fingerprint identifier 62, and the illumination remote controller 61 operates in response to an authentication signal of the fingerprint identifier 62. Before the user operates the illumination remote controller 61, the fingerprint identifier 62 records the fingerprint of the user, matches and contrasts the recorded fingerprint with the authority fingerprint stored in the database, and judges whether the current user has the remote control authority.

Referring to fig. 1 and 2, when the user has the remote control right, the fingerprint identifier 62 generates and transmits an authentication signal, and the illumination remote controller 61 responds to the authentication signal to identify and receive the relevant information input by the user, so that the privacy and the safety of the illumination remote controller 61 during use are improved, and the use right of an authorized person is ensured.

Referring to fig. 1 and 2, the smart operating module 6 further includes a display 63, the display 63 is fixedly disposed at an upper end portion of the illumination remote controller 61, the display 63 is electrically connected to the illumination remote controller 61, and the display 63 operates in response to an illumination remote control signal of the illumination remote controller 61. When the user operates the illumination remote controller 61 to edit and modify the current illumination parameters of the illumination device 1, the display 63 responds to the illumination remote control signals of the illumination remote controller 61, and the display 63 acquires the current working parameters of the illumination device 1 and displays the corresponding relevant parameters in real time, so that the user can conveniently perform relevant adjustment work on the working process of the illumination device 1 by referring to the current illumination information.

Referring to fig. 1 and 2, a wireless communication module 7 for transmitting information is provided in the office, and an illumination remote controller 61 is electrically connected to the wireless communication module 7. When a user operates the illumination remote controller 61 to adjust the relevant working parameters of the illumination device 1, the wireless communication module 7 responds to the illumination remote control signal of the illumination remote controller 61, and the illumination remote controller 61 feeds back the updated parameters of the illumination device 1 to the administrator side through the wireless communication module 7, so that the administrator can conveniently know the real-time working condition of the illumination device 1.

Referring to fig. 1 and 2, an indoor light collection module 3 is further installed in the office, the indoor light collection module 3 is in communication connection with the illumination control module 2, wherein the indoor light collection module 3 includes a photoelectric sensor 31 disposed in the office, the photoelectric sensor 31 obtains an indoor light signal and converts the indoor light signal into a recognizable detection current signal, and the illumination control module 2 controls the operation of the illumination device 1 in response to the detection current signal of the photoelectric sensor 31.

Referring to fig. 1 and 2, as the weather and time change, the intensity of indoor natural light changes, and when the indoor natural light is strong, the lighting device 1 only needs to provide a small amount of light, i.e., the indoor lighting intensity can meet the user's requirement, and when the indoor natural light is weak, the lighting device 1 needs to provide a large amount of light, i.e., the indoor lighting intensity can meet the user's requirement.

Referring to fig. 1 and 2, the photoelectric sensor 31 monitors the illumination intensity in an office in real time, converts the acquired optical signal into an electrical signal, and when the photoelectric sensor 31 senses illumination brightness with different intensities, the photoelectric sensor 31 correspondingly generates detection current signals with different magnitudes.

Referring to fig. 1 and 2, when the natural light in the room is strong, the detection current signal generated by the photosensor 31 is strong, and at this time, the illumination control module 2 reduces the illumination intensity of the illumination device 1; when the indoor natural light is weaker, the detection current signal generated by the photoelectric sensor 31 is weaker, the illumination control module 2 improves the illumination intensity of the illumination device 1, the light supplement illumination intensity of the illumination device 1 is adjusted, the indoor natural light and the indoor light can be mutually supplemented and matched, the illumination requirement of a user is met, and meanwhile, the waste of power resources is reduced.

Referring to fig. 1 and 2, a window of an office is provided with a shade 5, the shade 5 may be a curtain, and the shade 5 is in communication with the lighting control module 2 and operates in response to a control signal of the lighting control module 2. The shading device 5 is positioned at a window of an office room to play a role in shading sun, when a user is placed in the office room to move, if sunlight outside the window is too dazzling, the user pulls a curtain to play a role in blocking the sunlight, the curtain makes light entering a room softer, and the light environment in the office room is more suitable for the office activities of people.

Referring to fig. 1 and 2, the indoor light collection module 3 further includes an illuminometer 32, the illuminometer 32 is located outside a window of an office, measures the degree of irradiation of the window by sunlight, and directly converts received light energy into electric energy, and the illumination control module 2 responds to a detection signal of the illuminometer 32 to control the operation of the light shielding device 5.

Referring to fig. 1 and 2, when external sunlight passes through a window and enters an office, the illuminometer 32 is positioned outside the window to detect the irradiation intensity of the sunlight at the moment, the illuminometer 32 converts light energy into electric energy, when the irradiation intensity of the sunlight is too high, the illumination control module 2 responds to a detection current signal sent by the illuminometer 32, and the illumination control module 2 controls the shading device 5 to operate to automatically pull up a curtain.

Referring to fig. 1 and 2, a person detection module 4 is provided in an office, the person detection module 4 is connected to the illumination control module 2, the person detection module 4 includes an infrared sensor 41 provided in the office, and the illumination control module 2 controls the lighting device 1 to be turned on and off in response to a detection signal of the infrared sensor 41.

Referring to fig. 1 and 2, when the lighting device 1 works, the infrared sensor 41 monitors the flow condition of the staff in the office in real time, after the user leaves the office completely, the infrared sensor 41 detects that no staff moves in the office, at this time, the infrared sensor 41 sends a detection signal, the lighting control module 2 responds to the detection signal sent by the infrared sensor 41, and then the lighting device 1 is controlled to be turned off, so that the effect of turning off the lights when the user walks away is achieved.

The implementation principle of building wisdom lighting system of the embodiment of this application does: the user inputs the illumination intensity required by himself through the illumination remote controller 61, and causes the illumination control module 2 to control the operation of the illumination apparatus 1 in response to the illumination remote control signal for changing the illumination level. When the lighting device 1 operates, the photoelectric sensor 31 monitors the illumination intensity in the office in real time, and converts light signals into electric signals, when the photoelectric sensor 31 senses the illumination brightness of different intensities, the photoelectric sensor 31 correspondingly generates current signals of different sizes, and the lighting control module 2 adjusts the lighting intensity of the lighting device 1 according to the size of the current signals, so as to adjust the light supplement lighting intensity of the lighting device 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. A building intelligent lighting system, comprising:

the lighting device (1), the said lighting device (1) is fixed in the office;

the lighting control module (2) is installed in an office and is connected with the lighting device (1);

the indoor light collection module (3) is arranged in an office and is connected with the illumination control module (2);

an intelligent operation module (6), wherein the intelligent operation module (6) is connected with the illumination control module (2), the intelligent operation module (6) comprises an illumination remote controller (61), and the illumination control module (2) controls the operation of the illumination device (1) in response to an illumination remote control signal of the illumination remote controller (61);

the indoor light collection module (3) comprises a photoelectric sensor (31) arranged in an office, and the illumination control module (2) responds to a detection current signal of the photoelectric sensor (31) to control the operation of the illumination device (1).

2. The building intelligent lighting system as claimed in claim 1, wherein: still include personnel detection module (4), personnel detection module (4) with lighting control module (2) are connected, personnel detection module (4) are including setting up infrared sensor (41) in the office, lighting control module (2) respond to infrared sensor (41)'s detected signal and control lighting device (1)'s switch.

3. The building intelligent lighting system as claimed in claim 1, wherein: the shading device (5) is located at a window of an office, and the shading device (5) is connected with the lighting control module (2) and operates in response to a control signal of the lighting control module (2).

4. The building intelligent lighting system as claimed in claim 3, wherein: the indoor light collection module (3) further comprises an illuminometer (32), the illuminometer (32) is located at a window of an office, and the illumination control module (2) controls the operation of the shading device (5) in response to a detection signal of the illuminometer (32).

5. The building intelligent lighting system as claimed in claim 1, wherein: the smart operating module (6) further comprises a fingerprint recognizer (62), the illumination remote controller (61) is connected with the fingerprint recognizer (62) and operates in response to an authentication signal of the fingerprint recognizer (62).

6. The building intelligent lighting system as claimed in claim 1, wherein: the intelligent operation module (6) further comprises a display (63), and the display (63) is connected with the illumination remote controller (61) and operates in response to an illumination remote control signal of the illumination remote controller (61).

7. The building intelligent lighting system as claimed in claim 1, wherein: the lighting remote control device further comprises a wireless communication module (7) used for transmitting information, and the lighting remote control (61) is connected with the wireless communication module (7).

Images