CN220858465U - AIoT-based intelligent LED lamp - Google Patents

Abstract

The utility model relates to the field of LED lamps, in particular to an intelligent LED lamp based on AIoT, which comprises a lamp holder, wherein a rotatable LED light-emitting component is arranged on the lamp holder, a control board for controlling the LED light-emitting component is arranged in the LED light-emitting component, a signal acquisition unit is arranged on the control board, an active signal module and a passive signal detection module are respectively connected with the output ends of the active signal module and the passive signal detection module, the input end of the signal acquisition unit is respectively connected with the output ends of the active signal module and the passive signal detection module, a first LED lamp control chip control instruction output by the active signal module or a second LED lamp control chip control instruction output by the passive signal detection module is received, an LED lamp control chip connected with the output end of the signal acquisition unit is further arranged on the control board, so that data information of each lamp unit and the sharing of working states among all lamp units are conveniently collected, the lamp units are mutually linked, the data sharing is turned off, and the lighting strategy is conveniently executed.

Description

AIoT-based intelligent LED lamp

Technical Field

The utility model relates to the technical field of equipment, in particular to an intelligent LED lamp based on AIoT.

Background

AIoT is the internet of things, all common objects capable of playing independent functions are interconnected, and AIoT is endowed with more intelligent characteristics on the basis;

At present, lamps and lanterns that are used for illumination in office building, factory building etc. in order to energy-conserving general adoption, infrared, mode such as acoustic control and PLC procedure control, only be connected with the main line between lamps and lanterns, receive unified program control, or receive the control of independent sensor each other, do not link and communicate each other, therefore, in the in-service use, the operating condition between lamps and lanterns does not link each other, can't cooperate each other, for this reason, we have proposed an intelligent LED lamps and lanterns based on AIoT and have solved above-mentioned problem.

Disclosure of utility model

In order to solve the problems that the lamps are only connected with a main line and controlled by a unified program or controlled by independent sensors, the lamps are not connected and communicated with each other, and the working states of the lamps are not linked and cannot be matched with each other in the use process.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the intelligent LED lamp based on AIoT comprises a lamp holder, wherein a rotatable LED light-emitting component is arranged on the lamp holder, and a control board for controlling the LED light-emitting component is arranged in the LED light-emitting component;

The control panel is provided with a signal acquisition unit, an active signal module and a passive signal detection module;

The active signal module is assembled to be used for receiving a first LED lamp control chip control instruction, and the passive signal detection module is assembled to be used for receiving a second external LED lamp control chip control instruction;

The input end of the signal acquisition unit is respectively connected with the output ends of the active signal module and the passive signal detection module, and receives a first LED lamp control chip control instruction output by the active signal module or a second LED lamp control chip control instruction output by the passive signal detection module;

The control panel is also provided with an LED lamp control chip connected with the output end of the signal acquisition unit.

Preferably, the active signal module is composed of a power carrier chip executing the lonworks protocol and a main control IC chip responsible for signal transmission and reception between units, the power carrier chip receives a control signal transmitted by a power supply line, the main control IC chip receives a signal transmitted by a previous main control IC chip unit and transmits the signal to a signal acquisition unit, and the signal acquisition unit transmits the acquired control signal to the LED lamp control chip and the main control IC chip.

Preferably, the passive signal detection module comprises a sound sensor and an infrared sensor, the sound sensor receives sound signals, the infrared sensor receives infrared signals, and the received signals are transmitted to the signal acquisition unit in real time for acquisition.

Preferably, the LED lamp control chip is electrically connected with the LED light-emitting component, and the LED light-emitting component is controlled to work according to the received electric signal.

Preferably, the control panel side still is provided with automatically controlled management module, and automatically controlled management module is connected with the lamp stand electricity, acquires electric power from lamp stand joint to with electric power distribution to initiative signal module, passive signal detection module, LED lamp accuse chip and LED luminous element.

Preferably, the lamp holder bottom is provided with the lamp shade, adopts nested connection mode between lamp shade and the lamp holder.

Preferably, two groups of symmetrically arranged brackets are arranged inside the lampshade, a group of control lantern rings are arranged between the ends of the two groups of brackets, and the control lantern rings are sleeved outside the LED luminous assembly.

Preferably, the control lantern ring is attached to the inner wall surface of the lamp holder, and the inner wall of the control lantern ring is abutted to the surface of the LED luminous assembly.

Compared with the prior art, the utility model has the beneficial effects that:

1. In the utility model, the power carrier chip executing the lonworks protocol and the power carrier chip are arranged to receive the control signals transmitted by the power supply line, so that the external data are received and the internal data are uploaded, each independent lamp unit realizes the independent data uploading by the power carrier chip, the cloud server is convenient to collect the data information of each lamp unit and the sharing of the working states among the lamp units, the lamps are mutually linked, the data sharing is turned off, and the lighting strategy is convenient to execute.

2. In the utility model, the main control IC chip is arranged to send signals to the adjacent lamps to inform the adjacent lamps to enter the working preparation state, the adjacent lamps in a plurality of directions synchronously enter the working preparation state on the steering node, the passive sensors on the lamps in one direction enter the working state after receiving the passive signals subsequently, and the lamps in other directions stop entering the preparation state if not receiving the continuous passive signals, so that the energy is saved and the environment is protected.

3. According to the utility model, the lamp shade can drive the bracket to synchronously rotate in a mode of rotating the lamp shade, and the control lantern ring on the bracket can drive the LED luminous assembly to synchronously rotate, so that the setting and adjustment of the orientation angle of the sensor can be completed without disassembling and assembling the lamp.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the application, and that other drawings can be obtained from these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the control board operating logic of the present utility model;

FIG. 2 is a schematic perspective view of the present utility model;

fig. 3 is a schematic perspective sectional structure of the present utility model.

Meaning of reference numerals in the drawings: 1. a lamp holder; 2. an LED light emitting assembly; 3. a control board; 31. an active signal module; 311. a power carrier chip; 312. an IC chip; 32. a passive signal detection module; 321. a sound sensor; 322. an infrared sensor; 33. a signal acquisition unit; 34. an LED lamp control chip; 4. A lamp shade; 5. and (5) manufacturing a lantern ring.

Detailed Description

In order to make the application object, feature and advantage of the present application more obvious and understandable, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the embodiments described below are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-3, an intelligent LED lamp based on AIoT comprises a lamp holder 1, a rotatable LED lighting component 2 is arranged on the lamp holder 1, a control board 3 for controlling the LED lighting component 2 is arranged in the LED lighting component 2, a signal acquisition unit 33 is arranged on the control board 3, an active signal module 31 and a passive signal detection module 32 are arranged on the control board 3, the active signal module 31 is arranged to receive an LED lamp control chip control instruction one, the passive signal detection module 32 is arranged to receive an external LED lamp control chip control instruction two, the input end of the signal acquisition unit 33 is respectively connected with the output ends of the active signal module 31 and the passive signal detection module 32, and receives the LED lamp control chip control instruction one output by the active signal module 31 or the LED lamp control chip control instruction two output by the passive signal detection module 32;

The control panel 3 is also provided with an LED lamp control chip 34 connected with the output end of the signal acquisition unit 33;

The active signal module 31 is composed of a power carrier chip 311 for executing the lonworks protocol and a main control IC chip 312 for responsible for signal transmission and reception among the units, the first control instruction of the LED lamp control chip comprises a control signal transmitted by the power carrier chip 311 through a power supply line, an alternating current signal transmitted by a previous main control IC chip 312 unit, the reception of an external control signal and the uploading of data of a working state can be realized through the power carrier chip 311, each independent lamp unit can realize the uploading of data of an independent individual through the power carrier chip 311, the cloud server is convenient for collecting the data information of each lamp unit and the sharing of the working state among the lamp units, and meanwhile, the cloud server can control the working mode of each independent lamp unit through the power carrier chip 311;

Between each lamp unit, a wire for signal communication can be additionally arranged, through which the main control core can receive the alternating current signal transmitted from the previous main control IC chip 312 unit and transmit the alternating current signal to the signal acquisition unit 33, and the alternating current signal acquired by the signal acquisition unit 33 is transmitted to the next unit.

The passive signal detection module 32 includes a sound sensor 321 and an infrared sensor 322, the two lamp control chip control instructions include that the sound sensor 321 receives sound signals, sound control of equipment is achieved, the infrared sensor 322 receives infrared signals, monitoring of the passing state of pedestrians in space is achieved, sound signals and infrared signals are collected in a passive mode, the received sound signals and infrared signals are transmitted to the signal collection unit 33 in real time, the signal collection unit 33 judges whether to switch LED lamp beads after receiving the signals, if yes, the LED lamp control chip 34 is sent to execute signals, meanwhile, the master control IC chip 312 sends alternating current signals to adjacent lamps, the adjacent lamps in a plurality of directions are synchronously in the working preparation state on a steering node, the passive signal detection module 32 on a lamp in one direction does not enter the working state after receiving the sound signals and the infrared signals, and the passive signal detection module 32 on the lamps in other directions stops entering the working preparation state if the continuous sound signals and infrared signals are not received.

The middle part of the control panel 3 is provided with a signal acquisition unit 33 and an LED lamp control chip 34, and the signal acquisition unit 33 executes the transmitted LED lamp control chip control instruction I and the LED lamp control chip control instruction II through the LED lamp control chip 34;

The LED light control chip 34 is electrically connected with the LED light emitting component 2, and controls the LED light beads in the LED light emitting component 2 to be turned on or off according to the received first and second control instructions of the light control chip, so as to switch between two working states.

The control panel 3 side still is provided with automatically controlled management module, and automatically controlled management module is connected with lamp stand 1 electricity to obtain electric power from lamp stand 1 joint department to distribute the electric power to each electric device that uses electricity, ensure the normal power-on work of each electric device.

The lamp holder 1 bottom is provided with lamp shade 4, adopts nested connected mode between lamp shade 4 and the lamp holder 1, lamp shade 4 can rotate relative lamp holder 1, lamp shade 4 inside is provided with the support that two sets of symmetries set up, is provided with a set of control lantern ring 5 between two sets of support tip, and control lantern ring 5 cover is established outside LED light emitting component 2, control lantern ring 5 is laminated with lamp holder 1 internal face, and control lantern ring 5 inner wall and LED light emitting component 2 surface conflict, after lamp holder 1 finishes with the external mounting point is connected, through the mode of rotatory lamp shade 4, can make lamp shade 4 drive support synchronous rotation, and the control lantern ring 5 on the support then can drive LED light emitting component 2 and rotate in step to the setting orientation of passive signal detection module 32 in the adjustment LED light emitting component 2 can be in place after the lamps and lanterns integral erection, can accomplish the setting and the adjustment of sensor orientation angle to the lamps and lanterns need not to dismouting.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

The above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (8)

1. AIoT-based intelligent LED lamp, which is characterized in that: the LED lamp comprises a lamp holder (1), wherein a rotatable LED light-emitting component (2) is arranged on the lamp holder (1), and a control board (3) for controlling the LED light-emitting component (2) is arranged inside the LED light-emitting component (2);

The control panel (3) is provided with a signal acquisition unit (33), an active signal module (31) and a passive signal detection module (32);

The active signal module (31) is assembled to receive the first LED lamp control chip control instruction, and the passive signal detection module (32) is assembled to receive the second external LED lamp control chip control instruction;

The input end of the signal acquisition unit (33) is respectively connected with the output ends of the active signal module (31) and the passive signal detection module (32), and receives a first LED lamp control chip control instruction output by the active signal module (31) or a second LED lamp control chip control instruction output by the passive signal detection module (32);

the control board (3) is also provided with an LED lamp control chip (34) connected with the output end of the signal acquisition unit (33).

2. The AIoT-based intelligent LED luminaire of claim 1, wherein: the active signal module (31) is composed of a power carrier chip (311) executing a lonworks protocol and a main control IC chip (312) responsible for signal transmission and reception among units, the power carrier chip (311) receives a control signal transmitted by a power supply line, the main control IC chip (312) receives an alternating current signal transmitted by a previous main control IC chip (312) unit and sends the control signal to the signal acquisition unit (33), the control signal and the alternating current signal jointly form an LED lamp control chip control instruction I, and the signal acquisition unit (33) transmits the acquired LED lamp control chip control instruction I to the LED lamp control chip (34) and other connected main control IC chips (312).

3. The AIoT-based intelligent LED luminaire of claim 2, wherein: the passive signal detection module (32) comprises a sound sensor (321) and an infrared sensor (322), the sound sensor (321) receives sound signals, the infrared sensor (322) receives infrared signals, the sound signals and the infrared signals jointly form an LED lamp control chip control instruction II, and the received signals are transmitted to the signal acquisition unit (33) for acquisition in real time.

4. The AIoT-based intelligent LED luminaire of claim 1, wherein: the LED lamp control chip (34) is electrically connected with the LED light-emitting component (2), and the LED light-emitting component (2) is controlled to work according to the received LED lamp control chip control instruction I and the LED lamp control chip control instruction II.

5. The AIoT-based intelligent LED luminaire of claim 1, wherein: the control panel (3) side still is provided with automatically controlled management module, and automatically controlled management module is connected with lamp stand (1) electricity, acquires electric power from lamp stand (1) joint department to with electric power distribution to initiative signal module (31), passive signal detection module (32), LED lamp accuse chip (34) and LED luminous component (2).

6. The AIoT-based intelligent LED luminaire of claim 1, wherein: the lamp is characterized in that a lamp shade (4) is arranged at the bottom of the lamp holder (1), and the lamp shade (4) and the lamp holder (1) are connected in a nested mode.

7. The AIoT-based intelligent LED luminaire of claim 6, wherein: the LED lamp is characterized in that two groups of symmetrically arranged brackets are arranged inside the lamp shade (4), a group of control lantern rings (5) are arranged between the ends of the two groups of brackets, and the control lantern rings (5) are sleeved outside the LED luminous assembly (2).

8. The AIoT-based intelligent LED luminaire of claim 7, wherein: the control lantern ring (5) is attached to the inner wall surface of the lamp holder (1), and the inner wall of the control lantern ring (5) is abutted to the surface of the LED luminous assembly (2).