CN214064613U - Intelligent illuminating lamp - Google Patents

Abstract

The utility model provides an intelligent illuminating lamp, including the lamp body, set up the lamp shade below the lamp body and clamp the fluorescent tube in the lamp shade below, still include: the relay is arranged in the lamp shell and is connected with the lamp tube through a circuit; the illumination sensor is fixedly arranged below the lampshade; the detection assembly comprises a motion module which can move outside the lampshade, and a first infrared sensing module and an ultrasonic ranging sensing module which are arranged on the motion module and can adjust postures; and the processor MCU is arranged in the lamp housing and is connected with the relay, the illumination sensor, the detection assembly and the second infrared sensing module through a circuit. The utility model provides a problem that the illumination lamp that traditional manual illumination lamp on-off control is inconvenient, acoustic control on-off control is unsuitable to last illumination and infrared sensor control produces wrong switching signal easily.

Description

Intelligent illuminating lamp

Technical Field

The utility model relates to an indoor lighting equipment technical field, concretely relates to intelligent light.

Background

In an indoor lighting system, a traditional lighting lamp switching mode is a manual switch, but when lighting is carried out in an indoor space open to the public, inconvenience is brought to a user due to the fact that the position of the switch is possibly unclear when everyone enters the indoor space, and if the lighting lamp is always kept in an on state, electric energy is wasted;

when carrying out personnel's detection and control light switch through infrared sensor, can arouse infrared sensor's reaction when personnel are crossed by the gate, the light in the control room is opened, and in fact personnel do not get into indoorly, therefore the start-up of indoor light not only wastes the electric energy, also influences the life-span of light simultaneously, therefore the urgent need of proposing an intelligence, can be according to the light that personnel state control light goes out.

Disclosure of Invention

The problems that in the prior art, a traditional manual illuminating lamp is inconvenient to switch and control, an illuminating lamp controlled by a voice control switch is not suitable for continuous illumination, and an illuminating lamp controlled by an infrared sensor is prone to generating wrong switching signals are solved. The utility model provides an intelligent lighting lamp.

The utility model provides an intelligent illuminating lamp, includes the lamp body, sets up the lamp shade in lamp body below and clamps the fluorescent tube in the lamp shade below and still includes:

the relay is arranged in the lamp shell and is connected with the lamp tube through a circuit;

the illumination sensor is fixedly arranged below the lampshade;

the detection assembly comprises a motion module which can move outside the lampshade, and a first infrared sensing module and an ultrasonic ranging sensing module which are arranged on the motion module and can adjust postures;

the second infrared sensing module is fixedly arranged at one end of the lamp shell above the lamp shade;

and the processor MCU is arranged in the lamp housing and is connected with the relay, the illumination sensor, the detection assembly and the second infrared sensing module through a circuit.

Furthermore, a starter and an electronic ballast are arranged at the end part of the lamp tube, and the starter and the electronic ballast are connected with the relay.

Further, the lamp shade outside is provided with the guide rail, the motion module includes the pulley that agrees with mutually with the guide rail and sets up the bottom plate in the pulley top, first infrared sensing module and ultrasonic ranging sensing module install on the bottom plate.

Further, the first infrared sensing module comprises a bracket, a first infrared sensor arranged on the bracket and an MPU6050 module, and the MPU6050 module is fixed with the first infrared sensor.

Further, the support comprises an upper section, a lower section and a rotating disk arranged below the lower section, and the upper section and the lower section are hinged through a hinge structure.

Further, ultrasonic ranging sensing module includes the steering wheel of two 90 degrees series connections and sets up ultrasonic ranging sensor and the MPU6050 module at the steering wheel upper movable end, ultrasonic ranging sensor and MPU6050 module are fixed.

Furthermore, the first infrared sensing module and the second infrared sensing module are pyroelectric sensing modules.

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

the utility model discloses a lamp body, the lamp shade, the fluorescent tube, relay light sensor, the detection subassembly, second infrared sensing module and treater MCU's setting, constitute one kind and can be according to the intelligent light that personnel state control light shines and goes out, wherein light sensor is used for the detection of indoor illumination intensity, guarantee indoor illumination intensity in time and close the light when enough, the detection subassembly is used for surveying the removal personnel of door department, guarantee light switch information's exactness, second infrared sensing module then is used for indoor personnel's detection, guarantee indoor continuous lighting, control light in time and close when interior nobody, the intelligence and the energy-conservation of light have further been strengthened.

Drawings

Fig. 1 is the utility model relates to an overall structure schematic diagram of intelligence light.

Fig. 2 is the utility model relates to an overall structure schematic diagram of intelligent light two.

Fig. 3 is the utility model discloses a survey subassembly and guide rail connection structure schematic diagram in fig. 2 of intelligence light.

Fig. 4 is the utility model relates to a detection subassembly schematic structure of intelligence light.

Fig. 5 is a schematic diagram of module connection of the intelligent lighting lamp of the present invention.

Fig. 6 is the utility model relates to a logic of intelligence light judges flow diagram.

The reference numeral is 1 for the lamp body, 2 is the lamp shade, 3 is the fluorescent tube, 4 is the relay, 5 is the light sensor, 6 is first infrared sensor module, 601 is the support, 6011 is the upper segment, 6012 is the hypomere, 6013 is the rotary disk, 6014 is the hinge structure, 602 is first infrared sensor, 7 is ultrasonic ranging sensor module, 701 is the steering wheel, 702 is ultrasonic ranging sensor, 8 is second infrared sensor module, 9 is treater MCU, 10 is the guide rail, 11 is the pulley, 12 is the bottom plate, 13 is MPU6050 module.

Detailed Description

The invention will be further explained with reference to the following figures and specific examples:

as shown in fig. 1-6, an intelligent lighting lamp comprises a lamp housing 1, a lampshade 2 arranged below the lamp housing 1 and a lamp tube 3 clamped below the lampshade 2, and further comprises:

the relay 4 is arranged in the lamp shell 1, is connected with the lamp tube 3 through a circuit and is used for controlling the switching state of the lamp tube 3;

the illumination sensor 5 is fixedly arranged below the lampshade 2 and used for detecting the indoor illumination intensity;

the detection assembly comprises a motion module capable of moving outside the lampshade, and a first infrared sensing module 6 and an ultrasonic ranging sensing module 7 which are arranged on the motion module and have adjustable postures, and are used for detecting moving personnel at the doorway;

the second infrared sensing module 8 is fixedly arranged at one end of the lamp shell 1 above the lamp shade 2 and used for detecting indoor personnel;

and the processor MCU9 is arranged in the lamp housing 1, is connected with the relay 4, the illumination sensor 5, the detection assembly and the second infrared sensing module 8 through circuits, and is used for collecting and processing signals of the illumination sensor 5, the detection assembly and the second infrared sensor 8 and issuing a control instruction of a switch of the lamp tube 3 to the relay 4 so as to control the state of the lamp tube 3.

It can be understood that the illumination sensor 5 is used for detecting the light intensity in the room, the numerical value of the output value is 0-65535 Lx, and according to the information of the person detected by the first infrared sensing module 6 and the second infrared sensing module 8, when a person enters the room through the doorway, the light may not be turned on if the output value of the illumination sensor 5 is higher than 300Lx, and the light may be turned on if the output value is lower than 300 Lx.

As an implementation manner, the end of the lamp 3 is provided with a starter and an electronic ballast, which are connected with the relay 4.

It can be understood that the electronic ballast generates an instantaneous high voltage when the starter is turned off, so that the light emitting device in the lamp 3 starts to emit light, and then limits the current to control the light emitting device to operate within the rated current range.

As an implementation manner, a guide rail 10 is disposed outside the lamp housing 2, the motion module includes a pulley 11 engaged with the guide rail 10 and a bottom plate 12 disposed above the pulley 11, and the first infrared sensing module 6 and the ultrasonic ranging sensing module 7 are mounted on the bottom plate 12.

As an implementation manner, the first infrared sensing module 6 includes a bracket 601, a first infrared sensor 602 disposed on the bracket 601, and an MPU6050 module 13, where the MPU6050 module 13 is fixed with the first infrared sensor 602.

Specifically, the bracket 601 includes an upper section 6011, a lower section 6012, and a rotating disc 6013 disposed below the lower section 6012, where the upper section 6011 and the lower section 6012 are hinged to each other through a hinge structure 6014.

As an implementation manner, the ultrasonic ranging sensing module 7 includes two steering engines 701 connected in series at 90 degrees, and an ultrasonic ranging sensor 702 and an MPU6050 module 13 disposed at the movable end of the steering engine 701, and the ultrasonic ranging sensor 702 and the MPU6050 module 13 are fixed.

It can be understood that the connection between the pulley 11 and the guide rail 10, the connection between the first infrared sensor 602 and the MPU6050 module 13 and the bracket 601, and the connection between the ultrasonic ranging sensor 702 and the MPU6050 module 13 and the steering engine 701 are used below the motion module, when the detection assembly is installed, the position of the detection assembly on the guide rail 10 can be adjusted, the first infrared sensor 602 and the MPU6050 module 13 can perform posture adjustment under two rotational degrees of freedom by the rotation of the hinge structure 6014 on the bracket 601 and the rotation of the rotating disk 6013, and the ultrasonic ranging sensor 702 and the MPU6050 module 13 can perform posture adjustment under two rotational degrees of freedom by the two steering engines 701 connected in series by 90 degrees;

after the door is aligned to the first infrared sensor 602 through the rotation adjusting support 601, the attitude data such as angles can be returned to the processor MCU9 through the MPU6050 module 13, the processor MCU9 enables the ultrasonic ranging sensor 702 to be the same as the attitude of the first infrared sensor 602 through controlling the steering engine 701, and the MPU6050 module 13 on the ultrasonic ranging module is used for feedback adjustment, so that the attitude is more accurate and accurately points to the door.

As an implementation, the first infrared sensing module 6 and the second infrared sensing module 8 are both pyroelectric infrared sensing modules.

It can be understood that the pyroelectric infrared sensing module detects by receiving infrared radiation emitted by a human body, so that the accuracy of a detection result is ensured without being influenced by other objects.

A light intensity signal threshold is set in the processor MCU9, when the detection component detects that a person enters the doorway and the output signal of the illumination sensor 5 is lower than the threshold, the lamp tube 3 is opened through the relay 4, otherwise, the lamp tube 3 is kept closed; when the second infrared sensing module detects that the indoor person leaves, the processor MCU9 turns off the lamp 3 through the relay 4.

It can be understood that, when someone passes through the door, the first infrared sensor 602 returns data to the processor MCU9, the distance between the judger and the lighting lamp is detected through the processing of the ultrasonic ranging sensor 702 and the processor MCU9, and whether the judgment is reduced, that is, whether the person enters the room through the door, when it is detected that an outdoor person enters the room, whether the lamp tube 3 is opened through the relay 4 by the processor MCU9 is judged according to the indoor lighting condition, and when the infrared second external sensing module 8 detects that no person exists in the whole room, the lamp tube 3 is closed through the relay 4 by the processor MCU 9.

When specifically using, at first when installing this light, the installer leads to the position of adjusting bottom plate 12 on the guide rail, the gate is aimed at to the revolving support messenger first infrared sensor's gesture, MPU6050 module fixed with first infrared sensor returns for treater MCU9 with first infrared sensor's angle and gesture data, treater MCU9 is through the angle and the gesture of the first infrared sensor 602 that obtains, control steering wheel 701 makes ultrasonic ranging sensor 702 the same with first infrared sensor 602's gesture, installer's repeated work has been reduced, make things convenient for the installation of light.

The light detects the door department through first infrared sensor 602 and whether someone, when the discovery someone, detect the distance of personnel people to the light through ultrasonic ranging sensor 702, and with distance data transmission for treater MCU9, whether the distance of treater MCU9 constantly judges personnel and light reduces, whether the people gets into the classroom promptly, when personnel's distance constantly reduces with the light distance, promptly the personnel get into indoorly by outdoor, whether illumination intensity that illumination sensor 5 detected indoorly is less than 300Lx, if light intensity is less than 300Lx then treater MCU9 opens fluorescent tube 3 through relay 4, if light intensity is higher than 300Lx then prove indoor light intensity enough, need not to open the light.

Indoor light intensity is detected in real time through the illumination sensor 5, when the indoor light intensity becomes low and is lower than 300Lx, the brightness of the lamp tube 3 is adjusted through the processor MCU9, the indoor light intensity is kept at 300Lx, when a person leaves, the second infrared sensor module 8 detects that no person is in a room, and the processor MCU turns off the lamp through a relay so as to save electric quantity.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (7)

1. The utility model provides an intelligence light, includes lamp body (1), sets up lamp shade (2) and the fluorescent tube (3) of clamping below lamp shade (2) of lamp body (1) below, its characterized in that still includes:

the relay (4) is arranged in the lamp shell (1) and is connected with the lamp tube (3) through a circuit;

the illumination sensor (5) is fixedly arranged below the lampshade (2);

the detection assembly comprises a motion module which can move outside the lampshade, and a first infrared sensing module (6) and an ultrasonic ranging sensing module (7) which are arranged on the motion module and have adjustable postures;

the second infrared sensing module (8) is fixedly arranged at one end of the lamp shell (1) above the lamp shade (2);

and the processor MCU (9) is arranged in the lamp shell (1) and is connected with the relay (4), the illumination sensor (5), the detection assembly and the second infrared sensing module (8) through a circuit.

2. An intelligent lighting lamp as claimed in claim 1, wherein the end of the lamp tube (3) is provided with a starter and an electronic ballast, and the starter and the electronic ballast are connected with the relay (4).

3. An intelligent lighting lamp as claimed in claim 1, wherein a guide rail (10) is arranged outside the lampshade (2), the motion module comprises a pulley (11) engaged with the guide rail (10) and a bottom plate (12) arranged above the pulley (11), and the first infrared sensing module (6) and the ultrasonic ranging sensing module (7) are mounted on the bottom plate (12).

4. An intelligent lighting lamp as claimed in claim 1, wherein the first infrared sensing module (6) comprises a bracket (601), a first infrared sensor (602) arranged on the bracket (601), and an MPU6050 module (13), and the MPU6050 module (13) is fixed with the first infrared sensor (602).

5. The intelligent lighting lamp according to claim 4, wherein the bracket (601) comprises an upper section (6011), a lower section (6012) and a rotating disk (6013) arranged below the lower section (6012), and the upper section (6011) and the lower section (6012) are hinged to each other through a hinge structure (6014).

6. The intelligent illuminating lamp according to claim 1, wherein the ultrasonic ranging sensing module (7) comprises two steering engines (701) which are connected in series at 90 degrees, and an ultrasonic ranging sensor (702) and an MPU6050 module (13) which are arranged at the movable ends of the steering engines (701), and the ultrasonic ranging sensor (702) and the MPU6050 module (13) are fixed.

7. An intelligent lighting lamp as claimed in claim 1, wherein the first infrared sensing module (6) and the second infrared sensing module (8) are pyroelectric sensing modules.

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