CN219756080U - Multifunctional self-powered intelligent lamp - Google Patents

Abstract

The utility model discloses a multifunctional self-powered intelligent lamp, which comprises: the lamp comprises a lamp main body, at least a lamp switch and a mode switching knob, wherein the mode switching knob is used for switching under different lamp switch modes to control the lamp switch, and an energy collecting device is used for collecting various energies to supply power to the lamp. The multifunctional self-powered intelligent lamp can supply power to the lamp by collecting human movement energy and/or solar energy, does not need to charge or replace a battery frequently, can realize three working modes of constant, photosensitive triggering and human detection triggering, and has multiple functions.

Description

Multifunctional self-powered intelligent lamp

Technical Field

The utility model relates to the technical field of multifunctional intelligent lamps, in particular to a multifunctional self-powered intelligent lamp.

Background

As social development tends to be modern and intelligent, smart home plays an increasingly important role in people's life. The intelligent lamp is a small multifunctional intelligent furniture. At present, the multifunctional intelligent lamp on the market basically adopts a battery power supply mode, so that the cost and the service life of the battery are limited, the battery is required to be charged or replaced frequently, and the daily requirements of people are hardly met.

Disclosure of Invention

The utility model mainly aims to provide a multifunctional self-powered intelligent lamp with an energy collection function and without frequent charging or battery replacement.

In order to achieve the above object, the present utility model provides a multifunctional self-powered intelligent lamp, which includes: the lamp comprises a lamp main body, wherein a lamp switch, a mode switching knob used for switching under different lamp switch modes to control the lamp switch, and an energy collecting device used for collecting various energies to supply power to the lamp are arranged on the lamp main body.

Wherein the energy harvesting device comprises: an energy harvesting module and an energy harvesting circuit, wherein:

the energy harvesting circuit includes: the super capacitor and the bridge rectifier circuit are connected with each other;

the energy harvesting module includes: the solar energy collecting device comprises a shaking energy collecting module and a solar energy collecting module, wherein the shaking energy collecting module is used for collecting shaking energy, the solar energy collecting module is used for collecting solar energy, the shaking energy collecting module and the solar energy collecting module are connected with the super capacitor, and the collected shaking energy or electric energy converted by solar energy is stored in the super capacitor.

Wherein the solar energy collection module comprises: the solar panel is used for collecting solar energy and is connected with the super capacitor;

the shaking energy collection module includes: the device comprises an induction coil for collecting shaking energy, a strip-shaped permanent magnet and a group of springs, wherein the strip-shaped permanent magnet is sleeved in the induction coil, the group of springs are respectively connected with two ends of the strip-shaped permanent magnet, when a human body wearing the lamp moves, the strip-shaped permanent magnet is controlled by the springs at the two ends to move along the length direction of the induction coil, so that the induction coil collects electric energy, the induction coil is connected with the super capacitor, and the electric energy converted by collection is stored in the super capacitor.

Wherein, the lamps and lanterns main part includes: the intelligent lamp comprises an intelligent lamp main body shell, and all electric quantity display lamps, brightness adjusting knobs, photosensitive detection probes, human body detection probes, LED lamp covers, mode switching knobs and lamp switches on the intelligent lamp main body shell.

Wherein, be equipped with in the intelligent lamps and lanterns main part shell: the control circuit unit is connected with the LED lamp group, the photosensitive detection module, the human body detection module, the energy collection module and the energy collection circuit, the photosensitive detection probe is connected with the photosensitive detection module, and the human body infrared detection probe is connected with the human body infrared detection module.

Wherein the photosensitive detection module is a photosensitive resistor sensor; the human body infrared detection module is an infrared pyroelectric sensor, and the human body infrared detection probe adopts an RD-624 human body infrared pyroelectric sensor probe.

Wherein, photosensitive detection module adopts photo resistance 5506 to join in marriage photosensitive detection control circuit.

Wherein the LED lamp shade is a astigmatic lamp shade; the control circuit unit comprises an integrated singlechip chip; an isolation layer is arranged between the control circuit unit and the energy collection module.

Wherein, multi-functional self-powered intelligent lamps and lanterns still include: and the hand or waist fixing device is matched with the lamp main body.

Wherein the hand or waist securing means comprises: the lamp comprises a lamp body fixing seat matched with the lamp body and a nylon rope connected to the lamp body fixing seat.

The utility model provides a multifunctional self-powered intelligent lamp, which comprises: the lamp comprises a lamp main body, wherein at least a lamp switch, a mode switching knob used for switching under different lamp switch modes to control the lamp switch, and an energy collecting device used for collecting various energies to supply power to the lamp are arranged on the lamp main body. The multifunctional self-powered intelligent lamp can supply power to the lamp by collecting human movement energy and/or solar energy, does not need to charge or replace a battery frequently, can realize three working modes of constant, photosensitive triggering and human detection triggering, and has multiple functions.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the surface composition of a multifunctional self-powered intelligent luminaire and a matched hand fixing device;

FIG. 2 is an internal schematic diagram of a proposed multifunctional self-powered intelligent luminaire of the present utility model;

fig. 3 is a schematic diagram of a waist fixing device of a multifunctional self-powered intelligent lamp.

Reference numerals illustrate:

1. a lamp hand fixing device; 2. an intelligent light fixture body housing; 3. nylon ropes; 4. a lamp switch; 5. an electric quantity display lamp; 6. a brightness adjusting knob; 7. a mode switching knob; 8. a photosensitive probe; 9. a human body infrared detection probe; 10. an LED lamp shade; 11. a control circuit unit; 12. the human body infrared detection module and the photosensitive detection module; 13. an energy harvesting circuit; 14. a super capacitor; 15. an isolation layer; 16. a low-power LED lamp group; 17. a solar panel; 18. an induction coil; 19. a bar-shaped permanent magnet; 20. a spring 1; 21. a spring 2; 22. a waist fixing device of a lamp.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-3, the present utility model proposes a multifunctional self-powered intelligent luminaire, comprising: the lamp comprises a lamp main body, wherein the lamp main body is provided with lamp switches 4, a mode switching knob 7 used for switching under different lamp switch 4 modes to control the lamp switches 4, and an energy collecting device used for collecting various energies to supply power to the lamp.

Specifically, the energy harvesting device includes: an energy harvesting module and an energy harvesting circuit 13, wherein:

the energy harvesting circuit 13 includes: a supercapacitor 14 and a bridge rectifier circuit, the supercapacitor 14 being connected to the bridge rectifier circuit;

wherein the energy harvesting module comprises: the shaking energy collecting module is used for collecting shaking energy and the solar energy collecting module is used for collecting solar energy, and the shaking energy collecting module and the solar energy collecting module are connected with the super capacitor 14 and used for storing collected shaking energy or electric energy converted by solar energy in the super capacitor 14.

Wherein the solar energy collection module comprises: a solar panel 17 for collecting solar energy, the solar panel 17 being connected to the supercapacitor 14;

the shaking energy collection module includes: the induction coil 18, the strip-shaped permanent magnet 19 and a group of springs (comprising a spring 1 and a spring 2) 20 and 21 for collecting shaking energy, wherein the strip-shaped permanent magnet 19 is sleeved in the induction coil 18, the group of springs are respectively connected to two ends of the strip-shaped permanent magnet 19, when a human body wearing the lamp moves, the strip-shaped permanent magnet 19 moves along the length direction of the induction coil 18 under the control of the springs at the two ends, the magnetic field around the induction coil 18 is changed in the shaking process, the changed magnetic energy is collected and converted into electric energy by the induction coil 18, the induction coil 18 is connected with the supercapacitor 14, and the collected and converted electric energy is stored in the supercapacitor 14.

Wherein, the lamps and lanterns main part includes: the intelligent lamp main body shell, all electric quantity display lamps 5, brightness adjusting knobs 6, photosensitive detection probes 8, human body infrared detection probes 9, LED lamp covers 10, mode switching knobs 7 and lamp switches 4 are arranged on the intelligent lamp main body shell.

Wherein, photosensitive probe 8, human infrared probe 9 expose on the lamp body surface.

Wherein, be equipped with in the intelligent lamps and lanterns main part shell: the control circuit unit 11, all with LED banks, human infrared detection module and photosensitive detection module 12 that control circuit unit 11 is connected the energy collection module and energy collection circuit 13, photosensitive detection probe 8 with photosensitive detection module is connected, human infrared detection probe 9 with human infrared detection module is connected.

The light emitting module of the lamp is an LED lamp group, and can be specifically a low-power-consumption LED lamp group 16.

Wherein the photosensitive detection module is a photosensitive resistor sensor; the human body infrared detection module is an infrared pyroelectric sensor, and the human body infrared detection probe 9 adopts an RD-624 human body infrared pyroelectric sensor probe.

Wherein, photosensitive detection module adopts photo resistance 5506 to join in marriage photosensitive detection control circuit.

Wherein the LED lampshade 10 is a light scattering lampshade; the control circuit unit 11 comprises an integrated single chip microcomputer chip; an isolation layer 15 is arranged between the control circuit unit 11 and the energy collection module.

Wherein, multi-functional self-powered intelligent lamps and lanterns still include: a lamp hand fixing device 1 and a lamp waist fixing device 22 matched with the lamp main body. When the multifunctional self-powered intelligent lamp is used as a hand lamp and a waist lamp, the fixing modes are different, and the multifunctional self-powered intelligent lamp is designed for matching the motion direction of the permanent magnet and the motion direction of a human body.

Wherein the hand or waist securing means comprises: the lamp body fixing seat is matched with the lamp body, and the nylon rope 3 is connected to the lamp body fixing seat.

Specifically, the multifunctional self-powered intelligent lamp provided by the utility model comprises: the intelligent lamp main body and the matched hand and waist fixing device. The surface of the lamp body comprises an LED lamp shade 10, a lamp switch 4, a mode switching knob 7, a brightness adjusting knob 6, an electric quantity display lamp 5, a human body infrared detection probe 9 and a photosensitive detection probe 8; the lamp body comprises an LED lamp group, a solar panel 17, a control circuit unit 11, an energy collecting module, an energy collecting circuit 13 and a human body detecting module; the matched fixing device comprises a hand fixing device and a waist fixing device.

The multifunctional self-powered intelligent lamp has three working modes.

The first mode is that the switch directly controls the lamp mode, namely the switch controls the lamp to be in a normally-on mode, and the brightness of the lamp can be regulated and controlled through the brightness regulating knob 6;

the light sensor controls the lamp switch 4 according to the brightness at night, namely the light sensor can control the lamp switch 4 according to the external brightness at night, the external brightness is too low, the lamp is automatically turned on, and the brightness can be controlled through the brightness adjusting knob 6;

and in the third mode, according to the infrared human body detection module, the human body detector triggers the lamp switch 4 mode, namely the infrared human body detection module triggers the lamp switch 4, when a person is detected to pass, the lamp is automatically started, and when the person cannot be detected, the lamp is automatically extinguished for 20 seconds.

The scheme of the multifunctional self-powered intelligent lamp is explained in detail as follows:

referring to fig. 1, the surface of the multifunctional self-powered intelligent lamp comprises an intelligent lamp main body shell; a nylon belt; a lamp switch 4; an electric quantity display lamp 5; a brightness adjusting knob 6; a mode switching knob 7; a photosensitive probe 8; human body detection probe.

Referring to fig. 2, the multifunctional self-powered intelligent lamp body comprises an LED lamp shade 10; a control circuit unit 11; a human body infrared detection module and a photosensitive detection module 12; an energy collection circuit 13; a supercapacitor 14; an isolation layer 15; a low power LED light string 16; a solar panel 17; an induction coil 18; a bar-shaped permanent magnet 19; spring 1 reference numeral 20; spring 2 is numbered 21.

In this embodiment, the housing of the multifunctional self-powered intelligent lamp is formed by injection molding of engineering plastics.

Wherein, the lamp adopts a low-power LED lamp group 16;

the human body detection module adopts an RD-624 human body infrared pyroelectric sensor probe, and has high sensitivity, high signal to noise ratio, high stability and working voltage of 2 to 15V.

The photosensitive detection module adopts a photosensitive resistor 5506 matched with a photosensitive detection control circuit, and the photosensitive resistor has small volume, low power consumption and response time of less than 30 milliseconds.

The control unit module comprises a control circuit and is controlled by an integrated singlechip and a program.

The energy collecting circuit 13 is a rectifier bridge formed by diodes and a super capacitor 14.

The energy collecting module mainly comprises a solar panel 17, an induction coil 18, a bar-shaped permanent magnet 19 for providing a variable magnetic field, and two springs 20 and 21 for controlling the movement mode and direction of the bar-shaped magnet.

The tying ropes of the lamp hand fixing device 1 and the lamp waist fixing device 22 are made of nylon, and can be respectively fixed on the bracelet and the waist.

For energy harvesting:

the body of the solar energy collector is a solar panel 17. The shaking energy collector body is an induction coil 18, and a combination of a fast bar-shaped permanent magnet 19 and a set of springs 20, 21 is parallel to the induction coil 18 and movable along the length of the induction coil 18. When the shaking energy along the expansion and contraction direction of the spring exists, the bar-shaped permanent magnet 19 shakes along the length direction of the bar-shaped induction coil 18, the inside of the induction coil 18 is changed, the changed magnetic energy is collected and converted into electric energy by the induction coil 18, and the electric energy is stored in the super capacitor 14 through the energy collecting circuit 13 to supply power for the system.

When the hand ring fixing device is used as shown in fig. 1, the hand ring fixing device can enable the swinging direction of the arm to be consistent with the moving direction of the bar-shaped permanent magnet 19 of the energy collector in the lamp body through the fixing device in fig. 1 along with the movement of the human body. The bar-shaped permanent magnet 19 swings along the swinging direction of the arm, so that the magnetic field along the length direction of the induction coil 18 changes, and the induction coil 18 converts magnetic energy into electric energy for storage.

Similarly, when the waist fixing device is used as shown in fig. 3, the lamp body is rotated by 90 degrees to match with the up-and-down shaking direction of the human body, and the shaking direction of the permanent magnet is matched. As shown with reference to fig. 3.

The energy collection mode of this multi-functional self-powered intelligent lamps and lanterns is usually at human body shaking energy of people's night running in-process, perhaps also can collect shaking energy through shaking the lamp body at any time (along lamp body induction coil 18 length direction) when the electric quantity is too low in this way.

The multifunctional self-powered intelligent lamp has three working modes:

mode one: the switch directly controls the lamp:

the lamp is in a common working mode, and the lamp switch 4 on the surface of the lamp body directly controls the on and off of the lamp. The light fixture can be turned on during the movement to collect energy. When the waist or hands are worn for night exercises, the lamp is turned on to provide illumination and warning. Or in general, the lamp is used as a common illuminating lamp, and the brightness of the lamp can be adjusted through the brightness adjusting knob 6.

Mode two: the photosensitive switch controls the lamp:

the operation mode can be switched by the mode switching knob 7. When this mode is turned on, the light is turned on and off by the photoresistor switch. The photosensitive detection probe 8 senses the external brightness, and when the external brightness darkens to be lower than a threshold value, the photosensitive detection module controls the lamp to be started; when the external brightness becomes higher than the threshold value, the photosensitive detection module controls the lamp to be turned off. The brightness of the lamp can be adjusted by the brightness adjusting knob 6.

Mode three: the human body detector controls the lamp:

the mode of the lamp can be switched to the working mode controlled by the human body detector through the mode switching knob 7. The human body infrared pyroelectric sensor probe detects whether a person passes or not, when the person passes, the lamp is started, and when the person cannot be detected, the lamp is always on for 20 seconds and is automatically extinguished. Providing intelligent lamp illumination for people getting up at night or needing night activities.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (9)

1. The utility model provides a multi-functional self-powered intelligent lamps and lanterns which characterized in that, multi-functional self-powered intelligent lamps and lanterns include: the lamp comprises a lamp main body, a lamp switch, a mode switching knob and an energy collecting device, wherein the lamp main body is provided with the lamp switch, the mode switching knob is used for switching under different lamp switch modes to control the lamp switch, and the energy collecting device is used for collecting various energies to supply power to the lamp;

the energy harvesting device includes: an energy harvesting module and an energy harvesting circuit, wherein:

the energy harvesting circuit includes: the super capacitor and the bridge rectifier circuit are connected with each other;

the energy harvesting module includes: the solar energy collecting device comprises a shaking energy collecting module and a solar energy collecting module, wherein the shaking energy collecting module is used for collecting shaking energy, the solar energy collecting module is used for collecting solar energy, the shaking energy collecting module and the solar energy collecting module are connected with the super capacitor, and the collected shaking energy or electric energy converted by solar energy is stored in the super capacitor.

2. The multifunctional self-powered intelligent luminaire of claim 1, wherein said solar energy collection module comprises: the solar panel is used for collecting solar energy and is connected with the super capacitor;

the shaking energy collection module includes: the device comprises an induction coil for collecting shaking energy, a strip-shaped permanent magnet and a group of springs, wherein the strip-shaped permanent magnet is sleeved in the induction coil, the group of springs are respectively connected with two ends of the strip-shaped permanent magnet, when a human body wearing the lamp moves, the strip-shaped permanent magnet is controlled by the springs at the two ends to move along the length direction of the induction coil, so that the induction coil collects electric energy, the induction coil is connected with the super capacitor, and the electric energy converted by collection is stored in the super capacitor.

3. The multifunctional self-powered intelligent luminaire of claim 1, wherein the luminaire body comprises: the intelligent lamp comprises an intelligent lamp main body shell, and all electric quantity display lamps, brightness adjusting knobs, photosensitive detection probes, human body infrared detection probes, LED lamp covers, mode switching knobs and lamp switches on the intelligent lamp main body shell.

4. A multifunctional self-powered intelligent luminaire as claimed in claim 3, characterized in that said intelligent luminaire body housing is internally provided with: the control circuit unit is connected with the LED lamp group, the photosensitive detection module, the human body infrared detection module, the energy collecting module and the energy collecting circuit, the photosensitive detection probe is connected with the photosensitive detection module, and the human body infrared detection probe is connected with the human body infrared detection module.

5. The multifunctional self-powered intelligent luminaire of claim 4, wherein said photosensitive detection module is a photoresistor sensor; the human body infrared detection module is an infrared pyroelectric sensor, and the human body infrared detection probe adopts an RD-624 human body infrared pyroelectric sensor probe.

6. The multifunctional self-powered intelligent lamp as claimed in claim 4, wherein the photosensitive detection module is provided with a photosensitive detection control circuit by adopting a photosensitive resistor.

7. The multifunctional self-powered intelligent luminaire of claim 4, wherein said LED lamp housing is a light diffusing lamp housing; the control circuit unit comprises an integrated singlechip chip; an isolation layer is arranged between the control circuit unit and the energy collection module.

8. The multifunctional self-powered intelligent luminaire of any one of claims 1-7, further comprising: and the hand or waist fixing device is matched with the lamp main body.

9. A multi-function self-powered intelligent light fixture according to claim 8, wherein the hand or waist securing means comprises: the lamp comprises a lamp body fixing seat matched with the lamp body and a nylon rope connected to the lamp body fixing seat.