CN110542057A - Community lighting device based on Internet of things - Google Patents

Community lighting device based on Internet of things Download PDF

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Publication number
CN110542057A
CN110542057A CN201910956898.2A CN201910956898A CN110542057A CN 110542057 A CN110542057 A CN 110542057A CN 201910956898 A CN201910956898 A CN 201910956898A CN 110542057 A CN110542057 A CN 110542057A
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CN
China
Prior art keywords
lampshade
rotary driving
driving motor
fixedly connected
electrically connected
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201910956898.2A
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Chinese (zh)
Other versions
CN110542057B (en
Inventor
许磊
高超
周渝曦
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Chongqing College of Electronic Engineering
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Chongqing College of Electronic Engineering
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Priority to CN201910956898.2A priority Critical patent/CN110542057B/en
Publication of CN110542057A publication Critical patent/CN110542057A/en
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Publication of CN110542057B publication Critical patent/CN110542057B/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S9/00Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply
    • F21S9/02Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
    • F21S9/03Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light
    • F21S9/035Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light the solar unit being integrated within the support for the lighting unit, e.g. within or on a pole
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V21/00Supporting, suspending, or attaching arrangements for lighting devices; Hand grips
    • F21V21/10Pendants, arms, or standards; Fixing lighting devices to pendants, arms, or standards
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V21/00Supporting, suspending, or attaching arrangements for lighting devices; Hand grips
    • F21V21/14Adjustable mountings
    • F21V21/30Pivoted housings or frames
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V23/00Arrangement of electric circuit elements in or on lighting devices
    • F21V23/04Arrangement of electric circuit elements in or on lighting devices the elements being switches
    • F21V23/0442Arrangement of electric circuit elements in or on lighting devices the elements being switches activated by means of a sensor, e.g. motion or photodetectors
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V3/00Globes; Bowls; Cover glasses
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V5/00Refractors for light sources
    • F21V5/04Refractors for light sources of lens shape

Abstract

the invention discloses a community lighting device based on the Internet of things, which is characterized in that a plurality of community lighting devices based on the Internet of things are arranged in a community, when a pedestrian walks to the vicinity of a gate, a first signal receiving component is triggered to turn on a lighting lamp, a rotary driving component rotates a lampshade, the lighting lamp is driven to rotate and face along with the movement of the pedestrian until a first photoresistor of an adjacent community lighting device based on the Internet of things receives illumination at the front end, the power supply of the lighting lamp is switched on, a second photoresistor of a previous community lighting device based on the Internet of things is further illuminated, the second photoresistor is switched on a power-on switch, the previous community lighting device based on the Internet of things is switched off the power supply of the lighting lamp, and the operation is repeated, so that the lighting utilization rate in the community is high, can irradiate at a proper position and time, and saves energy.

Description

Community lighting device based on Internet of things
Technical Field
The invention relates to the technical field of lighting, in particular to a community lighting device based on the Internet of things.
Background
At present, along with the improvement of the social and economic development level, the urbanization process is accelerated, the environment of residential districts is better and better, the district road illumination is used as a part of the living environment of the districts and is more and more concerned by the society, and meanwhile, the energy conservation is used as a part of the protection environment advocated by the society and is also used as the great direction of the social development.
The illumination of current district is mostly for lasting the illumination, and the back is arrived when the night curtain, and the district light lights, and after up to the day, so whole evening is thrown light on, and power consumption is big, and the resident family seldom has the people to walk night, and the street lamp is low in utilization ratio of throwing light on night, the resource-wasting.
Disclosure of Invention
The invention aims to provide a residential area lighting device based on the Internet of things, and aims to solve the technical problems that the residential area lighting in the prior art works at night, the power consumption is high, few people walk at night, the utilization rate of the lighting of a street lamp at night is low, and resources are wasted.
In order to achieve the purpose, the community lighting device based on the Internet of things comprises an upright rod, a lampshade, a lighting lamp, a light-gathering baffle plate, a rotary driving component and a sensing component, wherein the lampshade is rotatably connected with the upright rod, and is positioned at the top of the upright stanchion and faces the direction of the bottom of the upright stanchion, the illuminating lamp is fixedly connected with the lampshade, and is positioned at one end of the lampshade far away from the upright stanchion, the light-gathering baffle is fixedly connected with the lampshade, the rotary driving component is fixedly connected with the upright stanchion, the induction component is electrically connected with the rotary driving component and controls the rotary driving component by receiving induction signals; the induction component comprises a signal receiving component, a first photoresistor and an electrifying feedback component, the signal receiving component is fixedly connected with the upright rod, is electrically connected with the rotary driving component and is positioned at one end of the upright rod, which is far away from the lampshade, the first photoresistor is fixedly connected with the lampshade, is electrically connected with the illuminating lamp and is positioned at the outer side of the lampshade, which is far away from the illuminating lamp, and the electrifying feedback component is fixedly connected with the lampshade, is electrically connected with the illuminating lamp and is positioned at one side of the lampshade, which is far away from the first photoresistor; the power-on feedback component comprises a power-on switch and a second light-sensitive resistor, the power-on switch is electrically connected with the illuminating lamp and electrically connected with the rotary driving assembly, and is located on one side, close to the illuminating lamp, of the lampshade, the second light-sensitive resistor is fixedly connected with the lampshade and electrically connected with the power-on switch, and is located on one side, far away from the first light-sensitive resistor, of the lampshade.
The signal receiving component comprises a voice control switch and an infrared sensor, the voice control switch is fixedly connected with the upright stanchion, is electrically connected with the power-on switch, is positioned at one end of the upright stanchion far away from the lampshade and receives nearby sound signals; the infrared sensor is electrically connected with the power-on switch, the rotary driving assembly and the illuminating lamp, receives object moving direction information and controls the rotary driving assembly to rotate the orientation of the illuminating lamp.
The rotary driving component comprises a rotary driving motor and a limiting component, the rotary driving motor is fixedly connected with the upright rod and is rotatably connected with the lampshade, and the rotary driving motor is positioned between the upright rod and the lampshade and drives the illuminating lamp to change the illuminating direction; the limiting member is electrically connected with the power-on switch, is clamped with the rotary driving motor and is positioned at one side of the upright rod close to the rotary driving motor.
The limiting component comprises a telescopic rod and a return spring, the telescopic rod is electrically connected with the power-on switch, partially extends into the rotary driving motor, is clamped with the rotary driving motor and is positioned on the outer side, close to the lampshade, of the rotary driving motor; the return spring is fixedly connected with the rotary driving motor, fixedly connected with the telescopic rod and located at one end, close to the rotary driving motor, of the telescopic rod, so that the telescopic rod returns.
the induction assembly further comprises a power-off relay and a solar panel, the power-off relay is electrically connected with the power-on switch and is positioned on the top of the lampshade, which is far away from the illuminating lamp; the solar panel is electrically connected with the power-off relay and is positioned at the top of the lampshade, which is far away from the power-off relay.
the rotary driving component also comprises an arc-shaped sliding rail and a sliding driving motor, wherein the arc-shaped sliding rail is fixedly connected with the vertical rod and horizontally surrounds the periphery of the vertical rod; the sliding driving motor is connected with the arc-shaped sliding rail in a sliding mode, electrically connected with the infrared sensor and fixedly connected with the rotating driving motor, and drives the illuminating lamp to rotate horizontally around the vertical rod.
The rotary driving assembly further comprises a rotating shaft and an inclined driving motor, the rotating shaft is rotatably connected with the lampshade, fixedly connected with the illuminating lamp and positioned between the lampshade and the illuminating lamp; the inclined driving motor is fixedly connected with the lampshade, is rotatably connected with the rotating shaft and is positioned at the outer side of the illuminating lamp, which is far away from the lampshade.
The community lighting device based on the Internet of things further comprises a garbage can and a refraction lens, wherein the garbage can is fixedly connected with the vertical rod and is positioned at the bottom of the vertical rod, which is far away from the lighting lamp; the refraction lens is fixedly connected with the garbage can and is positioned on the inner surface of the garbage can.
The community lighting device based on the Internet of things further comprises a photoelectric conversion assembly and a storage battery, wherein the photoelectric conversion assembly is electrically connected with the solar panel and is positioned on one side, close to the lampshade, of the solar panel to perform photoelectric conversion; the storage battery is electrically connected with the photoelectric conversion assembly, the rotary driving motor, the sliding driving motor and the inclined driving motor.
The photoelectric conversion component comprises light-gathering glass and a photocell, wherein the light-gathering glass is fixedly connected with the solar panel and is positioned on one side, close to the lampshade, of the solar panel; the photocell is fixedly connected with the condensing glass, is electrically connected with the storage battery and is positioned on one side of the condensing glass, which is far away from the solar panel.
According to the residential area lighting device based on the Internet of things, the plurality of residential area lighting devices based on the Internet of things are arranged in a residential area, when a pedestrian walks to the vicinity of a gate, a first signal receiving component is triggered to turn on the lighting lamp, the rotary driving component rotates the lampshade, the lighting lamp is driven to rotate and face along with the movement of the pedestrian until the first photoresistor of the adjacent residential area lighting device based on the Internet of things receives illumination at the front end, the power supply of the lighting lamp is switched on, the second photoresistor of the previous residential area lighting device based on the Internet of things is further illuminated, the second photoresistor is switched on the power-on switch, the previous residential area lighting device based on the Internet of things is switched off the power supply of the lighting lamp, and the steps are repeated, so that the lighting utilization rate in the residential area is high, can irradiate at a proper position and time, and saves energy.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is an overall external structural view of the present invention.
Fig. 2 is a schematic view of the inner structure of the lamp housing of the present invention.
Fig. 3 is a schematic structural view of the photoelectric conversion module of the present invention.
In the figure: 1-upright rod, 2-lampshade, 3-lighting lamp, 4-light-gathering baffle, 5-rotary driving component, 6-induction component, 7-garbage can, 8-refraction lens, 9-photoelectric conversion component, 10-storage battery, 51-rotary driving motor, 52-limiting component, 53-arc slide rail, 54-sliding driving motor, 55-rotating shaft, 56-inclined driving motor, 61-signal receiving component, 62-first photoresistor, 63-power-on feedback component, 64-power-off relay, 65-solar panel, 91-light-gathering glass, 92-photocell, 100-small-area lighting device based on Internet of things, 521-telescopic rod, 522-return spring, 611-sound control switch, light-gathering baffle, 5-rotary driving component, 6-induction component, and solar panel, 612-infrared inductor, 631-power-on switch, 632-second photoresistor.
Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.
In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In a first example of the present embodiment:
referring to fig. 1 and 2, the invention provides a residential area lighting device 100 based on the internet of things, which includes an upright stanchion 1, a lampshade 2, a lighting lamp 3, a light-gathering baffle 4, a rotary driving component 5 and a sensing component 6, wherein the lampshade 2 is rotatably connected with the upright stanchion 1, is positioned at the top of the upright stanchion 1 and faces the direction of the bottom of the upright stanchion 1, the lighting lamp 3 is fixedly connected with the lampshade 2 and is positioned at one end of the lampshade 2 far away from the upright stanchion 1, the light-gathering baffle 4 is fixedly connected with the lampshade 2, is positioned at one side of the lampshade 2 close to the lighting lamp 3 and surrounds the periphery of the lighting lamp 3, the rotary driving component 5 is fixedly connected with the upright stanchion 1 and is rotatably connected with the lampshade 2 and is positioned between the upright stanchion 1 and the lampshade 2, and the sensing component 6 is electrically connected with the rotary driving component 5, and controls the rotary driving component 5 by receiving the induction signal; the sensing assembly 6 comprises a signal receiving member 61, a first photo resistor 62 and an electrifying feedback member 63, the signal receiving member 61 is fixedly connected with the upright rod 1, is electrically connected with the rotary driving assembly 5, and is positioned at one end of the upright rod 1 far away from the lampshade 2, the first photo resistor 62 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at the outer side of the lampshade 2 far away from the illuminating lamp 3, and the electrifying feedback member 63 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at one side of the lampshade 2 far away from the first photo resistor 62; the power-on feedback member 63 comprises a power-on switch 631 and a second photosensitive resistor 632, the power-on switch 631 is electrically connected with the illuminating lamp 3, the power-on switch is electrically connected with the rotary driving assembly 5, the second photosensitive resistor 632 is located on one side of the illuminating lamp 3, the lamp shade 2 is close to the second photosensitive resistor 632 is fixedly connected with the lamp shade 2, the second photosensitive resistor 631 is electrically connected with the second photosensitive resistor 632, and the second photosensitive resistor is located on one side of the first photosensitive resistor 62 away from the lamp shade 2.
Further, the signal receiving component 61 includes a voice-operated switch 611 and an infrared sensor 612, the voice-operated switch 611 is fixedly connected with the upright rod 1, and is electrically connected with the power-on switch 631, and is located at one end of the upright rod 1 far away from the lampshade 2, and receives nearby sound signals; the infrared sensor 612 is electrically connected to the power switch 631, the rotation driving assembly 5, and the illumination lamp 3, receives the object movement direction information, and controls the rotation driving assembly 5 to rotate the orientation of the illumination lamp 3.
further, the rotary driving assembly 5 comprises a rotary driving motor 51 and a limiting member 52, wherein the rotary driving motor 51 is fixedly connected with the upright rod 1, is rotatably connected with the lampshade 2, is located between the upright rod 1 and the lampshade 2, and drives the illuminating lamp 3 to change the illumination direction; the limiting member 52 is electrically connected to the power switch 631, is connected to the rotary driving motor 51 in a snap-fit manner, and is located on one side of the vertical rod 1 close to the rotary driving motor 51.
Further, the limiting member 52 comprises an expansion link 521 and a return spring 522, the expansion link 521 is electrically connected with the power-on switch 631, and partially extends into the interior of the rotary driving motor 51, is clamped with the rotary driving motor 51, and is located on the outer side of the rotary driving motor 51 close to the lampshade 2; the return spring 522 is fixedly connected to the rotary driving motor 51, is fixedly connected to the expansion link 521, and is located at one end of the expansion link 521 close to the rotary driving motor 51, so that the expansion link 521 returns.
Further, the sensing assembly 6 further comprises a power-off relay 64 and a solar panel 65, wherein the power-off relay 64 is electrically connected with the power-on switch 631 and is positioned at the top of the lampshade 2 far away from the illuminating lamp 3; the solar panel 65 is electrically connected to the power cut-off relay 64 and is located on the top of the power cut-off relay 64 away from the lamp housing 2.
In this embodiment, the upright rod 1 is a hollow stainless steel pipe, and is vertically fixed on the ground, and is respectively disposed on one side or both sides of the road, the rotary driving motor 51 is a cylinder, the inside is a rotating shaft 55 rotating in the axial direction, the outside is a housing fixed by the threads of the upright rod 1, the rotary driving motor 51 is fixed by the threads at the top of the upright rod 1, the lampshade 2 is a housing of the illuminating lamp 3, and is fixed by the threads on the surface of the rotating shaft 55 of the rotary driving motor 51 far away from the upright rod 1, perpendicular to the upright rod 1, the lampshade 2 is made of high temperature resistant material, and wires communicated with the illuminating lamp 3 are arranged inside, the illuminating lamp 3 is mounted at the bottom of the lampshade 2, and faces the direction of the bottom of the upright rod 1, the light-gathering baffle plate 4 is made of reflective glass, and the bottom of the, the top inclines to extend towards the direction far away from the illuminating lamp 3, so that the light gathering plate is arranged in a horn mouth shape, the irradiation angle is 120 degrees, the light of the illuminating lamp 3 is gathered, the irradiation effect is better, the first photosensitive resistor 62 is embedded in the side wall of the lamp shade 2, the first photosensitive resistor 62 cannot receive the irradiation of the illuminating lamp 3, the first photosensitive resistor 62 is a connecting piece and is connected between the illuminating lamp 3 and a power supply source, the first photosensitive resistor 62 receives the irradiation of an adjacent illuminating device and is further connected with the power supply of the illuminating lamp 3, the illuminating lamp 3 is lightened, the second photosensitive resistor 632 is arranged on one side, far away from the first photosensitive resistor 62, of the lamp shade 2, the second photosensitive resistor 632 is electrically connected with the power on switch, the power on switch 631 is connected between the power supply source and the illuminating lamp 3, when receiving the irradiation of an adjacent lighting device, the power supply of the illuminating lamp 3 is disconnected by the power-on and light-on operation, the sound-control light-on is installed at the bottom of the upright rod 1 and is connected with the power-on light-on through an electric wire, the power switch of the illuminating lamp 3 is turned on by the power-on light-on through receiving surrounding sound signals, the infrared sensor 612 receives external sensing data through an infrared sensor with the model of TPA16.16, the received range is within 5-6m of a 120-degree conical angle, the walking route and speed of a pedestrian can be accurately fed back, the infrared sensor 612 is connected with the power switch 631, when receiving sensing information, the power switch turns on the power supply of the illuminating lamp 3, the infrared sensor is also electrically connected with the rotary driving motor 51 to transmit pedestrian position information to the rotary driving motor 51, the rotary driving motor 51 is driven to rotate the lampshade 2, so that the illuminating lamp 3 irradiates the periphery of a pedestrian; the periphery of the rotating shaft 55 of the rotating driving motor 51 is toothed, the end of the telescopic rod 521 is conical, the telescopic rod 521 is clamped with the side of the rotating driving motor 51, one end of the return spring 522 is fixed with the bottom of the telescopic rod 521, the other end of the return spring is fixed with the conical end of the telescopic rod 521, so that the telescopic rod 521 can be rapidly retracted, when the rotating driving motor 51 drives the illuminating lamp 3 to rotate to a position, the telescopic rod 521 receives a signal of the infrared sensor 612 to limit the rotating driving motor 51, the solar panel 65 is mounted at the top of the lampshade 2 through a support, the solar panel 65 can receive external sunlight and is connected with a main power supply of the internet-of-things-based small-area illuminating device 100 through the power-off relay 64, and when the solar panel 65 receives the sunlight and reaches sufficient brightness, the power-off relay 64 turns off the main power supply, so that, by setting a plurality of the lighting devices 100 based on the internet of things in a cell, when a pedestrian walks to a position near a gate, a first voice-operated switch 611 and the infrared sensor 612 are triggered to turn on the lighting lamp 3, and the rotary driving motor 51 rotates the lampshade 2, thereby driving the lighting lamp 3 to rotate and face along with the movement of the pedestrian until the first photo-resistor 62 of the adjacent lighting device 100 based on the internet of things receives the illumination of the front end, the power supply of the lighting lamp 3 is switched on, and then the second photo-resistor 632 of the previous lighting device 100 based on the internet of things is illuminated, so that the second photo-resistor 632 is switched on the power-on switch 631, and thus the previous lighting device 100 based on the internet of things turns off the power supply of the lighting lamp 3, the above steps are repeated, so that the utilization rate of illumination in the cell is high, illumination can be carried out at a proper position and in a proper time, and energy is saved.
In a second example of the present embodiment:
Referring to fig. 1 and 2, the invention provides a residential area lighting device 100 based on the internet of things, which includes an upright stanchion 1, a lampshade 2, a lighting lamp 3, a light-gathering baffle 4, a rotary driving component 5 and a sensing component 6, wherein the lampshade 2 is rotatably connected with the upright stanchion 1, is positioned at the top of the upright stanchion 1 and faces the direction of the bottom of the upright stanchion 1, the lighting lamp 3 is fixedly connected with the lampshade 2 and is positioned at one end of the lampshade 2 far away from the upright stanchion 1, the light-gathering baffle 4 is fixedly connected with the lampshade 2, is positioned at one side of the lampshade 2 close to the lighting lamp 3 and surrounds the periphery of the lighting lamp 3, the rotary driving component 5 is fixedly connected with the upright stanchion 1 and is rotatably connected with the lampshade 2 and is positioned between the upright stanchion 1 and the lampshade 2, and the sensing component 6 is electrically connected with the rotary driving component 5, and controls the rotary driving component 5 by receiving the induction signal; the sensing assembly 6 comprises a signal receiving member 61, a first photo resistor 62 and an electrifying feedback member 63, the signal receiving member 61 is fixedly connected with the upright rod 1, is electrically connected with the rotary driving assembly 5, and is positioned at one end of the upright rod 1 far away from the lampshade 2, the first photo resistor 62 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at the outer side of the lampshade 2 far away from the illuminating lamp 3, and the electrifying feedback member 63 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at one side of the lampshade 2 far away from the first photo resistor 62; the power-on feedback member 63 comprises a power-on switch 631 and a second photosensitive resistor 632, the power-on switch 631 is electrically connected with the illuminating lamp 3, the power-on switch is electrically connected with the rotary driving assembly 5, the second photosensitive resistor 632 is located on one side of the illuminating lamp 3, the lamp shade 2 is close to the second photosensitive resistor 632 is fixedly connected with the lamp shade 2, the second photosensitive resistor 631 is electrically connected with the second photosensitive resistor 632, and the second photosensitive resistor is located on one side of the first photosensitive resistor 62 away from the lamp shade 2.
further, the signal receiving component 61 includes a voice-operated switch 611 and an infrared sensor 612, the voice-operated switch 611 is fixedly connected with the upright rod 1, and is electrically connected with the power-on switch 631, and is located at one end of the upright rod 1 far away from the lampshade 2, and receives nearby sound signals; the infrared sensor 612 is electrically connected to the power switch 631, the rotation driving assembly 5, and the illumination lamp 3, receives the object movement direction information, and controls the rotation driving assembly 5 to rotate the orientation of the illumination lamp 3.
Further, the rotary driving assembly 5 comprises a rotary driving motor 51 and a limiting member 52, wherein the rotary driving motor 51 is fixedly connected with the upright rod 1, is rotatably connected with the lampshade 2, is located between the upright rod 1 and the lampshade 2, and drives the illuminating lamp 3 to change the illumination direction; the limiting member 52 is electrically connected to the power switch 631, is connected to the rotary driving motor 51 in a snap-fit manner, and is located on one side of the vertical rod 1 close to the rotary driving motor 51.
Further, the rotary driving assembly 5 further comprises an arc-shaped sliding rail 53 and a sliding driving motor 54, wherein the arc-shaped sliding rail 53 is fixedly connected with the vertical rod 1 and horizontally surrounds the periphery of the vertical rod 1; the sliding driving motor 54 is connected with the arc-shaped sliding rail 53 in a sliding manner, is electrically connected with the infrared sensor 612, and is fixedly connected with the rotating driving motor 51, and the sliding driving motor 54 drives the illuminating lamp 3 to rotate horizontally around the vertical rod 1.
Further, the rotation driving assembly 5 further includes a rotation shaft 55 and a tilt driving motor 56, wherein the rotation shaft 55 is rotatably connected to the lamp housing 2, is fixedly connected to the illumination lamp 3, and is located between the lamp housing 2 and the illumination lamp 3; the inclined driving motor 56 is fixedly connected with the lampshade 2, is rotatably connected with the rotating shaft 55, and is positioned at the outer side of the lampshade 2 far away from the illuminating lamp 3.
in this embodiment, the arc-shaped slide rail 53 is an electrically driven slide rail, the sliding driving motor 54 has a housing, and is connected to the arc-shaped slide rail 53 and the rotating driving motor 51 through the housing, and the sliding driving motor 54 horizontally slides on the arc-shaped slide rail 53 through the rotation of the internal motor, so as to drive the lampshade 2 and the illuminating lamp 3 to arcuately rotate on the arc-shaped slide rail 53, so that the illuminating lamp 3 can perform omnidirectional illumination on a corner position at a corner of a road, and the illumination efficiency is higher; the spotlight baffle 4 with the light 3 is a whole, fixes jointly on a lamp shade 2, pivot 55 with the installation light 3 with the lamp shade 2 of spotlight baffle 4 passes through the leg joint to run through around the lamp shade 2, make the output shaft of slope driving motor 56 with pivot 55 threaded connection, and then the rotation of slope driving motor 56 drives pivot 55 rotates, and then makes light 3 with spotlight baffle 4 use pivot 55 is central axial rotation, and then makes the scope orientation of illumination keep away from the direction of pole setting 1 extends, has enlarged the scope of illumination, and then reducible the installation number of residential area lighting device 100 based on the thing networking has reduced the waste of the energy.
In a third example of the present embodiment:
Referring to fig. 1 to 3, the invention provides a residential area lighting device 100 based on the internet of things, which includes an upright rod 1, a lampshade 2, a lighting lamp 3, a light-gathering baffle 4, a rotary driving component 5 and a sensing component 6, wherein the lampshade 2 is rotatably connected with the upright rod 1, is positioned at the top of the upright rod 1 and faces the direction of the bottom of the upright rod 1, the lighting lamp 3 is fixedly connected with the lampshade 2 and is positioned at one end of the lampshade 2 far away from the upright rod 1, the light-gathering baffle 4 is fixedly connected with the lampshade 2, is positioned at one side of the lampshade 2 close to the lighting lamp 3 and surrounds the periphery of the lighting lamp 3, the rotary driving component 5 is fixedly connected with the upright rod 1 and is rotatably connected with the lampshade 2 and is positioned between the upright rod 1 and the lampshade 2, and the sensing component 6 is electrically connected with the rotary driving component 5, and controls the rotary driving component 5 by receiving the induction signal; the sensing assembly 6 comprises a signal receiving member 61, a first photo resistor 62 and an electrifying feedback member 63, the signal receiving member 61 is fixedly connected with the upright rod 1, is electrically connected with the rotary driving assembly 5, and is positioned at one end of the upright rod 1 far away from the lampshade 2, the first photo resistor 62 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at the outer side of the lampshade 2 far away from the illuminating lamp 3, and the electrifying feedback member 63 is fixedly connected with the lampshade 2, is electrically connected with the illuminating lamp 3, and is positioned at one side of the lampshade 2 far away from the first photo resistor 62; the power-on feedback member 63 comprises a power-on switch 631 and a second photosensitive resistor 632, the power-on switch 631 is electrically connected with the illuminating lamp 3, the power-on switch is electrically connected with the rotary driving assembly 5, the second photosensitive resistor 632 is located on one side of the illuminating lamp 3, the lamp shade 2 is close to the second photosensitive resistor 632 is fixedly connected with the lamp shade 2, the second photosensitive resistor 631 is electrically connected with the second photosensitive resistor 632, and the second photosensitive resistor is located on one side of the first photosensitive resistor 62 away from the lamp shade 2.
further, the signal receiving component 61 includes a voice-operated switch 611 and an infrared sensor 612, the voice-operated switch 611 is fixedly connected with the upright rod 1, and is electrically connected with the power-on switch 631, and is located at one end of the upright rod 1 far away from the lampshade 2, and receives nearby sound signals; the infrared sensor 612 is electrically connected to the power switch 631, the rotation driving assembly 5, and the illumination lamp 3, receives the object movement direction information, and controls the rotation driving assembly 5 to rotate the orientation of the illumination lamp 3.
further, the rotary driving assembly 5 comprises a rotary driving motor 51 and a limiting member 52, wherein the rotary driving motor 51 is fixedly connected with the upright rod 1, is rotatably connected with the lampshade 2, is located between the upright rod 1 and the lampshade 2, and drives the illuminating lamp 3 to change the illumination direction; the limiting member 52 is electrically connected to the power switch 631, is connected to the rotary driving motor 51 in a snap-fit manner, and is located on one side of the vertical rod 1 close to the rotary driving motor 51.
Further, the limiting member 52 comprises an expansion link 521 and a return spring 522, the expansion link 521 is electrically connected with the power-on switch 631, and partially extends into the interior of the rotary driving motor 51, is clamped with the rotary driving motor 51, and is located on the outer side of the rotary driving motor 51 close to the lampshade 2; the return spring 522 is fixedly connected to the rotary driving motor 51, is fixedly connected to the expansion link 521, and is located at one end of the expansion link 521 close to the rotary driving motor 51, so that the expansion link 521 returns.
further, the sensing assembly 6 further comprises a power-off relay 64 and a solar panel 65, wherein the power-off relay 64 is electrically connected with the power-on switch 631 and is positioned at the top of the lampshade 2 far away from the illuminating lamp 3; the solar panel 65 is electrically connected to the power cut-off relay 64 and is located on the top of the power cut-off relay 64 away from the lamp housing 2.
Further, the cell lighting device 100 based on the internet of things further comprises a photoelectric conversion assembly 9 and a storage battery 10, wherein the photoelectric conversion assembly 9 is electrically connected with the solar panel 65 and is located on one side of the solar panel 65 close to the lampshade 2 for performing photoelectric conversion; the battery 10 is electrically connected to the photoelectric conversion module 9, the rotation driving motor 51, the slide driving motor 54, and the tilt driving motor 56.
Further, the photoelectric conversion assembly 9 comprises a light-focusing glass 91 and a photocell 92, wherein the light-focusing glass 91 is fixedly connected with the solar panel 65 and is positioned on one side of the solar panel 65 close to the lampshade 2; the photocell 92 is fixedly connected with the condensing glass 91, is electrically connected with the storage battery 10, and is positioned on one side of the condensing glass 91 far away from the solar panel 65.
In this embodiment, the garbage can 7 is installed at the bottom of the vertical rod 1, and a large number of refraction lenses 8 are annularly arranged on the inner surface of the garbage can 7, and the refraction lenses 8 can refract light of the illuminating lamp 3 into the garbage can 7, so that garbage in the garbage can 7 is irradiated by light, and ultraviolet sterilization can be performed; the condensing glass 91 is installed inside the solar panel 65, so that sunlight received by the solar panel 65 is concentrated on the photocell 92, the photocell 92 receives light heat, converts the heat energy into electric energy, and transmits the electric energy into the storage battery 10 through a wire, so that the storage battery 10 supplies power to the illuminating lamp 3, the rotary driving motor 51, the sliding driving motor 54 and the inclined driving motor 56, the electric energy consumption is reduced, and the energy utilization rate of the residential area lighting device 100 based on the internet of things is higher.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A residential area lighting device based on the Internet of things is characterized by comprising a vertical rod, a lampshade, a lighting lamp, a light-gathering baffle plate, a rotary driving component and an induction component,
The lampshade is rotatably connected with the upright rod, is positioned at the top of the upright rod and faces the direction of the bottom of the upright rod, the illuminating lamp is fixedly connected with the lampshade and is positioned at one end of the lampshade, which is far away from the upright rod, the light-gathering baffle is fixedly connected with the lampshade, is positioned at one side of the lampshade, which is close to the illuminating lamp and surrounds the periphery of the illuminating lamp, the rotary driving component is fixedly connected with the upright rod, is rotatably connected with the lampshade and is positioned between the upright rod and the lampshade, and the sensing component is electrically connected with the rotary driving component and controls the rotary driving component by receiving a sensing signal;
the induction component comprises a signal receiving component, a first photoresistor and an electrifying feedback component, the signal receiving component is fixedly connected with the upright rod, is electrically connected with the rotary driving component and is positioned at one end of the upright rod, which is far away from the lampshade, the first photoresistor is fixedly connected with the lampshade, is electrically connected with the illuminating lamp and is positioned at the outer side of the lampshade, which is far away from the illuminating lamp, and the electrifying feedback component is fixedly connected with the lampshade, is electrically connected with the illuminating lamp and is positioned at one side of the lampshade, which is far away from the first photoresistor;
The power-on feedback component comprises a power-on switch and a second light-sensitive resistor, the power-on switch is electrically connected with the illuminating lamp and electrically connected with the rotary driving assembly, and is located on one side, close to the illuminating lamp, of the lampshade, the second light-sensitive resistor is fixedly connected with the lampshade and electrically connected with the power-on switch, and is located on one side, far away from the first light-sensitive resistor, of the lampshade.
2. The Internet of things-based cell lighting apparatus of claim 1,
The signal receiving component comprises a voice control switch and an infrared sensor, the voice control switch is fixedly connected with the upright stanchion and electrically connected with the power-on switch, and is positioned at one end of the upright stanchion, which is far away from the lampshade, and receives nearby sound signals; the infrared sensor is electrically connected with the power-on switch, the rotary driving assembly and the illuminating lamp, receives object moving direction information and controls the rotary driving assembly to rotate the orientation of the illuminating lamp.
3. The Internet of things-based cell lighting apparatus of claim 2,
The rotary driving component comprises a rotary driving motor and a limiting component, the rotary driving motor is fixedly connected with the upright stanchion, is rotatably connected with the lampshade, is positioned between the upright stanchion and the lampshade, and drives the illuminating lamp to change the illuminating direction; the limiting member is electrically connected with the power-on switch, is clamped with the rotary driving motor and is positioned at one side of the upright rod close to the rotary driving motor.
4. The Internet of things-based cell lighting apparatus of claim 3,
The limiting component comprises a telescopic rod and a return spring, the telescopic rod is electrically connected with the power-on switch, partially extends into the rotary driving motor, is clamped with the rotary driving motor and is positioned on the outer side, close to the lampshade, of the rotary driving motor; the return spring is fixedly connected with the rotary driving motor, fixedly connected with the telescopic rod and located at one end, close to the rotary driving motor, of the telescopic rod, so that the telescopic rod returns.
5. The Internet of things-based cell lighting apparatus of claim 4,
The induction assembly further comprises a power-off relay and a solar panel, the power-off relay is electrically connected with the power-on switch and is positioned at the top of the lampshade, which is far away from the illuminating lamp; the solar panel is electrically connected with the power-off relay and is positioned at the top of the lampshade, which is far away from the power-off relay.
6. The Internet of things-based cell lighting apparatus of claim 3,
The rotary driving component also comprises an arc-shaped sliding rail and a sliding driving motor, and the arc-shaped sliding rail is fixedly connected with the vertical rod and horizontally arranged around the periphery of the vertical rod; the sliding driving motor is connected with the arc-shaped sliding rail in a sliding mode, electrically connected with the infrared sensor and fixedly connected with the rotating driving motor, and drives the illuminating lamp to rotate horizontally around the vertical rod.
7. The Internet of things-based cell lighting apparatus of claim 6,
the rotary driving component also comprises a rotating shaft and an inclined driving motor, the rotating shaft is rotatably connected with the lampshade, is fixedly connected with the illuminating lamp and is positioned between the lampshade and the illuminating lamp; the inclined driving motor is fixedly connected with the lampshade, is rotatably connected with the rotating shaft and is positioned at the outer side of the illuminating lamp, which is far away from the lampshade.
8. The Internet of things-based cell lighting apparatus of claim 7,
The community lighting device based on the Internet of things further comprises a garbage can and a refraction lens, wherein the garbage can is fixedly connected with the vertical rod and is positioned at the bottom of the vertical rod far away from the lighting lamp; the refraction lens is fixedly connected with the garbage can and is positioned on the inner surface of the garbage can.
9. the Internet of things-based cell lighting apparatus of claim 4,
the community lighting device based on the Internet of things further comprises a photoelectric conversion assembly and a storage battery, wherein the photoelectric conversion assembly is electrically connected with the solar panel and is positioned on one side, close to the lampshade, of the solar panel to perform photoelectric conversion; the storage battery is electrically connected with the photoelectric conversion assembly, the rotary driving motor, the sliding driving motor and the inclined driving motor.
10. The Internet of things-based cell lighting apparatus of claim 9,
The photoelectric conversion component comprises light-gathering glass and a photocell, and the light-gathering glass is fixedly connected with the solar panel and is positioned on one side of the solar panel close to the lampshade; the photocell is fixedly connected with the condensing glass, is electrically connected with the storage battery and is positioned on one side of the condensing glass, which is far away from the solar panel.
CN201910956898.2A 2019-10-10 2019-10-10 Community lighting device based on Internet of things Active CN110542057B (en)

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