CN210373209U - Human body induction lamp - Google Patents

Abstract

The utility model discloses a human body induction lamp, which comprises a lamp holder, a solar panel and a plurality of illuminating lamps arranged on the surface of the lamp holder, and a storage battery, a controller and a pyroelectric human body infrared sensor arranged in the lamp holder; the controller is respectively electrically connected with the storage battery, the illuminating lamp and the pyroelectric infrared sensor; a Fresnel lens of the pyroelectric human body infrared sensor penetrates through the side wall of the lamp holder and is arranged outwards; the storage battery is charged through the solar panel and supplies power to the controller, the illuminating lamp and the pyroelectric infrared sensor. The utility model discloses have convenient to use and the make full use of effective control electric energy concurrently to and utilize solar energy to supply power to respectively using electrical apparatus, have energy-concerving and environment-protective advantage.

Description

Human body induction lamp

Technical Field

The utility model relates to a lamps and lanterns field, concretely relates to human response lamp.

Background

In general, in the places of toilet, crossing and passageway, the sound-controlled lamp or single/double-controlled switch lighting lamp is adopted. The working process of the sound control lamp is as follows: when sound is emitted (the sound source is generally footstep sound), the sound control lamp is turned on, and when enough decibel sound is not detected at certain intervals, the lamp is turned off. The illuminating lamp with the single/double control switch is turned on and then continuously illuminates until the illuminating lamp is turned off, and the illuminating lamp has the defects that the condition that the lamp is forgotten to be turned off easily occurs, and electric energy is consumed.

The utility model provides a shortcoming that the control mode to above two kinds of light exists, the utility model provides a new lamps and lanterns control scheme.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a human response lamp, aim at solving the not convenient enough problem of control mode of lamps and lanterns among the prior art.

In order to achieve the above object, the present invention provides a human body induction lamp, which comprises a lamp holder, a solar panel and a plurality of lighting lamps arranged on the surface of the lamp holder, and a storage battery, a controller and a pyroelectric human body infrared sensor arranged in the lamp holder;

the controller is respectively electrically connected with the storage battery, the illuminating lamp and the pyroelectric infrared sensor; a Fresnel lens of the pyroelectric human body infrared sensor penetrates through the side wall of the lamp holder and is arranged outwards; the storage battery is charged through the solar panel and supplies power to the controller, the illuminating lamp and the pyroelectric infrared sensor.

Preferably, a master control switch is arranged on one side of the lamp holder and is used for controlling the storage battery to be communicated with the illuminating lamp or the controller.

Preferably, a brightness adjusting switch is further arranged on one side of the lamp holder, and the brightness adjusting switch is arranged between the master control switch and the illuminating lamp or between the controller and the illuminating lamp.

Preferably, the human body induction lamp comprises at least two illuminating lamps which are different in color and are arranged in parallel, a color mixing switch is further arranged on one side of the lamp holder, one end of the color mixing switch is electrically connected with the controller or the master control switch, and the other end of the color mixing switch can be switched to be electrically connected with at least one illuminating lamp.

Preferably, a power output interface for charging external electronic equipment is further arranged on the lamp holder.

Preferably, the lamp holder is further provided with a power input interface for charging the storage battery.

Preferably, the human body induction lamp further comprises a light sensor electrically connected with the controller.

Preferably, the lamp stand is provided with a cavity for containing a mosquito repellent material, the top surface of the cavity is provided with air holes, a heating resistor is arranged below the cavity, and a button for controlling the on-off of a circuit between the heating resistor and the storage battery is arranged on the outer side of the lamp stand.

Preferably, the human body induction lamp further comprises a wireless communication module electrically connected with the controller.

The utility model discloses a pyroelectric infrared sensor response is predetermine the scope and is whether someone to the bright of control light goes out, does not need the people initiative to turn on the light, also does not need the people initiative to go out the light. Therefore, the lamp has the advantages of being convenient to use, effectively controlling the full utilization of electric energy and preventing the electric energy waste caused by long-time unmanned light turning off. Furthermore, the utility model discloses a solar energy supplies power to each electrical apparatus, has energy-concerving and environment-protective advantage.

Drawings

Fig. 1 is a schematic structural view of the human body induction lamp of the present invention at a viewing angle;

fig. 2 is a schematic structural view of the human body induction lamp of the present invention at another viewing angle;

FIG. 3 is a functional module of the human body sensor of the present invention;

FIG. 4 is a functional block diagram of another embodiment of the body-sensing lamp of the present invention;

fig. 5 is a functional module of another embodiment of the body-sensing lamp according to the present invention.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same elements or elements having the same function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention, and all other embodiments obtained by those skilled in the art without creative efforts based on the embodiments of the present invention belong to the protection scope of the present invention.

The utility model provides a human body induction lamp, as shown in figures 1-3, the human body induction lamp comprises a lamp holder 1, a solar panel 2 and a plurality of illuminating lamps 3 arranged on the surface of the lamp holder 1, and a storage battery 4, a controller 5 and a pyroelectric human body infrared sensor which are arranged in the lamp holder 1;

the controller 5 is respectively and electrically connected with the storage battery 4, the illuminating lamp 3 and the pyroelectric human body infrared sensor; a Fresnel lens of the pyroelectric human body infrared sensor penetrates through the side wall of the lamp holder 1 and is arranged outwards; the storage battery 4 is charged through the solar panel 2 and supplies power to the controller 5, the illuminating lamp 3 and the pyroelectric human body infrared sensor.

In this embodiment, the lamp holder 1 can be designed to be seat-type and can be placed on any platform; the wall-mounted type water heater can be designed to be a wall-mounted type and fixed on a wall or a ceiling in a sucking disc, hook, screw fixing and other modes. The solar panel 2 is disposed on the top of the lamp socket 1 or on the other side of the non-fixed surface. For example this human response lamp is applied to outdoors, then preferred setting is good at the top of lamp stand 1, and this human response lamp is applied to indoorly, then establishes the side at lamp stand 1 or the outside setting up of the fixed surface slope of dorsad into well, during the installation, and the one side orientation that will set up solar panel 2 often has window, the gate installation of light to penetrate into. Solar panel 2's effect absorbs light energy and changes the electric energy to store in battery 4, solar panel 2 prefers 5530 models, and battery 4 prefers the environmental protection and the higher lithium cell of energy storage, makes this human response lamp's time of endurance can reach more than a year. The storage battery 4 is used as a power supply device of the human body induction lamp and is used for supplying power to the controller 5, the illuminating lamp 3 and the pyroelectric infrared sensor 6. Of course, the present embodiment does not limit the human body induction lamp to only adopt the solar energy for power storage and the storage battery 4 for power supply, and a power input interface 7 (as shown in fig. 1) for charging the storage battery 4 may be arranged on the lamp holder 1, and the power input interface 7 adopts a mini USB interface or a type C interface to charge the storage battery 4 through the household electricity; the power can be supplied by a dry battery or a direct connection household power supply. The solar energy power storage and power supply mode is relatively more environment-friendly and energy-saving. The lamp holder 1 is also provided with a pyroelectric infrared sensor 6, the pyroelectric infrared sensor 6 is composed of three major parts, namely a sensitive element, an impedance converter and a Fresnel lens, and infrared rays of 9-10 mu m emitted by a human body during activity are filtered by the Fresnel lens and then received by the sensitive element to output corresponding electric signals. The pyroelectric infrared sensor 6 is mainly sensitive to infrared rays emitted by a human body and other infrared rays (7-10 μm) with wavelengths close to those of the infrared rays emitted by the human body. This pyroelectric infrared sensor 6 is preferred to be set up inside lamp stand 1, prevents to damage, correspondingly, has seted up the window on the lamp stand 1, and the fresnel lens that supplies pyroelectric infrared sensor 6 passes to gather the infrared radiation on every side. In this embodiment, one pyroelectric infrared sensor 6 may be selected, and since the visual range of one pyroelectric infrared sensor 6 is limited, when the device is installed, the orientation of the pyroelectric infrared sensor 6 (i.e. the orientation of the window on the lamp holder 1) should be facing a position where people walk more, such as a doorway of a toilet, an outdoor walkway, and the like. This embodiment can also set up a plurality of pyroelectric infrared sensor 6, and a plurality of pyroelectric infrared sensor 6 arrange along the periphery of lamp stand 1, just so can carry out all-round control around lamp stand 1, and someone appears in the detection distance (generally within 10 meters), then pyroelectric infrared sensor 6 produces the signal of telecommunication, and light 3 is opened according to this signal of telecommunication to controller 5. In this embodiment, one or more lighting lamps 3 may be provided, one lighting lamp 3 is mainly used in an indoor limited space, and a plurality of lighting lamps 3 are mainly used in an environment where the brightness of illumination is required, such as outdoors.

Preferably, the human body sensor further comprises a real-time clock connected to the controller 5, the real-time clock is used for sending a signal to the controller 5 after a certain time delay when the pyroelectric infrared sensor 6 detects that the human body has left the preset range, and the controller 5 controls the lighting lamp 3 to be turned off. The real-time clock can adopt chips of DS1302, DS1307, PCF8485, M41TC8025, HYM8025 and the like.

Whether the range is predetermine someone through the response of pyroelectric infrared sensor 6 to the bright of control light 3 goes out, does not need the people to initiatively turn on the light, does not also need the people initiative to go out the light. Therefore, the lamp has the advantages of being convenient to use, effectively controlling the full utilization of electric energy and preventing the electric energy waste caused by long-time unmanned light turning off. In addition, this embodiment adopts solar energy to supply power to each electrical apparatus, has energy-concerving and environment-protective advantage.

In a preferred embodiment, as shown in fig. 2 and 3, a master switch 9 is provided on one side of the lamp holder 1, and the master switch 9 is used for controlling the storage battery 4 to communicate with the illuminating lamp 3 or the controller 5.

The one end of total control switch 9 keeps electric with battery 4 and is connected, and the other end can switch between light 3 and controller 5, and total control switch 9 is by people manual control, and its aim at switches two kinds of states of human response lamp: a normally on state and a sensing state. When the master control switch 9 is switched to a normally on state, the master control switch 9 directly communicates the storage battery 4 with the illuminating lamp 3 to form an electric loop; when the master control switch 9 is switched to an induction state, the master control switch 9 is used for communicating the storage battery 4 with the controller 5, and the lighting and extinguishing of the illuminating lamp 3 are indirectly controlled through the controller 5.

In a preferred embodiment, as shown in fig. 2, 4 and 5, a brightness adjusting switch 10 is further disposed on one side of the lamp holder 1, and the brightness adjusting switch 10 is disposed between the main control switch 9 and the illumination lamp 3 or between the controller 5 and the illumination lamp 3.

The brightness adjustment switch 10 is used to adjust the voltage across the illumination lamp 3, so that the illumination lamp 3 outputs different powers. The brightness adjusting switch 10 can be arranged between the master control switch 9 and the illuminating lamp 3 to adjust the brightness of the illuminating lamp 3 when the illuminating lamp 3 keeps a normally-on state. Or between the controller 5 and the illumination lamp 3, and can adjust the brightness of the illumination lamp 3 when the illumination lamp 3 is triggered to light.

In a preferred embodiment, the human body induction lamp comprises at least two illuminating lamps 3 which are different in color and are arranged in parallel, one side of the lamp holder 1 is further provided with a color-adjusting switch, one end of the color-adjusting switch is electrically connected with the controller 5 or the master control switch 9, and the other end of the color-adjusting switch can be switched to be electrically connected with at least one illuminating lamp 3.

In this embodiment, the color of the lighting lamp 3 can be selected according to actual requirements, for example, the yellow lamp protects eyes, the white lamp is bright, and the blue lamp is romantic, and the lighting lamp 3 of two colors of yellow and white is preferably adopted in this embodiment, and one end of the color adjusting switch is electrically connected with the controller 5 or the master control switch 9, and the other end of the color adjusting switch can be switched to be connected with the yellow lamp or the white lamp to form an electric loop. The toning switch is manually controlled by a user.

In a preferred embodiment, as shown in fig. 1, the lamp holder 1 is further provided with a power output interface 8 for charging external electronic devices, the battery 4 charges external electronic devices such as mobile phones through the power output interface 8 (generally adopting a USB interface), and the power output interface 8 and the power input interface 7 described in the foregoing embodiment are preferably disposed on the same side of the lamp holder 1.

In a preferred embodiment, as shown in fig. 3, the body-sensing lamp further comprises a light sensor 11, and the light sensor 11 is electrically connected to the controller 5. The light sensor 11 can sense the brightness of the ambient light, and when the master control switch 9 is in a sensing state, and the intensity of the ambient light is greater than a set value, the illuminating lamp 3 keeps a closing state; when the intensity of the ambient light is smaller than the set value, the illuminating lamp 3 is still controlled by the controller 5 and is switched on and off along with the induction of the pyroelectric infrared sensor 6.

As shown in fig. 1, the body-sensing lamp further includes a temperature sensor 7 electrically connected to the controller 5, and an alarm 8, wherein the alarm 8 is configured to give an alarm when the ambient temperature sensed by the temperature sensor 7 is greater than a preset value.

In this embodiment, temperature sensor 7 is used for detecting ambient temperature, and when ambient temperature was in 45 ℃ (normal maximum ambient temperature), then the fire alarm probably appeared in the environment, and the alarm sends out the police dispatch newspaper this moment, and the warning people around in time look over or withdraw.

In a preferred embodiment, as shown in fig. 2, the lamp holder 1 is provided with a cavity for containing liquid or solid, the top surface of the cavity is provided with an air hole 101, a heating resistor 13 is arranged below the cavity, and a button 14 for controlling the on-off of a circuit between the heating resistor 13 and the storage battery 4 is arranged outside the lamp holder 1.

In this embodiment, the chamber of the lamp holder 1 can contain objects such as liquid mosquito-repellent incense, air freshener, or solid mosquito-repellent incense, deodorant, etc. which are heated to exert their effects, and the heating resistor 13 below the chamber heats the objects in the chamber under the power of the battery 4 to volatilize the objects. The button 14 provided on the lamp holder 1 is used for controlling the on-off of the circuit between the heating resistor 13 and the storage battery 4, so as to control whether the heating resistor 13 heats or not, and the button 14 can be manually controlled by a user.

In a preferred embodiment, as shown in fig. 3, the body-sensing lamp further comprises a wireless communication module 12 electrically connected to the controller 5.

Adopt wireless communication module 12 like technologies realization such as WIFI, bluetooth, can realize the communication between controller 5 and user mobile terminal, but the user sends the bright or black that the instruction remote control light 3 through mobile terminal to prevent the inaccurate condition of test of pyroelectric infrared sensor 6 accidental.

In combination with the former embodiment, the controller 5 may further be connected to the button 14, and the user sends an instruction to the controller 5 through the mobile terminal to close the button 14, so that the heating resistor 13 starts to heat, and the objects such as mosquito coil inside the cavity of the lamp holder 1 perform functions. This condition is applicable to user remote control mosquito repellent, deodorization, for example the user carries out long-range mosquito repellent earlier before arriving at home, it can to close door and window again after arriving at home, compare and press button 14 after arriving at home and carry out the mosquito repellent, and this embodiment is time-saving relatively, has also avoided the harmful effects of mosquito repellent in-process mosquito repellent liquid to the people health. In a preferred embodiment, the illumination lamp 3 is an LED lamp. The LED lamp has the advantages of energy conservation and eye protection, and the LED lamp is adopted as the illuminating lamp 3 in the embodiment, which is consistent with the central gist of the application, namely energy conservation and environmental protection.

The above is only the part or the preferred embodiment of the present invention, no matter the characters or the drawings can not limit the protection scope of the present invention, all under the whole concept of the present invention, the equivalent structure transformation performed by the contents of the specification and the drawings is utilized, or the direct/indirect application in other related technical fields is included in the protection scope of the present invention.

Claims (9)

1. A human body induction lamp is characterized by comprising a lamp holder, a solar panel and a plurality of illuminating lamps, a storage battery, a controller and a pyroelectric human body infrared sensor, wherein the solar panel and the illuminating lamps are arranged on the surface of the lamp holder;

the controller is respectively electrically connected with the storage battery, the illuminating lamp and the pyroelectric infrared sensor; a Fresnel lens of the pyroelectric human body infrared sensor penetrates through the side wall of the lamp holder and is arranged outwards; the storage battery is charged through the solar panel and supplies power to the controller, the illuminating lamp and the pyroelectric infrared sensor.

2. The human body induction lamp according to claim 1, wherein a master control switch is arranged on one side of the lamp holder and used for controlling the storage battery to be communicated with an illuminating lamp or a controller.

3. The human body induction lamp according to claim 2, wherein a brightness adjusting switch is further arranged on one side of the lamp holder, and the brightness adjusting switch is arranged between the master control switch and the illuminating lamp or between the controller and the illuminating lamp.

4. The human body induction lamp according to claim 2, wherein the human body induction lamp comprises at least two illuminating lamps which are different in color and are connected in parallel, a color adjusting switch is further arranged on one side of the lamp holder, one end of the color adjusting switch is electrically connected with the controller or the master control switch, and the other end of the color adjusting switch can be switched to be electrically connected with at least one illuminating lamp.

5. The body-sensing lamp of claim 1, wherein said lamp holder further comprises a power output interface for charging an external electronic device.

6. The body-sensing lamp of claim 4, wherein said lamp holder further comprises a power input interface for charging said battery.

7. The body-sensing light of claim 1, further comprising a light sensor, the light sensor being electrically connected to the controller.

8. The human body induction lamp according to claim 1, wherein the lamp holder is provided with a cavity for containing mosquito repellent materials, the top surface of the cavity is provided with air holes, a heating resistor is arranged below the cavity, and a button for controlling the on-off of a circuit between the heating resistor and the storage battery is arranged on the outer side of the lamp holder.

9. The body-sensing light of claim 1, further comprising a wireless communication module electrically connected to the controller.

Images