CN215453355U - Intelligent lighting controller - Google Patents

Abstract

The utility model provides an intelligent lighting controller, and relates to the technical field of lighting equipment. An intelligent lighting controller comprises a first processor, an infrared sensor, an optical sensor, a first wireless transmission module, a lamp body and a remote control terminal, wherein the infrared sensor, the optical sensor, the first wireless transmission module and the lamp body are all electrically connected with the first processor, and the remote control terminal is in wireless connection with the first wireless transmission module; the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body and sending an electric signal to the first processor; the optical sensor is used for receiving light signals outside the lamp body and transmitting the light signals to the first processor; the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module; the first processor is used for controlling the lamp body to be turned on or turned off. By adopting the utility model, the lamp body can be controlled by various sensors, and the control effect is improved.

Description

Intelligent lighting controller

Technical Field

The utility model relates to the technical field of lighting equipment, in particular to an intelligent lighting controller.

Background

Illumination is a means of illuminating work and living places or individual objects with various light sources. Natural lighting by using sun and sky light; the use of artificial light sources is known as "artificial lighting". The primary purpose of lighting is to create a good visibility and a pleasant and pleasant environment. Illumination is also a means for providing sufficient illumination (general illumination) for people, providing good identification (road illumination, advertisement sign, and the like), emphasizing features (architectural illumination, accent illumination, and the like), creating a comfortable light environment (home illumination, and the like), creating a special atmosphere, and the like (commercial stage illumination), and other special purposes (biochemistry, medical care, plant cultivation, and the like) by using artificial light or natural light.

The lighting categories can be divided into: normal lighting, emergency lighting, duty lighting, guard lighting, and obstacle lighting. Wherein the emergency lighting comprises standby lighting, safety lighting and evacuation lighting, and the applicable principle of the emergency lighting conforms to the following regulations: when the normal illumination is extinguished due to a fault, standby illumination is required to be arranged in a place where normal work or continuous activities are required to be ensured; secondly, when normal illumination is extinguished due to faults, safe illumination is required to be arranged in places where safety of people in danger needs to be ensured; thirdly, when normal illumination is extinguished due to failure, evacuation illumination should be arranged on an exit and a channel which need to ensure the safe evacuation of personnel; fourthly, the on-duty illumination is suitable for utilizing a part which can be controlled independently in normal illumination or utilizing a part or all of emergency illumination; fifthly, the guard illumination is arranged in the guard range according to the requirement; and sixthly, the installation of the obstacle lighting is required to strictly execute relevant regulations of aviation or traffic departments in the area. The lighting design is people-oriented, but firstly the safety and the practicability, the illumination requirement, the installation mode and the maintenance mode are considered, and finally the humanized originality is combined, so that a good lamp design must have the prerequisites, the entries of the lamps have related descriptions, and the lighting design can refer to Jurassic lighting related documents.

With the progress and development of science and technology, lighting is more intelligent. The intelligent lighting is a distributed lighting control system formed by technologies such as an internet of things technology, a wired/wireless communication technology, a power carrier communication technology, embedded computer intelligent information processing, energy-saving control and the like, so that the intelligent control of lighting equipment is realized. The intelligent lighting mainly utilizes a distributed wireless remote measurement, remote control and remote communication control system which is composed of a computer, a wireless communication data transmission technology, a spread spectrum power carrier communication technology, computer intelligent information processing, energy-saving electric appliance control technology and the like. The system has the functions of adjusting the intensity of the light brightness, soft starting of the light, timing control, setting scenes and the like; and achieve the predetermined characteristics. The urban intelligent lighting system is used as a core subsystem of a smart city, and various Internet of things and IT technologies such as wireless Zigbee, WiFi and GPRS are used, so that the control functions such as remote single-lamp switching, dimming and detection are realized, and a new chapter of management and energy conservation for urban lighting is developed.

The existing intelligent lighting controller has single function, cannot control the lamp through multiple ways, and has poor control effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent lighting controller which can control a lamp body through various sensors and improve the control effect.

The embodiment of the utility model is realized by the following steps:

the embodiment of the application provides an intelligent lighting controller, which comprises a first processor, an infrared sensor, a light sensor, a first wireless transmission module, a lamp body and a remote control terminal, wherein the infrared sensor, the light sensor, the first wireless transmission module and the lamp body are all electrically connected with the first processor, and the remote control terminal is in wireless connection with the first wireless transmission module; the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body and sending an electric signal to the first processor; the light sensor is used for receiving light signals outside the lamp body and transmitting the light signals to the first processor; the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module; the first processor is used for controlling the lamp body to be turned on or turned off.

Further, in some embodiments of the present invention, the device further comprises an acoustic sensor, wherein the acoustic sensor is electrically connected to the first processor; the sound sensor is used for receiving sound signals outside the lamp body and sending electric signals to the first processor.

Further, in some embodiments of the present invention, the lamp body is provided with a mounting seat outside, and the side wall of the mounting seat is provided with a plurality of light emitting assemblies.

Further, in some embodiments of the present invention, the light emitting assembly includes a base and a plurality of beads disposed on an outer sidewall of the base; the base is rotatably arranged on the mounting seat, the mounting seat is provided with a driving assembly for driving the base to rotate, and the driving assembly is in transmission connection with the base.

Further, in some embodiments of the present invention, the driving assembly is a driving motor, the driving motor is fixed to the mounting base, and the base is connected to a transmission shaft of the driving motor; the driving motor is electrically connected with the first processor.

Further, in some embodiments of the present invention, the base further includes a locking bolt, and the base is detachably connected to a transmission shaft of the driving motor; the base is provided with a mounting hole, and a transmission shaft of the driving motor is provided with a screw hole; one end of the locking bolt penetrates through the mounting hole and is in threaded connection with the screw hole.

Further, in some embodiments of the present invention, a storage battery is disposed in the base, and the storage battery is electrically connected to the lamp bead.

Further, in some embodiments of the present invention, a second processor and a second wireless transmission module are disposed in the base, the storage battery, the lamp bead and the second wireless transmission module are electrically connected to the second processor, and the second wireless transmission module is wirelessly connected to the remote control terminal.

Further, in some embodiments of the present invention, the mounting seat is provided with a receiving groove for receiving the base, and the base is rotatably disposed in the receiving groove; a positive conducting ring and a negative conducting ring are arranged in the accommodating groove, and both the positive conducting ring and the negative conducting ring are fixed on the mounting seat; the charging module is electrically connected with the first processor, and the positive conducting ring and the negative conducting ring are electrically connected with the charging module; the outer side wall of the base is provided with an elastic positive conducting strip and an elastic negative conducting strip, the positive conducting strip is abutted with the positive conducting ring, and the negative conducting strip is abutted with the negative conducting ring; the positive conducting strip and the negative conducting strip are both electrically connected with the storage battery.

Further, in some embodiments of the present invention, the mounting seat has an annular first sliding groove and an annular second sliding groove, the positive conductive ring is embedded in the first sliding groove, and the negative conductive ring is embedded in the second sliding groove.

Compared with the prior art, the embodiment of the utility model at least has the following advantages or beneficial effects:

the embodiment of the utility model provides an intelligent lighting controller, which comprises a first processor, an infrared sensor, a light sensor, a first wireless transmission module, a lamp body and a remote control terminal, wherein the infrared sensor, the light sensor, the first wireless transmission module and the lamp body are all electrically connected with the first processor, and the remote control terminal is in wireless connection with the first wireless transmission module; the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body and sending an electric signal to the first processor; the light sensor is used for receiving light signals outside the lamp body and transmitting the light signals to the first processor; the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module; the first processor is used for controlling the lamp body to be turned on or turned off.

In actual use, the lamp body can be arranged at a place of use, the infrared sensor and the optical sensor can be arranged around the lamp body, and the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body and sending an electric signal to the first processor; the light sensor is used for receiving light signals outside the lamp body and transmitting the light signals to the first processor; so can be through the lighting or closing of artificial manual control lamp body, through lighting or closing of infrared sensor control lamp body, through lighting or closing of light sensor control lamp body, so the multiple sensor of accessible and artificial control to the lamp body, improve control effect.

When the lamp body is manually controlled to be turned on or turned off, a user can send a lighting command to the first processor through the remote control terminal and the first wireless transmission module, and the first processor controls the lamp body to be turned on; the remote control terminal and the first wireless transmission module send a closing command to the first processor, and the first processor controls the lamp body to be closed.

When the lamp body is controlled to be turned on or turned off through the infrared sensor, when a person moves to a range sensed by the infrared sensor, the infrared sensor senses an infrared signal radiated by a target and sends a lighting command to the first processor, and the first processor controls the lamp body to be turned on; when the person moves out of the range sensed by the infrared sensor, the infrared sensor stops sending a lighting command to the first processor, and the first processor controls the lamp body to be closed.

When the light sensor controls the lamp body to be turned on or turned off, the light sensor is used for receiving a light signal outside the lamp body and sending a power signal to the first processor, when the light signal received by the first processor is in a first threshold value, the light outside the lamp body is weaker, and the first processor controls the lamp body to be turned on; when the light signal received by the first processor is at the second threshold value, the external light is stronger, and the first processor controls the lamp body to be closed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a lamp body and a mounting seat provided in an embodiment of the utility model;

fig. 3 is a schematic structural diagram of a lamp body and a mounting seat provided in an embodiment of the utility model;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a cross-sectional view of a base position provided by an embodiment of the present invention;

fig. 6 is a front view of a control box according to an embodiment of the present invention.

Icon: 1-a lamp body; 2-mounting a base; 3-a base; 4-lamp beads; 5-driving a motor; 6-locking the bolt; 7-a storage battery; 8-positive conducting ring; 9-a negative conducting ring; 10-positive conductive sheet; 11-a negative conductive plate; 12-a first runner; 13-a second chute; 14-accommodating the tank; 15-control box.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without any inventive step, are within the scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the embodiments of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate an orientation or a positional relationship based on the orientation or the positional relationship shown in the drawings, or an orientation or a positional relationship which is usually placed when the products of the present invention are used, the description is only for convenience and simplicity, and the indication or the suggestion that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, the present invention should not be construed as being limited. Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical" and the like do not require that the components be absolutely horizontal or vertical, but may be slightly inclined. Such as "horizontal" simply means that its orientation is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the embodiments of the present invention, "a plurality" represents at least 2.

In the description of the embodiments of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Examples

Referring to fig. 1 to 6, the present embodiment provides an intelligent lighting controller, including a first processor, an infrared sensor, an optical sensor, a first wireless transmission module, a lamp body 1 and a remote control terminal, where the infrared sensor, the optical sensor, the first wireless transmission module and the lamp body 1 are all electrically connected to the first processor, and the remote control terminal is wirelessly connected to the first wireless transmission module; the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body 1 and sending an electric signal to the first processor; the optical sensor is used for receiving light signals outside the lamp body 1 and transmitting the light signals to the first processor; the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module; the first processor is used for controlling the lamp body 1 to be turned on or off.

In actual use, the lamp body 1 may be installed at a place where it is used, and an infrared sensor and an optical sensor may be installed around the lamp body 1, the infrared sensor receiving an infrared signal radiated from a target outside the lamp body 1 and transmitting an electrical signal to the first processor; the optical sensor is used for receiving light signals outside the lamp body 1 and transmitting the light signals to the first processor; so can be through the lighting or closing of artificial manual control lamp body 1, through lighting or closing of infrared sensor control lamp body 1, through lighting or closing of light sensor control lamp body 1, so the multiple sensor of accessible and artificial control lamp body 1, improve control effect.

When the lamp body 1 is manually controlled to be turned on or turned off, a user can send a lighting command to the first processor through the remote control terminal and the first wireless transmission module, and the first processor controls the lamp body 1 to be turned on; the remote control terminal and the first wireless transmission module send a closing command to the first processor, and the first processor controls the lamp body 1 to close.

When the lamp body 1 is controlled to be turned on or turned off through the infrared sensor, when a person moves to a range sensed by the infrared sensor, the infrared sensor senses an infrared signal radiated by a target and sends a lighting command to the first processor, and the first processor controls the lamp body 1 to be turned on; when the person moves out of the range sensed by the infrared sensor, the infrared sensor stops sending a lighting command to the first processor, and the first processor controls the lamp body 1 to be closed.

When the light sensor controls the lamp body 1 to be turned on or off, the light sensor is used for receiving a light signal outside the lamp body 1 and sending a power signal to the first processor, when the light signal received by the first processor is at a first threshold value, the light outside the lamp body is weak, and the first processor controls the lamp body 1 to be turned on; when the light signal received by the first processor is at the second threshold, the external light is stronger, and the first processor controls the lamp body 1 to close.

Optionally, the infrared sensor and the optical sensor of the present embodiment use existing commonly used sensors; the first wireless transmission module of this embodiment may adopt wireless transmission technologies such as WiFi and 5G; the remote control terminal of the embodiment can adopt devices such as a mobile phone, a computer, a tablet and the like.

Alternatively, the first processor of the present embodiment may employ an AT89S51 chip. The AT89S51 is a low-power-consumption and high-performance CMOS8 bit processor, and a universal 8 bit central processing unit and an ISP Flash storage unit are integrated in a chip, so that received information can be timely and effectively processed. It should be noted that the first processor may be an integrated circuit chip having signal processing capability. The processor may be a general purpose processor including a central processing unit, a network processor, etc.; but may also be a digital signal processor, an application specific integrated circuit, a field programmable gate array or other programmable logic device, discrete gate or transistor logic, discrete hardware components. And is not limited to the AT89S51 chip in this embodiment.

Optionally, the first processor of this embodiment may further adopt a convergent intelligent control autonomous development HKZK-3000E internet of things type general controller, adopt a full-log V3S pure-homemade core processor of an arm port-a 7 architecture, have a built-in AES 128-bit encryption algorithm, are safe and reliable, are equipped with a 5-inch IPS touch screen, have a built-in HKZKSvr intelligent control software, and may be used as an independent controller or a regional controller. Supports a plurality of mainstream protocols and can bear various complex operation algorithms and functions. High index hardware platform, powerful calculation ability. The method is widely applied to the fields of building internet of things, cold and hot site monitoring, large electromechanical equipment remote operation and maintenance, building automatic control, energy-saving transformation and the like. Can set up control box 15, locate thing networking type general controller in control box 15, control box 15 is equipped with various data interface, is convenient for be connected with other equipment.

As shown in fig. 1-6, in some embodiments of the present invention, the device further comprises an acoustic sensor electrically connected to the first processor; the sound sensor is configured to receive a sound signal from outside the lamp body 1 and transmit an electric signal to the first processor.

The utility model sets sound sensor, the sound sensor is connected with the first processor; the sound sensor is configured to receive a sound signal from outside the lamp body 1 and send an electrical signal to the first processor, so that the lighting of the lamp body 1 can be controlled by the sound from outside. For example, when night, the user walks, can make sound, and sound transducer sends the instruction of lighting to first treater after receiving sound signal, then lights through first treater control lamp body 1. Optionally, the sound sensor of this embodiment adopts an existing commonly used sound sensor, and details are not repeated.

As shown in fig. 1 to 6, in some embodiments of the present invention, a mounting base 2 is disposed outside the lamp body 1, and a plurality of light emitting elements are disposed on a side wall of the mounting base 2.

According to the utility model, the installation seat 2 is arranged outside the lamp body 1, and the side wall of the installation seat 2 is provided with the plurality of light-emitting components, so that the plurality of light-emitting components can emit light, and the plurality of light-emitting components are matched with the lamp body 1 together, thereby improving the color diversity of the emitted light, and the like, and improving the indoor atmosphere in use.

As shown in fig. 1 to 6, in some embodiments of the present invention, the light emitting assembly includes a base 3 and a plurality of beads 4 disposed on an outer side wall of the base 3; the base 3 is rotatably disposed on the mounting base 2, the mounting base 2 is provided with a driving assembly for driving the base 3 to rotate, and the driving assembly is in transmission connection with the base 3.

The utility model is provided with a base 3 and a plurality of lamp beads 4 arranged on the outer side wall of the base 3; so a plurality of lamp pearls 4 are lighted in order to send light, then rotate through drive assembly drive base 3, so that a plurality of lamp pearls 4 rotate, improve indoor bright atmosphere, for example be used for places such as concert, KTV.

As shown in fig. 1 to 6, in some embodiments of the present invention, the driving component is a driving motor 5, the driving motor 5 is fixed to the mounting base 2, and the base 3 is connected to a transmission shaft of the driving motor 5; the driving motor 5 is electrically connected to the first processor.

The driving motor 5 is arranged to be electrically connected with the first processor, so that a command can be sent to the first processor through the remote control terminal and the first wireless transmission module, and the first processor controls the driving motor 5 to work so as to drive the base 3 to rotate, thereby facilitating control.

As shown in fig. 1 to 6, in some embodiments of the present invention, the base 3 further includes a locking bolt 6, and the driving shaft of the driving motor 5 is detachably connected to the base; the base 3 is provided with a mounting hole, and a transmission shaft of the driving motor 5 is provided with a screw hole; one end of the locking bolt 6 passes through the mounting hole and is in threaded connection with the screw hole.

According to the utility model, the base 3 is detachably connected with the transmission shaft of the driving motor 5, so that the base 3 can be conveniently replaced, for example, different lamp beads 4 can be replaced. Through setting up locking bolt 6, be convenient for pass above-mentioned mounting hole and with above-mentioned screw threaded connection with base 3 in driving motor 5's transmission shaft through locking bolt 6 one end, also convenient to detach.

As shown in fig. 1 to 6, in some embodiments of the present invention, a storage battery 7 is disposed in the base 3, and the storage battery 7 is electrically connected to the lamp bead 4. According to the utility model, the storage battery 7 is arranged, and the storage battery 7 is electrically connected with the lamp beads 4, so that the lamp beads 4 are conveniently lightened by supplying power to the lamp beads 4 through the storage battery 7.

As shown in fig. 1 to 6, in some embodiments of the present invention, a second processor and a second wireless transmission module are disposed in the base 3, the storage battery 7, the lamp bead 4 and the second wireless transmission module are electrically connected to the second processor, and the second wireless transmission module is wirelessly connected to the remote control terminal.

According to the utility model, the second processor and the second wireless transmission module are arranged, so that a command can be sent to the second processor through the remote control terminal and the second wireless transmission module, and the second processor controls the connection or the disconnection between the storage battery 7 and the lamp bead 4, so that the lamp bead 4 is controlled to be turned on or turned off. Alternatively, the processor of the present embodiment may employ an AT89S51 chip. Optionally, the second wireless transmission module of this embodiment may adopt wireless transmission technologies such as WiFi and 5G.

As shown in fig. 1-6, in some embodiments of the present invention, the mounting base 2 is provided with a receiving groove 14 for receiving the base 3, and the base 3 is rotatably disposed in the receiving groove 14; a positive conductive ring 8 and a negative conductive ring 9 are disposed in the accommodating groove 14, and the positive conductive ring 8 and the negative conductive ring 9 are both fixed to the mounting base 2; the charging system further comprises a charging module, the charging module is electrically connected with the first processor, and the positive conducting ring 8 and the negative conducting ring 9 are electrically connected with the charging module. The outer side wall of the base 3 is provided with an elastic positive conducting strip 10 and an elastic negative conducting strip 11, the positive conducting strip 10 is abutted with the positive conducting ring 8, and the negative conducting strip 11 is abutted with the negative conducting ring 9; the positive electrode conductive sheet 10 and the negative electrode conductive sheet 11 are electrically connected to the battery 7.

According to the utility model, the anode conducting ring 8 and the cathode conducting ring 9 are arranged, the anode conducting strip 10 is abutted with the anode conducting ring 8, and the cathode conducting strip 11 is abutted with the cathode conducting ring 9, so that the elastic anode conducting strip 10 can be always abutted with the anode conducting ring 8 in the rotation process of the base 3, and the elastic cathode conducting strip 11 can be always abutted with the cathode conducting ring 9, so that the storage battery 7 can be continuously charged through the charging module, and the lamp bead 4 can continuously work.

Optionally, the positive conductive ring 8 and the negative conductive ring 9 of this embodiment both use copper rings, and the positive conductive plate 10 and the negative conductive plate 11 both use copper sheets, which are metal sheets and have elasticity, so that they can continuously abut against the conductive rings during rotation to complete the transmission of current. Optionally, the charging module of this embodiment adopts an existing commonly used charging device, such as a mobile phone charger.

As shown in fig. 1 to 6, in some embodiments of the present invention, the mounting base 2 is provided with a first annular chute 12 and a second annular chute 13, the positive conductive ring 8 is embedded in the first chute 12, and the negative conductive ring 9 is embedded in the second chute 13.

According to the utility model, the annular first sliding chute 12 and the annular second sliding chute 13 are arranged, so that the positive electrode conducting strip 10 is arranged in the first sliding chute 12 in a sliding manner, and the negative electrode conducting strip 11 is arranged in the second sliding chute 13 in a sliding manner, so that the positive electrode conducting strip is prevented from falling out, and the stability of connection with the conducting ring in the rotating process is improved.

In summary, an embodiment of the present invention provides an intelligent lighting controller, including a first processor, an infrared sensor, a light sensor, a first wireless transmission module, a lamp body 1, and a remote control terminal, where the infrared sensor, the light sensor, the first wireless transmission module, and the lamp body 1 are all electrically connected to the first processor, and the remote control terminal is wirelessly connected to the first wireless transmission module; the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body 1 and sending an electric signal to the first processor; the optical sensor is used for receiving light signals outside the lamp body 1 and transmitting the light signals to the first processor; the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module; the first processor is used for controlling the lamp body 1 to be turned on or off.

In actual use, the lamp body 1 may be installed at a place where it is used, and an infrared sensor and an optical sensor may be installed around the lamp body 1, the infrared sensor receiving an infrared signal radiated from a target outside the lamp body 1 and transmitting an electrical signal to the first processor; the optical sensor is used for receiving light signals outside the lamp body 1 and transmitting the light signals to the first processor; so can be through the lighting or closing of artificial manual control lamp body 1, through lighting or closing of infrared sensor control lamp body 1, through lighting or closing of light sensor control lamp body 1, so the multiple sensor of accessible and artificial control lamp body 1, improve control effect.

When the lamp body 1 is manually controlled to be turned on or turned off, a user can send a lighting command to the first processor through the remote control terminal and the first wireless transmission module, and the first processor controls the lamp body 1 to be turned on; the remote control terminal and the first wireless transmission module send a closing command to the first processor, and the first processor controls the lamp body 1 to close.

When the lamp body 1 is controlled to be turned on or turned off through the infrared sensor, when a person moves to a range sensed by the infrared sensor, the infrared sensor senses an infrared signal radiated by a target and sends a lighting command to the first processor, and the first processor controls the lamp body 1 to be turned on; when the person moves out of the range sensed by the infrared sensor, the infrared sensor stops sending a lighting command to the first processor, and the first processor controls the lamp body 1 to be closed.

When the light sensor controls the lamp body 1 to be turned on or off, the light sensor is used for receiving a light signal outside the lamp body 1 and sending a power signal to the first processor, when the light signal received by the first processor is at a first threshold value, the light outside the lamp body is weak, and the first processor controls the lamp body 1 to be turned on; when the light signal received by the first processor is at the second threshold, the external light is stronger, and the first processor controls the lamp body 1 to close.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An intelligent lighting controller, characterized in that: the intelligent lamp comprises a first processor, an infrared sensor, an optical sensor, a first wireless transmission module, a lamp body and a remote control terminal, wherein the infrared sensor, the optical sensor, the first wireless transmission module and the lamp body are all electrically connected with the first processor, and the remote control terminal is in wireless connection with the first wireless transmission module;

the infrared sensor is used for receiving an infrared signal radiated by a target outside the lamp body and sending an electric signal to the first processor;

the optical sensor is used for receiving a light signal outside the lamp body and sending an electrical signal to the first processor;

the remote control terminal transmits an electric signal to the first processor through the first wireless transmission module;

the first processor is used for controlling the lamp body to be turned on or turned off.

2. The intelligent lighting controller of claim 1, wherein: the sound sensor is electrically connected with the first processor; the sound sensor is used for receiving sound signals outside the lamp body and sending electric signals to the first processor.

3. The intelligent lighting controller of claim 1, wherein: the lamp body outside is equipped with the mount pad, the mount pad lateral wall is equipped with a plurality of light-emitting component.

4. The intelligent lighting controller of claim 3, wherein: the light-emitting component comprises a base and a plurality of lamp beads arranged on the outer side wall of the base; the base rotates to be located the mount pad, the mount pad is equipped with and is used for the drive base pivoted drive assembly, drive assembly with the base transmission is connected.

5. The intelligent lighting controller of claim 4, wherein: the driving assembly is a driving motor, the driving motor is fixed on the mounting seat, and the base is connected with a transmission shaft of the driving motor; the driving motor is electrically connected with the first processor.

6. The intelligent lighting controller of claim 5, wherein: the base is detachably connected with a transmission shaft of the driving motor; the base is provided with a mounting hole, and a transmission shaft of the driving motor is provided with a screw hole; one end of the locking bolt penetrates through the mounting hole and is in threaded connection with the screw hole.

7. The intelligent lighting controller of claim 4, wherein: the base is internally provided with a storage battery, and the storage battery is electrically connected with the lamp beads.

8. The intelligent lighting controller of claim 7, wherein: the base is internally provided with a second processor and a second wireless transmission module, the storage battery, the lamp beads and the second wireless transmission module are electrically connected with the second processor, and the second wireless transmission module is wirelessly connected with the remote control terminal.

9. The intelligent lighting controller of claim 7, wherein: the mounting seat is provided with an accommodating groove for accommodating the base, and the base is rotatably arranged in the accommodating groove; a positive conducting ring and a negative conducting ring are arranged in the accommodating groove, and both the positive conducting ring and the negative conducting ring are fixed on the mounting seat; the charging module is electrically connected with the first processor, and the positive conducting ring and the negative conducting ring are both electrically connected with the charging module; the outer side wall of the base is provided with an elastic positive conducting strip and an elastic negative conducting strip, the positive conducting strip is abutted with the positive conducting ring, and the negative conducting strip is abutted with the negative conducting ring; the positive conducting strip and the negative conducting strip are electrically connected with the storage battery.

10. The intelligent lighting controller of claim 9, wherein: the mounting seat is provided with an annular first sliding groove and an annular second sliding groove, the positive conducting ring is embedded into the first sliding groove, and the negative conducting ring is embedded into the second sliding groove.

Images