KR101127809B1 - Auxiliary camera service method and led illumination device for emergency - Google Patents

Abstract

PURPOSE: An auxiliary camera service method and an LED lamp for emergency are provided to secure the stable operation of an LED lamp by performing high speed charging through a hybrid condenser. CONSTITUTION: A center server transmits and receives the update history information according to a generic number A first communications unit transmits the update history information of an updated auxiliary camera. An information unit stores and manages the update history information. The second communications unit transmits an image corresponding to the generic number, software, and contents. A determination unit determines whether the image is a target to be updated. An auxiliary camera receives latest image, the software, and the contents and stores them.

Description

Power failure compensation LED lighting device and secondary camera service method {Auxiliary Camera Service Method And LED Illumination Device for Emergency}

The present invention relates to an electrostatic compensation LED lighting device and an auxiliary camera service method, by using a hybrid capacitor or an electric double layer capacitor (EDLC) in the power storage unit, to overcome various problems caused when using a secondary battery and to emergency The battery is built in the environment where power is not supplied to the blackout compensation LED light, which enables fast charging in a short time so that a lighting device can be easily used in an actual emergency, thereby securing a human vision in an emergency. The process of requesting connection through camera and short-range wireless communication by embedding a device and a camera module that provide an environment that can be used without restriction by using light, and the unique number of each blackout compensation LED lighting device and the unique number Software and updates according to the power, turn on / off the lights, turn on / off It relates to a setting and the history information to the central server and receive from the latest images of the mounted camera image from the local server, storing and control, camera function auxiliary services that can perform such a method and device security.

      In general, the installation of emergency lighting devices to prepare for emergency conditions, such as power outage, in addition to the lighting equipment is basically installed in large buildings or public places, such as the mandatory installation.

      The emergency lighting device is designed to be turned on when the external AC power is cut off. In this case, a secondary battery mainly used as a power source of the emergency lighting device is a lithium ion battery or a lithium polymer battery, a lead storage battery, a nickel hydride battery, a nickel cadmium battery, or the like. There is this.

      In addition to the long time it takes to charge the battery, the operating characteristics of the emergency lighting device has a short life.

       Recently, a network system capable of performing functions such as remote meter reading, lighting, various digital electronic devices control, and crime prevention is newly developed.

      The power control-oriented network control device having an emergency light control function and an infrared (IR) communication function applied to the network system can be said to be an improvement over the prior art.

      As described above, the prior arts of camera functions of image storage, control, and crime prevention are called Power Line Communication Transmitter (PLC TX), and Power Line Communication Receiver (PLC RX). .).

      It consists of a monitor and connects the camera image to PLC TX. When the PLC TX is transmitted using the camera's own power line, the image is received from the PLC RX mounted on the front end of the monitor and connected to the monitor Video In terminal. Since it is displayed on the monitor, the PLC TX and PLC RX must be separately installed between the camera and the monitor, thereby causing a burden of cost and installation trouble.

      On the other hand, in the image storage, control, and security camera functions, the manufacturer or service provider provides the latest software and contents for each product from time to time, so that the user can receive the latest software and contents with the latest information. In addition to the need to directly access the online to perform a predetermined procedure, there is a problem that the user is difficult to check before accessing the online directly, and the utilization of power failure during the power failure.

Therefore, a new and advanced use of a battery that overcomes the above-mentioned problems of the secondary battery so that the emergency lighting device can be easily used in an actual emergency, and enables fast charging in a short time, thereby ensuring a human vision in an emergency It is necessary to develop LED lamps with a power failure compensation function.

      The present invention has been made to overcome the problems of the above technology, by providing a storage battery used in the lighting device to any one or more of a hybrid capacitor, an electric double layer capacitor and a hybrid battery to ensure more stable operation of the lighting device in an emergency Its main purpose is to

      It is a further object of the present invention to provide a method and apparatus for controlling power failure compensation LED lighting and an auxiliary camera in a smart phone.

     The present invention is to provide a secondary camera service method and apparatus that can check the unique number of the blackout compensation LED lighting in the region where the wireless LAN device is installed and whether the update target and the stored image can be downloaded.

      In addition, there is a characteristic purpose to provide an environment that can be used without restrictions of the place by using the wind power, the solar cell built in the battery in an environment that can not receive power.

      The present invention for achieving the object relates to the image, software and download system in the blackout compensation LED lighting device and auxiliary camera service method in a wireless LAN region, each unique number and the unique number in the blackout compensation LED lighting device A central server for storing and managing images, software, contents, and update history information according to the present invention, and transmitting and receiving update history information according to a unique number of a local server installed in the wireless LAN area and a power failure compensation LED lighting device through an internet network;

      Installed in the wireless LAN area, and receives and stores the unique number of the power failure compensation LED lighting device, software, video, content and update history information according to the unique number from the central server, the power failure compensation LED lighting The wireless LAN device installed in the area where the device is installed determines whether the update target is transmitted and received by transmitting and receiving a wireless signal for updating the image, software, and content with the power failure compensation LED light device. A local server transmitting software and contents and transmitting update history information of the updated power failure compensation LED lighting device to a central server; And after receiving a connection request signal for updating image, software, and content from a local server through the wireless LAN device, and transmitting a connection permission signal or a connection rejection signal according to the request, and the blackout compensation LED lighting device is an update target. A power failure compensation LED lighting device configured to receive an approval request signal from a local server, transmit an approval signal according to the local server, and then receive and store stored images, software, and content from the local server; It includes.

       On the other hand, the present invention relates to an auxiliary camera service method of a power failure compensation LED lighting device in a wireless LAN area, the connection request signal of the power failure compensation LED lighting device receiving a connection request signal for updating image, software and content from the WLAN device. Transmitting the unique number of the power failure compensation LED lighting device to a local server through the wireless LAN device; Determining whether the corresponding power failure compensation LED lighting device is an update target by comparing the unique number of the power failure compensation LED lighting device received by the local server with history information of the previously stored power failure compensation LED lighting device;

      As a result of the determination of the step, when the update target, transmitting, by the local server, an update approval request signal through the wireless LAN device to the power failure compensation LED lighting device;

       Transmitting the approval signal to the local server through the wireless LAN device when the power failure compensation LED lighting device intends to approve an update;

       Transmitting, by the local server, stored images, software, and contents of the power failure compensation LED lighting device through the wireless LAN device;

      Receiving and storing the latest image, software, and content by the power failure compensation LED lighting device; And after the local server stores the updated update history information, transmitting the updated update history information to the central server through an internet network. Includes.

      According to a first object of the present invention to achieve the above object, when receiving a connection request from the smart phone, the process of connecting via a wireless LAN, when connected to the camera via a wireless LAN by selecting and transmitting the image A controller for controlling a function of processing and outputting the video signal when a selected video signal is received from the camera;

      A video signal processing module for processing the received video signal, a display unit for outputting a video signal processed by the video signal processing module, and a wireless LAN transceiver for transmitting and receiving the wireless communication;

      A control unit for controlling a function of transmitting a photographed video signal to the smart phone by photographing a corresponding area when a selected image is received when the connection request is received from the smart phone;

      It characterized in that it comprises a wireless transceiver for transmitting and receiving the WLAN signal.

      According to a second aspect of the present invention, a method for checking an image by connecting to a camera in a smartphone includes a process of requesting a connection through a near field communication with the camera when an image receiving application is executed; And selecting and transmitting an image when the camera is connected to the camera through the wireless LAN, and processing and outputting the image signal to a display unit when the selected image signal is received from the camera.

       According to a further third object to achieve the above objects of the present invention, the electrostatic compensation LED lighting device includes a converter for converting AC power into DC power;

       A control unit which charges the storage battery using an external power source and controls the operation of the LED module with the power charged in the storage battery in an electrically connected state with the LED module;

      The control unit is composed of a voltage sensing module for sensing the voltage of the external power source, and a low voltage control unit to increase the life of the secondary battery, the rotating shaft and the blade formed on one side of the body can be rotated by wind power; Its characteristic purpose is to provide an environment that can be used without restriction of a place by using a wind power generator and a solar cell that generate electricity generated by wind power.

      In addition, the electrostatic compensation LED lighting device is a constant current and constant voltage device for controlling the current and voltage input to the storage battery from the outside, the charging unit for preventing the rapid flow of current and voltage to the hybrid capacitor, the electric double layer capacitor and the hybrid battery; Characterized in that it further comprises.

      According to the electrostatic compensation LED lighting device and the auxiliary camera service method according to the present invention,

  1) By using electric double layer capacitor or hybrid capacitor as storage battery, it can maintain stable power storage state, overcome the shortcomings of secondary battery, and can be rapidly charged and discharge with large current, and in case of power failure in building 1 By configuring the secondary battery and the secondary battery, the effective lighting time can be increased, and the life of the secondary battery can be extended by the low voltage control of the battery.

  2) The purpose of the present invention is to provide an environment in which the storage battery is built in the environment where power cannot be received and can be used without restriction of places using wind power and solar light.

  3) By receiving the image of the camera via a wireless LAN output to the smart phone by the installation of the power-compensated LED lighting auxiliary camera there is an effect that can be serviced by using the smart phone.

  4) Users do not need to go online to download or perform a separate outage compensation LED lighting device update check by the user, and enter the wireless LAN area to access the images, software and contents of the outage compensation LED lighting device. There is a unique effect that can be automatically provided.

  5) In case of power failure in the building, the LED lighting auxiliary camera will be operated according to the amount of power charged in the battery, and the lighting will not be turned off during the power failure.

1 is a power failure compensation LED lighting auxiliary camera in a wireless LAN area according to the present invention
Overall schematic of the composition of the service method.
2 is a flowchart illustrating a method of downloading images, software, and contents of a power failure compensation LED lighting auxiliary camera in a wireless LAN area according to the present invention;
Figure 3 is a block diagram of a smart phone and a power failure compensation LED lighting auxiliary camera according to an embodiment of the present invention.
Figure 4 is a procedure of the smart phone for outputting the image of the electrostatic compensation LED lighting auxiliary camera according to an embodiment of the present invention.
5 is a procedure of a blackout compensation LED lighting auxiliary camera for providing an image through a short-range wireless communication in a smart phone according to an embodiment of the present invention.
6 is an installed plan view of the electrostatic compensation LED lighting auxiliary camera according to the present invention;
Perspective view according to the installation example of a secondary electrical storage part.
Figure 7 is an enlarged cross-sectional view of a built-in perspective view of the electrostatic compensation LED lighting device and the wind generator according to the present invention.
Figure 8 is a block diagram showing the configuration and operation of the control unit built in the electrostatic compensation LED lighting apparatus according to the present invention.
9 is a schematic circuit diagram of an electrostatic compensation LED lighting apparatus according to the present invention.

      Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

       1 is a configuration diagram of a configuration of a method for servicing an electrostatic compensation LED lighting auxiliary camera in a wireless LAN area according to the present invention. As shown, the central server 310, the local server 320, and an electrostatic compensation LED lighting auxiliary camera ( 330).

       Specifically, the central server 310 stores and manages MAC address (Media Access Control Address) of each of the blackout compensation LED lighting auxiliary camera 330, image, software, content and update history information according to the MAC address, It performs a function of periodically transmitting and receiving update history information according to the MAC address of the local server 320 and the power failure compensation LED lighting auxiliary camera 330 installed in the wireless LAN region through the Internet network.

      Here, the MAC address is used as a unique identification number of each of the power failure compensation LED lighting auxiliary camera, and is stored and managed in the central server 310 and the local server 320 together with the update history information according to the MAC address.

      Therefore, hereinafter, the MAC address is referred to as a 'unique number'. The update history information includes the number of update services per week / month / year for each image, software, and content.

      In addition, the local server 320 is installed in a wireless LAN area, and receives the unique number of the power failure compensation LED lighting auxiliary camera 330, and the image, software, content and update history information according to the unique number from the central server 310. And transmit / receive wireless signals for updating images, software and contents through the wireless LAN device 200 in the region where the power failure compensation LED light auxiliary camera 330 is installed and transmitted and received with the power failure compensation LED light auxiliary camera 330. By determining whether it is an update target, and if the update target, the image, software and content is transmitted to the power failure compensation LED lighting auxiliary camera 330, and the update history information of the updated power failure compensation LED lighting auxiliary camera 330 to the central server Transmits to 310,

       Receives the image, software, content and update history information according to the unique number of the power failure compensation LED light auxiliary camera 330 from the central server 310 through the Internet (Internet) network, updated power failure compensation LED light auxiliary camera 330 Image, software and content and update history information according to the unique number of the blackout compensation LED lighting auxiliary camera 330 received through the first communication unit 210 for transmitting the update history information of) to the central server 310. By transmitting and receiving the connection request signal and the access permission signal for updating the image, software and content through the image update information storage unit 220, the blackout compensation LED lighting auxiliary camera 330 and the wireless LAN device 200 to manage, Compensation LED Lighting Aid

Receives the unique number from the camera 330, and transmits the image, software and content according to the unique number to the power failure compensation LED light auxiliary camera 330, and is not subject to update or rejected approval from the power failure compensation LED light auxiliary camera 330 When receiving a signal, the second communication unit 230 for transmitting a communication cutoff signal to the power failure compensation LED light auxiliary camera 330, and received from the power failure compensation LED light auxiliary camera 330 through the second communication unit 230. Image for determining whether the corresponding power failure compensation LED light auxiliary camera 330 is an update target by comparing the unique number and update history information of the corresponding power failure compensation LED light auxiliary camera 330 stored in the image update information storage unit 220. The update target determination unit 240 is included.

      That is, by using the unique number received by the local server 320 from the power failure compensation LED lighting auxiliary camera 330, the image update target determination unit 240 of the local server 320 to the image update information storage unit 220. By searching the previously stored history information, it is determined whether the update target.

       After receiving the connection request signal for updating image, software, and content from the local server 320 through the wireless LAN device 200, the power failure compensation LED lighting auxiliary camera 330 receives the access permission signal or the access rejection accordingly. When the signal is transmitted, and the power failure compensation LED lighting auxiliary camera 330 is an update target, after receiving the approval request signal from the local server 320 and transmits the approval signal according to the local server 320, the local server ( 320 to receive the latest video, software and content

Performs a function.

       In this case, the electrostatic compensation LED lighting auxiliary camera 330 performs a normal camera function, a description of the configuration of a general camera will be omitted.

      For reference, the wireless LAN device 200 is installed in the wireless LAN area as described above, and performs a function of transmitting and receiving wireless signals generated from the local server 320 and the power failure compensation LED lighting auxiliary camera 330.

      2 is a view illustrating a method of downloading images, software and contents of a camera in a wireless LAN area using a system consisting of a central server 310, a local server 320, and a power failure compensation LED lighting auxiliary camera 330 according to the present invention. As a whole flow chart, the connection request signal for updating the image, software and content is transmitted through the wireless LAN device 200 in which the power failure compensation LED lighting auxiliary camera 330 is installed in the wireless LAN area as shown in FIG. The power failure compensation LED lighting auxiliary camera 330 receiving the connection request signal from the LAN device 200 is transmitted to the local server 320 through the unique number / ID wireless LAN device 200 of the camera according to the connection request signal. (P2).

      Thereafter, the image update target determination unit 240 of the local server 320 receives the unique number and image of the received power failure compensation LED lighting auxiliary camera 330 and the corresponding power failure compensation LED previously stored in the image update information storage unit 220. By comparing the history information of the lighting auxiliary camera 330, it is determined whether the corresponding blackout compensation LED lighting auxiliary camera 330 is an update target (P3).

       As a result of the determination of the third step P3, if the update target, the second communication unit 230 of the local server 320 transmits the update approval request signal through the wireless LAN device 200 (P4), the power failure compensation LED lighting auxiliary camera If the 330 wants to approve the update, it transmits the approval signal through the wireless LAN apparatus 200 (P5).

       In addition, the second communication unit 230 of the local server 320 is the latest image, software and content of the corresponding power failure compensation LED lighting auxiliary camera 330 stored in the image update information storage unit 220 via the wireless LAN device 200. And transmit (P6), the blackout compensation LED lighting auxiliary camera 330 receives and stores the latest software and content (P7).

      Thereafter, the image update information storage unit 220 of the local server 320 stores the updated update history information, and then transmits the updated update history information to the central server 310 through the Internet network (P8). The central server 310 stores the transmitted image, update history information (P9).

      In addition, when the determination result of step P3 is not an update target, the second communication unit 230 of the local server 320 transmits a communication cutoff signal to the power failure compensation LED lighting auxiliary camera 330 (P10).

      In addition, when the power failure compensation LED lighting auxiliary camera 330 does not want to approve the update in step P5, the device transmits an approval rejection signal through the wireless LAN device 200 (P11) and receives the approval rejection signal from the local server. The second communication unit 230 of 320 transmits a communication cutoff signal to the power failure compensation LED lighting auxiliary camera 330 (P12). In addition, when the communication and power is cut off, the image stored in the built-in memory of the power storage of the power failure compensation LED lighting auxiliary camera 330 is separately stored and

In operation P14, the internal memory image signal is transmitted during communication and power recovery (P14).

      Here, the internal memory may be an SD, MMC, MS, CF card, or the like.

      In addition, in the above description, for example, the configuration of the method for servicing a power failure compensation LED light assistance camera in a wireless LAN region has been described, for example, by receiving an image of the power failure compensation LED illumination auxiliary camera 330.

      In the smart phone of the present invention to explain the method and apparatus for outputting the image of the power failure compensation LED light auxiliary camera service method through the short-range wireless communication,

      Here, the short range wireless communication may be a wireless LAN, Zigbee, Bluetooth, Ultra Wideband, or the like.

      3 is a block diagram of a smart phone and a power failure compensation LED lighting auxiliary camera according to an embodiment of the present invention, wherein the smart phone includes a control unit A (401), a short range wireless transceiver (406), and an image processing unit (A). 403, a display unit 407, and an input unit 408.

       Referring to FIG. 3, first, the control unit A 401 controls the overall operation of the smart phone, and in addition to the normal function, the auxiliary camera application is executed according to the present invention through the short range wireless transceiver 406. Controlling and processing a function of receiving and outputting an image according to a unique number or ID of an electrostatic compensation LED light auxiliary camera 330 input by a user from the electrostatic compensation LED light auxiliary camera 330 when connected to the camera do.

       The short range wireless transceiver 406 encodes a signal input from the controller A 401 and transmits the signal to the power failure compensation LED lighting auxiliary camera 330 through short range wireless communication, and receives the short range wireless communication. Processes a signal and transmits it to the control unit A (401).

      The image processor A 403 encodes an image signal input from the electrostatic compensation LED lighting auxiliary camera 330 through short-range wireless communication and outputs the image signal to the display unit 407 or the control unit A 401.

      The display unit 407 displays status information, limited numbers and letters generated during the operation of the smart phone. In addition, the display unit 407 displays the selected image provided from the electrostatic compensation LED lighting auxiliary camera 330 by the control of the control unit A (401) according to the present invention.

      The input unit 408 includes a key for inputting numeric or text information and function keys for setting a function, and outputs a function corresponding to a key input by the user to the control unit A 401.

      In particular, the input unit 408 outputs to the control unit A 401 an input for executing the auxiliary camera application and an input for selecting a unique number or ID of the electrostatic compensation LED light auxiliary camera 330 according to the present invention. do.

      3 is a block diagram of the electrostatic compensation LED lighting auxiliary camera 330 according to an embodiment of the present invention, the electrostatic compensation LED lighting auxiliary camera 330 is a control unit B (400), the photographing unit 402 And an image processor B 404 and a short range wireless transceiver 406.

      The control unit B 400 of FIG. 3 controls the overall operation of the power failure compensation LED lighting auxiliary camera 330, and in addition to the normal function, when a connection is requested from the smart phone according to the present invention, short-range wireless communication is performed. Connected to the smart phone through the power failure compensation LED lighting auxiliary camera 330 selected from the smart phone received the unique number or ID (ID) of the camera according to the unique number or ID (ID) of the short-range wireless Control and process the functions provided by the smartphone through communication.

      The photographing unit 402 includes a camera sensor for converting an image signal into an electrical signal, and a signal processing unit for converting an image signal photographed from the electrostatic compensation LED lighting auxiliary camera 330 into data, and converting the image signal into data. The image signal converted into is outputted to the image processor B (404).

      In addition, the electrostatic compensation LED lighting auxiliary camera 330 is a unique number or ID of the electrostatic compensation LED lighting auxiliary camera 330 selected from the smart phone according to the present invention.

An image according to ID is photographed and provided to the image processor B 404.

      The image processor B 404 encodes an image signal input from the photographing unit 402 and outputs the image signal to the control unit B 400.

      The short range wireless transceiver 406 processes the signal received through the short range wireless communication, transmits the signal to the control unit B 400, encrypts a signal input from the control unit B 400, and performs a short range wireless communication. It serves to send to the smartphone.

      Here, the short range wireless communication may be a wireless LAN, Zigbee, Bluetooth, Ultra Wideband, or the like.

      4 is a flowchart of a smartphone for outputting an image of an electrostatic compensation LED lighting auxiliary camera according to an exemplary embodiment of the present invention. First, prior to the description, the name of the electrostatic compensation LED light auxiliary camera 330 and the name of the auxiliary camera 112 is considered to be the same.

       Referring to FIG. 4, if the auxiliary camera application is executed by the user in step 501, the smartphone proceeds to step 503 to request a connection through the short range wireless communication with the auxiliary camera.

      Here, the auxiliary camera application is an application (program) for the user to receive the image of the camera to facilitate the display on the smart phone.

       In operation 505, the smart phone checks whether the connection with the auxiliary camera is completed.

       If the connection with the auxiliary camera is not completed, the smartphone returns to step 503 and performs the following steps again.

      On the other hand, when the connection with the secondary camera is completed, the smartphone proceeds to step 507 and receives a unique ID of the secondary camera by the user.

      Here, it is assumed that a unique number (or ID) is assigned to each of the auxiliary cameras.

      In operation 509, the smart phone transmits the input information, that is, the user's unique number and ID of the auxiliary camera to the auxiliary camera through the short range wireless communication.

      In operation 511, when the image captured by the auxiliary camera is received, the smartphone proceeds to step 513 and outputs the received image to the display unit of the smartphone.

      That is, when the secondary camera is selected, the smartphone receives an image from the electrostatic secondary camera through short range wireless communication and outputs the image to the display unit.

      In operation 515, the smart phone checks whether the auxiliary camera application is terminated. When the auxiliary camera application is terminated, the smartphone releases short-range wireless communication connection with the auxiliary camera and terminates the process according to the present invention.

     First, when the secondary camera is requested to connect through the short-range wireless communication from the smartphone in step 601, the auxiliary camera proceeds to step 603 to perform the connection with the smartphone.

      In step 605, the auxiliary camera checks whether the connection between the smart phone and the short range wireless communication is completed.

      If the connection between the smart phone and the short range wireless communication is not completed, the auxiliary camera returns to step 603 to perform the following steps again.

      On the other hand, when the connection via the short-range wireless communication with the smartphone is completed, the secondary camera proceeds to step 607 and receives the selected secondary camera unique number (or ID) from the smart phone in step 609 the selected secondary camera unique number The image according to the ID (or ID) is transmitted to the smart phone through the short range wireless communication.

      In step 611, the auxiliary camera checks whether the auxiliary camera application is terminated. When the auxiliary camera terminates, the auxiliary camera proceeds to step 613 to release the connection with the smart phone and terminates the process according to the present invention.

      On the other hand, if the auxiliary camera application (program) is not terminated, the auxiliary camera returns to step 609 to perform the following steps again.

      The secondary camera then terminates the process according to the invention.

      In the following description of the present invention, it is determined that additional description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, and thus the detailed description thereof will be omitted.

       Next, as shown in the accompanying Figures 6 to 7 by using the wind and solar energy of the electrostatic compensation LED lighting device of the present invention as a bulb (bulb) type body 100 without supplying natural energy We will explain the cost of power use and the effect that construction and maintenance are convenient.

      As can be seen from Figures 6 to 7, the electrostatic compensation LED lighting device is formed of a housing in which the primary power storage unit 107 components are seated therein, and connected to an external power source on a part thereof to receive AC power. The body 100 having a bulb socket 101 and one side of the body 100 having the bulb socket 101 formed in the body 100 are vertically divided by the solar cell 103 and the wind power. By assembling and coupling the blade 104 to generate power while rotating to form the appearance of the lighting fixture, the dome-shaped auxiliary camera 112 toward the opposite side of the bulb socket 101 and the body 100 side downwards. The electrostatic compensation LED lighting device is configured to be coupled to the outer surface of the dome-shaped auxiliary camera and act as an electrically connected medium.

      At this time, the body 100 and the bulb socket 101 of the electrostatic compensation LED lighting device is coupled, and the bracket 116 of the support fixed to the bulb socket 101 is the outer thread and bracket of the bulb socket 101 The thread of the inner surface of the 116 is further included, it is further included an accessory binding material that is easy to engage.

     Thus, the electrostatic compensation LED lighting device is preferably an indoor and outdoor lighting fixture, including outdoor installation.

      Next, when the wind turbine 105 has a plurality of blades 104 in a horizontal cross section in plan view, the inner side is formed in a recessed shape and the outer side is formed in an opposite shape to face the inner side where lift is easily generated. It is preferable.

      In order to achieve the above object to store the power collected from the wind power and the solar cell shown in Figure 8 attached to, or to receive the external power supply to charge and supply the power to the LED module 111. To explain,

       Converter A 114 and converter B 115 for converting AC power into DC power; Charging unit for charging the primary power storage unit 107 and the secondary power storage unit 102 using an external power source

Control unit C (108) for controlling the operation of the LED module (111) with the power charged in the primary power storage unit 107 and the secondary power storage unit 102 in an electrically connected state (110);

      The control unit C 108 is composed of a voltage sensing module 117 for sensing the voltage of the external power source, and a low voltage control unit 118 that can increase the life of the secondary battery, the one side of the body 100 Built-in wind generator 105 has a blade 104 that can be rotated by wind power on the rotating shaft 106;

      A wind power generator 105 for generating electricity generated through wind power and a solar cell 103 for generating electricity with external sunlight;

      By using the USB terminal 109 for inputting and outputting the internal power to the outer surface of the body 100 is characterized in that it provides an environment that can be used without restrictions of the place.

      The converter A 114 and the converter B 115 convert AC into DC at the time of external power supply to supply power to the control unit C 108, and in parallel for the purpose of increasing the lifespan of the electrostatic compensation LED lighting device. It is effective to maintain long life by connecting.

      To describe the primary power storage unit 107, the charging unit 110 made of any one of an electric double layer capacitor (EDLC) or a hybrid capacitor connected to the controller C (108) to collect the power collected through an external power supply and wind and solar power. To the power supply.

      The secondary power storage unit 102 is formed of any one of a hybrid battery, a nickel-metal hydride battery, and a lithium polymer battery, and is connected to the primary power storage unit 107 in parallel to improve the charging efficiency.

     On the other hand, the characteristic elements of the control unit C (108) controls the charging unit 110 for charging the converter power and wind and solar power, and the internal voltage sensing module 117 built-in energy of the solar cell 103 Is measured so that the voltage of the solar cell 103 is below the reference level, and the LED module 111 is turned on by the power of the power storage unit, and the internal low voltage controller 118 is configured to output when the voltage falls below the reference voltage. The switch 119 is preferably turned off to extend the life of the secondary battery.

      In addition, the secondary power storage unit 102 is embedded in the body 100 to be easily detached and formed by forming a secondary power storage cover 113 to facilitate maintenance.

      On the other hand, the charging unit 110 includes the external power input to the primary power storage unit 107, the secondary power storage unit 102 to be charged with a constant voltage and constant current device, an IC and a reverse current prevention diode and a resistor, etc. The output voltages of the primary power storage unit 107 and the secondary power storage unit 102 may be output to the LED module 111 through the constant voltage and the constant current device and the IC, or a current limiting resistor.

      Additional use of a fuse (FUSE), a thermal fuse, a temperature sensor, etc. for the purpose of overcurrent and overvoltage protection of the secondary power storage unit 102 will be omitted in the gist of the present invention.

      Prior to the description of the electricity storage unit, an electric double layer usually used for general purposes

The characteristics of the capacitor (EDLC) or the hybrid capacitor will be omitted, and in particular, a characteristic element of the hybrid battery is a high output hybrid battery that has a long life characteristic as well as a large current pulse discharge by parallel hybridizing a large-area high output electric double layer capacitor. The shape and type of the capacitor are not limited thereto, and various batteries for storing energy may be applied.

      As described so far, the present invention has been expressed in the above description and drawings, but this is merely an example, and the spirit of the present invention is not limited to the above description and drawings, and various modifications may be made without departing from the technical idea of the present invention. Of course, change and change are possible.

100: body 101: bulb socket 102: secondary power storage
103: solar cell 104: blade 105: wind generator
106: rotary shaft 107: primary power storage unit 108: control unit C
109: USB terminal 110: charging unit 111: LED module
112: auxiliary camera 113: secondary power storage unit cover
114: converter A 115: converter B 116: bracket
117: voltage sensing module 118: low voltage control unit 119: output switch
120: diode a 121: diode b
200: wireless LAN device 210: first communication unit 220: image update information storage unit
230: second communication unit 240: image update target determination unit
330: power failure compensation LED lighting auxiliary camera
400: control unit B 401: control unit A 402: recording unit
403: Image processor A 404: Image processor B 406: Short-range wireless transceiver
407: display unit 408: input unit

Claims (26)

In the blackout compensation LED lighting auxiliary camera system in the wireless LAN area,
Power failure compensation LED lighting auxiliary camera 330 stores and manages the MAC address (Media Access Control Address, hereinafter, 'unique number') and image, software, contents and update history information according to the unique number, and the internet network. A central server 310 transmitting and receiving update history information according to a unique number of a local server 320 installed in the wireless LAN area and a power failure compensation LED lighting auxiliary camera 330;
Installed in the wireless LAN area, the unique number of the blackout compensation LED lighting auxiliary camera 330, and the image, software, content and update history information according to the unique number from the central server 310 to store and manage? In addition, the wireless signal for updating the image, software, and content through the wireless LAN device 200 installed in the wireless LAN region in which the power failure compensation LED lighting auxiliary camera 330 is transmitted and received with the power failure compensation LED lighting auxiliary camera 330. By determining whether it is an update target, and if the update target, the image, software and content is transmitted to the power failure compensation LED light auxiliary camera 330, the image, update history information of the updated power failure compensation LED light auxiliary camera 330 Local server 320 for transmitting to the central server 310; And
After receiving the access request signal for updating the image, software and content from the local server 320 through the wireless LAN device 200, and transmits the access permission signal or the access rejection signal accordingly, the power failure compensation LED lighting assistance When the camera 330 is an update target, the local server 320 receives an approval request signal and transmits the approval signal to the local server 320, and then the latest image, software, and content are received from the local server 320. Outage compensation LED lighting auxiliary camera for receiving and storing 330; Including,
The local server 320,
Receives the image, software, content and update history information according to the unique number of the power failure compensation LED light auxiliary camera 330 from the central server 310 through the Internet (Internet) network, and updated the power failure compensation LED light auxiliary camera ( A first communication unit 210 for transmitting the update history information of 330 to the central server 310;
An image update information storage unit 220 storing and managing an image, software, content, and update history information according to a unique number of the power failure compensation LED lighting auxiliary camera 330 received through the first communication unit 210;
By transmitting and receiving the connection request signal and the access permission signal for updating the image, software, and content through the power failure compensation LED light auxiliary camera 330 and the wireless LAN device 200, it is unique from the power failure compensation LED light auxiliary camera 330 A second communication unit 230 which receives a number and transmits the image, software and contents according to the unique number to the power failure compensation LED lighting auxiliary camera 330; And update history information of the unique number received from the power failure compensation LED light auxiliary camera 330 through the second communication unit 230 and the corresponding power failure compensation LED light auxiliary camera 330 stored in the image update information storage unit 220. By comparing, the image update target determination unit 240 for determining whether the corresponding blackout compensation LED lighting auxiliary camera 330 is the update target; Blackout compensation LED lighting auxiliary camera system comprising a. delete The method of claim 1,
When the second communication unit 230 is not an update target or receives an approval rejection signal from the power failure compensation LED light auxiliary camera 330, the second communication unit 230 transmits a communication cutoff signal to the power failure compensation LED light auxiliary camera 330. Blackout compensation LED lighting auxiliary camera system, characterized in that. The method of claim 1,
The update history information, the blackout compensation LED lighting auxiliary camera system, characterized in that the image, software, content, week / month / year update service. A wireless LAN device in a method of downloading images, software and contents in a wireless LAN area using a blackout compensation LED lighting auxiliary camera system composed of a central server 310, a local server 320, and a blackout compensation LED lighting auxiliary camera 330. The power failure compensation LED light auxiliary camera 330 receiving the connection request signal for updating the image, software, and content from the 200 receives the unique number of the power failure compensation LED light auxiliary camera 330 according to the connection request signal. Transmitting to the local server 320 through the LAN apparatus 200;
By comparing the unique number of the electrostatic compensation LED lighting auxiliary camera 330 received by the local server 320 and the history information of the stored electrostatic compensation LED lighting auxiliary camera 330, the corresponding electrostatic compensation LED lighting auxiliary camera 330 Determining whether is an update target;
The local server 320 transmitting an update approval request signal to the power failure compensation LED lighting auxiliary camera 330 through the wireless LAN device 200 when the unique number and history information are determined to be an update target;
Transmitting the approval signal to the local server 320 through the wireless LAN device 200 when the power failure compensation LED lighting auxiliary camera 330 intends to approve an update;
Transmitting, by the local server 320, the latest image, software, and content of the power failure compensation LED lighting auxiliary camera 330 through the wireless LAN device 200;
Receiving and storing the latest image, software, and content by the power failure compensation LED lighting auxiliary camera 330;
Storing, by the local server (320), the updated update history information, and transmitting the updated update history information to the central server (310) through an internet network;
Storing separately photographed images in a built-in memory as power storage of the power failure compensation LED lighting auxiliary camera 330 when communication and power are cut off and restored;
Transmitting a connection request signal for updating images, software, and content through the wireless LAN device 200 in the wireless LAN region in which the blackout compensation LED lighting auxiliary camera 330 is installed, to the blackout compensation LED lighting auxiliary camera 330. Image, software and content download method in a WLAN area comprising a. delete The method of claim 5,
And storing, by the central server (310), image update history information transmitted from the local server (320). The method of claim 7, wherein
If it is not an image update target, the local server 320 further comprises the step of transmitting a communication cutoff signal to the power failure compensation LED lighting auxiliary camera 330, the image, software and content in a wireless LAN region How to download. The method of claim 8,
If the power failure compensation LED lighting auxiliary camera 330 does not want to update the image, the wireless LAN device 200 transmits an approval rejection signal to the local server 320 and receives the approval rejection signal from the local. The server 320 further comprises the step of transmitting a communication cutoff signal to the power failure compensation LED lighting auxiliary camera (330). 10. The method of claim 9,
Image, software and content download method in a wireless LAN area, characterized in that for transmitting the internal memory image signal to the local server (320) during communication and power recovery. In the method of servicing the image to the smartphone from the blackout compensation LED lighting auxiliary camera 330,
When the connection request is made from the smart phone, connecting through short-range wireless communication;
Transmitting an image signal of the electrostatic compensation LED lighting auxiliary camera 330 selected from the smartphone to the smartphone;
Method for providing an image to a smart phone, comprising the step of assigning a unique number or ID (ID) for each of the blackout compensation LED lighting auxiliary camera (330). In the method for servicing the image of the power failure compensation LED lighting auxiliary camera 330 in a smartphone,
Requesting to connect the power failure compensation LED lighting auxiliary camera 330 through short-range wireless communication when an image service application (program) is executed;
Transmitting a selected image of the power failure compensation LED lighting auxiliary camera 330 through the short range wireless communication; Outputting the selected image to the display unit 407 when the selected image signal is received from the electrostatic compensation LED lighting auxiliary camera 330;
Method for providing an image to a smart phone, comprising the step of assigning a unique number or ID (ID) for each of the blackout compensation LED lighting auxiliary camera (330). The method according to claim 11 or 12, wherein
The short-range wireless communication is a wireless LAN, Zigbee (Zigbee), Bluetooth (Bluetooth), ultra wideband (Ultra Wideband) any one of a method for providing an image service to a smart phone. A secondary camera 112 is assembled to the body 100, the bulb socket 101 is formed so as to receive an external power, and the opposite side portion of the side of the bulb socket 101 is formed.
An LED module 111 coupled to an outer surface of the auxiliary camera 112 and electrically connected thereto;
A wind generator 105 generating electricity via wind power on one side of the body 100;
The built-in wind generator 105 may include two or more blades 104 coupled to the outer surface of the body 100 so as to rotate with wind power on the rotation shaft 106;
A bracket 116 supporting the body 100 fixedly coupled to the bulb socket 101;
A solar cell 103 for generating electricity with sunlight on an outer surface of the body 100;
A USB terminal 109 for inputting and outputting internal power to an outer surface of the body 100;
Converter A (114), Converter B (115) for converting external power into DC power through the bulb socket 101;
A primary power storage unit 107 and a secondary power storage unit 102 embedded in the body 100; The primary power storage unit 107 and the secondary power storage unit 102 in an electrically connected state with the charging unit 110 that charges the primary power storage unit 107 and the secondary power storage unit 102 using an external power source. Control unit C (108) for controlling the operation of the LED module 111 with the power charged in the;
The control unit C 108 includes an internal voltage sensing module 117 that senses external power, and a low voltage controller 118 that controls the voltage and current of the secondary battery.
The converter A 114 and the converter B 115 are connected in parallel with each other,
The primary power storage unit 107 and the secondary power storage unit 102 are connected in parallel with each other,
The internal voltage detection module 117 detects the voltage of the solar cell 103 to light the power of the primary power storage unit 107 and the secondary power storage unit 102 in the middle of the night to determine whether it is midnight,
The internal low voltage controller 118, the electrostatic compensation LED lighting device, characterized in that to stop the output of the secondary power storage unit 102 by turning off the output switch (119) when the reference voltage falls below the reference voltage. The method of claim 14,
The charging unit of the electrostatic compensation LED lighting device,
Capacitance compensation LED lighting device, characterized in that it comprises a charge to a constant voltage and a constant current device or IC for controlling the external power input to the primary power storage unit 107, the secondary power storage unit (102). The method of claim 14,
The primary power storage unit 107,
Electrostatic compensating LED lighting device, characterized in that provided with any one or more of a hybrid capacitor, an electric double layer capacitor, and a hybrid battery produced differently in the configuration of the positive electrode and the negative electrode. The method of claim 14,
The secondary power storage unit 102,
It is configured to be detachably attached to the body 100 and configured to the secondary power storage portion cover 113; Electrostatic compensation LED lighting device, characterized in that provided with at least one of a nickel-hydrogen battery, a lithium polymer battery, a hybrid battery easy to charge and discharge. delete The method of claim 14,
The secondary power storage unit 102, the electrostatically compensated LED lighting device, characterized in that to cut the output voltage and current by turning off the output switch (119) when it falls below the reference voltage. The method of claim 14,
The blade 104 has a horizontal cross-sectional view in plan view, the inner side is formed in a recessed shape and the outer side is an electrostatic compensation LED lighting device provided in the opposite shape facing the inner side is easy to generate lift. The method of claim 14,
The control unit C 108 measures the output voltage of the solar cell 103 so that the voltage of the primary power storage unit 107 and the secondary power storage unit 102 when the voltage of the solar cell 103 is lower than the reference value. Capacitance compensation LED lighting device characterized in that it further comprises a control unit output to the LED module 111. The method of claim 14,
Wind generator 105, the solar cell 103, the auxiliary camera 112, the electrostatic compensation LED lighting device, characterized in that configured by selecting one or more of the body (100). The method of claim 14,
The converter A (114), converter B (115) is an electrostatically compensated LED lighting device, characterized in that can be used in parallel connected electrically. The method of claim 14,
Capacitance compensation LED lighting device, characterized in that the output voltage of the primary power storage unit 107 and the secondary power storage unit 102 is output through the diode b (121). 16. The method of claim 15,
One or any one or more of the constant voltage and constant current devices and the IC for controlling the external power input from the charging unit 110 to the secondary power storage unit 102 or the reverse current prevention diode and the current limiting resistor may be selected and charged. Blackout compensation LED lighting device, characterized in that configured. 25. The method of claim 24,
Electrostatic compensation, characterized in that the output voltage of the primary power storage unit 107 and the secondary power storage unit 102 is output to the LED module 111 through a constant voltage and a constant current device and IC, or a current limiting resistor, etc. LED lighting device.

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