JP2010040495A - Fluorescent lamp type led lamp with control function, and fluorescent lamp type led lamp control system - Google Patents

Fluorescent lamp type led lamp with control function, and fluorescent lamp type led lamp control system Download PDF

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JP2010040495A
JP2010040495A JP2008208730A JP2008208730A JP2010040495A JP 2010040495 A JP2010040495 A JP 2010040495A JP 2008208730 A JP2008208730 A JP 2008208730A JP 2008208730 A JP2008208730 A JP 2008208730A JP 2010040495 A JP2010040495 A JP 2010040495A
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lamp
type led
led lamp
fluorescent
fluorescent lamp
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Young Sun Park
永 善 朴
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Msm Tech Co Ltd
株式会社エムエスエムテック
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K9/00Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K9/00Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
    • F21K9/20Light sources comprising attachment means
    • F21K9/27Retrofit light sources for lighting devices with two fittings for each light source, e.g. for substitution of fluorescent tubes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K9/00Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
    • F21K9/20Light sources comprising attachment means
    • F21K9/27Retrofit light sources for lighting devices with two fittings for each light source, e.g. for substitution of fluorescent tubes
    • F21K9/272Details of end parts, i.e. the parts that connect the light source to a fitting; Arrangement of components within end parts
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHTING NOT OTHERWISE PROVIDED FOR
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of the light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/105Controlling the light source in response to determined parameters
    • H05B47/11Controlling the light source in response to determined parameters by determining the brightness or colour temperature of ambient light
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHTING NOT OTHERWISE PROVIDED FOR
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of the light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/175Controlling the light source by remote control
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2103/00Elongate light sources, e.g. fluorescent tubes
    • F21Y2103/10Elongate light sources, e.g. fluorescent tubes comprising a linear array of point-like light-generating elements
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fluorescent lamp type LED lamp with a control function, and a fluorescent lamp type LED lamp control system capable of controlling, in a remote place, the light-on/out states of an LED element used as a light source of the fluorescent lamp type LED lamp and controlling and monitoring the state of the fluorescent lamp type LED lamp in a state that a manager does not go to a site for confirmation when the fluorescent lamp type LED lamp is installed in an unmanned place. <P>SOLUTION: The fluorescent lamp type LED lamp is provided with a means for allowing radio transmission/reception to/from a fluorescent lamp type LED lamp control device installed in the remote place. A power source control signal for lighting or putting out the LED element or a luminance adjustment signal for adjusting the luminance of the LED element is sent out from the fluorescent lamp type LED lamp control device so that not only the LED lamp installed in the remote place can be lighted or put out but also the luminance can be adjusted, thereby having the control function of controlling and monitoring the state of the LED lamp installed in the unmanned place in the state that a the manager does not go to the site for confirmation. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

本発明は、制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムに関するものである。より詳細には、蛍光灯型LEDランプの光源として使用されるLED素子の点灯または消灯状態を遠隔地で制御可能にし、無人の場所に蛍光灯型LEDランプが設置された場合、管理者が現場に行って確認していない状態で、その状態を制御してモニタリングを可能にする制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムに関するものである。   The present invention relates to a fluorescent lamp type LED lamp having a control function and a fluorescent lamp type LED lamp control system. More specifically, the lighting or extinguishing state of the LED element used as the light source of the fluorescent LED lamp can be controlled remotely, and if the fluorescent LED lamp is installed in an unattended location, the administrator The present invention relates to a fluorescent lamp type LED lamp and a fluorescent lamp type LED lamp control system having a control function that enables monitoring by controlling the state in a state that has not been confirmed.
蛍光灯は、一般のスーパーや電気屋で手軽に購入できるだけでなく、価格も安価で設置方法が容易であるため、老若男女を問わず、誰でも設置が可能であり、看板業界だけでなく全照明業界で最も長い間、最も多く使用されてきた光源である。   Fluorescent lamps can be easily installed at general supermarkets and electrical stores, and are inexpensive and easy to install, allowing anyone to install regardless of age or gender. It has been the most used light source for the longest time in the lighting industry.
しかし、蛍光灯の場合、黒点現象、短寿命などで交換が多く、色、形態などデザイン表現に限界があり、蛍光物質を使用するために、環境問題を重要視する照明市場の流れに反するため、次第に他光源に代替されている傾向にある。   However, in the case of fluorescent lamps, there are many replacements due to sunspot phenomenon, short life, etc., and there is a limit to the design expression such as color and form, and because it uses fluorescent substances, it is against the trend of the lighting market that places importance on environmental issues There is a tendency to gradually replace other light sources.
他光源として最も注目されているのはLED(LED,Light Emitting Diode)素子であり、これは1962年GaAsP化合物半導体を利用した赤色LED素子が商品化されたことをはじめとして、GaP:N系の緑色LED素子とともに今まで情報通信機器をはじめとする電子装置の表示用光源として用いられてきた。   The LED (LED, Light Emitting Diode) element that has attracted the most attention as another light source is the GaP: N series, including the red LED element that used GaAsP compound semiconductors in 1962. Along with green LED elements, it has been used as a display light source for electronic devices such as information communication equipment.
また、1990年代中盤以降、GaN青色LED素子が開発され、天然色ディスプレイが製造可能になった。   Since the mid-1990s, GaN blue LED elements have been developed, making it possible to produce natural color displays.
代表的な利用分野としては、携帯電話の液晶表示素子やキーパッド用バックライトがあげられるが、これ以外にも屋外用大型電光掲示板、交通信号灯器、自動車の計器盤および尾灯、港湾、空港、高層ビルディングの警告灯および誘導灯など、多様なところに使用されている。   Typical applications include cell phone liquid crystal display elements and keypad backlights, but besides this, large outdoor electric bulletin boards, traffic signal lamps, automobile instrument panels and taillights, ports, airports, It is used in various places such as warning lights and guide lights in high-rise buildings.
また、LED素子は、半導体の迅速な処理速度と低い電力消耗などの長所とともに、環境にやさしくて省エネルギー効果が高いため、次世代国家戦略品目として注目されている。   In addition, LED elements are attracting attention as a next-generation national strategic item because they have advantages such as rapid processing speed of semiconductors and low power consumption, as well as being environmentally friendly and highly energy-saving.
また、LED素子の長所は、既存の光源に比べて極小型であり、消費電力が低く、寿命が既存の電球に比べて10倍以上であり、反応速度が速く、既存の光源に比べて非常に優れた特性を有している。また、紫外線のような有害波の放出がなく、水銀およびその他放電用ガスを使用しない環境問題を考慮した光源である。   The advantages of the LED element are that it is extremely small compared to existing light sources, consumes less power, has a lifetime that is more than 10 times that of existing light bulbs, has a fast reaction speed, and is extremely superior to existing light sources. It has excellent characteristics. In addition, it is a light source that does not emit harmful waves such as ultraviolet rays and that considers environmental problems that do not use mercury and other discharge gases.
しかし、LED素子はエネルギーが光の形態だけでなく、熱の形態でも放出されるため、高温になりやすい特性を有する。高温を冷却させるためにLEDランプの外部に通孔を構成する形態のランプが一部あるが、通孔を通じて流入した埃やその他害虫などによって、LEDランプの効率が著しく減少する。また、放熱による高温のためLEDの寿命が減少するため、LEDの発熱を冷却させるための研究は持続的に行われている。   However, the LED element has a characteristic that it easily reaches a high temperature because energy is emitted not only in the form of light but also in the form of heat. There are some lamps that form a through-hole outside the LED lamp to cool the high temperature, but the efficiency of the LED lamp is significantly reduced by dust and other pests flowing through the through-hole. In addition, since the life of LEDs is reduced due to the high temperature due to heat dissipation, research to cool the heat generated by LEDs is ongoing.
また、LED素子の光は直進性があり、LED素子の真下は非常に明るいが、周辺は暗い。したがって、一般ランプとして使用するためにはLED素子の直進性が強い光を拡散させることができる別途の装置が必要である。   In addition, the light from the LED element is straight, and the area immediately below the LED element is very bright, but the surrounding area is dark. Therefore, in order to use as a general lamp, a separate device capable of diffusing light whose LED element has high straightness is required.
これにより、本発明は、従来技術の問題点を解消して必要性により案出されたものであり、本発明は、蛍光灯型LEDランプの光源として使用されるLED素子の点灯または消灯状態を遠隔地で制御可能にし、無人の場所に蛍光灯型LEDランプが設置された場合、管理者が現場に行って確認していない状態で、その状態を制御してモニタリングが可能な制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムを提供することを目的とする。   As a result, the present invention has been devised according to necessity by solving the problems of the prior art, and the present invention can be used to determine whether the LED element used as a light source of a fluorescent LED lamp is turned on or off. When a fluorescent type LED lamp is installed in an unattended location, it can be controlled remotely, and it has a control function that can monitor and monitor the status without checking by the administrator An object of the present invention is to provide a fluorescent lamp type LED lamp and a fluorescent lamp type LED lamp control system.
また、本発明は、LED駆動装置を蛍光灯型LEDランプ本体の外部に装着させることによって、LED駆動装置の作動時に発生する熱による影響を最小化することができる制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムを提供することを目的とする。   Further, the present invention provides a fluorescent lamp type LED having a control function capable of minimizing the influence of heat generated during operation of the LED driving apparatus by mounting the LED driving apparatus outside the fluorescent lamp type LED lamp body. An object of the present invention is to provide a lamp and fluorescent lamp type LED lamp control system.
また、本発明は、LED素子にDC電源を供給するLED駆動装置の外側に温度調節部を備え、LED駆動装置の装置内部または装置外部の温度により発熱または吸熱機能を行うことによって、LED駆動装置の装置内部温度または装置外部温度を上昇または下降させることができる制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムを提供することを目的とする。   The present invention also includes a temperature control unit outside the LED driving device that supplies DC power to the LED element, and performs the heat generation or heat absorption function depending on the temperature inside or outside the LED driving device. It is an object of the present invention to provide a fluorescent lamp type LED lamp and a fluorescent lamp type LED lamp control system having a control function capable of raising or lowering the internal temperature or external temperature of the apparatus.
また、本発明は、温度調節部外側に放熱部材をさらに備え、温度調節部による温度上昇または温度下降機能がさらに効率的に行われるようにする制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムを提供することを目的とする。   In addition, the present invention further includes a heat dissipation member outside the temperature adjustment unit, and has a control function that allows a temperature increase or temperature decrease function by the temperature adjustment unit to be performed more efficiently. An object is to provide an LED lamp control system.
また、本発明は、光源として使用されるLED素子を外部から隔離させることができるカバーを拡散物質が含まれた材質である部材を用いて製作することによって、別途の拡散板または拡散フィルムを備えなくても、LED素子から放出される光がスムーズに拡散してLED素子の残像などを未然に除去できる制御機能を有する蛍光灯型LEDランプおよび蛍光灯型LEDランプ制御システムを提供することを目的とする。   The present invention also includes a separate diffusion plate or diffusion film by manufacturing a cover that can isolate an LED element used as a light source from the outside using a member that is a material containing a diffusion material. The purpose of the present invention is to provide a fluorescent lamp type LED lamp and a fluorescent lamp type LED lamp control system having a control function that allows light emitted from the LED element to smoothly diffuse and remove afterimages of the LED element in advance. And
上記目的を達成するために、本発明の実施例は、LED素子を光源として使用する蛍光灯型LEDランプと、AC電源をDC電源に変換する電源変換部と、外部の遠隔調整機から遠隔制御信号を受信する無線送受信部と、上記無線送受信部を通じて受信される遠隔制御信号に応じて電源制御信号を出力する制御部と、上記制御部の電源制御信号に応じて上記電源変換部のDC電源を上記LED素子に供給または遮断させるスイッチ部を含むLED駆動装置とを含んでなることを特徴とする。   In order to achieve the above object, an embodiment of the present invention includes a fluorescent lamp type LED lamp that uses an LED element as a light source, a power conversion unit that converts AC power into DC power, and remote control from an external remote controller. A wireless transmission / reception unit that receives a signal; a control unit that outputs a power control signal in accordance with a remote control signal received through the wireless transmission / reception unit; and a DC power source of the power conversion unit in accordance with a power control signal of the control unit And an LED driving device including a switch unit for supplying or blocking the LED element to or from the LED element.
また、本発明の他実施例は、LED素子を光源として使用する蛍光灯型LEDランプと、AC電源をDC電源に変換する電源変換部と、外部から遠隔制御信号を受信する無線送受信部と、上記無線送受信部を通じて受信される遠隔制御信号に応じて電源制御信号を出力する制御部と、上記制御部の電源制御信号に応じて上記電源変換部のDC電源を上記LED素子に供給または遮断させるスイッチ部を含むLED駆動装置と、管理者の操作により、またはあらかじめセットされている条件により、上記LED駆動装置に遠隔制御信号を送出する蛍光灯型LEDランプモニタリング装置とを含んでなることを特徴とする。   In addition, another embodiment of the present invention includes a fluorescent lamp type LED lamp using an LED element as a light source, a power conversion unit that converts AC power into DC power, a wireless transmission / reception unit that receives a remote control signal from the outside, A control unit that outputs a power control signal according to a remote control signal received through the wireless transmission / reception unit, and a DC power source of the power conversion unit is supplied to or cut off from the LED element according to a power control signal of the control unit An LED driving device including a switch unit, and a fluorescent lamp type LED lamp monitoring device that sends a remote control signal to the LED driving device according to an operation of an administrator or under preset conditions. And
したがって本発明は、蛍光灯型LEDランプの光源として使用されるLED素子の点灯または消灯状態を遠隔地で制御可能にし、無人の場所に蛍光灯型LEDランプが設置された場合、管理者が現場に行って確認していない状態で、その状態を制御してモニタリングを可能にするという効果がある。   Therefore, the present invention makes it possible to remotely control the on / off state of the LED element used as the light source of the fluorescent lamp type LED lamp, and when the fluorescent lamp type LED lamp is installed in an unattended place, the administrator can There is an effect of enabling monitoring by controlling the state in a state that has not been confirmed.
また、本発明は、LED駆動装置を蛍光灯型LEDランプ本体の外部に装着させることによって、LED駆動装置の作動時に発生する熱による影響を最小化できるという効果がある。   In addition, the present invention has an effect that the influence of heat generated during operation of the LED driving device can be minimized by mounting the LED driving device outside the fluorescent lamp type LED lamp body.
また、本発明は、LED素子にDC電源を供給するLED駆動装置の外側に温度調節部を備え、LED駆動装置の装置内部または装置外部の温度により、発熱または吸熱機能を行うことによって、LED駆動装置の装置内部温度または装置外部温度を上昇または下降させることができるという効果がある。   In addition, the present invention includes a temperature control unit outside the LED driving device that supplies DC power to the LED element, and performs LED heating by performing heat generation or heat absorption functions depending on the temperature inside or outside the LED driving device. There is an effect that the temperature inside the device or the temperature outside the device can be raised or lowered.
また、本発明は、温度調節部の外側に放熱部材をさらに備え、温度調節部による温度上昇または温度下降機能がさらに効率的に行われるという効果がある。   In addition, the present invention further includes a heat dissipating member outside the temperature adjusting unit, and has an effect that the temperature increasing or temperature decreasing function by the temperature adjusting unit is more efficiently performed.
また、本発明は、光源として使用されるLED素子を外部から隔離させることができるカバーを拡散物質が含まれた材質である部材を利用して製作することによって、別途の拡散板または拡散フィルムを備えなくても、LED素子から放出される光がスムーズに拡散してLED素子の残像などを未然に除去できるという効果がある。   The present invention also provides a separate diffusion plate or diffusion film by manufacturing a cover that can isolate an LED element used as a light source from the outside using a member made of a material containing a diffusion material. Even if it is not provided, there is an effect that light emitted from the LED element can be smoothly diffused and an afterimage of the LED element can be removed in advance.
以下、本発明の一実施例を添付図面により詳しく説明する。ただし、本発明は本実施例に限定されるものではない。   Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to this embodiment.
本発明が適用された蛍光灯型LEDランプは、上部カバー20に拡散カバー30を結合させて半円筒形状を有し、LED駆動装置60が物理的力によって上部カバー20に装着または脱着可能に備える一方、上部カバー20の上部に半円筒状の放熱部材70を備え、蛍光灯型LEDランプ100の両端部がチューブ形状を有するように製作される。   The fluorescent lamp type LED lamp to which the present invention is applied has a semi-cylindrical shape in which a diffusion cover 30 is coupled to the upper cover 20, and the LED driving device 60 is provided so that it can be attached to or detached from the upper cover 20 by physical force. On the other hand, a semi-cylindrical heat radiating member 70 is provided on the upper part of the upper cover 20, and both ends of the fluorescent lamp type LED lamp 100 are manufactured to have a tube shape.
これにより、本発明が適用された蛍光灯型LEDランプは、従来の蛍光灯と同一の形状を有し、既に設置されている蛍光灯の接続端子に本発明が適用された蛍光灯型LEDランプ100の端子ピン51、52を結合させることによって、従来の蛍光灯設置方式と同一の方式で設置することができる。   Thereby, the fluorescent lamp type LED lamp to which the present invention is applied has the same shape as the conventional fluorescent lamp, and the fluorescent lamp type LED lamp to which the present invention is applied to the connection terminal of the already installed fluorescent lamp. By connecting 100 terminal pins 51 and 52, it can be installed in the same manner as the conventional fluorescent lamp installation method.
上記制御機能を有する蛍光灯型LEDランプについて、図1ないし図6を参照して詳細に説明する。   The fluorescent LED lamp having the above control function will be described in detail with reference to FIGS.
(制御機能を有する蛍光灯型LEDランプ)
図1は、本発明が適用された制御機能を有する蛍光灯型LEDランプの分解斜視図である。図1に示すように、LED素子11を光源として使用する蛍光灯型LEDランプ100と、LED素子11にDC電源を供給するためのLED駆動装置60とで構成される。
(Fluorescent LED lamp with control function)
FIG. 1 is an exploded perspective view of a fluorescent LED lamp having a control function to which the present invention is applied. As shown in FIG. 1, a fluorescent lamp type LED lamp 100 using the LED element 11 as a light source and an LED driving device 60 for supplying DC power to the LED element 11 are configured.
LED駆動装置60はAC電源をDC電源に変換する電源変換部67と、外部の遠隔調整機から遠隔制御信号を受信する無線送受信部69と、無線送受信部69を通じて受信される遠隔制御信号に応じて電源制御信号を出力する一方、上記遠隔制御信号がランプ照度調節信号であるかどうかを判断し、ランプ照度調節信号の場合、上記遠隔制御信号に対応するランプ照度調節制御信号を出力する制御部66と、制御部66の電源制御信号に応じて電源変換部67のDC電源をLED素子11に供給または遮断させるスイッチ部68と、制御部66のランプ照度調節制御信号に応じて上記複数のLED素子11に供給される電源の出力レベルを調節する電源調節部96と、蛍光灯型LEDランプの周辺の照度を測定する照度センサ97とで構成される。   The LED driving device 60 includes a power converter 67 that converts AC power into DC power, a wireless transmitter / receiver 69 that receives a remote control signal from an external remote controller, and a remote control signal received through the wireless transmitter / receiver 69. A controller that determines whether the remote control signal is a lamp illuminance adjustment signal, and outputs a lamp illuminance adjustment control signal corresponding to the remote control signal in the case of the lamp illuminance adjustment signal. 66, a switch unit 68 that supplies or shuts off the DC power of the power conversion unit 67 to the LED element 11 according to the power control signal of the control unit 66, and the plurality of LEDs according to the lamp illuminance adjustment control signal of the control unit 66 A power supply adjustment unit 96 that adjusts the output level of the power supplied to the element 11 and an illuminance sensor 97 that measures the illuminance around the fluorescent LED lamp.
このとき、制御部66は、照度センサ97から入力される照度測定信号をチェックしてチェック結果に対応するランプ照度調節制御信号を生成し、電源調節部96に出力する。   At this time, the control unit 66 checks the illuminance measurement signal input from the illuminance sensor 97, generates a lamp illuminance adjustment control signal corresponding to the check result, and outputs it to the power supply adjustment unit 96.
ここで、照度センサ97は、LED駆動装置60の外側の一面に取り付けて備えられ、LED駆動装置60の周辺照度を測定する。   Here, the illuminance sensor 97 is provided on one surface outside the LED driving device 60, and measures the illuminance around the LED driving device 60.
LED駆動装置60は、蛍光灯型LEDランプ100に物理的に加えられる力によって装着脱可能に結合される。   The LED driving device 60 is detachably coupled by a force physically applied to the fluorescent lamp type LED lamp 100.
蛍光灯型LEDランプ100は、図1に示すように、LED素子11が一定間隔で固定配列され、複数のAC電源供給端子12、13および複数のDC電源供給端子14、15が備えられた回路基板10と、回路基板10がその下部に取付固定され、複数のAC電源供給端子12、13および複数のDC電源供給端子14、15が外部に露出するように結合孔25が形成された上部カバー20と、回路基板10の上側に備えられ、上部カバー20に結合してLED素子11から放出された光を拡散する拡散カバー30と、結合した拡散カバー30と上部カバー20の両端にはめ込まれて結合し、商用電源がAC電源供給端子12、13に供給されるようにするAC電源供給ライン41が備えられた電気接続部40と、電気接続部40上部に結合して電気接続部40と電気的に接続される一対の端子ピン51、52が備えられており、電気接続部40を外部環境から分離させる端子部50と、LED駆動装置の両側面に所定間隔で離隔された状態で結合部材によって上部カバーに結合する放熱部材70とで構成される。   As shown in FIG. 1, the fluorescent lamp type LED lamp 100 is a circuit in which the LED elements 11 are fixedly arranged at regular intervals, and are provided with a plurality of AC power supply terminals 12, 13 and a plurality of DC power supply terminals 14, 15. An upper cover in which a coupling hole 25 is formed so that a plurality of AC power supply terminals 12 and 13 and a plurality of DC power supply terminals 14 and 15 are exposed to the outside, with the board 10 and the circuit board 10 attached and fixed to the lower part thereof 20 and a diffusion cover 30 which is provided on the upper side of the circuit board 10 and which is coupled to the upper cover 20 and diffuses light emitted from the LED element 11, and is fitted to both ends of the coupled diffusion cover 30 and the upper cover 20. An electrical connection 40 having an AC power supply line 41 coupled to allow commercial power to be supplied to the AC power supply terminals 12 and 13, and an electrical connection 40 connected to the upper portion of the electrical connection 40. A pair of terminal pins 51, 52 connected to each other so that the electrical connection 40 can be connected to the external environment. Composed of the terminal section 50 to separate, and the heat radiation member 70 for coupling the upper cover by coupling member in a state where the both sides spaced at a predetermined interval of the LED driving device.
放熱部材70は、複数の放熱ピン71が形成されており、その形状が半円筒形状である。   The heat radiating member 70 is formed with a plurality of heat radiating pins 71, and the shape thereof is a semi-cylindrical shape.
AC電源供給端子12、13またはDC電源供給端子14、15と結合孔25の間に防水部材26が備えられ、防水部材26はオーリング形状であり、絶縁材質からなる。   A waterproof member 26 is provided between the AC power supply terminals 12 and 13 or the DC power supply terminals 14 and 15 and the coupling hole 25. The waterproof member 26 has an O-ring shape and is made of an insulating material.
回路基板10は、上部カバー20の両側端部から所定間隔で離隔された状態で備えられ、電気接続部40のAC電源供給ライン41は、回路基板10と上部カバー20の間に形成された空間の内側に位置する。   The circuit board 10 is provided in a state of being separated from both end portions of the upper cover 20 at a predetermined interval, and the AC power supply line 41 of the electrical connection part 40 is a space formed between the circuit board 10 and the upper cover 20 Located inside.
上部カバー20と拡散カバー30の結合面に防水部材80が備えられ、このとき、防水部材80は、防水テープである。   A waterproof member 80 is provided on the joint surface between the upper cover 20 and the diffusion cover 30. At this time, the waterproof member 80 is a waterproof tape.
回路基板10に固定配列されたLED素子11の離隔間隔は、LED素子11の光放出角度によって、一定個数のLED素子11から放出される光が重畳するように決定される。   The spacing between the LED elements 11 fixedly arranged on the circuit board 10 is determined according to the light emission angle of the LED elements 11 so that light emitted from a certain number of LED elements 11 is superimposed.
拡散カバー30は、その内側にLED素子11から放出される光が重畳するように位置することが望ましい。拡散カバー30は、拡散物質を含有している材質からなることが望ましい。   The diffusion cover 30 is desirably positioned so that the light emitted from the LED element 11 is superimposed on the inside thereof. The diffusion cover 30 is preferably made of a material containing a diffusion material.
LED素子11を光源として使用する蛍光灯型LEDランプの作動電圧は、100〜240Vである。   The operating voltage of the fluorescent LED lamp using the LED element 11 as a light source is 100 to 240V.
上記のように構成された制御機能を有する蛍光灯型LEDランプの作用について説明する。   The operation of the fluorescent LED lamp having the control function configured as described above will be described.
複数個のLED素子11が所定間隔で離隔配列された回路基板10のAC電源供給端子12、13およびDC電源供給端子14、15が、上部カバー20に形成された結合孔25を通じて外部に露出された状態で、回路基板10が上部カバー20に結合するようにする。このとき、結合方式はねじなどのような固定部材を用いても、接着剤などのような接着部材を用いても良い。   The AC power supply terminals 12 and 13 and the DC power supply terminals 14 and 15 of the circuit board 10 in which the plurality of LED elements 11 are arranged at predetermined intervals are exposed to the outside through the coupling holes 25 formed in the upper cover 20. In this state, the circuit board 10 is coupled to the upper cover 20. At this time, the coupling method may be a fixing member such as a screw or an adhesive member such as an adhesive.
このとき、LED素子11から放出される光の重畳地点が拡散カバー30の内側に位置するように回路基板10が拡散カバー30と離隔された状態で上部カバー20に結合し、光の重畳地点までの距離dは、回路基板10の厚さを調節することによって調節可能である。   At this time, the circuit board 10 is coupled to the upper cover 20 in a state of being separated from the diffusion cover 30 so that the superimposition point of the light emitted from the LED element 11 is located inside the diffusion cover 30, and until the light superimposition point The distance d can be adjusted by adjusting the thickness of the circuit board 10.
上記のように、複数のLED素子11間の離隔間隔および回路基板10から拡散カバー30の中心点までの距離を光の重畳および重畳した距離を利用して決定することによって、LED素子11が点灯する場合、拡散カバー30の外部面にLED素子11の形状や残像が現れなくなる。   As described above, the LED element 11 is turned on by determining the separation distance between the plurality of LED elements 11 and the distance from the circuit board 10 to the center point of the diffusion cover 30 by using the superimposed light and the superimposed distance. In this case, the shape and afterimage of the LED element 11 do not appear on the outer surface of the diffusion cover 30.
前述したように、上部カバー20に回路基板10を結合させた後、拡散カバー30を上部カバー20の下端部から加圧によって結合させる。このとき、上部カバー20と拡散カバー30とを結合させる前に、上部カバー20と拡散カバー30が密着する面に防水テープ80を貼着させ、内側に蒸気などのような水分が浸透しないようにする。   As described above, after the circuit board 10 is coupled to the upper cover 20, the diffusion cover 30 is coupled from the lower end of the upper cover 20 by pressure. At this time, before joining the upper cover 20 and the diffusion cover 30, attach the waterproof tape 80 to the surface where the upper cover 20 and the diffusion cover 30 are in close contact so that moisture such as steam does not penetrate inside. To do.
この結合過程の場合、生産工程時には、別途に形成された結合ジグにより行われる。   In the case of this coupling process, the production process is performed by a coupling jig formed separately.
上記のように、上部カバー20と拡散カバー30を結合させた後、上部カバー20の両端部に半円筒状の放熱部材70を接着剤などのような接着部材を用いて貼着させる。これにより、両端部は一般的な蛍光灯のようにチューブ形態の円筒形状を有するようになる。   As described above, after the upper cover 20 and the diffusion cover 30 are joined, the semi-cylindrical heat radiating members 70 are attached to both ends of the upper cover 20 using an adhesive member such as an adhesive. Thereby, both ends have a cylindrical shape in the form of a tube like a general fluorescent lamp.
放熱部材70を上部カバー20に取り付けた後、放熱部材70と拡散カバー30との結合によって形成されたチューブ形態の両先端に電気接続部40をまずはめ込み、電気接続部40の上部に端子部50をかぶせて電気接続部40を外部環境から隔離させる。このとき、端子部50には、電気接続部40と電気的に結合し、商用電源が供給され、電気接続部40のAC電源供給ライン41およびAC電源供給端子12、13を通じてLED駆動装置60に供給するための端子ピン51、52が備えられる。   After the heat radiating member 70 is attached to the upper cover 20, the electrical connection portion 40 is first fitted into both ends of the tube shape formed by the coupling of the heat radiating member 70 and the diffusion cover 30, and the terminal portion 50 is placed above the electric connection portion 40. To isolate the electrical connection 40 from the external environment. At this time, the terminal unit 50 is electrically coupled to the electrical connection unit 40 and supplied with commercial power, and is supplied to the LED driving device 60 through the AC power supply line 41 and the AC power supply terminals 12 and 13 of the electrical connection unit 40. Terminal pins 51 and 52 for supply are provided.
LED駆動装置60は、図7に示すように、ACコネクター(図示せず)を通じて入力されるAC電源を電源変換部67に出力し、電源変換部67は、上記AC電源をLED素子11を点灯させることができるDC電源に変換し、DC電源供給端子14、15を通じてLED素子11に供給されて点灯させる。   As shown in FIG. 7, the LED driving device 60 outputs an AC power input through an AC connector (not shown) to the power converter 67, and the power converter 67 turns on the LED element 11 with the AC power. It is converted into a DC power source that can be made to be supplied, and is supplied to the LED element 11 through the DC power supply terminals 14 and 15 to be lit.
1.点灯制御モード
点灯制御モードは、2種類の方式で適用可能である。第1方式は、外部で遠隔調整機を用いて、使用者がLED素子11を点灯または消灯させる方式であり、第2方式は、照度センサ97を用いて、周辺が暗くなると自動的に点灯し、明るくなると消灯する方式である。
1. Lighting control mode The lighting control mode can be applied in two ways. The first method is a method in which the user turns on or off the LED element 11 using a remote control device outside, and the second method uses the illuminance sensor 97 to automatically turn on when the surroundings become dark. In this method, the light is turned off when it becomes brighter.
第1方式について以下のようにより詳細に説明する。   The first method will be described in more detail as follows.
使用者が遠隔調整機を用いて、遠隔制御信号の点灯要請信号を送出すると、LED駆動装置60の無線送受信部69は、上記点灯要請信号を受信して制御部66に出力する。   When the user sends a remote control signal lighting request signal using the remote control device, the wireless transmission / reception unit 69 of the LED driving device 60 receives the lighting request signal and outputs it to the control unit 66.
これにより、制御部66は、スイッチ部68がオンになるように制御し、電源変換部67のDC電源をLED素子11に供給して点灯させる。一方、使用者が遠隔調整機を用いて遠隔制御信号の消灯要請信号を送出すると、LED駆動装置60の無線送受信部69は、上記消灯要請信号を受信して制御部66に出力し、制御部66は、スイッチ部68がオフになるように制御し、LED素子11に供給されるDC電源を遮断させる。   Thereby, the control unit 66 controls the switch unit 68 to be turned on, and supplies the DC power of the power conversion unit 67 to the LED element 11 to light it. On the other hand, when the user sends a remote control signal extinction request signal using the remote controller, the wireless transmission / reception unit 69 of the LED driving device 60 receives the extinguishing request signal and outputs it to the control unit 66. 66 controls the switch unit 68 to be turned off, and cuts off the DC power supplied to the LED element 11.
第2方式について以下のようにより詳細に説明する。   The second method will be described in more detail as follows.
LED駆動装置60の外側面の所定位置に照度センサ97を備え、蛍光灯型LEDランプ100が設置されている場所の照度を測定して測定された照度値を制御部66に送る。   An illuminance sensor 97 is provided at a predetermined position on the outer surface of the LED driving device 60, and the illuminance value measured by measuring the illuminance at the place where the fluorescent lamp type LED lamp 100 is installed is sent to the controller 66.
これにより、制御部66は、入力された照度値をすでにセットされている基準照度値と比較して周辺が暗いと判断する場合、スイッチ部68をオンにし、電源変換部67のDC電源をLED素子11に供給して点灯させる。一方、LED素子11が点灯した状態でも、照度センサ97は、照度を持続的に測定して測定された照度値を制御部66に出力する。   Thus, when the control unit 66 compares the input illuminance value with the already set reference illuminance value and determines that the surrounding area is dark, the control unit 66 turns on the switch unit 68 and turns on the DC power of the power conversion unit 67. It is supplied to the element 11 to light up. On the other hand, even when the LED element 11 is lit, the illuminance sensor 97 continuously measures the illuminance and outputs the measured illuminance value to the control unit 66.
これにより、制御部66は、照度値を基準照度値と比較して周辺が明るいと判断する場合、スイッチ部68をオフにし、LED素子11に供給される電源変換部67のDC電源を遮断してLED素子11を消灯させる。   Thus, when the control unit 66 compares the illuminance value with the reference illuminance value and determines that the surrounding area is bright, the control unit 66 turns off the switch unit 68 and shuts off the DC power of the power conversion unit 67 supplied to the LED element 11. The LED element 11 is turned off.
上記第2方式は使用者によって、自動モードに設定された後になされるように実現することもでき、上記基準照度値はLED素子を点灯させるか否かを判断するための第1照度値と、LED素子を消灯させるか否かを判断するための第2照度値からなる。   The second method can also be realized by the user after being set to the automatic mode, the reference illuminance value is a first illuminance value for determining whether to light the LED element, and It consists of a second illuminance value for determining whether or not to turn off the LED element.
一方、上記2種類の点灯モード以外に一箇所に多数の蛍光灯型LEDランプが設置されている場合、多数の蛍光灯型LEDランプのうち、所望の蛍光灯型LEDランプだけを選択的に点灯できるように実現することもできる。   On the other hand, when multiple fluorescent LED lamps are installed in one place other than the above two types of lighting modes, only the desired fluorescent LED lamp is selectively lit out of the many fluorescent LED lamps. It can also be realized as possible.
2.照度調節モード
本発明によって実現された照度調節モードについて以下のように説明する。
2. Illuminance adjustment mode The illumination adjustment mode realized by the present invention will be described as follows.
使用者が遠隔調整機を用いて遠隔制御信号の照度調節要請信号を送出するとLED駆動装置60の無線送受信部69は、遠隔制御信号の照度調節要請信号を受信して制御部66に出力する。   When the user sends an illuminance adjustment request signal of a remote control signal using a remote adjuster, the wireless transmission / reception unit 69 of the LED driving device 60 receives the illuminance adjustment request signal of the remote control signal and outputs it to the control unit 66.
これにより、制御部66は入力された照度調節要請信号をチェックして照度を認知し、制御部66は、LED素子11が認知された照度の明るさだけを有するように照度調節制御信号を電源調節部96に出力し、電源調節部96は、上記照度調節制御信号に応じてスイッチ部68に出力されるDC電源の出力レベルをアップまたはダウンさせる。   As a result, the controller 66 recognizes the illuminance by checking the input illuminance adjustment request signal, and the controller 66 supplies the illuminance adjustment control signal so that the LED element 11 has only the recognized brightness of the illuminance. The power supply adjustment unit 96 increases or decreases the output level of the DC power output to the switch unit 68 according to the illuminance adjustment control signal.
スイッチ部68は、制御部66の制御によってオンになった後、上記出力レベルが調節されたDC電源をLED素子11に供給し、LED素子11は、DC電源の出力レベル程度の照度を有する状態で点灯される。   After the switch unit 68 is turned on by the control of the control unit 66, the DC power source with the output level adjusted is supplied to the LED element 11, and the LED element 11 has an illuminance equivalent to the output level of the DC power source. Lights on.
照度調節モードも自動モードに実現することができるが、その方式は制御部66の内部メモリーに時間と出力レベル情報を保存させておき、照度調節自動モードでLED駆動装置60を転換させれば良い。   The illuminance adjustment mode can also be realized in the automatic mode, but the method is to store the time and output level information in the internal memory of the control unit 66, and to change the LED driving device 60 in the illuminance adjustment automatic mode .
これにより、制御部66は、内部に備えられたタイマーを利用して時間をチェックし、上記指定された時間になると、スイッチ部68を通じて出力されるDC電源の出力レベルを電源調節部96を通じて指定された出力レベルに変換させた後、LED素子11に供給されるようにすれば良い。   As a result, the control unit 66 checks the time using a timer provided therein, and when the specified time is reached, the output level of the DC power output through the switch unit 68 is specified through the power supply adjustment unit 96. After being converted to the output level, the LED element 11 may be supplied.
(蛍光灯型LEDランプ制御システム)
本発明による蛍光灯型LEDランプ制御システムは、LED素子を光源として使用する蛍光灯型LEDランプ100と、LED素子11にDC電源を供給するためのLED駆動装置60と、管理者の操作により、またはあらかじめセットされている条件により、LED駆動装置60に遠隔制御信号を送出する蛍光灯型LEDランプモニタリング装置300とで構成される。
(Fluorescent LED lamp control system)
The fluorescent lamp type LED lamp control system according to the present invention includes a fluorescent lamp type LED lamp 100 using an LED element as a light source, an LED driving device 60 for supplying DC power to the LED element 11, and an operation by an administrator. Or it is comprised with the fluorescent lamp type LED lamp monitoring apparatus 300 which sends a remote control signal to the LED drive device 60 by the conditions set beforehand.
LED駆動装置60は、AC電源をDC電源に変換する電源変換部67と、外部の遠隔調整機から遠隔制御信号を受信する無線送受信部69と、無線送受信部69を通じて受信される遠隔制御信号に応じて電源制御信号を出力する一方、上記遠隔制御信号がランプ照度調節信号であるかどうかを判断し、ランプ照度調節信号である場合、上記遠隔制御信号に対応するランプ照度調節制御信号を出力する制御部66と、制御部66の電源制御信号に応じて電源変換部67のDC電源をLED素子11に供給または遮断させるスイッチ部68と、制御部66のランプ照度調節制御信号に応じて上記複数のLED素子11に供給される電源の出力レベルを調節する電源調節部96と、蛍光灯型LEDランプの周辺の照度を測定する照度センサ97とで構成される。   The LED driving device 60 includes a power converter 67 that converts AC power into DC power, a wireless transmitter / receiver 69 that receives a remote control signal from an external remote controller, and a remote control signal that is received through the wireless transmitter / receiver 69. In response to the output of the power control signal, it is determined whether the remote control signal is a lamp illuminance adjustment signal. If the remote control signal is a lamp illuminance adjustment signal, a lamp illuminance adjustment control signal corresponding to the remote control signal is output. A control unit 66, a switch unit 68 for supplying or shutting off the DC power of the power conversion unit 67 to the LED element 11 in accordance with a power control signal of the control unit 66, and a plurality of the above in accordance with a lamp illuminance adjustment control signal of the control unit 66 The power source adjustment unit 96 that adjusts the output level of the power supplied to the LED element 11 and the illuminance sensor 97 that measures the illuminance around the fluorescent LED lamp.
このとき、制御部66は、照度センサ97から入力される照度測定信号をチェックしてチェック結果に対応するランプ照度調節制御信号を生成し、電源調節部96に出力する。   At this time, the control unit 66 checks the illuminance measurement signal input from the illuminance sensor 97, generates a lamp illuminance adjustment control signal corresponding to the check result, and outputs it to the power supply adjustment unit 96.
ここで、照度センサ97は、LED駆動装置60の外側一面に取り付けて備えられ、LED駆動装置60の周辺照度を測定する。   Here, the illuminance sensor 97 is provided on the outer surface of the LED driving device 60, and measures the illuminance around the LED driving device 60.
LED駆動装置60は、蛍光灯型LEDランプ100に物理的に加えられる力によって装着脱可能に結合する。   The LED driving device 60 is detachably coupled by a force physically applied to the fluorescent lamp type LED lamp 100.
制御部66は、複数のLED素子11の異常有無をチェックしてそのチェック結果を蛍光灯型LEDランプモニタリング信号として生成し、無線送受信部69を通じて蛍光灯型LEDランプモニタリング装置300に送出させ、蛍光灯型LEDランプモニタリング装置300は、上記蛍光灯型LEDランプモニタリング信号を受信して非正常に動作する蛍光灯型LEDランプ100の有無をチェックし、異常がある場合、非正常に動作する蛍光灯型LEDランプの情報を提供して管理者に知らせることによって、現場でいちいち確認しなくても蛍光灯型LEDランプの異常有無が把握でき、異常が発生する場合、速かに交換や修理ができるようにする。   The control unit 66 checks the presence / absence of abnormality of the plurality of LED elements 11, generates the check result as a fluorescent lamp type LED lamp monitoring signal, sends it to the fluorescent lamp type LED lamp monitoring device 300 through the wireless transmission / reception unit 69, and transmits the fluorescent light. The lamp-type LED lamp monitoring device 300 receives the fluorescent lamp-type LED lamp monitoring signal and checks whether there is a fluorescent lamp-type LED lamp 100 that operates abnormally. If there is an abnormality, the fluorescent lamp operates abnormally. By providing information on LED lamps and notifying the administrator, it is possible to ascertain whether there is an abnormality in the fluorescent LED lamp without having to check it on site, and if an abnormality occurs, it can be quickly replaced or repaired. Like that.
LED駆動装置60は、蛍光灯型LEDランプ100に物理的に加えられる力によって装着脱可能に結合する。   The LED driving device 60 is detachably coupled by a force physically applied to the fluorescent lamp type LED lamp 100.
蛍光灯型LEDランプ100は、図1に示すように、LED素子11が一定間隔で固定配列され、複数のAC電源供給端子12、13および複数のDC電源供給端子14、15が備えられた回路基板10と、回路基板10がその下部に取付固定され、複数のAC電源供給端子12、13および複数のDC電源供給端子14、15が外部に露出するように結合孔25が形成された上部カバー20と、回路基板10の上側に備えられ、上部カバー20に結合してLED素子11から放出された光を拡散する拡散カバー30と、結合した拡散カバー30と上部カバー20の両端にはめ込まれて結合し、商用電源をAC電源供給端子12、13に供給させるAC電源供給ライン41が備えられた電気接続部40と、電気接続部40の上部に結合して電気接続部40と電気的に接続される一対の端子ピン51、52が備えられており、電気接続部40を外部環境から分離させる端子部50と、LED駆動装置の両側面に所定間隔で離隔された状態で結合部材によって上記上部カバーに結合する放熱部材70とで構成される。   As shown in FIG. 1, the fluorescent lamp type LED lamp 100 is a circuit in which the LED elements 11 are fixedly arranged at regular intervals, and are provided with a plurality of AC power supply terminals 12, 13 and a plurality of DC power supply terminals 14, 15. An upper cover in which a coupling hole 25 is formed so that a plurality of AC power supply terminals 12 and 13 and a plurality of DC power supply terminals 14 and 15 are exposed to the outside, with the board 10 and the circuit board 10 attached and fixed to the lower part thereof 20 and a diffusion cover 30 which is provided on the upper side of the circuit board 10 and which is coupled to the upper cover 20 and diffuses light emitted from the LED element 11, and is fitted to both ends of the coupled diffusion cover 30 and the upper cover 20. Combined and electrically connected to the upper part of the electrical connection part 40 and electrically connected to the electrical connection part 40 with an AC power supply line 41 for supplying commercial power to the AC power supply terminals 12 and 13 A pair of terminal pins 51, 52 are provided to isolate the electrical connection 40 from the external environment. That a terminal portion 50, constituted by a coupling member while being spaced at predetermined intervals on both sides of the LED driving apparatus with a heat dissipation member 70 coupled to the upper cover.
放熱部材70は、複数の放熱ピン71が形成されており、その形状が半円筒形状である。   The heat radiating member 70 is formed with a plurality of heat radiating pins 71, and the shape thereof is a semi-cylindrical shape.
AC電源供給端子12、13またはDC電源供給端子14、15と結合孔25の間に防水部材26が備えられ、防水部材26はオーリング形状であり、絶縁材質からなる。   A waterproof member 26 is provided between the AC power supply terminals 12 and 13 or the DC power supply terminals 14 and 15 and the coupling hole 25. The waterproof member 26 has an O-ring shape and is made of an insulating material.
回路基板10は、上部カバー20の両側端部から所定間隔で離隔された状態で備えられ、電気接続部40のAC電源供給ライン41は、回路基板10と上部カバー20との間に形成された空間の内側に位置する。   The circuit board 10 is provided in a state of being separated from both end portions of the upper cover 20 at a predetermined interval, and the AC power supply line 41 of the electrical connection unit 40 is formed between the circuit board 10 and the upper cover 20. Located inside the space.
上部カバー20と拡散カバー30の結合面に防水部材80が備えられ、このとき、防水部材80は防水テープである。   A waterproof member 80 is provided on a joint surface between the upper cover 20 and the diffusion cover 30. At this time, the waterproof member 80 is a waterproof tape.
回路基板10に固定配列されたLED素子11の離隔間隔は、LED素子11の光放出角度によって、一定個数のLED素子11から放出される光が重畳するように決定される。   The spacing between the LED elements 11 fixedly arranged on the circuit board 10 is determined according to the light emission angle of the LED elements 11 so that light emitted from a certain number of LED elements 11 is superimposed.
拡散カバー30は、その内側にLED素子11から放出される光が重畳するように位置することが望ましい。拡散カバー30は、拡散物質を含有している材質からなることが望ましい。   The diffusion cover 30 is desirably positioned so that the light emitted from the LED element 11 is superimposed on the inside thereof. The diffusion cover 30 is preferably made of a material containing a diffusion material.
LED素子11を光源として使用する蛍光灯型LEDランプの作動電圧は、100〜240Vである。   The operating voltage of the fluorescent LED lamp using the LED element 11 as a light source is 100 to 240V.
上記のように構成された蛍光灯型LEDランプ制御システムの作用について、以下のように説明する。   The operation of the fluorescent lamp type LED lamp control system configured as described above will be described as follows.
まず、蛍光灯型LEDランプモニタリング装置300は、無線通信網を通じて無線送受信部69を備えている蛍光灯型LEDランプ100と、双方向通信を通じて現場にある蛍光灯型LEDランプ100の点灯または消灯状態を制御し、蛍光灯型LEDランプ100が正常に動作するか否かを判断して修理または交換されるようにする。   First, the fluorescent lamp type LED lamp monitoring device 300 is turned on / off state of the fluorescent lamp type LED lamp 100 having the wireless transmission / reception unit 69 through the wireless communication network and the fluorescent lamp type LED lamp 100 in the field through the two-way communication. To determine whether or not the fluorescent lamp type LED lamp 100 operates normally so that it can be repaired or replaced.
1.点灯制御モード
管理者は、蛍光灯型LEDランプモニタリング装置300を通じて、所望の場所に設置されている蛍光灯型LEDランプ100を選択し、無線通信網(図示せず)を通じて点灯要請信号を送出すると、LED駆動装置60の無線送受信部69は、上記無線通信網を通じて、上記点灯要請信号を受信して制御部66に出力する。
1. Lighting control mode The administrator selects the fluorescent lamp type LED lamp 100 installed at a desired location through the fluorescent lamp type LED lamp monitoring device 300, and sends a lighting request signal through a wireless communication network (not shown). When transmitted, the wireless transmission / reception unit 69 of the LED driving device 60 receives the lighting request signal through the wireless communication network and outputs it to the control unit 66.
これにより、制御部66はスイッチ部68がオンになるように制御し、電源変換部67のDC電源をLED素子11に供給して点灯させる。一方、管理者が蛍光灯型LEDランプモニタリング装置300を通じて遠隔制御信号の消灯要請信号を送出すると、LED駆動装置60の無線送受信部69は、上記消灯要請信号を受信して制御部66に出力し、制御部66はスイッチ部68がオフになるように制御してLED素子11に供給されるDC電源を遮断させる。   Thereby, the control unit 66 controls the switch unit 68 to be turned on, and supplies the DC power of the power conversion unit 67 to the LED element 11 to light it. On the other hand, when the administrator sends a remote control signal extinction request signal through the fluorescent lamp type LED lamp monitoring device 300, the wireless transmission / reception unit 69 of the LED driving device 60 receives the extinction request signal and outputs it to the control unit 66. The control unit 66 controls the switch unit 68 to be turned off to cut off the DC power supplied to the LED element 11.
一方、汽車または電車のプラットホームやトンネルなどのように、一箇所に多数の蛍光灯型LEDランプが設置されている場合、多数の蛍光灯型LEDランプの所望の蛍光灯型LEDランプだけを選択的に点灯できるように実現することもできる。   On the other hand, when a large number of fluorescent LED lamps are installed in one place, such as train or train platforms or tunnels, only the desired fluorescent LED lamps of many fluorescent LED lamps are selected. It can also be realized so that it can be lit.
2.照度調節モード
管理者が蛍光灯型LEDランプモニタリング装置300を通じて、遠隔制御信号の照度調節要請信号を送出すると、LED駆動装置60の無線送受信部69は、遠隔制御信号の照度調節要請信号を受信して制御部66に出力する。
2. Illuminance adjustment mode When the administrator sends an illuminance adjustment request signal of the remote control signal through the fluorescent lamp type LED lamp monitoring device 300, the wireless transmission / reception unit 69 of the LED driving device 60 transmits the illuminance adjustment request signal of the remote control signal. Receive and output to the control unit 66.
これにより、制御部66は、入力された照度調節要請信号をチェックして照度の程度を認知し、制御部66は、LED素子11が認知された照度の明るさだけ有するように照度調節制御信号を電源調節部96に出力し、電源調節部96は、上記照度調節制御信号に応じてスイッチ部68に出力されるDC電源の出力レベルをアップまたはダウンさせる。   Accordingly, the control unit 66 checks the input illuminance adjustment request signal to recognize the illuminance level, and the control unit 66 has the illuminance adjustment control signal so that the LED element 11 has only the recognized illuminance brightness. Is output to the power supply adjustment unit 96, and the power supply adjustment unit 96 increases or decreases the output level of the DC power supply output to the switch unit 68 in accordance with the illuminance adjustment control signal.
スイッチ部68は、制御部66の制御によってオンにされた後、上記出力レベルが調節されたDC電源をLED素子11に供給し、LED素子11は、DC電源の出力レベル程度の照度を有した状態で点灯される。   The switch unit 68 is turned on by the control of the control unit 66, and then supplies the DC power source with the output level adjusted to the LED element 11, and the LED element 11 has an illuminance about the output level of the DC power source. Lights in the state.
したがって、深夜などのように利用する使用者や車両が多くない場合、蛍光灯型LEDランプ100の照度を落として省エネルギーが可能とする。   Therefore, when there are not many users and vehicles to use, such as at midnight, the illuminance of the fluorescent LED lamp 100 can be reduced to save energy.
3.異常有無チェックモード
蛍光灯型LEDランプモニタリング装置300は、LED駆動装置60によってDC電源が供給され、蛍光灯型LEDランプ100が動作する間、LED駆動装置60に異常発生の有無確認要請信号を送出する。
3. Abnormality check mode The fluorescent lamp type LED lamp monitoring device 300 is supplied with DC power from the LED driving device 60, and while the fluorescent lamp type LED lamp 100 is operating, the LED driving device 60 is informed of whether an abnormality has occurred. Is sent out.
これにより、LED駆動装置60の無線送受信部69は、上記異常発生有無確認要請信号を受信して制御部66に出力し、制御部66は、上記異常発生有無確認要請信号に応じて蛍光灯型LEDランプ100のLED素子11が正常に駆動しているかをチェックする。   Thus, the wireless transmission / reception unit 69 of the LED driving device 60 receives the abnormality occurrence presence / absence confirmation request signal and outputs it to the control unit 66, and the control unit 66 responds to the abnormality occurrence presence / absence confirmation request signal with a fluorescent lamp type. It is checked whether the LED element 11 of the LED lamp 100 is normally driven.
チェックの結果、異常が発生する場合、制御部66は、蛍光灯型LEDランプ100の識別情報とともに、異常発生信号を無線通信網を通じて上記蛍光灯型LEDランプモニタリング装置300に送る。   When an abnormality occurs as a result of the check, the control unit 66 sends an abnormality occurrence signal to the fluorescent lamp type LED lamp monitoring device 300 through the wireless communication network together with the identification information of the fluorescent lamp type LED lamp 100.
蛍光灯型LEDランプモニタリング装置300は、蛍光灯型LEDランプ100の識別情報と異常発生メッセージを画面上に出力したり、あらかじめ保存されている移動通信端末機番号などを利用して送ることによって、管理者に知らせて速かに対処できるようにする。   The fluorescent lamp type LED lamp monitoring device 300 outputs the identification information and abnormality occurrence message of the fluorescent lamp type LED lamp 100 on the screen, or sends them using a mobile communication terminal number stored in advance, Let your manager know so you can deal quickly.
一方、制御部66は、異常が発生しない場合にも、蛍光灯型LEDランプ100の識別情報とともに、正常確認信号を送ることによって、蛍光灯型LEDランプモニタリング装置300は、LED駆動装置60から正常確認信号が入力されなかった場合、LED駆動装置60が正常に動作しないと認識する。   On the other hand, even when no abnormality occurs, the control unit 66 sends the normal confirmation signal together with the identification information of the fluorescent lamp type LED lamp 100, so that the fluorescent lamp type LED lamp monitoring device 300 is normal from the LED driving device 60. When the confirmation signal is not input, it is recognized that the LED driving device 60 does not operate normally.
したがって、異常が発生した蛍光灯型LEDランプに対して、LED素子11が備えられた回路基板10を交換するのか、あるいはLED駆動装置60を交換するのかあらかじめ知らせて、交換または修理時に必要な道具や製品を準備できるようにする。   Therefore, for fluorescent lamp type LED lamps in which an abnormality has occurred, it is necessary to inform in advance whether to replace the circuit board 10 with the LED element 11 or the LED driving device 60, and the necessary tools for replacement or repair And be able to prepare products.
本発明に係る制御機能を有する蛍光灯型LEDランプの斜視図である。It is a perspective view of the fluorescent lamp type LED lamp which has a control function concerning the present invention. 本発明に係る制御機能を有する蛍光灯型LEDランプの正断面図である。It is a front sectional view of a fluorescent lamp type LED lamp having a control function according to the present invention. 本発明に係る制御機能を有する蛍光灯型LEDランプの側断面図である。It is a sectional side view of the fluorescent lamp type LED lamp which has a control function concerning the present invention. LED素子から放出される光の重畳地点を説明するための図である。It is a figure for demonstrating the superimposition point of the light discharge | released from an LED element. 本発明に係る制御機能を有する蛍光灯型LEDランプを概念的に示すブロック図である。It is a block diagram which shows notionally the fluorescent lamp type LED lamp which has a control function based on this invention. 本発明に係る蛍光灯型LEDランプ制御システムを説明するためのブロック図である。It is a block diagram for demonstrating the fluorescent lamp type LED lamp control system which concerns on this invention. 図6および図7に適用されたLED駆動装置の構成を説明するためのブロック図である。FIG. 8 is a block diagram for explaining a configuration of an LED driving device applied to FIGS. 6 and 7. FIG.
符号の説明Explanation of symbols
10 回路基板
11 LED素子
12、13 AC電源供給端子
14、15 DC電源供給端子
20 上部カバー
25 結合孔
30 拡散カバー
40 電気接続部
41 AC電源供給ライン
50 端子部
51、52 端子ピン
60 LED駆動装置
70 放熱部材
80 防水部材
100 蛍光灯型LEDランプ
10 Circuit board
11 LED element
12, 13 AC power supply terminal
14, 15 DC power supply terminal
20 Top cover
25 Bonding hole
30 Diffusion cover
40 Electrical connections
41 AC power supply line
50 Terminal
51, 52 Terminal pin
60 LED drive
70 Heat dissipation member
80 Waterproof material
100 Fluorescent LED lamp

Claims (30)

  1. LED素子を光源として使用する蛍光灯型LEDランプと、
    AC電源をDC電源に変換する電源変換部と、
    外部の遠隔調整機から遠隔制御信号を受信する無線送受信部と、
    上記無線送受信部を通じて受信される遠隔制御信号に応じて電源制御信号を出力する制御部と、
    上記制御部の電源制御信号に応じて上記電源変換部のDC電源を上記LED素子に供給または遮断させるスイッチ部を含むLED駆動装置と、
    を含んでなることを特徴とする制御機能を有する蛍光灯型LEDランプ。
    Fluorescent LED lamps that use LED elements as light sources,
    A power converter that converts AC power to DC power;
    A wireless transceiver for receiving remote control signals from an external remote adjuster;
    A control unit that outputs a power control signal in response to a remote control signal received through the wireless transceiver unit;
    An LED driving device including a switch unit that supplies or shuts off the DC power of the power conversion unit to the LED element in response to a power control signal of the control unit;
    A fluorescent LED lamp having a control function.
  2. 上記制御部は、上記遠隔制御信号がランプ照度調節信号であるかどうかの可否を判断し、ランプ照度調節信号の場合、上記遠隔制御信号に対応するランプ照度調節制御信号を出力することを特徴とし、
    上記制御部のランプ照度調節制御信号に応じて上記複数のLED素子に供給される電源の出力レベルを調節する電源調節部をさらに含む請求項1に記載の制御機能を有する蛍光灯型LEDランプ。
    The controller determines whether the remote control signal is a lamp illuminance adjustment signal, and outputs a lamp illuminance adjustment control signal corresponding to the remote control signal in the case of the lamp illuminance adjustment signal. ,
    2. The fluorescent lamp type LED lamp having a control function according to claim 1, further comprising a power supply adjusting unit that adjusts an output level of power supplied to the plurality of LED elements according to a lamp illuminance adjustment control signal of the control unit.
  3. 上記制御機能を有する蛍光灯型LEDランプは、
    蛍光灯型LEDランプの周辺の照度を測定する照度センサをさらに含み、
    上記制御部は、上記照度センサから入力される照度測定信号をチェックしてチェック結果に対応するランプ照度調節制御信号を生成し、上記電源調節部に出力することを特徴とする請求項2に記載の制御機能を有する蛍光灯型LEDランプ。
    The fluorescent LED lamp having the above control function is
    It further includes an illuminance sensor for measuring the illuminance around the fluorescent LED lamp,
    3. The control unit according to claim 2, wherein the control unit checks an illuminance measurement signal input from the illuminance sensor, generates a lamp illuminance adjustment control signal corresponding to the check result, and outputs the lamp illuminance adjustment control signal to the power supply adjustment unit. Fluorescent LED lamp with control function.
  4. 上記LED駆動装置は、上記蛍光灯型LEDランプに物理的に加えられる力によって装着脱可能に結合することを特徴とする請求項1に記載の制御機能を有する蛍光灯型LEDランプ。   2. The fluorescent lamp type LED lamp having a control function according to claim 1, wherein the LED driving device is detachably coupled by a force physically applied to the fluorescent lamp type LED lamp.
  5. 上記蛍光灯型LEDランプは、
    上記LED素子が一定間隔で固定配列される回路基板と、
    上記回路基板がその下部に取付固定され、複数のAC電源供給端子および複数のDC電源供給端子が外部に露出するように結合孔が形成された上部カバーと、
    上記回路基板の上側に備えられ、上記上部カバーに結合して上記LED素子から放出された光を拡散する拡散カバーと、
    結合した上記拡散カバーと上記上部カバーの両端にはめ込まれて結合し、商用電源を上記AC電源供給端子に供給させるAC電源供給ラインが備えられた電気接続部と、
    上記電気接続部の上部に結合して上記電気接続部と電気的に接続される一対の端子ピンが備えられており、上記電気接続部を外部環境から分離させる端子部と、
    を含んで備えられることを特徴とする請求項1に記載の制御機能を有する蛍光灯型LEDランプ。
    The above fluorescent lamp type LED lamp
    A circuit board on which the LED elements are fixedly arranged at regular intervals;
    An upper cover in which a coupling hole is formed so that a plurality of AC power supply terminals and a plurality of DC power supply terminals are exposed to the outside;
    A diffusion cover that is provided on the upper side of the circuit board and is coupled to the upper cover and diffuses light emitted from the LED elements;
    An electrical connection part provided with an AC power supply line for fitting and coupling to the both ends of the combined diffusion cover and the upper cover, and supplying commercial power to the AC power supply terminal;
    A pair of terminal pins coupled to the electrical connection portion and electrically connected to the electrical connection portion; and a terminal portion for separating the electrical connection portion from an external environment;
    2. The fluorescent lamp type LED lamp having a control function according to claim 1, wherein the fluorescent lamp type LED lamp has a control function.
  6. 上記蛍光灯型LEDランプは、
    上記LED駆動装置の両側面に所定間隔で離隔された状態で結合部材によって、上記上部カバーに結合する放熱部材をさらに含むことを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。
    The above fluorescent lamp type LED lamp
    6. The fluorescent lamp type LED having a control function according to claim 5, further comprising a heat radiating member coupled to the upper cover by a coupling member in a state of being spaced apart at a predetermined interval on both side surfaces of the LED driving device. lamp.
  7. 上記放熱部材は、
    複数の放熱ピンが形成されたことを特徴とする請求項6に記載の制御機能を有する蛍光灯型LEDランプ。
    The heat dissipation member is
    7. The fluorescent lamp type LED lamp having a control function according to claim 6, wherein a plurality of heat radiation pins are formed.
  8. 上記放熱ピンが形成された放熱部材は半円筒形状であることを特徴とする請求項7に記載の制御機能を有する蛍光灯型LEDランプ。   8. The fluorescent lamp type LED lamp having a control function according to claim 7, wherein the heat radiation member on which the heat radiation pin is formed has a semi-cylindrical shape.
  9. 上記上部カバーは、「H」形状であることを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。   6. The fluorescent lamp type LED lamp having a control function according to claim 5, wherein the upper cover has an “H” shape.
  10. 上記AC電源供給端子またはDC電源供給端子と上記結合孔の間に防水部材が備えられることを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。   6. The fluorescent lamp type LED lamp having a control function according to claim 5, wherein a waterproof member is provided between the AC power supply terminal or the DC power supply terminal and the coupling hole.
  11. 上記回路基板は、上部カバーの両側端部から所定間隔で離隔された状態で備えられ、上記電気接続部のAC電源供給ラインは上記回路基板と上部カバーの間に形成された空間内側に備えられることを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。   The circuit board is provided in a state of being separated from both end portions of the upper cover at a predetermined interval, and the AC power supply line of the electrical connection part is provided inside a space formed between the circuit board and the upper cover. 6. The fluorescent lamp type LED lamp having a control function according to claim 5.
  12. 上記防水部材は、絶縁材質からなることを特徴とする請求項10に記載の制御機能を有する蛍光灯型LEDランプ。   11. The fluorescent lamp type LED lamp having a control function according to claim 10, wherein the waterproof member is made of an insulating material.
  13. 上記防水部材は、オーリング形状であることを特徴とする請求項12に記載の制御機能を有する蛍光灯型LEDランプ。   13. The fluorescent lamp type LED lamp having a control function according to claim 12, wherein the waterproof member has an O-ring shape.
  14. 上記上部カバーと上記拡散カバーの結合面に防水部材が備えられることを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。   6. The fluorescent lamp type LED lamp having a control function according to claim 5, wherein a waterproof member is provided on a joint surface between the upper cover and the diffusion cover.
  15. 上記回路基板に固定配列されたLED素子の離隔間隔は、
    LED素子の光放出角度によって、一定個数のLED素子から放出される光が重畳するように決定されることを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。
    The spacing of the LED elements fixedly arranged on the circuit board is as follows:
    6. The fluorescent lamp type LED lamp having a control function according to claim 5, wherein light emitted from a certain number of LED elements is determined to be superimposed according to a light emission angle of the LED elements.
  16. 上記拡散カバーは、その内側に上記LED素子から放出される光が重畳するように位置することを特徴とする請求項5に記載の制御機能を有する蛍光灯型LEDランプ。   6. The fluorescent lamp type LED lamp having a control function according to claim 5, wherein the diffusion cover is positioned so that light emitted from the LED element is superimposed on the inside thereof.
  17. LED素子を光源として使用する蛍光灯型LEDランプと、
    AC電源をDC電源に変換する電源変換部と、外部から遠隔制御信号を受信する無線送受信部と、上記無線送受信部を通じて受信される遠隔制御信号に応じて電源制御信号を出力する制御部と、上記制御部の電源制御信号に応じて上記電源変換部のDC電源を上記LED素子に供給または遮断させるスイッチ部を含むLED駆動装置と、
    管理者の操作により、またはあらかじめセットされている条件により、上記LED駆動装置に遠隔制御信号を送出する蛍光灯型LEDランプモニタリング装置と、
    を含んでなることを特徴とする蛍光灯型LEDランプ制御システム。
    Fluorescent LED lamps that use LED elements as light sources,
    A power conversion unit that converts AC power into DC power, a wireless transmission / reception unit that receives a remote control signal from the outside, and a control unit that outputs a power control signal according to the remote control signal received through the wireless transmission / reception unit, An LED driving device including a switch unit that supplies or shuts off the DC power of the power conversion unit to the LED element in response to a power control signal of the control unit;
    A fluorescent-type LED lamp monitoring device that sends a remote control signal to the LED driving device according to the operation of the administrator or according to preset conditions;
    A fluorescent lamp type LED lamp control system comprising:
  18. 上記制御部は、上記遠隔制御信号がランプ照度調節信号であるかどうかを判断し、ランプ照度調節信号の場合、上記遠隔制御信号に対応するランプ照度調節制御信号を出力することを特徴とし、
    上記制御部のランプ照度調節制御信号に応じて上記複数のLED素子に供給される電源の出力レベルを調節する電源調節部をさらに含む請求項17に記載の蛍光灯型LEDランプ制御システム。
    The control unit determines whether the remote control signal is a lamp illuminance adjustment signal, and in the case of the lamp illuminance adjustment signal, outputs a lamp illuminance adjustment control signal corresponding to the remote control signal,
    18. The fluorescent lamp type LED lamp control system according to claim 17, further comprising a power supply adjustment unit that adjusts an output level of power supplied to the plurality of LED elements according to a lamp illuminance adjustment control signal of the control unit.
  19. 上記制御機能を有する蛍光灯型LEDランプは、
    蛍光灯型LEDランプの周辺の照度を測定する照度センサをさらに含み、
    上記制御部は、上記照度センサから入力される照度測定信号をチェックしてチェック結果に対応するランプ照度調節制御信号を生成し、上記電源調節部に出力させることを特徴とする請求項18に記載の蛍光灯型LEDランプ制御システム。
    The fluorescent LED lamp having the above control function is
    It further includes an illuminance sensor for measuring the illuminance around the fluorescent LED lamp,
    19. The control unit according to claim 18, wherein the control unit checks an illuminance measurement signal input from the illuminance sensor, generates a lamp illuminance adjustment control signal corresponding to the check result, and outputs the lamp illuminance adjustment control signal to the power supply adjustment unit. Fluorescent lamp type LED lamp control system.
  20. 上記制御部は、複数のLED素子の異常有無をチェックしてそのチェック結果を蛍光灯型LEDランプモニタリング信号として生成し、上記無線送受信部を通じて上記蛍光灯型LEDランプモニタリング装置に送出させ、
    上記蛍光灯型LEDランプモニタリング装置は、上記蛍光灯型LEDランプモニタリング信号を受信して非正常に動作する蛍光灯型LEDランプの有無をチェックし、異常がある場合、非正常に動作する蛍光灯型LEDランプの情報を提供することを特徴とする請求項17に記載の蛍光灯型LEDランプ制御システム。
    The control unit checks the presence or absence of abnormality of a plurality of LED elements, generates the check result as a fluorescent lamp type LED lamp monitoring signal, and sends it to the fluorescent lamp type LED lamp monitoring device through the wireless transmission / reception unit,
    The fluorescent lamp type LED lamp monitoring device receives the fluorescent lamp type LED lamp monitoring signal and checks whether there is an abnormally operating fluorescent lamp type LED lamp. If there is an abnormality, the fluorescent lamp operates abnormally. 18. The fluorescent lamp type LED lamp control system according to claim 17, characterized by providing information on the type LED lamp.
  21. 上記蛍光灯型LEDランプは、
    上記LED素子が一定間隔で固定配列される回路基板と
    上記回路基板がその下部に取付固定され、複数のAC電源供給端子および複数のDC電源供給端子が外部に露出するように結合孔が形成された上部カバーと、
    上記回路基板の上側に備えられ、上記上部カバーに結合して上記LED素子から放出された光を拡散する拡散カバーと、
    結合した上記拡散カバーと上記上部カバーの両端にはめ込まれて結合し、商用電源を上記AC電源供給端子に供給させるAC電源供給ラインが備えられた電気接続部と、
    上記電気接続部の上部に結合して上記電気接続部と電気的に接続される一対の端子ピンが備えられており、上記電気接続部を外部環境から分離させる端子部と、
    を含んで備えられることを特徴とする請求項17に記載の蛍光灯型LEDランプ制御システム。
    The above fluorescent lamp type LED lamp
    A circuit board on which the LED elements are fixedly arranged at regular intervals, and the circuit board is attached and fixed to a lower portion thereof, and a coupling hole is formed so that a plurality of AC power supply terminals and a plurality of DC power supply terminals are exposed to the outside. A top cover,
    A diffusion cover that is provided on the upper side of the circuit board and is coupled to the upper cover and diffuses light emitted from the LED elements;
    An electrical connection part provided with an AC power supply line for fitting and coupling to the both ends of the combined diffusion cover and the upper cover, and supplying commercial power to the AC power supply terminal;
    A pair of terminal pins coupled to the electrical connection portion and electrically connected to the electrical connection portion; and a terminal portion for separating the electrical connection portion from an external environment;
    18. The fluorescent lamp type LED lamp control system according to claim 17, wherein the fluorescent lamp type LED lamp control system is provided.
  22. 上記蛍光灯型LEDランプは、
    上記LED駆動装置の両側面に所定間隔で離隔された状態で結合部材によって上記上部カバーに結合する放熱部材をさらに含むことを特徴とする請求項21に記載の蛍光灯型LEDランプ制御システム。
    The above fluorescent lamp type LED lamp
    22. The fluorescent lamp type LED lamp control system according to claim 21, further comprising a heat radiating member coupled to the upper cover by a coupling member in a state of being spaced apart at a predetermined interval on both side surfaces of the LED driving device.
  23. 上記放熱部材は、
    複数の放熱ピンが形成されたことを特徴とする請求項22に記載の蛍光灯型LEDランプ制御システム。
    The heat dissipation member is
    23. The fluorescent lamp type LED lamp control system according to claim 22, wherein a plurality of heat radiation pins are formed.
  24. 上記放熱ピンが形成された放熱部材は、半円筒形状であることを特徴とする 請求項23に記載の蛍光灯型LEDランプ制御システム。   24. The fluorescent lamp type LED lamp control system according to claim 23, wherein the heat radiating member on which the heat radiating pins are formed has a semi-cylindrical shape.
  25. 上記上部カバーは、「H」形状であることを特徴とする請求項24に記載の蛍光灯型LEDランプ制御システム。   25. The fluorescent lamp type LED lamp control system according to claim 24, wherein the upper cover has an “H” shape.
  26. 上記AC電源供給端子またはDC電源供給端子と上記結合孔の間に防水部材が備えられることを特徴とする請求項21に記載の蛍光灯型LEDランプ制御システム。   22. The fluorescent lamp type LED lamp control system according to claim 21, wherein a waterproof member is provided between the AC power supply terminal or DC power supply terminal and the coupling hole.
  27. 上記回路基板は、上部カバーの両側端部から所定間隔で離隔された状態で備えられ、上記電気接続部のAC電源供給ラインは上記回路基板と上部カバーの間に形成された空間の内側に備えられることを特徴とする請求項21に記載の蛍光灯型LEDランプ制御システム。   The circuit board is provided in a state of being separated from both end portions of the upper cover at a predetermined interval, and the AC power supply line of the electrical connection part is provided inside a space formed between the circuit board and the upper cover. 22. The fluorescent lamp type LED lamp control system according to claim 21, wherein
  28. 上記防水部材は、絶縁材質からなることを特徴とする請求項26に記載の蛍光灯型LEDランプ制御システム。   27. The fluorescent lamp type LED lamp control system according to claim 26, wherein the waterproof member is made of an insulating material.
  29. 上記防水部材は、オーリング形状であることを特徴とする請求項28に記載の蛍光灯型LEDランプ制御システム。   29. The fluorescent lamp type LED lamp control system according to claim 28, wherein the waterproof member has an O-ring shape.
  30. 上記上部カバーと上記拡散カバーの結合面に防水部材が備えられることを特徴とする請求項21に記載の蛍光灯型LEDランプ制御システム。   22. The fluorescent lamp type LED lamp control system according to claim 21, wherein a waterproof member is provided on a joint surface between the upper cover and the diffusion cover.
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