KR101198333B1 - Light Emitting Device Including Safety Apparatus for Power on and off - Google Patents

Abstract

The present invention relates to a lighting luminaire of the present invention, which is intended to fundamentally suppress terminal wear, poor contact, and arc generation due to terminal contact caused by vibration or shaking. The lighting luminaire according to the present invention includes a lamp unit, a lighting luminaire body, a cover, a sensor unit, a switch unit, and a state recognition unit. The lamp unit emits light based on the supplied power. The lighting luminaire main body provides a space in which the lamp unit is seated, and the cover is disposed to cover the opening of the lighting luminaire main body, and the sensor unit generates a sensor signal according to whether the cover is opened or closed. The switch unit supports to supply or cut off power to the lamp unit according to the sensor signal, and the state recognition unit controls the state of the switch unit according to the sensor signal of the sensor unit.

Description

Light Emitting Device Including Safety Apparatus for Power on and off}

The present invention relates to a lighting luminaire, and in particular, when repairing a road luminaire such as a street lamp or a tunnel lamp, it is possible to safely open and close the power of the luminaire electronically to protect the worker from electric shock and repair work in a psychologically stable state. The present invention relates to a lighting luminaire including a power opening and closing safety device that allows to proceed.

In general, the switchgear of the lighting fixtures installed on the road is operated by a distribution box flasher tens of meters or hundreds of meters away, so most of the work is performed in a live state during normal maintenance. The maintenance worker relies on the cargo crane or the aerial vehicle for repair work.The cargo crane or the aerial vehicle provides a narrow working space. The lighting fixtures in the state will be repaired. As a result, maintenance workers require considerable attention to safety and are forced to work in a psychologically unstable state.

In order to alleviate this unstable working state, as shown in FIG. 1, lighting fixture safety devices 3 and 4 have been manufactured and used in lighting fixtures including a main body 1 and a cover 2. Conventional lighting luminaire safety devices (3,4) is made by processing the plug-type thin iron plate terminal of the opening and closing of the power source, there was a disadvantage that requires a considerable complement when reflecting the specificity and the use environment of the road lighting fixtures. Such lighting luminaire safety devices 3 and 4 include a U-shaped terminal 3 provided in the main body 1 and a straight terminal 4 provided in the cover 2. In addition, road lighting equipment such as tunnel lights and street lamps often use high-voltage discharge lamps (250W to 400W), which ranges from 300W to 500W based on input power and consumes more than 1.5A to 2A. The use of conventional lighting luminaire safety devices (3, 4) made by processing terminals with stainless steel or steel plates that have not been tested for opening and closing characteristics and durability tests in such a high-capacity power supply working environment may put workers at risk. Can be. That is, if the cover 2 is opened and closed with respect to the main body 1 using the conventional lighting luminaire safety devices 3 and 4, a strong arc is generated at the terminal part due to the power of the direct connection of a high capacity of 300 W or more upon contact. This causes the terminal to wear out and, in severe cases, also causes a fire.

In addition, the lighting luminaires are air-conditioned and vibrated by vibration generated when passing through a large vehicle according to poor road conditions or installation conditions. As a result, the terminals may wear out, resulting in poor contact. This phenomenon is because the main body 1 is firmly fixed by the strong structure in the installation structure of the road lighting fixture, whereas the cover has a structure that is coupled to the main body 1 by the feldspar and the clip, so that when the lighting luminaire is vibrated or shaken by the wind The movement of the main body 1 and the movement of the cover 2 are generated differently, and as a result, the conventional terminal type safety device has a problem that can be damaged due to the arc and fire as shown in FIG.

Accordingly, an object of the present invention for solving the above problems is to provide a lighting luminaire including a power opening and closing safety device that can fundamentally suppress terminal wear and contact failure and arc generation caused by terminal contact caused by vibration or shaking. Is in.

Lighting luminaire including a power opening and closing safety device according to a preferred embodiment of the present invention for achieving the above object includes a lamp unit, a lighting luminaire body, a cover, a sensor unit, a switch unit and a state recognition unit. The lamp unit emits light based on the supplied power. The lighting luminaire main body provides a space in which the lamp unit is seated, and the cover is disposed to cover the opening of the lighting luminaire main body, and the sensor unit generates a sensor signal according to whether the cover is opened or closed. The switch unit supports to supply or cut off power to the lamp unit according to the sensor signal, and the state recognition unit controls the state of the switch unit according to the sensor signal of the sensor unit.

Here, the lighting luminaire including the power opening and closing safety device may further include an auxiliary power supply for supplying power for driving the state recognition unit by using the power supplied to the lamp unit, wherein the auxiliary power supply unit At least one of a converter for converting the power supplied to the power required for driving the state recognition unit, and a battery for supplying power for driving the state recognition unit by charging with the power supplied to the lamp unit.

In addition, the lighting luminaire including the power opening and closing safety device is an insulating case surrounding the auxiliary power unit, the switch unit and the state recognition unit, or an insulation case surrounding the sensor unit and the auxiliary power unit, the switch unit and the state recognition unit, or It may further include an insulation case surrounding the sensor bus bar electrode and the auxiliary power supply unit, the switch unit and the state recognition unit which is a part of the sensor unit.

The sensor unit may include a sensor bus bar electrode provided at one side of the main body, and a sensor auxiliary electrode provided at one side of the cover to face or contact the sensor bus bar electrode when the main body and the cover are assembled.

The lighting fixture including the power opening and closing safety device may further include an insulating material filling the inside of the insulating case.

According to the lighting luminaire including the power opening and closing safety device according to an embodiment of the present invention, the present invention prevents electric shock by completely blocking all parts of the lighting luminaire that can be contacted when the operator is repaired from the power source and a psychologically stable state Support working on

In addition, the present invention can fundamentally suppress arcing caused by terminal contact, terminal wear caused by vibration or shaking, poor contact, etc., by removing the terminal of the conventional lighting luminaire. The risk of fire can be prevented.

1 is a view schematically showing the configuration of a conventional terminal type safety device,
2 is a view showing a conventional terminal type safety device broken by an arc generated at the road site,
Figure 3 is a block diagram showing the configuration of the power supply opening and closing safety device of the lighting fixture according to an embodiment of the present invention,
4 is a view schematically showing the structure of a lighting luminaire to which a power opening and closing safety device is applied according to an embodiment of the present invention;
5 is a circuit diagram of a lighting fixture to which the power opening and closing safety device according to an embodiment of the present invention is applied.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the embodiment of the present invention will be described, and the description of other parts will be omitted so as not to disturb the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

Hereinafter, by applying an electronic sensor switch and an electronic relay to start the lighting luminaire including a power switch opening and closing safety device that completely shuts off the power of the lighting luminaire by safely opening and closing the power electronically during maintenance of road lighting fixtures such as street lamps or tunnels do. The present invention is integrally built into the insulating case bus bar electrode, electronic relay and control device of the electronic sensor having a predetermined width in the main body of the lighting luminaire, and the device is completely insulated by filling the insulating case with epoxy or similar materials. In addition, the cover of the lighting luminaire is equipped with an auxiliary electrode of an electronic sensor having a predetermined width, and when the two electrodes are in close proximity at a predetermined interval, an electronic switch (relay) is operated to turn on or turn off the power.

Accordingly, the present invention protects the worker from electric shock as well as the psychologically stable state by completely blocking the power input to the lighting luminaire by the electronic sensor at the moment the operator opens the cover of the lighting luminaire for maintenance, thereby maintaining a no power state. Enable to work on

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the power supply opening and closing safety device of a lighting luminaire according to an embodiment of the present invention.

3 is a block diagram showing a partial configuration of a lighting luminaire including a power opening and closing safety device according to an embodiment of the present invention.

Referring to FIG. 3, the lighting luminaire power opening and closing safety device 700 of the present invention includes a sensor unit 100, a state recognition unit 200, an auxiliary power supply unit 300, and a switch unit 400. The luminaire configurations, which are part of the luminaire, may include a ballast 500 and a lamp 600. In the following description, a configuration of a power supply unit 10 for supplying power to the lighting luminaire will be described.

The lighting fixture power opening and closing safety device 700 of the present invention having such a configuration recognizes the sensor signal generated by the sensor unit 100 so that the state recognition unit 200 recognizes the ballast unit 500 and the lamp unit 600. It may be controlled to cut off or resupply the supplied power supply unit 10. In more detail, the lighting fixture power opening and closing safety device 700 generates the sensor signal according to whether the cover is opened or closed by arranging the sensor unit 100 between the lighting fixture body formed in an enclosure shape and a cover covering the body. Configure to Accordingly, the lighting luminaire power opening and closing safety device 700 of the present invention can be controlled so that the supply of the power supply unit 10 is automatically cut off when the cover of the lighting luminaire body is opened by the manager of the lighting luminaire to perform a certain operation. In addition, the lighting fixture power opening and closing safety device 700 may support to automatically resume the supply of the power supply unit 10 when the cover is assembled to the lighting fixture body after the completion of the work. Hereinafter, each configuration will be described in detail.

The sensor unit 100 is disposed in a predetermined region between the lighting luminaire body and the cover to generate a sensor signal according to whether the cover is opened or closed. The sensor unit 100 may transmit the generated sensor signal to the state recognition unit 200. The sensor unit 100 may operate under the control of the state recognizing unit 200, and may include various types of sensors such as a proximity sensor or a touch sensor. When configured as a proximity sensor or a contact sensor, the sensor unit 100 may be composed of two mutually facing electrodes, and each electrode may be disposed to face each other on the lighting luminaire body and the cover. Then, the sensor unit 100 generates a sensor signal while maintaining the state in which the electrodes face each other and a sensor signal in a state where the electrodes are shifted from each other, and generates the sensor signal according to the state recognition unit 200. ) Can be delivered. In the case of the proximity sensor, the electrodes may face each other, but may generate sensor signals at a constant interval without contact. Meanwhile, the configuration of the sensor unit 100 will be described as a contact sensor or a proximity sensor. However, the present invention is not limited thereto and may be configured as an optical sensor, an infrared sensor, a pressure sensor, and the like. Therefore, the sensor unit 100 of the present invention is composed of a sensor that does not have a terminal formed between the main body and the cover, but may be composed of various types of sensors capable of generating a sensor signal according to whether the lighting luminaire main body and the cover is open or closed. It should be understood that. In the following description, a touch sensor configured to face two electrodes will be described as a main example.

The state recognizing unit 200 is operated by the power supplied from the auxiliary power supply unit 300, and switching of the switch unit 400 according to the sensor signal supplied from the sensor unit 100 based on the supplied power. Control the state. For example, when the state recognition unit 200 receives a sensor signal corresponding to a state in which the cover is separated from the lighting luminaire body from the sensor unit 100, the power supply unit 10 has a cutoff state. The switch unit 400 may be controlled. When the state recognition unit 200 receives a sensor signal corresponding to a state in which the lighting luminaire main body and the cover are assembled from the sensor unit 100, the state recognition unit 200 controls the switch unit 400 to provide the power supply unit 10. Power may be supported to be supplied to the ballast 500.

The auxiliary power supply unit 300 is configured to receive power from the power supply unit 10 and provide the power to the state recognition unit 200. That is, the auxiliary power supply unit 300 supplies power for operation of components for controlling the power cut off or connection according to the sensor signal among the lighting fixture power opening and closing safety device 700 according to an embodiment of the present invention. The auxiliary power supply unit 300 is arranged to independently supply power to the state recognition unit 200 regardless of whether the switch unit 400 has a blocking state or a connected state with respect to the ballast unit 500. Can be. Here, the auxiliary power supply unit 300 converts a constant voltage and a constant current necessary for driving the state recognition unit 200 to supply the high voltage high current power supplied from the power supply unit 10 to the state recognition unit 200. It can be configured as. In addition, the auxiliary power supply unit 300 may be configured in the form of a battery that can be supplied to the state recognition unit 200 with a power of a predetermined voltage by charging the power supplied from the power supply unit 10.

The switch unit 400 is disposed between the power supply unit 10 and the ballast unit 500 to control the supply state of the power supply unit 10 power under the control of the state recognition unit 200. That is, the switch unit 400 supports to cut off or connect the power supply unit 10 and the ballast unit 500 under the control of the state recognition unit 200. In particular, the switch unit 400 supports the connection state between the power supply unit 10 and the ballast 500 to be cut off according to the operation of the sensor unit 100 when the lighting luminaire main body and the cover are separated. . In addition, the switch unit 400 may be in a state in which power can be supplied between the power supply unit 10 and the ballast unit 500 according to the operation of the sensor unit 100 when the lighting luminaire body and the cover are assembled. Support. The switch unit 400 may be configured of various types of switching elements, for example, an electronic relay type switch.

The ballast 500 is configured to support a stable state of the lamp unit 600 while transferring power supplied from the power supply unit 10 to the lamp unit 600. It is a configuration that provides a voltage or limits the current supplied to the lamp unit 600. The ballast 500 is disposed between the switch 400 and the lamp 600. The ballast 500 may be composed of a conventional ballast, a compact ballast or an electronic ballast. The electronic ballast uses a semiconductor material to convert the AC input power frequency 60Hz into a high frequency of 20-50KHz in the inverter circuit to support the instantaneous lighting method that turns on at the same time as the switch is turned on, thereby further improving power loss prevention.

The lamp unit 600 may be configured of a lamp that is turned on based on a starting voltage provided by the ballast unit 500 to irradiate light, and a socket into which the lamp is inserted and electrically connected to the ballast unit 500. Can be. The lamp unit 600 may be turned on or off according to the power of the power supply unit 10 supplied by the control of the switch unit 400. The lamp included in the lamp unit 600 may be configured in various kinds according to the environment, such as the lighting fixture power opening and closing safety device 700 is applied, for example, may be configured as sodium lamp for tunnel or road lighting. have.

As described above, the lighting fixture power opening and closing safety device 700 according to an embodiment of the present invention determines whether to supply power to the lighting fixture 20 based on a sensor signal according to whether the lighting fixture body and the cover are opened or closed. To help. Accordingly, the lighting fixture power opening and closing safety device 700 of the present invention can support a more stable working environment by allowing the power supply to be automatically cut off when the cover is opened for work.

Figure 4 relates to a lighting luminaire equipped with a lighting fixture power opening and closing safety device according to an embodiment of the present invention.

Referring to FIG. 4, the lighting fixture 20 of the present invention includes a lighting fixture body 21 fixed to a ceiling or sidewall of a tunnel or a predetermined sidewall of a tunnel, and a cover for opening and closing an opening of the lighting fixture body 21. (23) may be included. The cover 23 is arranged to engage the edge of the opening of the lighting luminaire body 21 to support opening and closing of the lighting luminaire body 21 according to the hinge operation. Here, the lighting fixture 20 is provided with the above-described lighting fixture power opening and closing safety device 700 in a region including the lighting fixture body 21 one side and the opening side one side, according to whether the cover 23 is opened or closed It can be controlled to cut off the power supplied to the lighting fixture body (21). Hereinafter, the above components will be described in more detail.

The lighting luminaire main body 21 has a main body case 22 fixed to a predetermined area of a side wall of a tunnel or a road, and a lighting luminaire power opening / closing safety device 700 provided inside the main body case 22 and the cover 23. ), Luminaire configurations 500, 600 for providing lighting may be included. Here, the main body case 22 is configured in a housing shape in which the luminaire components 500 and 600 and the lighting luminaire power opening and closing safety device 700 may be disposed. In addition, fixing members for assembling and fixing the cover 23 and components for a hinge operation of the cover 23 may be provided at an open edge region of the main body case 22. In particular, the sensor bus bar electrode having a certain configuration, that is, a certain width of the sensor unit 100 included in one side of the main body case 22 of the present invention, in particular the area of the open portion border area of the lighting luminaire power opening and closing safety device 700 ( 110 may be provided. The sensor bus bar electrode 110 may be provided with a groove in the open edge region and inserted into the provided groove so as not to protrude outside the open edge region.

The lighting luminaire power opening and closing safety device 700 includes the configuration of the sensor unit 100, the auxiliary power supply unit 300, the state recognition unit 200 and the switch unit 400, as described above, The power supply unit 300 may further include an insulation case 710 surrounding the power supply unit 300, the state recognition unit 200, and the switch unit 400. In addition, an insulation material such as epoxy may be filled in the insulation case 710 to prevent fluidity and support stability of the arrangements. Here, the sensor unit 100 may be disposed so that only a part of the component may be provided inside the insulating case 710 or may not be included in the insulating case 710 according to a sensor method. That is, when the sensor unit 100 is configured as a proximity sensor, signal buses connecting the sensor busbar electrode 110, the sensor busbar electrode 110, and the state recognizer 200 may be included in the insulation case 710. However, the sensor auxiliary electrode 120 paired with the sensor bus bar electrode 110 may be provided on the cover 23. The signal line connecting the state recognizer 200 may protrude from the insulating case 710 and be connected to the sensor auxiliary electrode 120 provided on the cover 23. Therefore, the lighting fixture power opening and closing safety device 700 is an insulating case 710 including the auxiliary power supply unit 300, the state recognition unit 200 and the switch unit 400 in the manufacturing process, and the insulation case 710 It may be connected to the state recognizer 200 provided inside, and may be manufactured in a manner in which signal lines protruding to the outer surface of the insulating case 710 are provided. The signal lines protruding to the outer surface of the insulating case 710 are connected to the sensor units 100 to receive sensor signals according to whether the main body case 22 and the cover 23 are opened or closed. It serves to deliver. In addition, when the sensor unit 100 is configured as a contact sensor, the sensor unit 100 may be provided outside the insulating case 710. When the sensor unit 100 is provided outside the insulating case 710, signal lines for connection with the state recognizing unit 200 provided inside the insulating case 710 are outside the insulating case 710. It may protrude and be connected to the sensor unit 100 disposed in the lighting fixture 20.

Meanwhile, the lamp luminaire main body 21 is provided with a lamp unit 600 and a ballast unit 500. The socket 601 and the lamp 602 included in the lamp unit 600 are one side of the main body case 22. Although provided in the, it is preferable that the ballast 500 is disposed in an isolated space. Accordingly, the body case 22 may be configured to have a space in which the above-described insulation case 710 and the stabilizer part 500 are provided, and a space in which the lamp part 600 is provided. In the space where the 600 is provided, a reflective material may be applied to the entire surface of the space in order to increase the efficiency of the light emitted from the lamp unit 600.

The cover 23 has a shape that is engaged with the edge portion of the opening portion of the main body case 22, and by opening and closing the hinge portion around the engaged hinge portion to open and close the opening of the main body case 22. The cover 23 may have a fastening structure that is fastened to a fixing member provided in the edge portion of the opening part of the main body case 22. In addition, the cover 23 may be formed of a transparent material capable of propagating light emitted from the lamp unit 600 to the outside. In this case, the cover 23 may provide a light scattering pattern at a portion at which the light irradiated by the lamp unit 600 reaches to improve the irradiation efficiency of the propagated light. The sensor auxiliary electrode 120 of the sensor unit 100 included in the power opening / closing safety device 700 described above may be provided at one side of the cover 23, in particular, a portion engaged with the opening portion of the main body case 22. Can be. Here, the sensor auxiliary electrode 120 may be provided at a position of the cover 23 facing the sensor bus bar electrode 110 while the cover 23 is assembled to the body case 22. In this case, the sensor auxiliary electrode 120 is a proximity sensor, similarly to the sensor busbar electrode 110, to provide a groove in the edge region of the cover 23, and is inserted into the provided groove to be outside the edge of the cover 23. It may be arranged so as not to protrude. Meanwhile, in the case of a touch sensor, the sensor auxiliary electrode 120 may protrude out of the edge of the cover 23 to be in contact with the sensor bus bar electrode 110. In addition, a signal line having one side connected to the sensor auxiliary electrode 120 and the other side connected to the state recognizing unit 200 may be disposed at one side of the cover 23. The signal line provided in the cover 23 may be formed along the groove in a groove formed in the edge portion of the opening of the cover 23 in consideration of the transparency of the cover 23. Here, the sensor bus bar electrode 110 and the sensor auxiliary electrode 120 may contact each other according to the shape of the sensor unit 100 or may be arranged to maintain a constant interval.

On the other hand, the sensor unit 100 of the power opening and closing safety device 700 according to an embodiment of the present invention is limited to the sensor of the type including the sensor bus bar electrode 110 and the sensor auxiliary electrode 120 as described above no. That is, when the sensor unit 100 is composed of a pressure sensor, the sensor bus bar electrode 110 provided in the main body case 22 may be replaced by a pressure plate for detecting pressure, and the sensor provided in the cover 23. The auxiliary electrode 120 may be replaced with a protrusion made of a material which may face the pressure plate and may provide a pressure of a predetermined size. In this case, the protrusion may be formed of an elastic member so as to continuously provide a constant pressure to the pressure plate and to maintain the cover 23 firmly against the shaking of the cover 23. Then, while the cover 23 is assembled with the main body case 22, the protrusion formed of the elastic member continuously supplies pressure to the pressure plate so that the power supply unit 10 power can be supplied to the lamp unit 600. When the cover 23 is separated from the main body case 22, the power supply unit 10 may support power supply to the power supply unit 10 according to the pressure release. When the sensor unit 100 is configured as a pressure sensor, the sensor unit 100 may be disposed in a predetermined region inside the insulating case 710, for example, in a predetermined region directly below the surface of the insulating case 710.

The insulating case 710 may be provided at an entry part through which the signal line of the power supply unit 10 enters the main body case 22 so that the exposure of the power supply unit 10 signal line provided inside the main body case 22 is minimized. Can be. That is, for a more secure design, the insulation case 710 may be disposed to cover the hole provided in the main body case 22 to enter the power line 10 signal line.

As described above, the lighting luminaire 20 according to the embodiment of the present invention is fixed to one side of the opening part of the main body case 22 when the sensor unit 100 of the power opening and closing safety device 700 is a contact sensor or a proximity sensor. The sensor bus bar electrode 110 having a width is provided, paired with the sensor bus bar electrode 110, and contacted with the sensor bus bar electrode 110 when the main body case 22 and the cover 23 are assembled, or at a predetermined interval. A sensor auxiliary electrode 120 disposed to have is provided at one side of the cover 23. In addition, the sensor unit 100 of the present invention may be composed of a pressure plate for detecting pressure and a protrusion of an elastic member for applying pressure to the pressure plate. Accordingly, the lighting luminaire 20 of the present invention minimizes friction between the components of the sensor unit 100 even when a situation in which the cover 23 and the main body case 22 flow due to external pressure generation, vibration, or shaking occurs. , Wear of the sensor unit 100 may be minimized. In addition, the lighting luminaire 20 according to the present invention arranges the switch unit 400 for controlling the power supply state of the power supply unit 10 in the insulation case 710 and also fills the insulation case 710 inside with an electric leakage. Or more stable against electric shock.

5 is a circuit diagram illustrating a lighting luminaire including a power opening and closing safety device according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the sensor unit 100 includes sensor electrodes 110 and 120, a capacitor that stores a resistance and a predetermined capacitance, that is, a capacitive sensor. The sensor unit 100 changes the capacitance of the capacitor according to the approach or contact state of the sensor electrodes 110 and 120, and the change information of the capacitance is transmitted to the state recognizing unit 200.

The state recognizer 200 may provide a comparator for detecting the capacitance change, and may provide a switch that is turned on and off according to the output of the comparator. In this case, the switch is configured to change a constant voltage, for example, a 12V pullup voltage according to the comparator output. That is, the state recognizer 200 controls the comparator output according to the change in capacitance, and as a result, a power-off command to the switch unit 400 based on the diode D5 and the transistor Q2 according to the comparator output. Will be lowered.

The power cutoff command of the state recognizer 200 is transmitted to a relay included in the switch 400. At this time, the relay pins 1 and 2 of the switch unit 400 are conducted through the driving coil, and the switches 3 and 5, 6 and 8 are moved to completely disconnect the power. As a result, the switch unit 400 may be controlled to turn off the switch according to the command of the state recognition unit 200 to cut off the power supplied to the ballast 500.

The auxiliary power supply unit 300 includes a step Dn IC U3, a diode, a resistor, a capacitor, and a coil to supply the rated power required to drive the state recognizer 200. And the like.

On the other hand, the lighting fixture 20 is connected to the sensor bus bar 120, the switch unit 400 and the auxiliary power supply unit 300, the state recognition unit 200 of the sensor unit 100 in an insulating case, for example ABS case It is integrally built and mounted on the lighting luminaire body, and the insulation case 710 is filled with epoxy or similar insulating material to completely insulate from the power source. When the sensor unit 100 is a pressure sensor, both the sensor bus bar electrode 120 and the sensor auxiliary electrode 110 may be provided inside the insulating case 710. In this case, the insulating case 710 may be disposed such that an area in which the sensor unit 100 is provided faces a protrusion provided in the cover 23.

In FIG. 5, the switch unit 400 is configured as a relay, and the sensor unit 100 is illustrated as including a sensor bus electrode 110 and a sensor auxiliary electrode 120. Check whether the use of a capacitor having a capacitance has been described. In addition, the auxiliary power supply unit 300 has been described as converting the voltage supplied from the power supply unit 10 to supply the power having a predetermined voltage. However, the present invention is not limited to these circuit configurations, and the above-described circuit configurations may be changed or replaced by other configurations according to the intention of the use designer. Therefore, the lighting luminaire including the power opening and closing safety device of the present invention supports to supply or cut off the power supplied from the power supply unit 10 to the lamp unit 600 according to whether the main body case 22 and the cover 23 are opened or closed. It should be understood as technology.

While the present invention has been described with reference to several preferred embodiments, these embodiments are illustrative and not restrictive. It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the spirit of the invention and the scope of the appended claims.

10: power supply unit 20: lighting fixtures
21: body 22: body case
23: cover 100: sensor unit
110 sensor bus electrode 120 sensor auxiliary electrode
200: state recognition unit 300: auxiliary power unit
400 switch unit 500 ballast
600: lamp unit 700: power opening and closing safety device
710: Insulated Case

Claims (9)

Lamp unit for irradiating the light based on the supplied power;
A lighting luminaire body in which the lamp unit is seated;
A cover covering an opening of the lighting fixture body;
A sensor unit generating a sensor signal according to whether the cover is opened or closed;
A switch unit supporting to cut off or supply power to the lamp unit according to the sensor signal;
A state recognition unit controlling a state of the switch unit according to a sensor signal of the sensor unit;
An auxiliary power supply unit providing power for driving the state recognition unit by using the power supplied to the lamp unit;
Lighting luminaires comprising a power opening and closing safety device comprising a. delete The method of claim 1,
The auxiliary power supply unit
A converter for converting and supplying power supplied to the lamp unit into power required for driving the state recognition unit;
A battery for supplying power required for driving the state recognition unit by charging with power supplied to the lamp unit;
Lighting luminaire comprising a power opening and closing safety device, characterized in that it comprises at least one of. The method of claim 1,
An insulation case surrounding the auxiliary power supply unit, the switch unit, and the state recognition unit;
Lighting luminaire comprising a power opening and closing safety device, characterized in that it further comprises. The method of claim 1,
The sensor unit
A sensor bus bar electrode provided at one side of the main body;
A sensor auxiliary electrode provided at one side of the cover to be in contact with the sensor bus bar electrode when the main body and the cover are assembled or to maintain a predetermined distance;
Lighting luminaires comprising a power opening and closing safety device comprising a. The method of claim 5,
An insulation case surrounding the sensor bus bar electrode, the auxiliary power supply unit, the switch unit, and the state recognition unit of the sensor unit;
Lighting luminaire comprising a power opening and closing safety device, characterized in that it further comprises. The method of claim 1,
The sensor unit
A pressure plate provided at one side of the main body to sense pressure applied from the outside;
A protruding portion provided on one side of the cover and configured to provide a predetermined elastic force to the pressure plate when the main body and the cover are assembled;
Lighting luminaires comprising a power opening and closing safety device comprising a. The method of claim 7, wherein
An insulation case surrounding the sensor unit, the auxiliary power supply unit, the switch unit, and the state recognition unit;
Lighting luminaire comprising a power opening and closing safety device, characterized in that it further comprises. The method according to any one of claims 4, 6 or 8,
An insulating material filling the inside of the insulating case;
Lighting luminaire comprising a power opening and closing safety device, characterized in that it further comprises.

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