JP2017103183A - Marker lamp and marker lamp system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a marker lamp capable of preventing power input from being blocked undesirably by an impact force to a lamp body.SOLUTION: A lamp body 5 stores an LED 20 and a lightning circuit 18 for performing lighting control of the LED 20 by inputting an AC constant current power supply, and has a light emission port 13 from which radiation light of the LED 20 is emitted. An opening/closing device 6 includes: a mechanical contact point part for opening/closing electric connection between the AC constant current power supply and the lightning circuit 18; and a contact point opening/closing mechanism for closing the electric connection by pressing the contact point part and maintaining the closed state, and for opening the electric connection by the release of pressing. Lighting state detection means monitors a lighting state of the LED 20, and controls the contact point opening/closing mechanism so that the contact point part opens according to the lighting state. A mounting device 61 has a mounting member 63 which supports the opening/closing device 6 and which can elastically deform so that the supported opening/closing device 6 moves. By the mounting member 63, the opening/closing device 6 is mounted in the lamp body 5.SELECTED DRAWING: Figure 2

Description

  Embodiments described herein relate generally to a marker lamp using a semiconductor light emitting element as a light source, and a marker lamp system using the marker lamp.

Conventionally, in a marker lamp system that controls lighting of a marker lamp installed on an airport runway or taxiway, a constant current is supplied from the AC constant current power source to the marker lamp via a rubber-coated insulation transformer. ing. When the light source of the marker lamp is a light bulb, AC constant current power is supplied to the light bulb, and the light bulb is turned on. In addition, when the bulb is disconnected (not lit), it is possible to determine the disconnection of the bulb on the AC constant current power supply side by detecting distortion of the current waveform based on the no-load state. .

  In addition, there is a marker lamp using an LED as a light source. This marker lamp uses a lighting device to light the LED. The lighting device is a load together with the LEDs. Therefore, even when the LED is not lit, the marker lamp does not enter a no-load state, and the current waveform output from the AC constant current power source is not distorted. For this reason, the non-lighting of the LED cannot be determined on the AC constant current power supply side.

  In view of this, there has been proposed a beacon lamp that is provided with a switch circuit on the input side of the lighting device and turns off the switch circuit in the event of an abnormality such as an LED malfunction or lighting device malfunction. As this switch circuit, a manual return type (mechanical) cutoff switch (opening / closing device) is used. This manual return type shut-off switch is normally turned on, and is turned off by an abnormal signal from the lighting device at the time of abnormality, and the off state is mechanically held.

  However, beacon lights installed on airport runways and taxiways are subject to impacts when aircraft take off, land and run. When an aircraft tire rides on a sign light, the impact force is great. At this time, it is conceivable that the manual return type cut-off switch is turned off from the on-state when the holding mechanism is released by the impact force. That is, there may be a problem that the LED or the lighting device is determined to be abnormal although the LED or the lighting device is normal.

JP 2012-204207 A

  The problem to be solved by the present invention is to provide a marker lamp and a marker lamp system that can prevent the power input from being undesirably interrupted by the impact force on the lamp body.

  The marker lamp of the embodiment includes a lamp body, an opening / closing device, a lighting state detection unit, and an attachment device. The lamp body contains a semiconductor light emitting element and a lighting circuit that controls the lighting of the semiconductor light emitting element by inputting an AC constant current power source, and has a light emitting port through which the emitted light of the semiconductor light emitting element is emitted, Buried in The switchgear is a mechanical contact that opens and closes the electrical connection between the AC constant current power supply and the lighting circuit, and pushes the contact to close the electrical connection and maintain the closed state to release the push. And a contact opening / closing mechanism for opening an electrical connection. The lighting state detection means monitors the lighting state of the semiconductor light emitting element and controls the contact opening / closing mechanism so that the contact portion is opened according to the lighting state. The attachment device includes an attachment member that supports the opening / closing device and is elastically deformable so that the supported opening / closing device moves, and the attachment device attaches the opening / closing device to the lamp body.

  According to the present invention, it can be expected to prevent the power input from being undesirably interrupted by the impact force on the lamp body.

It is a schematic block diagram of the marker lamp system which shows one Embodiment. It is a schematic sectional drawing of a marker lamp same as the above. FIG. 2 shows the opening / closing device, wherein (a) is a schematic plan view and (b) is a schematic side view. FIG. 2 is a schematic diagram of a contact opening / closing mechanism in a closed state of the contact portion. FIG. 3 is a schematic diagram of the contact opening / closing mechanism in the opened state of the contact portion.

  Hereinafter, an embodiment will be described with reference to FIGS. 1 to 5.

  As shown in FIG. 1, the marker lamp system 1 of the present embodiment is an aerial marker lamp system, and includes an AC constant current power source 2, a rubber-coated insulating transformer 3 as a saturable device, and a marker lamp 4 as an aerial marker lamp. It has.

  The AC constant current power supply 2 outputs, for example, a constant current of 6.6 A, 5.2 A, 4.1 A, 3.4 A, and 2.8 A and detects an output current waveform by phase control of the output current. Thus, the lighting state of the marker lamp 4 is monitored.

  A plurality of the rubber-covered insulating transformers 3 are connected in series between the output terminals of the AC constant current power source 2. FIG. 1 shows the connection of one rubber-coated insulating transformer 3, but a plurality of them are connected. The rubber-coated insulating transformer 3 has a current transformation ratio of 1: 1 and separates its primary side and secondary side.

  Further, the marker lamp 4 includes a lamp body 5, an opening / closing device 6, and a lighting state detection circuit 7 as lighting state detection means. The marker lamp 4 is connected between the output ends of the rubber-coated insulating transformer 3 and is connected to the AC constant current power source 2 via the rubber-coated insulating transformer 3.

  As shown in FIG. 2, the lamp body 5 includes an upper lamp body 8 and a lamp body cover 9. The lamp cover 9 includes an upper lamp cover 10 and a lower lamp cover 11. Each of the upper lamp body 8, the upper lamp body cover 10, and the lower lamp body cover 11 is made of, for example, aluminum (Al), and is formed by casting or the like.

  The upper lamp body cover 10 is formed into a bottomed cylindrical body having a circular flange portion 10a. The lower lamp body cover 11 is formed in a bottomed cylindrical body having a circular flange portion 11a. Then, the upper lamp cover 10 is placed on the lower lamp cover 11, and the upper lamp cover 10 is attached to the lower lamp cover 11 in a liquid-tight (air-tight) manner with a plurality of bolts 12 at the flange 11a. Yes.

  The upper lamp body 8 is formed in a substantially disk shape having a light exit port 13, is placed on the flange portion 10 a of the upper lamp body cover 10, and is liquid-tightly attached to the upper lamp body cover 10 by a plurality of flat head screws 14. It is attached. The upper lamp body 8 is formed with two light exit ports 13 facing in opposite directions. Further, the light exit 13 is formed so as to face upward from the upper lamp body 8.

  The lamp body 5 has a lamp cover 9 embedded in the ground and an upper lamp body 8 exposed on the ground. Accordingly, the light exit port 13 faces obliquely upward with respect to the ground. The ground allows a concrete surface in which the lamp body 5 is embedded. For example, concrete surfaces such as runways and taxiways provided on the sea are also included in the ground.

  The lower lamp cover 11 accommodates the opening / closing device 6, current transformers CT1, CT2, and the lighting unit 15, and the upper lamp cover 10 and the upper lamp 8 accommodate the light source unit 16 and the gasket 17 with a lens. Yes. A lighting circuit 18 is formed by the current transformers CT1 and CT2 and the lighting unit 15.

  The light source unit 16 is formed by including an LED 20 as one or a plurality of semiconductor light emitting elements mounted on a substrate 19 and a reflecting mirror 21 for controlling the emitted light of the LED 20. In the light source unit 16, the substrate 19 is attached to the upper lamp cover 10 so that the emitted light of the LED 20 is emitted upward from the light emission port 13. The gasket 17 is attached to the attachment plate 22. The mounting plate 22 is attached to the upper lamp body cover 10 so that the gasket 17 is positioned at the light exit port 13.

  As shown in FIG. 1, the lighting unit 15 houses a lighting circuit unit 23 of the lighting circuit 18 and a control circuit unit 24. In the lighting circuit 18, current transformers CT 1 and CT 2 are connected in series, and the input side thereof is connected to the output side of the contact portion 27 of the switchgear 6. The input side of the contact portion 27 is connected between the output ends of the rubber-coated insulating transformer 3, and the lighting circuit 18 inputs the output current of the AC constant current power source 2 through the switchgear 6 and the rubber-coated insulating transformer 3. To do.

  The lighting circuit unit 23 is configured to receive the output current of the AC constant current power source 2 from the current transformer CT1, adjust the current according to the output current, and supply the current to the LED 20. Further, the control circuit unit 24 includes a microcomputer (not shown), and inputs the output current of the AC constant current power supply 2 from the current transformer CT2 so that the current corresponding to the output current is supplied to the LED 20. The lighting circuit unit 23 is controlled by the control operation. That is, the control circuit unit 24 has the LED 20 of 100%, 25%, 5%, according to the output current 6.6A, 5.2A, 4.1A, 3.4A, 2.8A of the AC constant current power source 2. The lighting circuit unit 23 is controlled to light up at a dimming level of 1% and 0.2%.

  In the present embodiment, the lighting state detection circuit 7 is formed in the control circuit unit 24. The lighting state detection circuit 7 constantly monitors the lighting state of the LED 20, and supplies a predetermined current to the coil 28 of the switchgear 6 in response to the non-lighting of the LED 20, thereby opening the contact part 27 of the switchgear 6. (Open). The lighting state detection circuit 7 and the coil 28 of the switchgear 6 are connected by an electric wire (power cord) 29. When the contact portion 27 is opened from the closed state by energizing the coil 28, the open state is maintained even if the coil 28 is not energized thereafter.

  Moreover, although the existing circuit breaker can be used for the switchgear 6, a dedicated product may be used. As shown in FIGS. 3 (a) and 3 (b), the opening / closing device 6 of the present embodiment has three insertion grooves 32 on the front surface 30a side of the substantially rectangular parallelepiped device body 30 in the vertical direction. Is formed. The apparatus main body 30 is made of a synthetic resin having high electrical insulation and flame retardancy, for example, polybutylene terephthalate (PBT) resin.

  The upper and lower insertion grooves 32 are provided with an input terminal 33 that contacts the conductive bar 31 and an elastic piece 34 that elastically presses the conductive bar 31 to contact the input terminal 33, respectively. Further, the input terminal 33 and the elastic piece 34 are not provided in the middle insertion groove 32. An electric wire (power cord) 29 connected to the lighting state detection circuit 7 is inserted into and inserted into the middle insertion groove 32. The two conductive bars 31 inserted into the upper and lower insertion grooves 32 and connected in contact with the input terminal 33 are electrically connected to the output end of the rubber-coated insulating transformer 3 by electric wires (not shown).

  One handle 35 that is manually operated is provided on the upper surface 30 c side of the apparatus main body 30, and a pair of output terminals 36 and 36 are provided on the rear surface 30 b side of the apparatus main body 30. In this embodiment, the handle 35 is manually operated in the direction from the rear surface 30b side (output terminal 36 side) to the front surface 30a side (input terminal 33 side) from the rear surface 30b side of the apparatus main body 30, thereby turning the pair of input terminals 33, 33 and the pair of output terminals 36 and 36 are electrically connected to each other, and the handle 35 is turned on. In addition, by manually operating the handle 35 in the opposite direction to the above and turning, the electrical connection between the pair of input terminals 33 and 33 and the pair of output terminals 36 and 36 is released, and the handle 35 is in an off state. It becomes. In FIG. 3, the state of the handle 35 indicated by hatching indicates the on state of the handle 35.

  An input line (not shown) of the lighting circuit 18 is connected to the pair of output terminals 36 and 36. A pair of operation levers 37 and 37 for connecting and fixing the input line to the output terminal 36 are provided on the upper surface 30c side of the rear surface 30b side of the apparatus main body 30. In FIG. 3, the state of the operation lever 37 indicated by hatching indicates a state in which the input line is connected to the output terminal 36.

  4 and 5, a contact part 27, an input terminal 33, an output terminal 36, a contact opening / closing mechanism 38, a contact opening control part 39, and the like are provided in the apparatus main body 30. 4 and 5, the contact portion 27, the input terminal 33, and the output terminal 36 each show only one of a pair.

  The contact portion 27 includes a fixed plate 42 having a substantially cylindrical contact portion 41, a movable plate 44 having a substantially cylindrical contact portion 43, and a spiral spring 45. The fixed plate 42 and the movable plate 44 are each made of, for example, copper, and the contact portion 41 and the contact portion 43 are each made of silver or copper plated with silver. The fixing plate 42 is fixed to the apparatus body 30. The movable plate 44 moves (rotates) against the spiral spring 45 when the handle 35 is in an on state, and the contact portion 43 contacts the contact portion 41 of the fixed plate 42 as shown in FIG. The device main body 30 is movably provided so as to be (closed).

  The spiral spring 45 is provided so as to press the movable plate 44. As shown in FIG. 5, when the handle 35 is turned off, the contact portion 41 of the fixed plate 42 and the contact portion 43 of the movable plate 44 are The movable plate 44 is moved (rotated) by an elastic return force so that the electrical connection is opened. The movable plate 44 is electrically connected to the input terminal 33 by a flexible stranded wire (jumper wire) 46, and the fixed plate 42 is electrically connected to the output terminal 36 by a lead wire 47.

  The output terminal 36 is provided in the insertion groove 48 on the rear surface 30b side of the apparatus body 30. The input line of the lighting circuit 18 inserted in the insertion groove 48 is sandwiched between the output terminal 36 and the rotation lever 49 that rotates in association with the rotation operation of the operation lever 37 and is mechanically prevented from being removed. Electrically connected to 36.

  The contact opening / closing mechanism 38 includes an operation unit 50 having a handle 35, a wire spring 51 that attaches the operation unit 50 to the apparatus main body 30 so as to be rotatable, and a link that is connected to the operation unit 50 and moves according to the rotation of the operation unit 50. Part 52, a responding part 53 that pushes the movable plate 44 of the contact part 27 in accordance with the movement of the link part 52, and a lock provided on the apparatus main body 30 so as to lock the responding part 53 when the handle 35 is in an on state. Part 54.

  The operation unit 50 is formed in a substantially cylindrical body, and is rotatably attached to a rotation shaft 55 provided in the apparatus main body 30 so that the handle 35 is turned on or off. The wire spring 51 acts to resist the rotation of the operation unit 50 when the operation unit 50 is rotated from the OFF state of the handle 35 to the ON state. The operation unit 50 is energized so that

  The link part 52 is formed in a clamp shape, for example, and is attached to the operation part 50 and the responding part 53 with light rattling. As shown in FIG. 5, the link portion 52 is provided so as to be inclined from the front surface 30 a side to the rear surface 30 b side with respect to the upper surface 30 c of the apparatus main body 30 when the handle 35 is in an off state. Then, the link unit 52 moves from the front surface 30a side to the rear surface 30b side of the apparatus body 30 with the rotation of the operation unit 50 when the operation unit 50 rotates so that the handle 35 changes from the off state to the on state. When the handle 35 is turned on, it is substantially orthogonal to the upper surface 30c of the apparatus main body 30, as shown in FIG.

  The responding portion 53 is made of a resin, is formed in a substantially rectangular plate shape that is inclined, and has an upper corner portion rotatably attached to a rotation shaft 56 provided in the apparatus main body 30. In the responding portion 53, the link portion 52 is attached to the substantially rectangular upper side and the substantially central portion in the longitudinal direction.

  When the handle 35 is in an off state, the responding portion 53 has a projecting portion 57 away from the movable plate 44 of the contact portion 27 as shown in FIG. Then, when the link portion 52 is moved by manual operation of the handle 35, it is pressed by the link portion 52, and the projecting portion 57 side rotates around the rotation shaft 56 toward the lower surface 30d side of the apparatus main body 30. When the protruding portion 57 contacts and presses the movable plate 44, the movable plate 44 is pushed.

  Since the link portion 52 changes from the oblique state to the orthogonal state with respect to the upper surface 30c side of the device main body 30, the length of the distance to the distance between the upper surface 30c and the lower surface 30a of the device main body 30 increases, and the increased difference Then, the protruding portion 57 side of the responding portion 53 is pushed down to the lower surface 30d side of the apparatus main body 30. The responding portion 53 pushes the movable plate 44 against the elastic return force of the helical spring 45. The movable plate 44 rotates to the lower surface 30d side of the apparatus main body 30, and the contact portion 43 of the movable plate 44 and the contact portion 41 of the fixed plate 42 are electrically connected (closed). At this time, the responding portion 53 is locked to the locking portion 54.

  The locking portion 54 is, for example, a small thin plate-like convex portion provided on the inner surface of the apparatus main body 30. The responding portion 53 is provided so as to ride on the convex portion as shown in FIG. 5 when the handle 35 is in the off state. Then, the responding portion 53 is rotated by pressing by the link portion 52 and is rotated until the contact portion 43 of the movable plate 44 and the contact portion 41 of the fixed plate 42 are electrically connected (closed), as shown in FIG. As described above, it falls into the step with the convex portion, and a part of the end surface on the upper side of the substantially rectangular shape comes into contact with the convex portion. As a result, the responding portion 53 is locked to the locking portion 54. The locking part 54 is provided in the apparatus main body 30 so as to lock a part of the responding part 53.

  At this time, a force for moving the device main body 30 from the rear surface 30b side to the front surface 30a side is constantly acting on the link portion 52. As a result, the responding portion 53 is always subjected to a force that climbs onto the convex portion and releases the locked state. That is, the elastic restoring force of the wire spring 51 acts on the operation unit 50 so as to move the handle 35 from the on state to the off state side. Further, the spiral spring 45 presses the movable plate 44 by its elastic restoring force, and acts to release the electrical connection between the contact portion 43 of the movable plate 44 and the contact portion 41 of the fixed plate 42. The locking part 54 is provided so as to lock the responding part 53 against the elastic restoring force of the wire spring 51 and the helical spring 45.

  However, when at least the manual operation force that turns the handle 35 from the on state to the off state acts on the responding portion 53 via the link portion 52, the engaging portion 53 changes from the upper side end surface side to the convex portion. The height and shape of the convex portions are set and formed so that they can get on. That is, the locking portion 54 does not have a large locking force to the responding portion 53, and the engaging portion 53 can ride on the convex portion when at least a manual operation force acts on the responding portion 53. The stopping power is set. Since the responding portion 53 is lightly attached, the responding portion 53 can fall on the step with the convex portion and be locked to the convex portion, and can ride on the convex portion.

  When the responding portion 53 rides on the convex portion from the locked state, the locking of the responding portion 53 is released and the responding portion 53 becomes free, so that the operation portion 50 is rotated by the elastic return force of the wire spring 51, The link part 52 moves from the rear surface 30b side of the apparatus main body 30 to the front surface 30a side. Along with the movement of the link portion 52, the responding portion 53 is rotated and lifted to the upper surface 30c side of the apparatus main body 30. As a result, the protrusion 57 of the responding portion 53 does not press the movable plate 44, and the pressing of the responding portion 53 to the movable plate 44 is released. The movable plate 44 is rotated toward the upper surface 30 c of the apparatus main body 30 by the elastic return force of the spiral spring 45. Electrical connection between the contact portion 43 of the movable plate 44 and the contact portion 41 of the fixed plate 42 is established.

  The contact opening control unit 39 includes a cylindrical main body 58 and a rod-shaped controller 59. The main body 58 is fixed to the inner surface of the apparatus main body 30. In the main body 58, an iron core and a coil 28 wound around the iron core are housed. The coil 28 is connected to the lighting state detection circuit 7 in the lighting unit 15 by an electric wire (electric cord) 29. The main body 58 is formed to be an electromagnet by supplying current to the coil 28.

  The controller 59 is made of a magnetic material such as iron, has a proximal end attached to the main body 58, and a distal end connected to the operation unit 50 by hooking or the like. Further, the distal end side of the controller 59 is provided in the operation unit 50 so as to be along the surface of the operation unit 50. Further, the control element 59 is movable in the moving direction of the ring part 52 and is attached to the main body part 58 so that it can move when the operation part 50 is rotating. The base 59 of the controller 59 is led out from the main body 58 or introduced into the main body 58 according to the rotation of the operation unit 50. That is, when the operation unit 50 is rotated so that the link unit 52 moves from the front surface 30a side to the rear surface 30b side of the apparatus main body 30, the controller 59 is pulled by the operation unit 50, and the base end portion thereof is A part is derived from the main body 58. Conversely, when the operation unit 50 is rotated so that the link unit 52 moves from the rear surface 30b side to the front surface 30a side of the apparatus main body 30, the controller 59 is pushed by the operation unit 50 and the base end portion thereof Is introduced into the main body 58.

  When the current is supplied to the coil 28 and the main body 58 becomes an electromagnet, the controller 59 is attracted into the main body 58 by the electromagnetic force of the electromagnet. As a result, the operation unit 50 is pulled by the controller 59, and a tensile force that rotates from the rear surface 30b side to the front surface 30a side of the apparatus main body 30 acts. This pulling force is set to be greater than the force for manually operating the handle 35 from the on state to the off state so that the responding portion 53 can ride on the convex portion of the locking portion 54. Thus, when the current from the lighting state detection circuit 7 is supplied to the coil 28, the contact opening control unit 39 releases the locking of the responding unit 53 by the locking unit 54 and closes the electrical connection of the contact unit 27. It is formed to control from the formed state to the opened state.

  As described above, in the switching device 6, the link portion 52 moves from the front surface 30 a side to the rear surface 30 b side of the device main body 30 in accordance with the rotation of the operation unit 50, and the electrical connection of the contact portion 27 is closed. The responding portion 53 is locked to the locking portion 54, and the closed state of the electrical connection of the contact portion 27 is maintained. Then, the link portion 52 moves from the rear surface 30b side of the apparatus main body 30 to the front surface 30a side, and the locking of the responding portion 53 to the locking portion 54 is released, whereby the electrical connection of the contact portion 27 is closed. It becomes an open state. Therefore, in the present embodiment, the moving direction of the link portion 52 is a direction in which the contact opening / closing mechanism 38 is mechanically operated. That is, the operation direction of the contact opening / closing mechanism 38 is a direction from the front surface 30a side to the rear surface 30b side of the apparatus main body 30 or a direction from the rear surface 30b side to the front surface 30a side of the apparatus main body 30.

  In the present embodiment, as shown in FIG. 3, the opening / closing device 6 has a direction from the rear surface 30b side to the front surface 30a side in the X direction, a direction from the side surface 30e side to the side surface 30f side in the Y direction, and the lower surface 30d side. The direction from the top to the upper surface 30c is taken as the Z direction. Further, as shown in FIG. 2, the marker lamp 4 (lamp body 5) is orthogonal to the X direction in the formation direction of the light exit port 13, the Z direction in the height direction of the lamp body 5, and the X direction and the Z direction. The direction to perform is the Y direction. Since a pair of the light emission ports 13 are provided in the upper lamp body 8 so as to be opposite to each other, the X direction may be any light emission port 13 formation direction.

  The opening / closing device 6 is mounted in the lamp body 5 by the mounting device 61. At this time, the opening / closing device 6 is mounted in the lower lamp body cover 11 so that the X direction of the opening / closing device 6 intersects the X direction and the Z direction of the lamp body 5. That is, the opening / closing device 6 is provided in the lamp body 5 such that the direction in which the contact opening / closing mechanism 38 is mechanically operated intersects the direction in which the light exit 13 of the lamp body 5 is formed and the height direction of the lamp body 5. It is attached. Here, the opening / closing device 6 is provided in the lamp body 5 so that the intersecting angle is 30 ° to 90 °. In the present embodiment, the opening / closing device 6 is provided in the lamp body 5 so that the crossing angle is approximately 90 °.

  The attachment device 61 includes a case 62 that houses the opening / closing device 6, and an attachment member 63 that supports the case 62 and attaches it to the lamp body 5.

  The case 62 is provided in a waterproof box shape and accommodates the opening / closing device 6. A cushioning material is interposed between the case 62 and the opening / closing device 6.

  The attachment member 63 is formed by, for example, bending a thin metal plate. The mounting member 63 includes a support portion 64 that supports the case 62, a side plate portion 65 that is bent from both sides of the support portion 64, and a fixing portion 66 that is bent outward from the lower end of the side plate portion 65. ing. Each fixing portion 66 is fixed to the lamp body 5 by a plurality of fixing screws 67.

  The mounting member 63 that supports the switchgear 6 via the case 62 and is attached to the lamp body 5 is difficult to elastically deform in the Y direction of the lamp body 5 along the surface of the side plate portion 65. The lamp body 5 perpendicular to the surface of the side plate portion 65 is elastically deformable in the X direction. That is, the opening / closing device 6 supported by the mounting member 63 is restricted from moving in the Y direction of the lamp body 5, but is moved in the X direction of the lamp body 5 in the formation direction of the light exit port 13. Is allowed.

  In the following description, the X direction, the Y direction, and the Z direction are referred to as a positive X direction, a positive Y direction, and a positive Z direction, respectively, in order to represent the X direction, the Y direction, and the Z direction, and the opposite directions thereof. These opposite directions may be expressed as a negative X direction, a negative Y direction, and a negative Z direction, respectively.

  Next, the operation of this embodiment will be described.

  In the marker lamp 4, the handle 35 of the opening / closing device 6 is turned on, and the lamp body 5 is embedded in the ground. In the switching device 6, the contact portion 27 is always closed and the ON state is maintained by the responsive portion 53 of the contact opening / closing mechanism 38 being locked to the locking portion 54. By closing the contact portion 27 of the switchgear 6, the electrical connection between the AC constant current power source 2 and the lighting circuit 18 of the marker lamp 4 is always closed.

  When a predetermined constant current is output from the AC constant current power source 2, the lighting circuit 18 lights the LED 20 at a dimming level corresponding to the output current. A predetermined color light is radiated from the LED 20, and this radiated light is emitted obliquely upward from the light emission port 13 of the lamp body 5.

  The lighting state of the LED 20 is constantly monitored by the lighting state detection circuit 7. When the lighting state detection circuit 7 detects the non-lighting of the LED 20, a predetermined current is passed through the coil 28 of the contact opening control unit 39 of the switchgear 6 via the electric wire (electric cord) 29. The inside of the main body 58 of the contact opening control unit 39 becomes an electromagnet, and draws the controller 59 toward the main body 58.

  The operation unit 50 on which the controller 59 is hooked rotates from the rear surface 30b side of the apparatus main body 30 to the front surface 30a side, whereby the link unit 52 connected to the operation unit 50 and the responding unit 53 is connected to the apparatus unit 30. The main body 30 moves from the rear surface 30b side to the front surface 30a side. Accompanying the movement of the link portion 52, the responding portion 52 is rotated to the upper surface 30c side of the apparatus main body 30 and lifted. At this time, the responding part 53 rides along the convex part from a state in which the end surface on the upper side contacts and contacts the convex part of the locking part 54. The responsive portion 53 becomes free when the locking at the locking portion 54 is released. As a result, the operating portion 50 is further rotated by the elastic restoring force of the wire spring 51, the link portion 52 is moved, and the responding portion 53 is rotated and lifted.

  The protruding portion 57 of the responding portion 53 does not press the movable plate 44 of the contact portion 27 and is separated from the movable plate 44. The movable plate 44 is rotated toward the upper surface 30 c of the apparatus main body 30 by the elastic return force of the spiral spring 45. The contact portion 43 of the movable plate 44 is separated from the contact portion 41 of the fixed plate 42. In the switchgear 6, the contact portion 27 is opened, and the handle 35 is turned off. Thereby, the output end of the rubber-coated insulating transformer 3 is opened.

  When the output end of the rubber-covered insulating transformer 3 is opened, distortion occurs in the waveform of the constant current output from the AC constant current power source 2. The AC constant current power supply 2 side notifies that the LED 20 is not lit in the marker lamp 4 by detecting distortion of the current waveform.

  Since the switchgear 6 is configured using a mechanical contact portion 27, when the contact portion 27 changes from the closed state to the open state, the open state is maintained. Therefore, the marker lamp 4 does not include a holding unit that holds the open state of the contact portion 27. Accordingly, simplification of the configuration, cost reduction, power consumption reduction, and the like are achieved.

  Further, the switching device 6 is configured to maintain the closed state of the contact portion 27 when the responsive portion 53 of the contact opening / closing mechanism 38 is locked to the locking portion 54. That is, when the responding portion 53 contacts the convex portion of the locking portion 54, the closed state of the contact portion 27 is maintained, and when the responding portion 53 rides on the convex portion of the locking portion 54, the responding portion 53 Is released, and the contact portion 27 shifts from the closed state to the open state.

  The responding portion 53 is made of a resin and is formed in a plate shape, abuts against the convex portion of the locking portion 54, and has a light rattling so that it can ride on the convex portion. Is provided. The responding portion 53 is a convex portion of the locking portion 54 when a tensile force by the contact opening control portion 39 is applied to the operation portion 50 or when a manual operation force is applied to turn off the handle 35. So that the locking force at the locking part 54 is relatively small.

  When the contact opening / closing mechanism 38 acts from the positive X direction side to the negative X direction side, that is, from the front surface 30a side to the rear surface 30b side, as shown in FIG. It is configured such that when the negative X direction side acts on the positive X direction side, that is, when acting from the rear surface 30b side to the front surface 30a side of the apparatus body 30, the locking portion 54 of the responding portion 53 is unlocked. Has been.

  By the way, the marker lamp 4 is arranged along a runway, a taxiway or the like of an airport, and the light exit 13 is arranged along the runway or the taxiway. That is, as shown in FIG. 2, the marker lamp 4 is embedded in the ground so that the X direction of the lamp body 5 (the direction in which the light exit port 13 is formed) is along a runway or a guide path. Then, the aircraft travels near the beacon light 4 and lands. In addition, aircraft tires may ride on the sign lights 4. The aircraft travels or lands from the positive X direction side of the lamp body 5 to the negative X direction side, or from the negative X direction side to the positive X direction side.

  When the aircraft is traveling or landing, an impact due to the weight of the aircraft is applied to the ground. This impact propagates through the ground and is applied to the lamp body 5 from the positive X direction side or the negative X direction side, and is also applied to the switchgear 6. . Further, when the aircraft gets on or lands on the lamp body 5, an impact is applied to the lamp body 5 from the Z direction (the height direction of the lamp body 5) of the lamp body 5, and the impact is also applied to the opening / closing device 6.

  Here, the opening / closing device 6 is provided in the lamp body 5 so that the X direction (the direction from the rear surface 30b side to the front surface 30a side of the apparatus body 30) faces the negative X direction side or the negative Z direction side of the lamp body 5. If so, the impact applied to the lamp body 5 is applied to the opening / closing device 6 from the negative X direction side to the positive X direction side, that is, from the rear surface 30b side to the front surface 30a side of the device body 30. The direction in which the impact is applied is a direction in which the contact opening / closing mechanism 38 acts so as to release the locking of the responding portion 53 at the locking portion 54.

  If the impact force is equal to or greater than the pulling force by the electromagnet of the contact opening control unit 39, or greater than the manual operation force for manually operating the handle 35 from the on state to the off state, the engagement at the locking portion 54 of the responding portion 53 is performed. It is possible that the stop is released. Further, even if the impact force is less than the tensile force or the manual operation force, the responding portion 53 having the backlash vibrates and is lifted from the state of being in contact with the convex portion of the locking portion 54. Sometimes, it is conceivable to ride on the convex portion due to the elastic return force of the wire spring 51 and the spiral spring 45.

  The present inventors performed a steel ball drop test in which a steel ball is dropped on the switchgear 6 to apply an impact force. As a result, when the impact exceeding the impact force of acceleration 350 G (heavy) and time 1.15 ms (milliseconds) is applied from the negative X direction side of the opening / closing device 6, the responsive portion 53 is locked by the locking portion 54. Is released, the contact portion 27 is opened from the closed state, and the handle 35 is changed from the on state to the off state. On the other hand, even if an impact force of acceleration 830G and time 0.66 ms is applied from the positive X direction side and the positive Z direction side of the switchgear 6 respectively, the contact portion 27 does not open, and the handle 35 is in the ON state. Maintained. Further, even when an impact force of 110 G acceleration and 0.15 ms in time was applied from the positive Y direction side and the negative Y direction side, the handle 35 was kept on. Thus, the opening / closing device 6 acts so that the contact opening / closing mechanism 38 releases the locking at the locking portion 54 of the responding portion 53 when an impact is applied from the negative X direction side to the positive X direction side. When an impact is applied in the direction, depending on the impact force, the locking portion 54 of the responding portion 53 is unlocked, the contact portion 27 is opened from the closed state, and the handle 35 is changed from the on state to the off state. Turned out to be.

  Therefore, in the marker lamp 4 of the present embodiment, the switchgear 6 has a direction in which the contact switching mechanism 38 is mechanically operated, that is, the positive X direction and the negative X direction of the switchgear 6 (from the rear surface 30b side of the device body 30). The direction on the front surface 30a side and the direction from the front surface 30a side to the rear surface 30b side are the height direction of the lamp body 5 (the positive Z direction of the lamp body 5) and the direction in which the light emission port 13 of the lamp body 5 is formed (of the lamp body 5). It is provided at the bottom of the lower lamp cover 11 of the lamp 5 so as to intersect with the positive X direction or the negative X direction. And it has provided in the lamp 5 so that the crossing angle may be in the range of 30 ° to 90 °. In the present embodiment, the opening / closing device 6 is provided so as to have an intersection angle of approximately 90 with respect to the X direction of the lamp body 5.

  An impact is applied to the lamp body 5 from the positive X direction side, the negative X direction side, and the positive Z direction side to the upper lamp body 8. Since the opening / closing device 6 is provided at the bottom of the lower lamp body cover 11, the impact applied to the upper lamp body 8 is somewhat reduced. The impact applied from the positive X direction side and the negative X direction side of the upper lamp body 8 is applied from the positive Y direction side and the negative Y direction side of the switch device 6 in the switch device 6. Further, the impact applied from the positive Z direction side of the upper lamp body 8 is applied from the positive Z direction side of the switchgear 6 in the switchgear 6. As described in the above-mentioned steel ball drop test, the opening / closing device 6 is in the on state even when a corresponding impact force is applied from the positive Y direction side, the negative Y direction side, and the positive Z direction side of the opening / closing device 6. 35 does not turn off. Therefore, even when an impact by an aircraft or the like is applied to the lamp body 5, the opening / closing device 6 is expected to maintain the on state of the handle 35, and the lit LED 20 is prevented from being turned off undesirably due to the impact. Is done.

  Further, in the switching device 6, the direction in which the contact opening / closing mechanism 38 is mechanically operated intersects the height direction of the lamp body 5 and the formation direction of the light exit port 13 of the lamp body 5 by 30 ° or more. The impact applied from the positive X direction side and the negative X direction side of the lamp body 5 is attenuated and applied in the direction in which the contact opening / closing mechanism 38 is mechanically operated, and the impact force is 350 G acceleration and 1.15 ms or less in time. Thus, the impact force does not release the locking portion 54 of the responding portion 53 at the locking portion 54.

  Furthermore, the opening / closing device 6 is allowed to move in the X direction of the lamp body 5 in the direction in which the light exit port 13 is formed by elastic deformation of the mounting member 63 of the mounting device 61. Therefore, the mounting member 63 elastically deforms and absorbs the impact force with respect to the impact applied from the positive X direction side and the negative X direction side of the lamp body 5, and the impact force transmitted to the opening / closing device 6 is reduced. Thereby, it is prevented that the handle | steering_wheel 35 in the ON state of the opening / closing apparatus 6 will be in an OFF state. Therefore, even when an impact by an aircraft or the like is applied to the lamp body 5, the opening / closing device 6 is expected to maintain the on state of the handle 35, and the lit LED 20 is prevented from being turned off undesirably due to the impact. Is done.

  As described above, according to the marker lamp 4 of the present embodiment, the switchgear 6 has the direction in which the contact opening / closing mechanism 38 is mechanically operated in the height direction of the lamp body 5 embedded in the ground and the lamp body 5. Since it is provided in the lamp body 5 so as to intersect the formation direction of the light emission port 13, even if an impact is applied to the lamp body 5 from the height direction side of the lamp body 5 and the formation direction side of the light emission port 13. The impact force in the direction in which the contact opening / closing mechanism 38 operates is suppressed, so that the engagement of the responding portion 53 at the locking portion 54 is not undesirably released. There is an effect that the closed state of the electrical connection between the constant current power source 2 and the lighting circuit 18 can be maintained.

  Furthermore, according to the marker lamp 4 of the present embodiment, the opening / closing device 6 is supported by the mounting member 63 that can be elastically deformed and mounted in the lamp body 5, so that the impact applied to the lamp body 5 is applied by the mounting member 63. The impact force absorbed and applied to the opening / closing device 6 can be reduced. Moreover, since the opening / closing device 6 is allowed to move in the direction in which the light exit port 13 is formed due to the elastic deformation of the mounting member 63, even if an impact is applied to the lamp body 5 from the direction in which the light exit port 13 is formed, The impact force in the direction in which the contact opening / closing mechanism 38 operates is suppressed, and the engagement of the responding portion 53 at the engaging portion 54 is not undesirably released. There is an effect that the closed state of the electrical connection between the current power source 2 and the lighting circuit 18 can be maintained.

  Further, the switching device 6 has a crossing angle of 30 ° to 90 ° in which the direction in which the contact opening / closing mechanism 38 is mechanically operated intersects the height direction of the lamp body 5 and the formation direction of the light exit port 13 of the lamp body 5. Since the lamp body 5 is provided so as to be in the range, the opening / closing device 6 can be installed in the lamp body 5 with tolerance, and the engaging portion of the responding portion 53 by the impact applied to the lamp body 5 It has the effect that the locking at 54 can be prevented from being undesirably released.

  Further, the contact opening / closing mechanism 38 has an operation part 50, a link part 52, a responding part 53 and a locking part 54, and the moving direction of the link part 52 is the direction in which the contact opening / closing mechanism 38 operates. The direction in which the contact opening / closing mechanism 38 operates is formed between the front surface 30a and the rear surface 30b of the opening / closing device 6, so that the opening / closing device 6 has a mechanical operating direction of the contact opening / closing mechanism 38 in the height of the lamp body 5. There is an effect that it can be easily provided in the lamp body 5 so as to intersect the direction and the formation direction of the light exit port 13 of the lamp body 5.

  Further, since the opening / closing device 6 is accommodated in the case 62 together with the cushioning material, the impact force applied to the opening / closing device 6 can be further alleviated, and malfunction of the opening / closing device 6 can be prevented. Furthermore, since the case 62 has a waterproof structure, the opening / closing device 6 can be reliably operated even if rainwater or the like enters the lamp body 5.

  In the sign system 1 of the present embodiment, the sign lamp 4 is configured by using the switchgear 6 having the mechanical contact portion 27. Therefore, the contact portion 27 is opened from the closed state when the LED 20 is not lit. Even if it becomes a state, it has the effect that it is not necessary to provide the holding means which hold | maintains the open state.

  In addition, in this embodiment, although LED was used as a semiconductor light emitting element, an organic EL element may be used. Further, although the locking portion 54 is formed in a convex portion, it may be formed in a step or a concave portion, and the response portion 53 may be locked in the step or the concave portion.

  Further, the lighting state detection circuit 7 may be formed so as to detect a failure of the lighting circuit 18 and energize the coil 28 of the opening device 6 in addition to detecting the non-lighting of the LED 20. In this case, the lighting state detection circuit 7 is provided with power storage means such as a capacitor and operates for a predetermined time by the power supply of the power storage means even if the operation power is not supplied from the control circuit unit 24 when the lighting circuit 18 fails. It may be formed so that the coil 28 can be maintained and energized.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 Marking lamp system 2 AC constant current power supply 3 Rubber covering insulation transformer as a saturable device 4 Marking lamp 5 Lamp body 6 Switchgear 7 Lighting state detection circuit as lighting state detection means
13 Light exit
18 Lighting circuit
20 LEDs as semiconductor light emitting devices
27 Contact
38 Contact opening / closing mechanism
50 Control section
52 Link
53 Response section
54 Locking part
61 Mounting device
62 cases
63 Mounting member

Claims (6)

A semiconductor light-emitting element and a lighting circuit that controls lighting of the semiconductor light-emitting element by inputting an AC constant current power supply are housed, and has a light emission port from which emitted light of the semiconductor light-emitting element is emitted, and is embedded in the ground A lamp to be used;
A mechanical contact portion that opens and closes an electrical connection between the AC constant current power source and the lighting circuit, and pushes the contact portion to close the electrical connection and maintain the closed state. An opening and closing device having a contact opening and closing mechanism for opening the electrical connection upon release of;
Lighting state detection means for monitoring a lighting state of the semiconductor light emitting element and controlling the contact opening / closing mechanism so that the contact portion is opened according to the lighting state;
An attachment device that supports the switchgear and has an attachment member that is elastically deformable so that the supported switchgear moves; and the attachment device attaches the switchgear in the lamp body by the attachment member;
A sign lamp characterized by comprising: The marker lamp according to claim 1, wherein the attachment device includes a case that accommodates the opening / closing device, and the case is supported by the attachment member. The marker lamp according to claim 1 or 2, wherein the mounting device has a direction in which the opening / closing device moves as a direction in which the light emission port is formed. The attachment device attaches the opening / closing device in the lamp body so that a direction in which the contact opening / closing mechanism operates intersects a height direction of the lamp body and a formation direction of the light exit port. The marker lamp according to claim 3. The contact opening / closing mechanism includes an operation unit that is rotated, a link unit that moves according to the rotation of the operation unit, a response unit that pushes the contact unit as the link unit moves, and the contact unit 5. A locking portion that locks the responsive portion so as to maintain the closed state, wherein the moving direction of the link portion is a direction in which the contact opening / closing mechanism operates. Sign light. An AC constant current power supply for monitoring a power waveform and detecting a lighting state of the semiconductor light emitting element;
A saturable device connected in series between the output terminals of the AC constant current power supply;
A marker lamp as claimed in any one of claims 1 to 5 connected to the AC constant current device via the saturable device;
A marker lamp system comprising:

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