JP4111027B2 - Recessed beacon lamp device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an embedded beacon lamp apparatus suitable for use as a marker light for visual assistance for an aircraft pilot at an airport, or for use on a road or the like.
[0002]
[Prior art]
As a structure for installing airport-embedded beacon lights on the road surface, the base is pre-embedded in the road surface, and either directly or indirectly through the adjustment ring, The structure which attaches a light is adopted. Then, electrical wiring for connecting the power source and / or other embedded marker lamps is provided in advance in the base. There are two methods for electrical wiring: a notch bonding method and a piping method.
[0003]
The former is a construction method in which a wiring groove is cut in the concrete constituting the road surface, and the electric wiring is directly bonded in the wiring groove. The base used in this construction method is attached with the connection terminal waterproofed so as to penetrate the side surface, and a power supply terminal block is provided on the inner side of the base, and the space between the power supply terminal block and the connection terminal is inside. The connection is made through a connection line. On the other hand, the power receiving terminal protrudes from the bottom surface of the embedded marker lamp, and the power receiving terminal is connected to the power terminal block when the embedded marker lamp is disposed at a predetermined position on the base. It is configured as follows.
[0004]
The latter is a method of wiring through the piping, and is laid in the concrete that constitutes the road surface in advance, and the wiring through the wiring is connected to the base and the wiring is introduced into the base. The receptacle is connected to the tip of the introduced wiring. On the other hand, in the embedded marker lamp, a connection line is led out from the bottom surface, and a plug is connected to the tip of the connection line. Then, the plug is attached to the receptacle, and the embedded marker lamp is connected to the wiring.
[0005]
However, there is a problem with any of the conventional electrical wiring methods. That is, in the incision bonding method, there is no problem to be described later in the piping method, but when the ground moves, there is a problem that the wiring in the wiring groove is easily cut and lacks long-term reliability. The piping method was developed as a countermeasure against this problem.
[0006]
On the other hand, in the piping method, since rainwater or the like may enter through the piping, it is necessary to tap after connecting the plug to the receptacle when attaching the embedded marker lamp. For this reason, it is difficult to take time for exchanging the embedded marker lamp and to replace it in a short time. On the other hand, at airports, there is a strong demand for maintenance of embedded beacon lamps in a short time, so there is a problem that conventional beacon lamp mounting apparatuses for plumbing methods cannot meet the above requirements. .
[0007]
In order to solve the above-mentioned problems, the following invention has been made by the present inventors and has been filed as Japanese Patent Application No. 2002-366474. The present invention includes an opening end formed on an upper surface, accommodates a receptacle connected to wiring in a pipe, and has a base embedded in a road surface; and a recess for receiving an embedded marker lamp. An adapter body attached to the open end of the base, a power terminal block that is exposed on the inner surface of the concave portion of the adapter body and is connected to the power receiving terminal of the embedded marker lamp, and a back surface of the adapter body from the power terminal block And an adapter with a plug that is led out to the side and connected to a receptacle in the base, and the like.
[0008]
On the other hand, the embedded marker lamp attached to the embedded marker lamp mounting device includes a light guide groove disposed on the upper surface, an internal space communicating with the light guide groove, and a space between the light guide groove and the internal space. A lamp body having an optical path regulating prism disposed in a liquid-tight manner, an optical unit including a light source disposed in the interior space of the lamp body so as to project light toward the prism, and a downward direction from the lamp body. And a power receiving terminal connected to the light source.
[0009]
Thus, according to the invention of the above application, the long-term reliability is excellent, and the embedded marker lamp can be replaced in a short time.
[0010]
[Problems to be solved by the invention]
However, there is a demand for further improvement in maintainability of the embedded marker lamp.
[0011]
For example, as shown in FIGS. 8 and 9, in the conventional embedded type marker lamp device, when the embedded embedded marker lamp (not shown) is removed from the base 101, the embedded marker is used. When water, for example, rainwater, enters a gap formed between the lamp and the base 101 (or the adjustment ring), when the recessed marker lamp is removed, the rainwater staying in the gap becomes the base. It flows down into the base 101 (or adjustment ring). And since rainwater enters into the power supply terminal block 102 arrange | positioned in the base 101 (or adjustment ring), there exists a possibility that a leak may generate | occur | produce and an operator may receive an electric shock. For this reason, it is necessary to remove the rainwater in the gap using the vacuum means in advance before removing the embedded marker lamp, which is troublesome.
[0012]
Similarly, as shown in FIGS. 8 and 9, a part of the connection portion 102 a of the power terminal block 102 connected to the power receiving terminal 103 of the embedded marker lamp is a peripheral stage inside the base 101 (or adjustment ring). It protrudes from the part 101a onto the recessed part 101b and is attached without being supported by the peripheral step part 101a. For this reason, when the power receiving terminal protruding from the bottom surface of the embedded beacon lamp is inserted and connected to the connecting portion 102a of the power terminal block 102, the power terminal block 102 is easily displaced so as to escape. Connection may not be obtained, and there is a problem in reliability.
[0013]
Furthermore, when an insulating transformer is housed in a deep base and an embedded beacon lamp is attached via an adjustment ring, the insulating transformer is first removed from the base for replacement or the like. It is necessary to remove the built-in indicator light from the adjustment ring, and then remove the adjustment ring from the base.
[0014]
It is an object of the present invention to provide a built-in indicator lamp apparatus that can improve workability in a short time so that the work can be performed in a short time, and that is excellent in long-term reliability by eliminating the disadvantages of the conventional construction method. To do.
[0015]
[Means for achieving the object]
An embedded beacon lamp apparatus according to a first aspect of the present invention includes an open end formed on an upper surface, accommodates therein a receptacle connected to wiring in a pipe, and a base embedded in a road surface; An adjustment ring main body attached to the opening end of the base, and exposed to the inner surface of the concave portion of the adjustment ring main body, and connected to a power receiving terminal of an embedded type mark lamp described later. An adjustment ring having a power terminal block and a plug that is led out from the power terminal block to the back side of the adjustment ring main body and connected to a receptacle in the base; communicating with a light guide groove and a light guide groove disposed on the top surface And a lamp body having a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the interior space, and disposed in the interior space of the lamp body so as to project light toward the prism. An optical unit including a light source Each of which has a power receiving terminal that is exposed downward from the lamp body and that is connected to the light source, and is attached to the adjustment ring; and between the upper surface of each of the embedded mark lamp and the adjustment ring The volume ratio B / A between the gap having a maximum water retention volume of A formed and the space having a maximum water retention allowable volume B of approximately B formed around the electrical connection portion of the adjusting ring is 1 or more. Yes.
[0016]
In the present invention and each of the following inventions, definitions and technical meanings of terms are as follows.
[0017]
<Regarding the Base> In the present invention, the base is embedded in the road surface, introduces wiring, and provides a basis for attaching the embedded marker lamp. That is, an embedded type indicator lamp is directly or indirectly attached to the base via an adjustment ring (referred to as “adapter” in the above-mentioned prior application). For this purpose, the base is first configured to be compatible with the piping method. Specifically, it has a structure that can be connected to piping. The connection with the pipe is optimally using the side surface of the base, but the bottom surface may be used if necessary.
[0018]
In addition, the base has an upper surface that is open to provide a basis for mounting the embedded marker lamp. And it is comprised so that an adjustment ring may be attached directly or indirectly via a spacer. In the present invention, when viewed from the adjustment ring, the spacer functions as a part of the base. Therefore, the spacer acts as a means for correcting a deviation in the embedded depth of the base. For attaching the spacer, it is optimal to use the opening, but if necessary, it may be a portion other than the opening such as a side surface. In order to attach the adjustment ring, for example, a screw hole is formed at an appropriate position of the opening end of the base, and a through hole corresponding to the screw hole is formed in the adjustment ring, and the bolt is screwed through the through hole. It can be configured to be screwed into. However, if necessary, the adjustment ring is made by protruding the stud bolt from the appropriate position at the open end of the base, forming a through hole for the stud bolt to be inserted into the adjustment ring, and screwing the nut into the stud bolt from above the adjustment ring. Can also be configured to be fixed to the base.
[0019]
Further, the base accommodates a receptacle connected to the wiring in the pipe in order to supply power to the embedded marker lamp. The receptacle is connected to a plug derived from an adjustment ring described later.
[0020]
<Regarding Adjustment Ring> In the present invention, the adjustment ring is interposed between the base and the embedded marker lamp, and the power supply connection system suitable for exchanging the embedded marker lamp with the power supply connection system based on the piping method. Can be converted to For this purpose, the adjustment ring has an adjustment ring body, a power supply terminal block, and a plug. A function for attaching the adjustment ring itself to the base, a function for attaching an embedded indicator lamp, and a power connection method change With functionality.
[0021]
Moreover, the adjustment ring main body has a recess for receiving an embedded marker lamp on the upper surface. This recess is in charge of the main part of the function for mounting the recessed marker lamp. That is, the projecting lower portion of the embedded marker lamp is received and the embedded marker lamp is stably supported. Moreover, the structure for fixing an embedded type | mold marker lamp is provided. For example, a conventional fixing means such as a stud bolt or a screw hole can be used. In other words, in the case of a stud bolt, the recessed portion projects the stud bolt upward from the adjustment ring body, inserts a through hole formed in the embedded marker lamp into the stud bolt, and inserts a nut from above the embedded marker lamp. Screw in the stud bolt and tighten. On the other hand, in the case of a screw hole, a screw hole is formed in the adjustment ring body, a through hole is formed in the embedded type indicator lamp, and a bolt is screwed into the screw hole via the through hole and tightened.
[0022]
On the other hand, the adjustment ring body includes a fixing means for attaching the adjustment ring to the base. For example, mounting means corresponding to the mounting means of the base, for example, a through hole is provided in the periphery, and a bolt is screwed into the screw hole of the base from above the adjustment ring body or protrudes upward through the through hole of the adjustment ring body Tighten by tightening the nut from above the stud bolt.
[0023]
Further, the adjustment ring body may be either a single part configuration or a composite part configuration. In the latter case, the adjustment ring body is configured by combining a plurality of parts, but the parts may be separated or combined at any part. For example, it is possible to divide the bottom surface part so as to be separable from other parts and to connect them with a fixing tool such as a bolt. In this case, the inside of the base can be inspected and repaired only by separating the bottom surface portion without removing the adjustment ring body from the base, and the above work can be performed more easily and in a short time. You can do it.
[0024]
The power supply terminal block is configured to be connected to, for example, a power receiving terminal protruding from the lower surface of the embedded marker lamp when the embedded marker lamp is accommodated in the recess of the adjustment ring body according to a predetermined procedure. . In other words, the power terminal block is automatically connected to the power receiving terminal by arranging the embedded marker lamp at a predetermined position. Further, when the embedded marker lamp is removed from the adjustment ring, the power receiving terminal is automatically detached from the power terminal block. However, the exact position of the embedded indicator lamp with respect to the adjusting ring is better regulated between the mounting means between the embedded indicator lamp and the adjusting ring. In order to allow connection even if some positional deviation occurs during assembly, it is preferable that the position is relatively movable within a range where the position is allowed to be flexible with sufficient margin. . In addition, when making both the positions relatively movable, either one or both may be made movable, but if the former is made movable, the embedded beacon lamp will be designed for both wiring methods. This is preferable.
[0025]
Moreover, it is preferable that the power supply terminal block has a configuration in which a connector is housed in the insulating case so as to receive and connect the power receiving terminal of the embedded marker lamp. Further, the power terminal block can be provided with a guide pin or a guide hole in order to facilitate connection with the power receiving terminal. Of course, corresponding to this, a guide hole or a guide pin on the other side is attached to the power terminal block in the embedded marker lamp. That is, a required guide action is performed in the process of fitting the guide pin and the guide hole. In addition, the opening end of the guide hole is provided with a conical taper surface around the opening end, so that the guide pin can be guided to the guide hole.
[0026]
The plug is in charge of the power connection method switching function in cooperation with the power terminal block. For this purpose, the plug is led out from the power terminal block to the back side of the adapter body, and is connected to a receptacle in the base. The plug and the power supply terminal block may be directly connected by an insulation-coated conductive wire, or may be indirectly connected via a relay terminal that penetrates the adapter main body in a waterproof manner. In the former case, since the insulation-coated lead wire penetrates the adapter body, it is preferable to perform an insulation treatment such as providing a waterproof treatment and an insulation bush at the penetration portion at the penetration portion. In addition, after connecting the plug and the receptacle of the base, a reliable waterproofing treatment can be performed even if it takes time and effort, such as taping the two using an insulating tape. In the latter case, it is preferable that the relay terminal is attached to the adapter body after being waterproofed.
[0027]
<Regarding the Embedded Marker Lamp> The embedded marker lamp includes at least a lamp body, an optical unit, a power receiving terminal, and attachment means. In addition, in the case of an airport use, the embedded marker lamp can be configured as a runway center line lamp, a taxiway center line lamp, a stop line lamp, and the like. Moreover, it can be comprised so that it may match desired uses, such as for crossing point signs, for roads.
[0028]
The lamp body includes a light guide groove, an internal space, a prism, and a mounting portion. The lamp body is preferably divided into an upper lamp body and a lower lamp body in order to incorporate components such as an optical unit housed in the internal space. In this case, the upper lamp body is preferably formed by casting a metal having high durability and strength so that the upper lamp body can sufficiently withstand mechanical strength even when the aircraft travels at a high speed. On the other hand, since the lower lamp body is accommodated in the adapter or the upper adapter, the lower lamp body may be relatively low in strength, for example, formed by die casting or press forming a metal plate. Can be.
[0029]
The light guide groove is disposed on the upper surface portion exposed on the road surface of the lamp body. In the case of this type of buried marker lamp, it is necessary to irradiate the marker light with a small elevation angle with respect to the road surface, and therefore a light guide groove is formed. The internal space is generally at a position embedded in the road surface. And the optical receiving unit etc. which are mentioned later are accommodated.
[0030]
The prism is used to refract the optical path emitted from the optical unit and restrict the optical path to a predetermined elevation angle. That is, in the interior space of the lamp body, it is difficult to set the optical axis from the light source to the prism at a small angle with respect to the road surface. Therefore, the light is refracted in the road surface direction with a prism interposed in the middle. In order to arrange the prism at a predetermined position of the lamp body, the following configuration is preferably used. That is, a concave portion for accommodating the prism is formed on the inner side of the lamp body, the prism is accommodated, and a frame-like packing made of a soft elastic material such as rubber is disposed on the back surface, that is, around the light incident surface, and further packing Is supported by a frame-shaped pressing bracket. The presser fitting is fixed to the inner surface of the lamp body using screws or the like.
[0031]
The mounting portion is a configuration for mounting the lamp body to the adjustment ring or the upper adjustment ring, and includes a mounting hole or the like disposed at an appropriate position in the peripheral portion of the lamp body. The upper end of the mounting hole is allowed to be provided with a recess that accommodates the head of a nut or bolt so as not to protrude from the upper surface of the lamp body. Further, the mounting hole is allowed to be a long hole in order to adjust the mounting position of the embedded marker lamp with respect to the adjusting ring or the upper adjusting ring. Therefore, when the upper surface of the lamp body is circular, the long hole has an arc shape.
[0032]
The optical unit includes at least a light source, and further includes other optical means such as a reflecting mirror, a color filter, and a neutral density filter, and incidental means such as an attachment frame for attaching each of the above means to a predetermined position. it can. It is preferable to use a halogen light bulb as the light source because it enables small high light output. However, a light bulb with krypton or xenon gas enclosed can also be obtained with a relatively small high light output, and requires a small high light output. The use of other light bulbs or light emitting diodes is permitted, even if not. In the case of using a halogen bulb, there is one in which an infrared reflecting film is formed on the surface of the bulb. However, since the luminous efficiency is further increased, this configuration is suitable for the present invention.
[0033]
The color filter is an optical means for selecting a wavelength so that the light beam emitted to the optical path has a predetermined light color, and is disposed in the optical path between the light source and the prism. Further, as the color filter, a dichroic color filter obtained by depositing a dichroic filter filter film on the surface of a glass plate by vapor deposition or the like is preferable because it can efficiently obtain only light of a desired light color. Further, in order to dispose the color filter at a predetermined position, for example, the color filter is supported by a metal frame, and the metal frame is fastened together with a prism metal fitting.
[0034]
The reflecting mirror is used when light emitted from the light source is collected and incident on the color filter. Moreover, although a reflective mirror may be independent with respect to a light source, you may integrate both. In the latter case, a reflecting base surface having a rotating quadratic curved surface or a multi-plane divided surface and a reflecting mirror formed by forming a dichroic reflecting film on the reflecting base surface of the glass forming base provided with a cylindrical portion on the top of the reflecting base surface. The sealing portion of the halogen bulb can be inserted into the cylindrical portion, and the cylindrical portion and the sealing portion can be fixed and integrated with an inorganic adhesive. Note that the dichroic reflective film preferably has optical properties of visible light reflection and infrared light transmission.
[0035]
The neutral density filter is used when the light output of the embedded marker lamp is larger than the standard value. Further, the neutral density filter can be disposed so as to overlap the color filter and be supported by a metal frame common to the color filter. Further, as the neutral density filter, one having a configuration in which a neutral density filter film made of a metal vapor deposition film is attached to the surface of a glass substrate can be used.
[0036]
In addition to the optical means described above, a position restricting frame for restricting the positions of the light source and the reflecting mirror can be used as the accompanying means. The positions of the light source and the reflecting mirror are important for the optical unit to impart a predetermined light distribution characteristic to the implantable marker lamp. Moreover, a light source can be attached to a lamp using a position control frame. Furthermore, it is possible to dispose a pressing piece that presses the integrated light source and reflecting mirror from the back surface and acts so that the front surface comes into contact with the position restriction frame. Furthermore, even when a large impact is applied to the embedded sign lamp, an elastic drop-off prevention body that prevents the light source and reflector from shifting or dropping from a predetermined position is detachably attached to the position control frame. can do.
[0037]
Next, the power receiving terminal will be described. The power receiving terminal is a means for receiving power from the power supply by connecting to the power supply terminal block of the adjustment ring or the upper adjustment ring. Arranged. The power receiving terminal is configured to be connectable to the power terminal block. Preferably, the guide hole or guide pin and the insertion blade are planted from the insulating base corresponding to the configuration of the power terminal block, and the guide hole or guide pin is inserted into the guide pin or guide hole of the power terminal block. In this structure, the insertion blade is connected to the connector accommodated in the power terminal block.
[0038]
Further, the attachment means will be described. The attachment means is means for attaching the embedded marker lamp to the adjustment ring or the upper adjustment ring, and includes an attachment portion formed on the lamp body of the implantable marker lamp, a fixing tool, and the like. The fastener is configured as described in claim 1.
[0039]
<Regarding the Volume Ratio B / A> The volume ratio B / A is a gap between the upper surface of each of the embedded marker lamp and the adjustment ring where the maximum water retention volume is A, and around the electrical connection portion of the adjustment ring. The water retention allowable maximum volume formed in is a volume ratio with the B space. The present invention is characterized in that the volume ratio B / A is 1 or more.
[0040]
That is, an appropriate gap is formed between the upper surfaces of the embedded type indicator lamp and the adjusting ring in order to attach and detach the embedded type indicator lamp to and from the adjusting ring. The maximum amount of water such as rainwater that can accumulate in this gap is defined as the maximum water retention volume A.
[0041]
On the other hand, “water retention allowable maximum volume B” means that when rainwater or other water enters the periphery of the electrical connection portion arranged in the adjustment ring, the water penetrates into the electrical connection portion and causes dielectric breakdown. The amount of water up to just before the occurrence of water, and thus the maximum amount of water within the allowable range. The “electrical connection part” refers to all electrical connection means existing inside the adjustment ring. For example, a power terminal block, a relay terminal that electrically relays between the power terminal block and the plug located on the back side of the adjustment ring, and a connection conductor that connects between the power terminal block and the relay terminal are applicable. .
[0042]
In the present invention, the volume ratio B / A is 1 or more means that even if water staying between the upper surfaces of the embedded marker lamp and the adjusting ring enters the adjusting ring, It means that the insulation of the electrical connection part arranged in is not threatened. Since water may move dynamically when water enters the adjusting ring, the volume ratio B / A is preferably set to a value obtained by multiplying 1 by a safety factor.
[0043]
Specific means for setting the volume ratio B / A to 1 or more is not particularly limited in the present invention. However, for example, the following configurations can be appropriately employed as desired. When the electrical connection portion is waterproofed, the electrical connection portion may be submerged in the water that has entered. Therefore, in such a case, the water retention allowable maximum volume B can be measured at a level above the electrical connection portion. A water pool allowing portion having a volume larger than the water retention maximum volume A is formed at a level lower than the power terminal block.
The power terminal block is arranged at a position higher than the inner bottom surface of the adjustment ring. The “necessarily high position” refers to a height position where the amount of water of the maximum water retention volume A does not reach the power terminal block even if the amount of water stays on the bottom surface.
When the relay terminal is used, the charging unit is configured to be disposed at a position higher than the inner bottom surface of the adjustment ring.
When a relay terminal is used, the relay terminal has a waterproof structure.
Waterproof the connection parts of the connection conductor to the power terminal block and relay terminal.
[0044]
<Regarding the Action of the Present Invention> In the present invention, since the embedded marker lamp apparatus has the above-described configuration, the water staying between the upper surfaces of the implantable marker lamp and the adjusting ring is retained. Even if the lamp enters the adjustment ring, the insulation of the electrical connections located in the adjustment ring is not threatened, so drainage work must be performed before removing the recessed beacon from the adjustment ring. Disappears. Therefore, the maintenance of the embedded marker lamp apparatus can be performed in a shorter time and more safely.
[0045]
Moreover, it can comprise so that the embedding type | mold lamp | ramp designed as an object for a cutting | gear adhesion method may be attached to the base for a piping method. For this reason, long-term reliability can be imparted to the wiring of the embedded marker lamp at the airport.
[0046]
According to a second aspect of the present invention, there is provided an embedded beacon lamp device having an open end formed on an upper surface, a power supply terminal block connected to a wiring in a pipe disposed therein, and a base embedded in a road surface; A lamp body having a light guide groove disposed on the upper surface, an internal space communicating with the light guide groove, and a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the internal space; An optical unit including a light source disposed in the interior space of the lamp body so as to project light toward the lamp body, and a power receiving terminal that is exposed downward from the lamp body and connected to the light source. And a water retention maximum volume formed between the embedded marker lamp and the upper surface of the base is formed around the gap A and the electrical connection portion of the base. The volume ratio B / A with the space where the water retention allowable maximum volume is B is 1 or more. It is a symptom.
[0047]
The present invention defines a configuration in which the embedded marker lamp is directly attached to the base without using the adjustment ring.
[0048]
<About the Base> The description in the invention of claim 1 is applied to the base. For example, a spacer can be attached to the opening end of the base as a means for correcting a shift in the embedded depth of the base. In the present invention, the spacer functions as a part of the base when viewed from the embedded type marker lamp. Therefore, in the present invention, the spacer is understood as a part of the base.
[0049]
Moreover, in this invention, the base has arrange | positioned the power supply terminal block in the inside. The description in the invention of claim 1 is applied to the power supply terminal block. However, the configuration for introducing power from a pipe outside the base and connecting it to the power terminal block is different from that of the adjustment ring. For example, when installing an embedded beacon lamp without an adjustment ring, a thin base is often used. In such a case, the relay terminal is waterproofed through the side of the base. Can be installed. Then, in the base, the relay terminal and the power terminal block are directly connected by a connection conductor.
[0050]
<Regarding the Volume Ratio B / A> The volume ratio B / A is defined by the gap between the maximum amount of water retention A formed between the upper surfaces of the embedded marker lamp and the base and the periphery of the electrical connection portion of the base. The water retention allowable maximum volume formed in is a volume ratio with the B space. The present invention is characterized in that the volume ratio B / A is 1 or more.
[0051]
That is, an appropriate gap is formed between the upper surfaces of the embedded marker lamp and the base in order to attach and detach the embedded marker lamp to and from the base. The maximum amount of water such as rainwater that can accumulate in this gap is defined as the maximum water retention volume A.
[0052]
On the other hand, the “maximum allowable water retention volume B” means that when water such as rainwater enters the periphery of the electrical connection part arranged in the base, the water penetrates into the electrical connection part and causes dielectric breakdown. The amount of water up to just before the occurrence of water, and thus the maximum amount of water within the allowable range. The “electrical connection part” refers to all electrical connection means existing inside the base. For example, a power supply terminal block, a relay terminal that penetrates the side surface of the power supply terminal block and the base in a waterproof manner, a connection conductor that connects the power supply terminal block and the relay terminal, and the like are applicable.
[0053]
In the present invention, the volume ratio B / A is 1 or more means that even if water staying between the upper surfaces of the embedded marker lamp and the base enters the base, It means that the insulation of the electrical connection part arranged in is not threatened. In addition, since water may move dynamically when water enters the base, the volume ratio B / A is preferably set to a value obtained by multiplying 1 by a safety factor.
[0054]
Specific means for setting the volume ratio B / A to 1 or more is not particularly limited in the present invention. However, for example, the following configurations can be appropriately employed as desired. When the electrical connection portion is waterproofed, the electrical connection portion may be submerged in the water that has entered. Therefore, in such a case, the water retention allowable maximum volume B can be measured at a level above the electrical connection portion. Waterproof the connection parts of the connection conductor to the power terminal block and relay terminal.
1. A water pool allowing portion having a volume larger than the water retention maximum volume A is formed at a level lower than the power terminal block.
2. The power terminal block is arranged at a position higher than the inner bottom surface of the base. The “necessarily high position” refers to a height position where the amount of water of the maximum water retention volume A does not reach the power terminal block even if the amount of water stays on the bottom surface.
3. When the relay terminal is used, the charging unit is configured to be disposed at a higher position than the inner bottom surface of the base.
4). When a relay terminal is used, the relay terminal has a waterproof structure.
5. Waterproof the connection parts of the connection conductor to the power terminal block and relay terminal.
[0055]
<Regarding the Action of the Present Invention> In the present invention, since the embedded marker lamp device has the above-described configuration, the water staying between the upper surfaces of the implantable marker lamp and the base is retained. Even if the lamp enters the base, the insulation of the electrical connections located in the base is not threatened, so drainage work must be done before removing the recessed beacon from the base. Disappears. As a result, the maintenance of the embedded marker lamp apparatus can be performed in a shorter time and more safely.
[0056]
Moreover, it can comprise so that the embedding type | mold lamp | ramp designed as an object for a cutting | gear adhesion method may be attached to the base for a piping method. For this reason, long-term reliability can be imparted to the wiring of the embedded marker lamp at the airport.
[0057]
An embedded beacon lamp device according to a third aspect of the present invention includes an opening formed on an upper surface, and accommodates a receptacle connected to wiring in a pipe, and a base embedded in a road surface; Adjustable ring body that has a concave part in the center to accept the type marker lamp, and that forms a peripheral step around the bottom of the concave part, and is attached to the open end of the base, connected to the power receiving terminal of the embedded type marker lamp Do It has a connection part and is arranged so that the whole connection part is in a position facing the peripheral step part of the adjustment ring. An adjustment ring having a power terminal block and a plug that is led out from the power terminal block to the back side of the adjustment ring main body and connected to a receptacle in the base; communicating with a light guide groove and a light guide groove disposed on the top surface And a lamp body having a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the interior space, and disposed in the interior space of the lamp body so as to project light toward the prism. An optical unit including a light source, and an embedded indicator lamp that is attached to the adjustment ring and includes a power receiving terminal that is exposed downward from the lamp body and is inserted into and connected to the power supply terminal block of the adjustment ring. And comprising Water retention allowance is formed at a level below the power terminal block of the base. It is characterized by having.
[0058]
The present invention defines a preferred mounting structure for the power terminal block disposed in the adjustment ring. In the present invention, the description of the base, the adjustment ring, and the embedded marker lamp may be the same as those described in the invention of claim 1 except for the components unique to the invention of claim 1. it can.
[0059]
In the present invention, the power terminal block Is The entire connection part connected to the power receiving terminal of the power terminal block is located on the peripheral step of the adjustment ring. So the substantially whole is arranged on the circumferential step Means that.
[0060]
Thus, in the present invention, by having the above-described configuration, when the embedded indicator lamp is attached to the adjustment ring, the pressure when the power receiving terminal is inserted is set. Power terminal block Behind Concave part surrounded by peripheral step Displacement that escapes to the side will not occur. As a result, the connection between the power terminal block and the power receiving terminal is reliably performed.
[0061]
According to a fourth aspect of the present invention, there is provided an implantable beacon lamp device according to the first or third aspect, wherein the adjustment ring includes the first member having an annular shape and the embedding mark at the center. A second member having a recess for receiving the lamp is provided, and the first member has a first attachment portion for attaching the first member to the base and a second attachment portion for attaching the second member. The second member has a mounted portion that is attached to the second mounting portion in a state in which the second member is fitted to the first member, and is configured to attach the embedded marker lamp. It is characterized by.
[0062]
The present invention defines a configuration of an adjustment ring suitable for maintenance of an insulating transformer or the like disposed in a base.
[0063]
The adjustment ring has a structure that is divided into a first member and a second member. The first member has an annular shape and has first and second attachment portions. Further, the first member mainly acts to attach the adjustment ring to the base. The first attachment portion functions to attach the first member to the base. However, the specific structure of the first mounting portion is not particularly limited. For example, the structure attached to a base with a volt | bolt is employable. The second attachment portion is for attaching the second member to the first member. However, the specific structure of the second mounting portion is not particularly limited. For example, the structure attached to a 1st member with a volt | bolt is employable.
[0064]
The second member is attached to the first member by the second attachment portion in a state of being fitted to the first member. Further, the second member mainly functions to attach the embedded type indicator lamp to the adjustment ring. For this purpose, the second member has a mounting portion for the embedded marker lamp. Further, if desired, it can be formed in a dish shape in which a concave portion is formed in the central portion to accept the embedded marker lamp.
[0065]
Further, the second member can be attached to and detached from the first member in a state in which the embedded marker lamp is attached. Therefore, it is preferable that the attached portion is located outside the embedded type marker lamp. The attached portion includes, for example, a through hole, and functions to attach the second member to the first member in cooperation with the second attaching portion of the first member.
[0066]
The base is allowed to have a spacer as required.
[0067]
Thus, in the present invention, since the adjustment ring is configured as described above, it can be removed from the first member even when the embedded type indicator lamp is attached to the second member. Since the first member has an annular shape, it is possible to maintain an insulation transformer or the like disposed in the base even when it is attached to the base.
[0068]
According to a fifth aspect of the present invention, there is provided an implantable beacon lamp device according to the fourth aspect, wherein the adjustment ring includes a first annular seat having a first member disposed on the peripheral side, and the same. Each of the second annular seats has a second annular seat disposed on the center side in a concentric relation, and the second member contacts the first opposing seat and the second annular seat facing the first annular seat of the first member. It has the 2nd opposing seat which contacts and receives a load, It is characterized by the above-mentioned.
[0069]
In addition to the invention of the fourth aspect, the present invention defines a suitable configuration of an adjustment ring suitable for improving load resistance.
[0070]
The first member has first and second annular seats that are in a concentric relationship. If desired, the second annular seat can be formed at a lower position (a position on the base side) than the first annular seat.
[0071]
The second member has first and second opposing seats. The first opposing seat faces the first annular seat of the first member in a state where the second member is fitted to the first member. The second counter seat faces the second annular seat of the first member in a state where the second member is fitted to the first member. Then, in a state where the second member is attached to the first member in a predetermined state, the second annular seat of the first member is in contact with the second opposing seat of the second member, The static load of the embedded marker lamp and the dynamic load of the vehicle traveling on the embedded marker lamp such as an aircraft acting via the embedded marker lamp are received through the second facing seat of the two members. It is configured as follows.
[0072]
If necessary, a sealing material such as an O-ring is interposed between the second annular seat of the first member and the second opposing seat of the second member, so that a liquid-tight seal is established between them. Can do.
[0073]
In the present invention, the load resistance of the adjustment ring is improved by configuring the first and second parts of the adjustment ring as described above.
[0074]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0075]
FIGS. 1 to 6 show a first embodiment of an implantable beacon lamp device according to the present invention, FIG. 1 is a plan view, FIG. 2 is a cross-sectional view showing one optical unit and parts related thereto, 3 is a cross-sectional view of an implantable beacon lamp showing one optical unit and a portion related thereto, FIG. 4 is a rear view of the implantable beacon lamp, FIG. 5 is a plan view of an adjustment ring, and FIG. 6 is an adjustment ring. FIG. In the present embodiment, the embedded marker lamp device ML includes a base B, an adjustment ring R, an insulating transformer T, and an embedded marker lamp L.
[0076]
(Base 1) The base B is composed of a base body 1 and a spacer 2 and is embedded in the roadbed.
[0077]
The base body 1 has a bottomed cylindrical shape having an open end 11 at the upper end and an internal space 12 inside, and further includes a receptacle 13 accommodated in the internal space 12. Further, the side surface of the base body 1 has a pipe connection portion (not shown). The receptacle 13 is connected to the tip end of the wiring W in the base body 1, and the wiring W is electrically connected to a line in the pipe via an insulating transformer T described later. A plurality of screw holes s <b> 1 are formed on the periphery of the opening end 11 of the base body 1.
[0078]
The spacer 2 is divided into a ring 21 and a ring 22. The ring 21 has a through hole t1 facing the screw hole s1 of the opening end 11 of the base body 1, straddles the opening end of the base body 1, and is connected to the base via the bolt b1 through the through hole t1. The base body 1 is fixed by being screwed into the screw hole s1 of the base body 1. The ring 22 is fitted to the ring 21 from above, and is fixed to the inner surface of the ring 21 by a push screw b2. Each ring 22 has a plurality of screw holes s3 formed on the upper surface thereof. The screw hole s3 is used to attach an adjustment ring R described later.
[0079]
(Adjustment Ring R) As shown in FIGS. 2 and 6, the adjustment ring R includes an adjustment ring body 3, a power terminal block 4, and a plug 5.
[0080]
The adjustment ring main body 3 includes first and second members 31 and 32. The first member 31 has a ring shape and includes first and second attachment portions 31a and 32b. The first attachment portion 31 a is formed as an annular seat by a peripheral step portion on the upper surface on the outer peripheral side of the first member 31. The first attachment portion 31a has a plurality of through holes t3 at positions facing the screw holes s3 of the spacer 2. Then, the first member 31 is attached to the spacer 2 of the base B by screwing the bolt b3 into the screw hole s3 through the through hole t3. The second attachment portion 31 b is formed as an annular seat by a circumferential step portion on the inner peripheral side of the first member 31. Moreover, the 2nd attachment part 31b is located inside the 1st attachment part 31a concentric relation, and is located below the 1st attachment part 31a.
[0081]
The second member 32 has a dish-like shape, a concave portion 32a for receiving the embedded marker lamp L in the center, an annular seat 32b on the outer periphery of the lower surface, an annular bearing seat 32c on the upper inner periphery, and a mounting on the upper outer periphery. Each part 32d is provided. The recess 32a has a peripheral step 32a1 projecting from the periphery of the bottom. The annular seat 32 b is supported by the second mounting portion 31 b of the first member 31 and is fitted to and supported by the first member 31. The annular support seat 32c has a plurality of stud bolts 32c1 and supports an embedded type indicator lamp L described later by supporting the outer periphery of the lower surface thereof. The stud bolt 32c1 protrudes upward from the upper surface of the annular bearing seat 32c, and is used for mounting the embedded marker lamp L. The mounted portion 32d has a bottom surface supported by the first mounting portion 31 of the first mounting portion 31a and a through hole t2 that faces the screw hole s2 formed in the first member 31. Yes. Then, the second member 32 is attached to the first member 31 by screwing the bolt b2 into the screw hole s2 via the through hole t2.
[0082]
As shown in FIG. 5, the power terminal block 4 includes an insulating case 4 a, a pair of connectors 4 b and 4 b, and a pair of guide pins 4 c and 4 c as main components, and the second member 32 of the adjustment ring R It is arranged so as to be movable within an allowable range along the circumferential step portion 32a1 in a state where the substantially whole is placed on the circumferential step portion 32a1 protruding from the bottom surface in the recess 32a. A polyethylene sheet P is interposed between the power supply terminal block 4 and the peripheral step portion 32a1 to facilitate the above movement of the power supply terminal block 4.
[0083]
The plug 5 is led out from the power supply terminal block 4 to the back side of the adjustment ring R via the first insulating coated conductor 5a, the relay terminal 5b, and the second insulating coated conductor 5c. The first insulation-coated conductive wire 5a connects between the pair of connectors 4a, 4a of the power terminal block 4 and the relay terminal 5b. The relay terminal 5b is disposed through the bottom surface of the adjustment ring R in a waterproof manner. And the charging part located in the recessed part 32a side of the relay terminal 5b is set so that it may become a predetermined height position from the bottom face of the recessed part 32a. Due to the cooperation of the position of the charging portion of the relay terminal and the height of the peripheral step portion 32a1, a space having a maximum water retention allowable volume B is secured on the bottom surface side of the concave portion 32a. The relay terminal 5b connects the first and second insulation-coated conductive wires 5a and 5c in a relay manner. Since the vicinity of the relay terminal 5b of the second insulation-coated conductor 5c is fixed to the lower surface of the adjustment ring R by the fixture 5d, no stress acts on the connection portion with the relay terminal 5b. The plug 5 is connected to and attached to the other end of the second insulating coated conductor 5c. The plug 5 is connected to the receptacle 13 of the base B.
[0084]
(Insulation Transformer T) As shown in FIG. 1, the insulation transformer T is housed in the base B, and is inserted in series between the receptacle 13 and the pipe.
[0085]
(Embedded Marker Lamp L) The embedded marker lamp L includes a lamp body 6, an optical unit 7, and a power receiving terminal 8. As shown in FIGS. 3 and 4, the lamp body 6 includes a light guide groove 61, an internal space 62, a prism 63, a packing 64, a press fitting 65, a plurality of through holes t 4, and a plurality of recesses 67. The lamp body 6 is divided into two parts, that is, an upper lamp body 6A and a lower lamp body 6B. The upper lamp body 6A and the lower lamp body 6B are covered with an O-ring 68 and fixed with screws b5. As a result, the internal space 62 is liquid-tightly formed. Furthermore, the lamp body 6 has a circumferential step portion 6a at a lower portion thereof. The upper lamp body 6A is formed by casting a high-strength metal. On the other hand, the lower lamp body 6B is formed by die casting.
[0086]
The light guide groove 61 is disposed on the upper surface of the lamp body 6. Then, it communicates with the internal space 62. The internal space 62 is formed inside the lamp body 6 and houses an optical unit 7 described later and a power receiving portion 8a led out from the power receiving terminal 8, and a prism accommodating portion 6b that accommodates a prism 63 described later. Have. The prism 63 is accommodated in the prism accommodating portion 6 b of the internal space 62, the light exit surface thereof faces the light guide groove 61, and the light incident surface faces the optical unit 7.
[0087]
The packing 64 is made of silicone rubber and has a frame shape, and comes into contact with the peripheral edge portion of the light incident surface of the prism 63. The packing 64 has a protrusion on the back surface of the upper frame portion. The main part of the pressing metal 65 has a frame shape similar to that of the packing 64, presses the back surface of the packing 64, and the mounting part 65 a is fixed to the inner surface of the lamp body 6 with screws b 6. In addition, the presser fitting 65 has a concave portion in which the protrusion 64a of the packing 64 is engaged with the inner surface of the upper frame portion, and both are mechanically coupled.
[0088]
The plurality of through holes t <b> 4 are formed in the peripheral portion of the lamp body 6 so as to be dispersed at positions corresponding to the stud bolts 32 c <b> 1 of the adjustment ring R. The plurality of recesses 67 are formed in the upper surface of the lamp body 6 continuously to the through hole t4.
[0089]
The optical unit 7 includes a light source 71, a reflecting mirror 72, a lamp socket 73, a position restriction frame 74, a dichroic color filter 75, a neutral density filter 76, and the like. The light source 71 is a single-sealed halogen bulb. The reflecting mirror 72 is integrated with the light source 71. That is, the reflecting mirror 72 is formed by adhering a visible light reflecting and infrared light transmitting dichroic reflecting film to a reflecting base surface having a rotating quadratic curved surface formed on the inner surface of the glass molding base, The sealing portion of the halogen bulb is inserted into and fixed to the inside of the cylindrical portion, and is integrated with the light source 71. The lamp socket 73 is connected to the power receiving conductor 8 a of the power receiving terminal 8 and is attached to the base portion of the light source 71 integrated with the reflecting mirror 72 to supply power to the light source 71. The position restricting frame 74 is in contact with the periphery of the front surface of the reflecting mirror 72 and restricts the positions of the light source 71 and the reflecting mirror 72 with respect to the prism 63. Further, the position restricting frame 74 is fixed to the inner surface of the lower lamp body 6B with screws b7.
[0090]
The dichroic color filter 75 and the neutral density filter 76 are supported by the support frame in a state of being overlapped with each other, and are attached to the back surface of the presser fitting 65. The dichroic color filter 75 is formed by vapor-depositing a dichroic color filter film on one surface of a glass substrate. Similarly, the neutral density filter 76 is formed by vapor-depositing a glass substrate and a neutral density filter film.
[0091]
The power receiving terminal 8 has an insertion blade 8 a and a guide hole 8 b exposed downward at a position facing the power supply terminal block 4 of the adjustment ring on the lower surface of the lamp body 6. A conical tapered surface is formed around the lower end surface of the guide hole 8b. Further, the arrangement positions of the pair of insertion blades 8a and 8a and the pair of guide holes 8b and 8b are configured to coincide with the positions of the connector 4b and the guide pin 4c of the power terminal block 4. The insertion blades 8 a and 8 a are connected to a lamp socket 73 in the internal space 62 of the lamp body 6.
[0092]
Then, the through hole t4 of the lamp body 6 is inserted into the stud bolt 32c1 of the adjustment ring R, and the cap nut n is screwed into the exposed portion of the stud bolt 32c1 protruding from the through hole t4. L is attached to the base B.
[0093]
FIG. 7 is a cross-sectional view showing a second embodiment of the embedded marker lamp apparatus of the present invention. This embodiment is different from the above-described embodiment in that the base B is shallow and the embedded marker lamp L is directly attached to the base B. The same parts as those in FIG. 1 to FIG.
[0094]
The base B includes a support seat 13 including a circumferential step portion at the opening end 11 and a power supply introduction relay terminal 14 on a side surface. A plurality of stud bolts 13 a protrude upward from the bearing seat 13.
[0095]
Further, a deep concave portion 15 is formed on the bottom surface inside the base B, and the maximum water retention allowable volume B formed around the electrical connection portion of the base B is the embedded marker lamp L. And the maximum water retention volume A formed in the gap between the upper surfaces of the base B.
[0096]
On the other hand, the embedded marker lamp L is a long hole in which the through hole t4 has an arc shape, and the mounting direction of the embedded marker lamp L with respect to the base B can be adjusted.
[0097]
Then, the peripheral step portion 6a of the embedded marker lamp L is supported on the support seat 13 of the opening end 11 of the base B, and the through hole t4 is inserted into the stud bolt 11a1 and further protrudes from the through hole t4. The embedded marker lamp L is attached to the base B by screwing the cap nut n into the exposed portion of the stud bolt 13a.
[0098]
【The invention's effect】
According to the first aspect of the present invention, a base, an adjustment ring, and an embedded marker lamp are provided, and the maximum water retention volume formed between the upper surfaces of the implantable marker lamp and the adjustment ring is A. Since the volume ratio B / A between the gap and the space where the maximum water retention allowable volume formed around the electrical connection portion of the adjustment ring is B is 1 or more, the gap is removed prior to removal of the recessed marker lamp. There is no need to remove rainwater etc. in the interior in advance, so that maintenance can be further improved and work can be done in a short time. An apparatus can be provided.
[0099]
According to the invention of claim 2, a base and an embedded marker lamp are provided, and a gap with a maximum water retention volume A formed between the embedded marker lamp and the upper surface of the base is When the volume ratio B / A with respect to the space where the maximum water retention allowable volume formed in the periphery of the electrical connection part is B or more is 1 or more, the rain water in the gap is removed prior to removing the embedded indicator lamp. There is no need to remove in advance, and it is possible to work in a short time by further improving the maintainability, and to provide an embedded type indicator lamp device that eliminates the disadvantages of the conventional construction method and has excellent long-term reliability. Can do.
[0100]
According to the invention of claim 3, on the base, the adjustment ring main body, and the circumferential step portion in the concave portion of the adjustment ring main body The entire connecting portion connected to the power receiving terminal of the embedded type marker lamp is disposed so as to face the peripheral step portion of the adjusting ring. An adjustment ring having a power supply terminal block and a plug, and an embedded beacon lamp that is inserted into and connected to the power supply terminal block of the adjustment ring and has a power receiving terminal connected to the light source and attached to the adjustment ring. Water retention allowance is formed at a level below the power terminal block of the base. By When attaching the recessed beacon lamp to the adjustment ring, the pressure when the power receiving terminal is inserted prevents the power terminal block from displacing to the recess side surrounded by the peripheral step behind it. The connection between the terminal block and the receiving terminal is ensured Therefore, it is possible to improve the maintainability so that the work can be performed in a short time, and it is possible to provide an embedded type indicator lamp device that is excellent in long-term reliability by eliminating the drawbacks of the conventional method.
[0101]
According to the invention of claim 4, the adjustment ring includes a first member having an annular shape and a second member having a recessed portion for receiving the embedded type marker lamp in the center portion. A first attachment portion for attaching the first member to the base and a second attachment portion for attaching the second member; the second member being fitted to the first member; It has an attached part that can be attached to the attachment part 2 and is configured to attach an embedded marker lamp, so that the insulating transformer can be removed from the base for replacement etc. Since there is no need to remove the indicator light from the adjustment ring and then remove the adjustment ring from the base, the maintenance work can be further improved and work can be done in a short time, and the disadvantages of the conventional method are eliminated. Recessed beacon lamp with excellent long-term reliability It is possible to provide.
[0102]
According to the invention of claim 5, in addition, the adjustment ring includes a first annular seat in which the first member is disposed on the peripheral side and a second annular seat disposed on the center side in a concentric relation with the first annular seat. And the second member has a first opposing seat that faces the first annular seat of the first member and a second opposing seat that abuts against the second annular seat and receives a load. Thus, it is possible to provide an embedded type marker lamp device having excellent load resistance.
[Brief description of the drawings]
FIG. 1 is a plan view showing a first embodiment of an embedded marker lamp apparatus according to the present invention.
FIG. 2 is a cross-sectional view showing the same optical unit and parts related thereto.
FIG. 3 is a cross-sectional view of an implantable marker lamp that similarly shows one optical unit and parts related thereto.
[Fig. 4] Rear view of the same type of indicator lamp
FIG. 5 is also a plan view of the adjustment ring
FIG. 6 is also an end view of the adjustment ring.
FIG. 7 is a cross-sectional view showing a second embodiment of the embedded marker lamp apparatus according to the present invention.
FIG. 8 is a plan view showing a base in a conventional embedded type marker lamp apparatus;
FIG. 9 is also a cross-sectional view of the base
[Explanation of symbols]
B: Base, L: Recessed beacon lamp, ML: Recessed beacon light device, R: Adjustment ring, T: Insulation transformer, W ... Wiring, 1 ... Base body, 2 ... Spacer, 3 ... Adjustment Ring body, 4 ... power terminal block, 5 ... plug, 5b ... relay terminal, 6 ... lamp, 7 ... optical unit, 8 ... power receiving terminal, 13 ... receptacle

Claims (5)

A base provided with an open end formed on the upper surface, containing a receptacle connected to the wiring in the pipe and embedded in the road surface;
An adjustment ring main body attached to the opening end of the base, and exposed to the inner surface of the concave portion of the adjustment ring main body, and disposed on the inner surface of the concave portion of the adjustment ring main body. A power supply terminal block to be connected, and an adjustment ring having a plug which is led out from the power supply terminal block to the back side of the adjustment ring body and connected to a receptacle in the base;
A lamp body including a light guide groove disposed on the upper surface, an internal space communicating with the light guide groove, and a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the internal space; An optical unit including a light source disposed in the interior space of the lamp body so as to project light, and a power receiving terminal that is exposed downward from the lamp body and connected to the light source, and is embedded in the adjustment ring. With type indicator lights;
And the maximum water retention volume formed between the upper surfaces of the embedded sign lamp and the adjustment ring is A, and the maximum allowable water retention volume formed around the electrical connection portion of the adjustment ring is B A volume ratio B / A to the space of 1 is 1 or more. A base provided with an open end formed on the upper surface and provided with a power supply terminal block connected to the wiring in the pipe and embedded in the road surface;
A lamp body including a light guide groove disposed on the upper surface, an internal space communicating with the light guide groove, and a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the internal space; An optical unit including a light source disposed in the interior space of the lamp body so as to project light, and a power receiving terminal that is exposed downward from the lamp body and connected to the light source, and is attached to the opening end of the base With embedded beacon light;
A space in which the maximum water retention volume formed between the embedded marker lamp and the upper surface of the base is A, and the maximum water retention allowable volume formed around the electrical connection portion of the base is B And the volume ratio B / A is 1 or more. A base provided with an open end formed on the upper surface, containing a receptacle connected to the wiring in the pipe and embedded in the road surface;
An adjustment ring body that has a recessed portion in the center for receiving an embedded marker lamp and that forms a peripheral step around the bottom surface of the recessed portion and is attached to the opening end of the base, and a receiving terminal for the embedded marker lamp A power terminal block disposed so that the entire connecting section is located on the circumferential step of the adjustment ring , and the power terminal block is led out to the back side of the adjustment ring body An adjustment ring with a plug that connects to a receptacle in the base;
A lamp body including a light guide groove disposed on the upper surface, an internal space communicating with the light guide groove, and a light path regulating prism disposed in a liquid-tight manner between the light guide groove and the internal space. An optical unit including a light source disposed in the interior space of the lamp body so as to project light toward the lamp body, and is exposed downward from the lamp body and inserted into the power supply terminal block of the adjustment ring and connected to the light source. An embedded beacon lamp having a power receiving terminal and attached to the adjustment ring;
And a water retention allowing portion is formed at a lower level than the power supply terminal block of the base . The adjustment ring includes a first member having an annular shape, and a second member having a recessed portion that receives the embedded marker lamp at a central portion, and the first member is attached to the base on the first member. A first mounting portion for mounting and a second mounting portion for mounting the second member, the second member being mounted on the second mounting portion in a state of being fitted to the first member 4. The implantable marker lamp device according to claim 1, wherein the implantable marker lamp apparatus has a portion and is configured to attach an implantable marker lamp. The adjustment ring has a first annular seat in which the first member is arranged on the peripheral side and a second annular seat arranged on the center side in a concentric relationship with the first annular seat, and the second member is the first annular seat. 5. The implant according to claim 4, further comprising a first opposing seat facing the first annular seat of the member and a second opposing seat receiving the load by abutting against the second annular seat. Type indicator lamp device.

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