KR200207520Y1 - Structure of signpost radiation solar - Google Patents

Abstract

The present invention relates to a solar luminescent marker bottle structure, comprising: a road marker bottle structure configured to raise a road marker bottle by an elastic force of a cushioning material (coil spring) embedded in a cylindrical case; In the solar marker bottle to cause the LED lamp to flash by the charged power to convert solar energy into electrical energy; An upper part of which is open and a lower part of which has a structure appearance penetrated therein; A coil spring embedded in the structure exterior; It is seated on the upper coil spring, the inclined surface of the disc is inclined downward from the hemispherical protrusion to the outer circumference, the lower end of the inclined surface is formed with a serrated trapezoidal inclined insert portion is formed at the lower end of the cross-section, the insertion portion A plurality of diamond-shaped protrusions convex on the inclined circumferential surface center line at an angle of 45 °, an outer bottom concave portion having a predetermined thickness and concave to the center, a lamp groove formed on one side of the outer bottom concave portion, and the lamp A solar cell groove formed on the other side of the groove, an LED lamp mounted on the lamp groove, a solar cell mounted on the solar cell groove, and an aluminum coating portion in which a thin layer of aluminum is deposited and coated from the circumferential top surface of the inclined insert portion to the outer bottom recess portion An integrally formed label bottle glass body; A PCB circuit connected to an LED lamp and a solar cell mounted on an outer bottom indentation of the cover bottle glass body; A CDS sensor connected to the PCB circuit; An on-off TR switch connected to the PCB circuit; A charging battery connected to the PCB circuit; An indentation portion formed so that the cover bottle glass body is inserted and seated, a locking protrusion for preventing detachment of the cover bottle glass body inserted into the indentation part, a step cut into a predetermined size at the end of the indentation outer circumferential surface, and a center outer bottom surface of the indentation part A glass receptor having a predetermined length from the glass receiver having a concave-convex structure while being integrally formed with the concave-convex portion mutually opened with the inner bottom surface of the concave portion; While the inner surface of the glass receptor and the outer surface of the inserted label bottle glass are buffered and fixed, the bottom bottom indentation of the label bottle glass body and the LED lamp, the solar cell, the PCB circuit, the CDS sensor, the TR switch, the charging battery, etc. Epoxy resin to make; Spirally coupled with a plurality of countersunk head screw on the top of the open structure exterior, it has a constant thickness, the flange is composed of the outer perforated flange with a constant diameter, according to the large bus, large truck, or heavy construction equipment, It prevents the cover bottle glass from being damaged due to the impact load of large military equipment (tanks, armored vehicles), and is buried in the road asphalt, and is concerned with climate change such as nighttime, rainy day, low daylight, misty day and night. In addition to the excellent effect that the driver can safely drive the light emitted from the cover bottle glass, and the road laying work process of the solar light emitting cover bottle structure is very simple, the removal and replacement work is also very easy, so that the effect of laying and replacing is shortened. To prevent desorption of desorbed residues from road asphalt Has an excellent effect can be.

Description

Structure of signpost radiation solar

The present invention relates to a solar luminescent label bottle structure, and more particularly, a known solar cell, PCB circuit, LED lamp, CDS sensor, TR switch, and charging battery are attached to the outer bottom recess of the label bottle glass, which is a component of the present invention. Next, the cover bottle structure of the present invention is applied to a center road such as a general road, a general road, a mountain road, a military road, an outer road, and the like by applying it to a known road cover bottle structure that allows the road cover bottle to be raised by the elastic force of the cushioning material (coil spring). To prevent damage caused by impact loads of heavy buses, heavy trucks, heavy construction equipment, military heavy equipment (tanks, armored vehicles), and to be buried in road asphalt, while reducing light intensity at night or in rainy weather. Regardless of climate change, such as daytime, foggy day, or night, the light is emitted from the cover glass to allow the driver to drive safely. It relates to a solar light emitting Stud structure capable of preventing the contamination of the residues eliminated from the wall.

Generally, road safety signs are marked with yellow signs, double yellow lines, center dividing lines, roadside lines, and limit lines to distinguish lanes such as general roads, mountain roads, military roads, and outer roads. Several road safety signs are installed along the lanes for identification to prevent traffic accidents that may occur during night driving or in rainy weather.

However, the road safety sign only makes the lane clear by the illuminated light of the vehicle only at night or during rainy weather, and in the case of low daytime illumination, the driving vehicles do not irradiate the light. Since the function of the marker bottle is zero, in order to secure this, the solar road marker bottle of the Utility Model Registration (Registration No. 20-180635) shown in FIG. 8 was proposed. Looking at its configuration, the solar cell is separated into two at the upper side. The support 15 is formed to support 13, the chief referee 17 protrudes on the bottom surface, the cover 19A is mounted on the upper side of the solar cell 13, the PCB connected to the solar cell 13 The circuit 21 is provided inside, and the alloy body 1, on which the light emitting diodes 23 connected to the PCB circuit 21 are mounted, is formed on one side of the alloy body 1 on the front and rear surfaces thereof. Thread (31A) is installed and PCB circuit (21) The circular hole 2 is coupled to the water stopper 37, which is connected to the battery 35 to be mounted therein, and is formed with a screw thread 31B, which is absorbed during the day by the solar cell. It absorbs the solar heat and stores it in the battery connected to the PCB circuit, and controls the flashing speed controller of the PCB circuit so that the light emitting diode connected to the PCB circuit blinks at least 300 times per minute regardless of the climate (with or without sunlight). Therefore, there is an advantage that can achieve a linearization to show the afterimage effect of the light, not partial flashing, and the waterproof plug in which the battery is built is spirally coupled to the circular hole formed on one side of the alloy body, according to the weather changes In rainy weather, rainwater does not penetrate into the solar road marking bottle due to the waterproof plug. In addition, there is an advantage that the replacement of the battery built in the waterproof plug according to the spiral separation of the circular hole is very easy.

However, the solar road beacon is completely fixed to the surface of the road by driving the chief referee (17), the vehicle is subjected to a sudden curve and frictional force of the vehicle wheel when the vehicle suddenly stops in a state in which the hardness of the road asphalt is deteriorated due to the high temperature in summer. As the residues such as small stones bound to the asphalt are separated, the collision with the portion of the diode cover 19B that protects the light emitting diodes by the speed of the traveling vehicle has a great disadvantage of damage to the diode cover and the light emitting diodes. When residues such as small stones bound to ascon occur continuously, the space between the road surface and the solar road marking bottle is loosened, and when the vehicle is driven, the position of the marking bottle is changed or , The road surface will deviate from the surface of the road and, in extreme cases, may be subject to repeated loading between the body and the referee. There are significant disadvantages to which the body and the referee Stud fracture due to stress concentration.

In addition, when a bus, a large truck, heavy construction equipment, military large equipment (tank, armored vehicle), or the like travels on a polycarbonate cover that protects the solar cell, the cover and the solar cell are affected by the impact load of the vehicle. There is a big disadvantage that it is damaged until, the cover bottle is buried into the road asphalt by the impact load acting as the heavy vehicles drive on the solar road marker bottle buried on the road surface in the state of hardness deterioration due to summer high heat Along with the disadvantages, the waterproof plug which is spirally coupled to the circular hole of one side of the cover bottle buried as described above is also buried into the road ascon, and there is a disadvantage in that the battery built in the waterproof cap cannot be replaced. In the case of replacement, the buried beacon is separated from the road asphalt, and the battery is stored in the beacon. Coupled to remove the plug and, the new battery and again a circular hole was embedded in the waterproof plug by a spiral has a large cumbersome disadvantages, such as embedded in the road.

As a result, in order to prevent the deformation, damage, and landfill of the cover bottle due to the impact load of a large vehicle and heavy equipment as described above, as shown in FIG. 9, a public utility model publication published on August 12, 1997 97-49691) of the road marker bottle assembly has been proposed, and thus, the marker bottle assembly includes a cylindrical case 12 having a locking jaw 26 formed at an upper end thereof and an open end thereof; A road marking bottle inserted upward through the lower end of the case 12 and engaged with the locking jaw 26 of the case 12 is formed, and the reflector 16 is embedded therein. 10); And a buffer member 32 accommodated in the case 12 to push up the road sign bottle 10 upward, thereby protruding onto the ground, and the road sign bottle assembly having the buffer material embedded therein. When the impact load of the traveling vehicle is applied, the road beacon is accommodated into the cylindrical case by the compression of the cushioning material, and then, when the vehicle passes the beacon, the beacon is restored to its original position by the restoring force of the compressed cushioning material. Therefore, the cover bottle is not buried in the road due to the impact load of the vehicle, the deformation and damage of the cover bottle is prevented, and there is an advantage that the driver can drive safely at night.

However, when the replacement and disassembly work due to breakage or deterioration of the marker bottle and the buffer material is not possible, the marker bottle assembly cannot be disassembled and reassembled in the state where it is buried on the road, and the marker bottle embedded in the road is disassembled and reassembled. By separating the entire assembly from the road, and then separating the lid member screwed to the bottom of the case of the cover bottle assembly, the damaged and aged buffer and cover bottles are naturally separated from the cylindrical case, and then the new cover bottle and After replacing the cushioning material, the lower part of the case is fixed to the lid member by screwing, so that the convenience of work due to the assembly and disassembly of components due to the structural problem of reassembly and reinsertion into the road. Lost, there is a big disadvantage that the work efficiency is reduced, Reflection plate is contaminated by the exhaust gas with various kinds of dirt and debris emitted by luminance (輝 度), there is a problem in that the brightness of the light emitting surface decreases.

In addition, in the state where the hardness of the road asphalt decreases due to the high temperature in the summer, residues such as small stones bound to the asphalt are detached by the sudden curve and friction of the vehicle wheel during sudden stop, and the impact load and the speed of the traveling vehicle The residues are mixed between the space between the upper end of the cylindrical case and the road marker bottle formed while the road marker bottle is accommodated into the cylindrical case by the compression of the cushioning material. Then, when the vehicle completely proceeds with the road marker bottle assembly, the compressed The marker bottle is raised to its original position by the restoring force of the cushioning material, but since the marker bottle is not completely restored on the road surface by the residue mixed in the space, the received and reflected amount of the irradiated light of the vehicle is almost zero. There was a big problem.

The present invention devised to solve the conventional problems as described above, to prevent damage due to the impact load of large buses, large trucks, heavy equipment, military large equipment (tanks, armored vehicles), and to be embedded in road asphalt It can prevent, at night or rainy day, low illumination daytime, misty day and night, regardless of climate change, it can emit light from the cover bottle glass, allowing the driver to drive safely, and prevent the incorporation of residues detached from road asphalt. The purpose is to make it possible.

In order to achieve the object of the present invention, the road sign bottle structure configured to be raised by the road cover bottle by the elastic force of the cushioning material (coil spring) embedded in the cylindrical case; In the solar marker bottle to cause the LED lamp to flash by the charged power to convert solar energy into electrical energy; An upper part of which is open and a lower part of which has a structure appearance penetrated therein; A coil spring embedded in the structure exterior; It is seated on the upper coil spring, the inclined surface of the disc is inclined downward from the hemispherical protrusion to the outer circumference, the lower end of the inclined surface is formed with a serrated trapezoidal inclined insert portion is formed at the lower end of the cross-section, the insertion portion A plurality of diamond-shaped protrusions convex on the inclined circumferential surface at an angle of 45 ° on the center line, an outer bottom concave portion having a predetermined thickness and concave to the center, a lamp groove formed on one side of the outer bottom concave portion, and the lamp A solar cell groove formed on the other side of the groove, an LED lamp mounted on the lamp groove, a solar cell mounted on the solar cell groove, and an aluminum coating portion in which a thin layer of aluminum is deposited and coated from the circumferential top surface of the inclined insert portion to the outer bottom recess portion An integrally formed label bottle glass body; A PCB circuit connected to an LED lamp and a solar cell mounted on an outer bottom indentation of the cover bottle glass body; A CDS sensor connected to the PCB circuit; An on-off TR switch connected to the PCB circuit; A charging battery connected to the PCB circuit; An indentation portion formed so that the cover bottle glass body is inserted and seated, a locking protrusion for preventing detachment of the cover bottle glass body inserted into the indentation part, a step cut into a predetermined size at the end of the indentation outer circumferential surface, and a center outer bottom surface of the indentation part A glass receptor having a predetermined length from the glass receiver having a concave-convex structure while being integrally formed with the concave-convex portion mutually opened with the inner bottom surface of the concave portion; While the inner surface of the glass receptor and the outer surface of the inserted label bottle glass are buffered and fixed, the bottom bottom indentation of the label bottle glass body and the LED lamp, the solar cell, the PCB circuit, the CDS sensor, the TR switch, the charging battery, etc. Epoxy resin to make; The spiral structure coupled to the plurality of countersunk head screw on the upper part of the open structure can be solved by the present invention consisting of a combined flange outer lid penetrated at a certain diameter in the center bar, the accompanying drawings It demonstrates in detail for reference.

1 is a front sectional view showing the overall configuration of the present invention.

Figure 2 is a road buried fixed section of the present invention.

Figure 3 is a front view of the cover bottle glass body which is a component of the present invention.

4 is a plan view showing the internal reflection of the marker bottle glass body;

5 is a half sectional view of a glass receptor as a component of the present invention.

Figure 6 is an embodiment of a load action state of the vehicle wheel in the present invention.

Figure 7 is a cross-sectional view of the flange outer lid component of the present invention.

8 is an exploded perspective view of a conventional solar road marking bottle.

9 is an exploded perspective view of a conventional road marker bottle assembly.

Explanation of symbols on the main parts of the drawings

50. Cover bottle structure 51. Structure exterior 52. Flange exterior lid

53. Hemispherical protrusion 54. Inclined surface 55. Inclined insert

56. Diamond-shaped protrusion 57. Outer bottom recess 58. LED lamp groove

59. Cell Home 60. LED Lamp 61. Cell 62. Coating

63. Cover vial 64. PCB circuit 65. CDS sensor 66. TR switch

67. Rechargeable battery 68. Recessed part 69. Jamming 70. Incision

71. Uneven portion 72. Glass receptor 73. Coil spring 74. Countersunk head screw

75. Epoxy resin S1. Surface Ascon S2. understratum

Figure 1 shows a front cross-sectional view of the overall configuration of the present invention.

A road marker bottle structure configured to lift the road marker bottle by an elastic force of a cushioning material (coil spring) embedded in the cylindrical case; In the solar marker bottle to cause the LED lamp to flash by the charged power to convert solar energy into electrical energy;

An upper part of which is open and a lower part of which has a structure outer shell 51 penetrated to a predetermined diameter; A coil spring (73) embedded in the structure appearance (51); It is seated on the upper coil spring 73, the inclined surface 54 is inclined downward from the hemispherical protrusion 53 to the outer circumference, and the lower end of the inclined surface 54 has a tooth formed at the lower end of the cross section A trapezoidal inclined insert 55 having a shape is formed, and a plurality of diamond-shaped protrusions 56 are formed to be convex on the inclined circumferential circumferential line of the insert 55 at an angle of 45 °, and have a predetermined thickness and a center. Concave outer concave portion 57, the lamp groove 58 formed on one side of the outer bottom concave portion 57, the cell groove 59 formed on the other side of the lamp groove 58, and the lamp groove LED lamp 60 mounted on the 58, the solar cell 61 mounted on the cell groove 59, and a thin layer of aluminum from the circumferential top surface of the inclined insert 55 to the outer bottom recess 57 A cover bottle glass body 63 in which the vapor deposition coated aluminum coating part 62 is integrally formed; A PCB circuit 64 connected to the LED lamp 60 and the solar cell 61 mounted on the outer bottom concave portion 57 of the cover bottle glass body 63; A CDS sensor (65) connected with the PCB circuit (64); An on-off TR switch 66 connected to the PCB circuit 64; A charging battery 67 connected to the PCB circuit 64; The indentation part 68 formed to insert and seat the cover bottle glass body 63, a locking protrusion 69 for preventing detachment of the cover bottle glass body 63 inserted into the indentation part 68, and the indentation part 68. A step 70 cut into a predetermined size at the end of the outer circumferential surface, and the concave-convex portion 71 formed with a predetermined length from the outer bottom surface of the center of the concave inlet portion 68 and mutually open with the inner bottom of the concave inlet portion 68 Is integrated with the glass receptor (72) is a concave-convex structure as a whole; While the inner surface of the glass receptor 72 and the outer surface of the inserted label bottle glass 63 is buffered and fixed, the outer bottom concave portion 57 of the label bottle glass 63 and the LED lamp 60, the cell An epoxy resin 75 for binding the 61, the PCB circuit 64, the CDS sensor 65, the TR switch 66, the charging battery 67, and the like; The helical coupling with a plurality of countersunk head screw 74 on the upper portion of the open structure facade 51 has a certain thickness, the center is composed of a flange outer lid 52 which is penetrated through a constant diameter.

In addition, the material of the structural appearance 51 and the flange outer lid 52 is composed of MC nylon (Mono Cast Nylon) which is a synthetic resin for high crystallinity and wear resistance.

Then, the flange exterior lid 52 is configured to prevent the incorporation of foreign matter into the solar light emitting label bottle structure 50.

Hereinafter, the operation of the breakage prevention label bottle structure by the heavy equipment of the present invention will be described in detail.

2 is a cross-sectional view showing the road buried fixed according to the present invention.

First, before describing the process of binding the label bottle glass body and the LED lamp and the solar cell, the structure of the label bottle glass body that emits light in the solar light emitting label structure of the present invention will be described as follows.

As the cover bottle glass body of the solar light-emitting label bottle structure of the present invention, the cover bottle glass body which is a component of the damage prevention label bottle structure (utility model application No. 2000-17217) filed by the applicant was applied. , The disc surface is inclined surface 54 inclined downward from the hemispherical protrusion 53 to the outer circumference, and the lower end of the inclined surface 54 is formed with a serrated trapezoidal inclined insertion portion 55 at the lower end of the cross section. And a plurality of diamond-shaped protrusions 56 formed on the inclined circumferential circumferential surface of the inserting portion 55 at a convex angle at an angle of 45 °, and an outer bottom concave portion 57 having a predetermined thickness and having a concave shape in the center. And, the inclined insert portion 55 has a structure in which the aluminum coating 62 coated with a thin layer of aluminum from the circumferential top surface to the outer bottom recess portion 57 is integrally formed.

In addition, the solar cell of the solar road sign (Utility Model Registration No. 20-180635), LED lamp to convert the solar energy into electrical energy to charge the battery, and then the LED lamp flashes by the power of the charged battery as described above , PCB circuits, storage batteries, and the like have been applied to the outer bottom indentation of the cover bottle glass body, which is a component of the above-described heavy equipment damage prevention label bottle structure (Utility Model Application No. 2000-17217) filed by the applicant.

In more detail, the lamp groove 58 and the lamp groove 58 on the other side of the outer bottom indentation portion 57 of the cover bottle glass body 63 configured as described above are formed on the other side, and then the lamp After inserting the LED lamp 60 and the solar cell 61 into the groove 58 and the cell groove 59, the temporary adhesion is made by adhesive material, and the outer surface from the circumferential surface of the inclined insert 55 is made of thin aluminum. By depositing and coating the bottom concave portion 57 to form an integrated body (see FIG. 3), the LED bottle 60 and the solar cell 61 are attached to the cover bottle glass body 63, and the PCB circuit 64 is attached thereto. And a CDS sensor 65, a TR switch 66, a charging battery 67, and the like, wherein the PCB circuit 64 is attached to an outer bottom recessed portion 57 of the cover bottle glass 63. 60 and the solar cell 61, respectively, the CDS sensor 65 is bound to the PCB circuit 64, the TR switch 66 and the charging battery 67 is also the PCB circuit ( 64, respectively, the LED lamp 60 and the solar cell 61 and the PCB circuit 64, the CDS sensor 65, the TR switch 66, the charging battery (attached to the cover bottle glass body 63) 67) The binding is completed.

At this time, the charging battery 67 is a nickel-cadmium (Ni-Cd) battery that can be used permanently.

As described above, the assembling process of inserting and fixing the cover bottle glass body in which the LED lamp, the solar cell, the PCB circuit, the CDS sensor, the TR switch, the charging battery, etc. are bound to the glass receptor is described, and FIG. 5 shows a half sectional view of the glass receptor. will be.

First, while the overall shape has a concave-convex structure, the concave convex portion 68, the locking projection 69 for preventing the detachment of the cover bottle glass body 63 inserted into the concave concave portion 68, and the concave concave portion (68) The end 70 cut into a predetermined size at the end of the outer circumferential surface, and the concave-convex portion formed in a predetermined length from the outer bottom surface of the center of the concave inlet portion 68, the concave and convex openings mutually open with the inner bottom of the concave portion 68 The glass lamp 72 (see FIG. 5) of the integrated structure 71 is integrated into the LED lamp 60, the solar cell 61, the PCB circuit 64, the CDS sensor 65, the TR switch 66, and the charging battery. (67) inserting the cover bottle glass body 63 to which the back is bound, the PCB circuit 64 bound to the LED lamp 60 and the solar cell 61 and the CDS sensor bound to the PCB circuit 64 ( 65), the TR switch 66, the charging battery 67, and the like are positioned inside the uneven portion 71 of the glass container 72, and the indicator bottle with the LED lamp 60 and the cell 61 attached thereto. Glass body 63 is the glass Inserted into the indentation portion 68 of the solution 72, at this time, the locking projection 69 is formed on the inner upper circumferential surface of the indentation portion 68 to prevent detachment of the cover bottle glass body 63, the cover bottle The glass body 63 is pressed and inserted into the recessed portion 68, and then the epoxy liquid resin 75 having a strong viscosity is injected and cooled through the recessed and recessed portion 71 of the glass receptor 72. ) And the cover bottle glass body 63 is completely fixed, so that the assembling process is completed. At this time, the hardened epoxy resin 75 has the inclined tooth insertion portion 55 of the cover bottle glass body 63 according to an external impact. Is prevented from colliding with the glass receptor 72 and damaged, and rainwater or pollutants (dust, ascon debris, etc.), calcium chloride in winter, etc. are infiltrated into the glass receptor 72, resulting in aluminum coating. Cover bottle vitreous 6 due to damage of the part 62 3) prevents the function of light reflection from deteriorating, and the cover bottle glass body 63, the PCB circuit 64, the CDS sensor 65, and the TR switch to which the LED lamp 60 and the solar cell 61 are attached. The cover bottle glass body 63 and the glass receptor 72 while completely binding the charging battery 67 and preventing the short circuit caused by the rainwater penetrating into the glass receptor. Becomes one form.

Next, the entire assembly process of the solar light emitting label structure 50 of the present invention will be described using the label bottle glass body 63 and the glass receptor 72 as shown in FIG. 1.

The outer diameter size of the glass receptor 72 inside the structure outer shell 51 (MC Nylon: Mono Cast Nylon) in which the upper part is open and the lower part is penetrated to a certain diameter and the female thread part is formed in the upper circumferential width. Insert the coil spring (73) of the outer diameter, such as, and seated on the top of the coil spring (73) inserted as described above, seating the glass receptor (72) in which the cover bottle glass body 63 is fixed, and has a constant thickness, the center By assembling the concave-convex flange outer lid 52 penetrated by a constant diameter with a plurality of countersunk head screws 74, the entire assembly is completed.

As shown in FIG. 2, the solar luminescent marker bottle structure 50 of the present invention, the overall assembly of which has been completed as described above, is embedded in the road, at this time, the cover bottle structure of the present invention from the surface ascon (S1) to the base layer (S2). The cover bottle of the present invention is formed by inserting a cover bottle structure 50 of the present invention, which is previously joined, into the hole formed in the surface layer ascon S1, after forming a hole slightly larger than the size of the outer surface 51 of 50. The structure 50 is completely buried, and also, without completely assembling the cover bottle structure 50 of the present invention, and assembling method (see FIG. 2) according to embedding on the road, the structure exterior 51 is replaced with a surface layer ascon ( S1) through the hole formed from the base layer (S2) portion, and after inserting the coil spring 73 into the structure outer shell 51, the glass receptor 72 is fixed to the cover bottle glass body 63 is the structure outer shell ( 51) Well, finally, by helically coupling the flange outer lid 52 using the countersunk head screw 74, another embedding method is terminated, the above-described two methods of embedding the solar light emitting label structure of the present invention Among the methods, the cover bottle structure of the present article may be buried by selecting a method which is easy to bury at a buried site.

In addition, the solar energy absorbed by the solar cell 61 bound to the cover bottle glass body 63 among the components of the cover bottle structure 50 of the present invention is converted into electrical energy and charged by the signal of the CDS sensor 65. When the charged power of the charging battery 67 is supplied and the LED lamp 60 emits light, the light of the lamp 60 is reflected on the cover bottle glass 63 so that the entire cover bottle glass 63 can be described. As follows.

Figure 3 shows a front view of the cover bottle glass body, Figure 4 shows an internal reflection plan view of the cover bottle glass body.

The solar light emitting bottle structure 50 of the present invention is buried in a center line or a double center line of the road, and then, in the daytime, the light is collected by the solar cell 61 attached to the outer bottom indentation portion 57 of the cover bottle glass body 63. When the solar energy is absorbed, the PCB circuit 64 bound to the solar cell 61 is converted into electrical energy, and the electrical energy converted as described above through the PCB circuit 64 is converted into the PCB circuit 64. Charge and store in the charging battery (67), and then bound with the PCB circuit (64), converting solar energy absorbed by the solar cell (61) into electrical energy by the PCB circuit (64). The CDS sensor 65 which detects the light emitting and turning off the LED lamp 60 detects the energy of the LED lamp 60 and changes the energy in the PCB circuit 64 due to climate change such as nighttime or rainy day, low daylight, misty day and night. The LED lamp 60 emits light when no conversion is detected The signal for transmitting the signal is sent back to the on / off TR switch 66 coupled with the PCB circuit 64 through the PCB circuit 64, and the converted signal transmitted from the CDS sensor 65. When the TR switch 66 is turned ON, the power of the electric energy is supplied to the LED lamp 60 in the charging battery 67 in which solar energy is converted into electric energy by the PCB circuit 64. The light emitted and emitted as described above is diffused by the cover bottle glass body 63 in which a thin layer of aluminum is deposited and coated on the entire outer circumferential surface of the inclined circumference, and emits light from the cover bottle glass body 63. The reflection state of the cover bottle glass body 63 will be described in more detail as follows.

A thin layer of aluminum is deposited on the entire outer surface of the inclined circumference of the cover bottle glass body 63 so that the inside of the cover bottle glass body 63 serves as a mirror, so that the light emitting light of the LED lamp 60 is inclined. Although the light of the LED lamp 60 emitting 360 ° with the reflection of the main surface and the inner bottom passes through the hemispherical protrusion 53 of the cover bottle glass 63 as it is, the light is emitted from the cover bottle glass 63, in particular. While the entire inclined circumferential surface of the cover bottle glass body 63 is sawtooth-shaped, a diamond-shaped protrusion 56 is formed at a 45 ° angle on the center line, and the inclined tooth portion and the diamond-shaped protrusion 56 are described above. When the light emitted from the LED lamp 60 is incident, diffuse reflection is reflected through the incidence of the light by the angle of the incidence of the inclined teeth and the bottom of the cover bottle glass 63 and the incisor of the other side. Made up, Furthermore, the light purged by the lens of the diamond-shaped protrusion 56 formed on the center line of the inclined tooth portion is gathered into one place to form diffuse reflection by the angle of the diamond protrusion 56 itself. Since the diffuse reflection and the diffuse reflection generated from the diamond-shaped protrusion 56 are combined, the luminance of very strong brightness is emitted at 360 ° from the beacon vitreous 63, so that the driver is able to detect the beacon vitreous 63 regardless of the weather change. The center line of the road, etc. can be checked from a distance by the light emitted from the vehicle, and driving can be performed.

In addition, when the CDS sensor 65 detects that the solar energy absorbed from the solar cell 61 is converted into electrical energy through the PCB circuit 64 again during the day when the luminous intensity is strong, the LED lamp 60 is turned off. The signal to be sent back to the TR switch 66 coupled with the PCB circuit 64 through the PCB circuit 64, the TR switch 66 is switched by the conversion signal of the CDS sensor 65 When turned OFF, the power supply is cut off from the charging battery 67 connected to the PCB circuit 64 so that the LED lamp 60 is turned off, and at the same time, the solar energy is converted into electrical energy to charge the battery 67. Will be stored in charge.

In addition, when a general vehicle, a large bus, a large truck, heavy construction equipment, military equipment, and the like pass through the solar light emitting cover structure 50 of the present invention embedded in a road lane, the impact load effect of the vehicle, large construction and military equipment, etc. Referring to the loading action state of the cover bottle structure 50 of the present invention by the following, Figure 6 shows an embodiment of the loading action state of the vehicle wheel in the present invention.

When the wheel portion of the vehicle or the like proceeds to the solar light emitting bottle structure 50 of the present invention, as shown in FIG. 6, the hemispherical protrusion of the cover bottle glass body 63 is caused by the self-weight of the large equipment and the vertical load of the equipment. The coil spring 73 is compressed until the 53 is inserted into the flange outer lid 52 spirally coupled to the structure exterior 51, and then the wheel portion is the solar light emitting cover structure 50 of the present invention. When fully proceeded, the glass receptor 72 is completely restored to the position of the first label bottle glass body 63 by the elastic restoring force of the coil spring 73 in which the glass receptor 72 was compressed.

And, Figure 7 shows a cross-sectional view of the flange outer lid, the hemispherical protrusion 53 of the cover bottle glass body 63 by the self-weight of the large equipment and the vertical load of the equipment flanges spirally coupled to the structural appearance 51 The coil spring 73 is compressed until it is inserted into the exterior lid 52. At this time, in the summer, when the hardness of the road ascon decreases due to high heat, the vehicle suddenly curves and the frictional force of the vehicle wheel suddenly stops. Residues such as small stones bound to the ascon by the desorption are mixed with the dust on the road surface, even if mixed into the space between the structure appearance 51 and the cover bottle glass 63 formed as the coil spring 73 is compressed. As shown in FIG. 7, the unevenness of the flange outer lid 52 in which the glass container 72 accommodating the cover bottle glass body 63 compressed has a predetermined length is shown. Since it does not deviate from the length, when the large vehicle and the large equipment completely proceeds the solar light emitting label structure 50 of the present invention, by the elastic restoring force of the coil spring 73 in which the glass receptor 72 is compressed Restoring to the position of the cover bottle glass body 63, by discharging the residues mixed in the space of the structure and the cover bottle glass body out of the road, it is to be incorporated in the solar light emitting label bottle structure 50 of the present invention You can prevent it.

Furthermore, even if rainwater penetrates between the flange outer lid 52 and the glass receptor 72 where the glass receptor 72 adheres while the clearance in the cover bottle structure 50 of the present invention is close to zero, the glass receptor 72 The inlet portion 68 of the outer circumferential end of the outer end has a plurality of incisions (70) in a predetermined size, while rainwater is discharged between the gaps of the incisions (70), formed in the center of the lower portion of the structural appearance (51) Since it is discharged to the substrate through a constant diameter, the solar light emitting label structure 50 of the present invention is an excellent structure that does not mix residues, rain water, fine dust, etc. detached from the road asphalt.

In addition, as described above, when the cover bottle glass body 63 is compressed into the structure exterior 51 by the load of the vehicle when the vehicle enters, the cover bottle glass body 63 is caused by the elastic restoring force of the coil spring 73 when the vehicle is fully advanced. The technology of the present invention is restored to the initial position, the upper end of the road sign bottle assembly (Utility Model Publication No. 97-49691) is formed with a locking jaw, the lower part is the ground cover bottle ground by the buffer material inserted into the open cylindrical case It turns out that it is the same known technique as the technique to protrude into the phase.

The solar luminescent marker bottle structure of the present invention is characterized by the compression and elastic restoring force of the coil spring inserted in the marker bottle structure even when the impact load on the large bus, large truck, heavy construction equipment and military large equipment and vehicle is applied. By moving up and down immediately, it prevents the cover bottle glass from being damaged by the load of the vehicles and is buried in the road ascon, and at the same time changes the weather and weather such as nighttime or rainy day, low daylight, misty day and night, etc. Regardless of whether the indicator bottle glass emits diffuse reflection by the light of the LED lamp with the power charged in the charging battery by the PCB circuit which converts solar energy absorbed from the solar cell into electrical energy, the driver emits light of the indicator bottle glass. You can drive safely while aware of traffic accidents. Has an excellent effect can be.

In addition, in the case of new replacement of the cover bottle structure of the present invention buried in the center line of the road by aging of the cover bottle glass body and coil spring, by removing the countersunk head screw in the buried state to separate the flange outer lid from the top of the structure exterior, The road buried work process of the solar luminescent label bottle structure such as spirally coupling the upper surface of the structure and the flange outer lid by using the countersunk head screw after replacing and inserting the replacement vial and coil spring for replacement is very simple. · Replacement work is also very easy, it has an excellent effect of shortening the buried and replacement time.

And, as shown in Figure 3, the shape of the cover bottle glass body as a component of the present invention is a serrated trapezoidal inclined insertion portion, and a plurality of convex outer side formed at a 45 ° angle on the center line of the inclined circumferential surface of the insertion portion Diamond-shaped projections are formed, thereby increasing the reflection angle of the LED lamp light, and the diffuse reflection of multiple angles is made, so that the brightness of the light is emitted from 360 ° from the cover bottle glass body, so that the brightness efficiency of the cover bottle glass body is further increased. have.

In addition, in the summer, as the hardness of the road ascon decreases due to high heat, the residue of the small stones and the like that are bound to the ascon is detached due to the sharp curve of the vehicle and the friction of the wheel of the vehicle when the vehicle is suddenly stopped. Even when incorporated into the space between the formed structure exterior and the cover bottle glass body, since the glass container housing the compressed cover bottle glass body does not escape the length of the concave-convex portion of the flange outer lid having a certain length, the large vehicle and the large When the equipment is fully proceeded, the glass receptor is restored to the position of the first marker bottle glass by the elastic restoring force of the coil spring that was compressed, and the residue mixed in the exterior of the structure and the space of the marker bottle glass body is discharged out of the road. In the present inventors solar luminescent label bottle structure Flow has an excellent effect to prevent the waters are mixed.

Then, the PCB circuit, the CDS sensor, the TR switch, and the charging battery are bound to the glass bottle with the LED lamp and the solar cell attached thereto, and then inserted into the glass receptor, followed by cooling by injecting and cooling a strong epoxy resin through the uneven portion of the glass receptor. The indicator bottle glass body with the LED lamp and the solar cell attached thereto, the PCB circuit, the CDS sensor, the TR switch, the charging battery, and the glass receptor are configured in one form, even though the rain bottle penetrates into the glass container in which the indicator bottle glass body is inserted and fixed. As the waterproof role of the epoxy resin, there is an excellent effect of preventing the light emitting function of the label bottle glass body due to a short circuit.

Claims (3)

A road marker bottle structure configured to lift the road marker bottle by an elastic force of a cushioning material (coil spring) embedded in the cylindrical case; In the solar marker bottle to cause the LED lamp to flash by the charged power to convert solar energy into electrical energy; An upper part of which is open and a lower part of which has a structure outer shell 51 penetrated to a predetermined diameter; A coil spring (73) embedded in the structure appearance (51); It is seated on the upper coil spring 73, the inclined surface 54 is inclined downward from the hemispherical protrusion 53 to the outer circumference, and the lower end of the inclined surface 54 has a tooth formed at the lower end of the cross section A trapezoidal inclined insert 55 having a shape is formed, and a plurality of diamond-shaped protrusions 56 are formed to be convex on the inclined circumferential circumferential line of the insert 55 at an angle of 45 °, and have a predetermined thickness and a center. Concave outer concave portion 57, the lamp groove 58 formed on one side of the outer bottom concave portion 57, the cell groove 59 formed on the other side of the lamp groove 58, and the lamp groove LED lamp 60 mounted on the 58, the solar cell 61 mounted on the cell groove 59, and a thin layer of aluminum from the circumferential top surface of the inclined insert 55 to the outer bottom recess 57 A cover bottle glass body 63 in which the vapor deposition coated aluminum coating part 62 is integrally formed; A PCB circuit 64 connected to the LED lamp 60 and the solar cell 61 mounted on the outer bottom concave portion 57 of the cover bottle glass body 63; A CDS sensor (65) connected with the PCB circuit (64); An on-off TR switch 66 connected to the PCB circuit 64; A charging battery 67 connected to the PCB circuit 64; The indentation part 68 formed to insert and seat the cover bottle glass body 63, a locking protrusion 69 for preventing detachment of the cover bottle glass body 63 inserted into the indentation part 68, and the indentation part 68. A step 70 cut into a predetermined size at the end of the outer circumferential surface, and the concave-convex portion 71 formed with a predetermined length from the outer bottom surface of the center of the concave inlet portion 68 and mutually open with the inner bottom of the concave inlet portion 68 Is integrated with the glass receptor (72) is a concave-convex structure as a whole; While the inner surface of the glass receptor 72 and the outer surface of the inserted label bottle glass 63 is buffered and fixed, the outer bottom concave portion 57 of the label bottle glass 63 and the LED lamp 60, the cell An epoxy resin 75 for binding the 61, the PCB circuit 64, the CDS sensor 65, the TR switch 66, the charging battery 67, and the like; Solar light emitting label bottle characterized in that the spiral structure coupled to the plurality of countersunk head screw 74 in the upper part of the open structure facade 51 has a certain thickness, and the flange outer lid 52 penetrated at a constant diameter in the center is coupled. Structure. [Claim 2] The solar luminescent label bottle structure according to claim 1, wherein the material of the structure appearance (51) and the flange appearance lid (52) is made of MC nylon (Mono Cast Nylon), which is a synthetic resin for high crystallinity and wear resistance. The solar marker label structure of claim 1, wherein foreign matters can be prevented from being mixed into the solar marker label structure (50) by a flange outer lid (52).