KR200283381Y1 - Reflector - Google Patents

Abstract

The present invention relates to a road safety marker, which inserts a reflective marker from the bottom of the vial of the marker bottle to a predetermined depth and embeds it on the road without a receiving member, and thus is a component of the conventional road marker bottle due to infiltration of rainwater or melted snow. In addition to preventing the oxidized portion of the reflective cover adhered to the light-receiving surface of the inclination-insertion portion of the cover bottle body or the adhesive portion of the light-receiving surface and the reflective label, the adhesive portion can be prevented from being oxidized and separated from each other. There is an excellent effect that can significantly reduce the manufacturing cost and construction cost to construct a road sign bottle.

In addition, since the marker bottle reflection performance measurement by the marker bottle reflection performance measuring instrument is measured by the amount of retroreflective luminance reflected directly through the reflection marker inserted into the marker bottle glass body of the present invention, the amount of diffuse reflection luminance of the conventional marker bottle vitreous body or the Ministry of Construction and Transportation is designated. As the amount of reflected luminance is greatly increased compared to the reference reflected luminance, the visibility (visibility) felt by the driver is improved.

Description

Cover bottle vitreous {Reflector}

The present invention relates to a road cover bottle buried in the road to make it easy to distinguish the lanes, and more specifically, to receive the inclined insertion portion of the cover bottle body, which is a component of the conventional road sign bottle due to the infiltration of rain water or melted snow. In order to prevent the adhesive parts of the reflective labels adhered to the surface from being oxidized and separated from each other, and to reduce the manufacturing and construction costs of constructing a conventional road marking bottle, the reflective labels are inserted and accommodated at a predetermined depth from the bottom of the glass body. It relates to a cover bottle vitreous buried in the road without an absence.

In general, road markers are marked with yellow marker lines, double yellow lines, median dividing lines, roadside lines, and restriction lines to distinguish lanes such as general roads, mountain roads, military roads, and outer roads. For this purpose, several road safety signs are installed at regular intervals along the lanes to prevent traffic accidents that may occur during night driving or in the rain, and to prevent traffic accidents as described above. The inclined surface 202 inclined downward from the lower end of the hemispherical protrusion 201 to the outer circumference, the disc embedded portion 203 formed at a predetermined height at the lower end of the inclined surface 202, and the bottom surface of the disc embedded portion 202 have a predetermined thickness. The disc recess 202 and the disc recess 202 such that the outer bottom recess 204 and the inner surface of the disc recess 202 form a reflective surface. The cover bottle glass body 200 has been provided which consists of an aluminum coating portion 205 coated with a thin layer of aluminum by the bottom concave portion 204, which is the diameter of the cover bottle glass body 200 and the cover bottle glass body 200 in the surface layer ascon. Forming a fixed groove with a diameter and a depth corresponding to the height of the disk burying portion 202 of the, injecting an appropriate amount of epoxy resin into the fixing groove, and then inserting the cover bottle glass body 200 into the fixing groove in a series of installation And the fixing operation is completed.

However, when a predetermined time passes through the rainy weather or winter season, rain or snow melted water soaks into the buried portion of the cover bottle glass body 200, that is, from the bottom of the cover bottle glass body 200, that is, the disc buried portion 202, The aluminum coating portion 205 coated with aluminum to the outer bottom concave portion 204 is oxidized, and the injected car headlight light is not reflected in the cover bottle glass body 200. There was a huge problem of losing.

In addition, in the Ministry of Construction and Transportation, a national authority for construction, a measuring instrument measuring the reflection performance of a marker bottle does not measure the amount of reflected luminance reflected by the diffuse reflection (reflected reflection). Since the amount of retroreflective reflecting directly is measured, the measured value of the amount of reflected luminance diffused and reflected from the cover bottle glass body 200 is measured to be smaller than the reference value of the Ministry of Construction and Transportation, and the cover bottle embedding work or a local government supervised by a national agency There was a problem that it is difficult to be applied to the cover buried project managed by.

In order to solve such a problem, a road sign bottle, which has been pre-registered by the applicant (Utility Model Registration No. 0252816), has been proposed. As shown in FIG. The inclined surface 13 inclined downward, the ring fixing jaw 14 having a predetermined depth from the lower end of the inclined surface 13, and the trapezoidal shape having a predetermined length from the lower end of the fixing jaw 14 are formed on the outer circumferential surface thereof. An inclined inserting portion 15 having a plurality of light receiving surfaces 16 having a predetermined size, and a cover bottle body 11 integrally formed with an outer bottom concave portion 17 having a predetermined thickness and having a concave shape at the center;

A reflection cover 18 attached to each of the plurality of light receiving surfaces 16 formed on the inclined insertion portion 15 of the cover bottle body 11 to directly reflect the headlight light received through the light receiving surface 16; The inclined inserting portion 15 and the outer bottom concave portion 17 of the cover bottle body 11 to which the reflective cover 18 is attached may be inserted into the inclined inserting portion 15 and the outer bottom concave portion 17. It is formed in the same shape, the urethane resin receiving member (19) to block the impact of the inclined insertion portion 15 and the reflective cover 18 and the water inflow into the ground of the cover bottle body 11;

The inlet is trapezoidal in shape so as to accommodate the inclined inserting portion 15 of the cover bottle body 11 accommodated in the urethane resin receiving member 19, and the concave inlet portion 22 in the multi-sided state is formed, and the outer portion is circular in shape. While being formed, the jig groove 23 and the longitudinal projections 24 having a predetermined length are formed on the outer circumferential surface at an angle of 90 °, respectively, and a central inner bottom of the multi-faceted indentation part 22 of the cover bottle body 11 is formed. An inner bottom concave-convex portion 25 is formed to seat the outer bottom concave portion 17, and a cover bottle receiving member 21 in which a concave-convex portion 26 formed in a trapezoidal shape having a predetermined length is integrally formed on the central outer bottom;

The sealing ring (27) mounted on the inclined insertion portion (15) of the upper ring fixing jaw (14) of the cover bottle body (11) to block rain water from flowing between the cover bottle body (11) and the urethane resin receiving member (19). )

In the case of the road sign bottle configured as described above, the sealing ring 27 to maintain the airtightness between the contact portion that the upper end portion of the inclined insertion portion 15 of the cover bottle body 11 and the upper portion of the cover bottle receiving member 21 is in contact. ), The rainwater or the snow melted water and the like to block the penetration between the cover bottle body 11 and the cover bottle receiving member 21 is fixed to each other inclined insertion portion 15 of the cover bottle body 11 There is an effect that can be prevented from oxidizing the reflective cover 18 or the adhesive portion adhered to, in particular, instead of the diffuse reflection (reflective reflection) principle reflected in the above-mentioned circular cover bottle glass body 200, the cover bottle body 11 A plurality of light receiving surfaces 16 having a predetermined size are formed outside the circumferential surface of the inclined inserting portion 15, and the same sized reflective labels 18 are attached to the light receiving surface 16 to the area of the light receiving surface 16. As long as the headlights are received By using the retroreflective principle to be reflected directly by the reflective cover 18, it is possible to apply to the measurement method of the marker bottle reflection performance meter which is managed by the Ministry of Construction and Transportation, and at the same time, the reference value of the marker bottle reflective performance specified by the Ministry of Construction and Transportation. The increased reflection performance value can be obtained, so that the luminance of the driver's visibility (visibility) can be greatly improved by emitting a reflection luminance having a stronger brightness than the reflection luminance due to the diffuse reflection of the conventional label bottle vitreous 200.

However, as described above, the rain or snow melted water is prevented from infiltrating into the cover bottle body 11, and at the same time, the headlight light is reflected directly by the reflection cover 18, thereby using a strong reflection reflectance of the strong brightness. The road sign bottle designed to improve the visibility (visibility) felt by the driver by dissipating, is provided on the inclined insertion part 15 of the cover bottle body 11 and the light receiving surface 16 of the inclined insertion part 15. The urethane resin receiving member 19 and the cover bottle receiving member 21 were assembled on the cover bottle body 11 and embedded in the road to alleviate the impact of the reflective signs 18 adhered to each other and to prevent water from entering the ground. As such, when the road sign bottle is constructed, there is a big problem that the production cost and construction cost is more than when the cover bottle body 11 is made and embedded in the road.

In addition, when rain or snow melts and soaks between the light-receiving surface 16 of the cover bottle body 11 and the reflective cover 18 due to aging due to the long-term use of the road marker bottle, the light-receiving surface 16 and reflection As the adhesive part to which the label 18 is adhered is oxidized by water, the adhesive part is weakened, so that the reflective label 18 is separated from the light receiving surface 16 of the label bottle body 11 and separated.

Moreover, when the cover bottle body 11 is embedded in the road in which the reflective cover 18 is adhered to the light receiving surface 16 of the cover bottle body 11 in order to reduce the manufacturing cost and the construction cost, which are the above-described problems, Rain or snow melted water enters the adhesive part of the light receiving surface 16 and the reflective cover 18 so that the adhesive part becomes weak and the reflective cover 18 is separated from the light receiving surface 16 of the cover bottle body 11. There was also a big problem of losing its function as a marker.

The present invention devised to solve the conventional problems as described above, by inserting a reflective label from the bottom of the cover bottle glass body to a predetermined depth, and embeds it on the road without a receiving member, by the infiltration of rain water or melted snow, etc. Not only does the reflective label adhered to the light-receiving surface of the slanted insertion portion of the cover bottle body, which is a component of the road marking bottle, or the adhesive portion of the light-receiving surface and the reflective label is oxidized, but also the adhesive portion is prevented from being oxidized and separated from each other. At the same time, the purpose is to reduce the manufacturing cost and construction cost of constructing a conventional road sign bottle.

In addition, since the marker bottle reflection performance measurement by the marker bottle reflection performance measuring instrument is measured by the amount of retroreflective luminance reflected directly through the reflection marker inserted into the marker bottle glass body of the present invention, the amount of diffuse reflection luminance of the conventional marker bottle vitreous body or the Ministry of Construction and Transportation is designated. Another object of the present invention is to improve visibility (visibility) felt by the driver as the amount of reflected luminance is greatly increased compared to the reference reflected luminance.

The purpose of the present invention, a transparent hemispherical protrusion is formed on the upper side of the disc embedded portion, the inner surface of the disc buried portion of the cover bottle vitreous is coated with a thin layer of aluminum deposited on the disc embedded portion to form a reflective surface It can be solved by the cover bottle vitreous of the present invention configured by inserting a reflective label to a predetermined depth from, will be described in detail with reference to the accompanying drawings.

1 is a partial cutaway view of a conventional marker bottle vitreous.

Figure 2 is an exploded perspective view of a conventional road sign bottle.

Figure 3 is an exploded cross-sectional view of the marker bottle vitreous of the present invention.

Figure 4 is an embodiment showing a state of embedding the cover bottle vitreous of the present invention into the cover bottle receiving member embedded in the road.

Figure 5 is a state diagram showing a reflection state of the marker bottle vitreous of the present invention.

Explanation of symbols on the main parts of the drawings

200, 200a. Cover bottle vitreous 201. Hemispherical protrusion 202. Inclined surface

203. Disk embedded part 204. Outer bottom recess 205. Aluminum coated part

206. Reflective cover insertion hole 207. Hanging jaw 208. Cylindrical reflective cover

209. Cover member 300. Jamming jaw

Figure 3 shows an exploded cross-sectional view of the label bottle vitreous of the present invention.

The cover bottle vial 200a of the present invention includes an inclined surface 202 inclined downward from the lower end of the hemispherical protrusion 201 of the disc upper surface to the outer circumference, and a disc embedded portion 203 formed at a predetermined height at the lower end of the inclined surface 202. In the cover bottle glass body having a constant thickness at the bottom of the disc embedded portion 202, the outer bottom concave portion 204 of the concave shape in the center is integrally formed,

A reflective label insertion hole 206 formed in a circumferential shape having a predetermined depth from a bottom surface of the cover bottle vial 200a;

A cylindrical reflective cover 208 inserted into the reflective cover insertion hole 206 to retroreflect the headlight light scanned from the vehicle to improve driver's cognitive property;

The cover member 209 is attached to the reflective cover insertion hole 206 and prevents the reflective cover 208 inserted into the reflective cover insertion hole 208 from being separated from the outside of the cover bottle glass body 200a. .

Hereinafter, the label bottle vitreous of the present invention will be described in detail.

The cover bottle glass body 200a of the present invention is an inclined insertion portion of the cover bottle body 11, which is a component of the conventional road cover bottle (Utility Model Registration No. 0252816) shown in FIG. 2 due to infiltration of rain water or melted snow. (15) It not only prevents the reflective cover 18 adhered to the light receiving surface 16, or the adhesive portion between the light receiving surface 16 and the reflective cover 18 from being oxidized, but also the adhesive portion is oxidized so that the light receiving surface is oxidized. In order to prevent the reflective cover 18 from being separated from each other at the same time, and to reduce the production cost and construction cost of constructing a conventional road sign bottle, that is, the inner surface of the cover bottle glass body 200a of the present invention, that is, The cylindrical reflective cover 208 is inserted into the cover bottle vitreous 200a at a predetermined depth.

At this time, the label bottle vial 200a is manufactured using a conventional method for producing a tempered glass label bottle, and describes the method for producing the label bottle vial 200a. %, Borax (B2O3) 40%, boric acid (H3BO2) 12.5%, aluminum oxide (AL2O3) 0.6%, and the like mixed by heating and melting to a glass paste (glass liquid state) by adding and mixing, the glass The paste is poured into a MOLD mold and formed into the form of the usual label bottle, and then the form is prepared by using a rapid freezing method or a heat treatment method (primary 520 ° C, secondary 560 ° C, tertiary 570 ° C). .

In addition, in order to insert the cylindrical reflective cover 208 inside the cover bottle glass body 200a manufactured by the above method, as shown in FIG. 3, a circumferential reflection cover insert is inserted from the bottom of the cover bottle glass body 200a. The hole 206 is formed to a predetermined depth, and in particular, cylindrical reflection marks 208 inserted into the reflection mark insertion holes 206 are formed at both sides of the bottom surface of the reflection mark insertion holes 206. The latching jaw 207 is formed so that the cover member 209 can be bound so as not to be separated out.

In addition, the cylindrical reflective cover 208 inserted into the reflective cover insertion hole 206 of the cover bottle glass body 200a was manufactured by using an ultra-high brightness reflective sheet of Korea Optical Co., Ltd. for the long life and high reflective performance. In particular, the cylindrical reflective cover 208 was made to be used for the headlight retroreflective only one side of the headlight light is incident on both sides (see Fig. 3).

In addition, the cover member 209, as shown in Figure 3, is made of a urethane resin material excellent in elasticity and deformation free, in particular to be bound to the locking step 207 of the reflective cover insertion hole 206. The latching jaw 300 is formed to have a trapezoidal ring shape. Furthermore, in the case of the cover member 209, when the cover member 209 is attached to the reflective cover insertion hole 206 of the cover bottle glass body 200a, rain or snow melts into the reflective cover insertion hole 206 by the cover member 209. Since the penetration of water and the like is blocked, the airtightness inside the reflective label insertion hole 206 is excellent, thereby protecting the cylindrical reflective label 208 from rain or snow melted water.

Next, the process of assembling the cover bottle vitreous of the present invention will be described.

After inserting the cylindrical reflective cover 208 into the reflective cover insertion hole 206 formed at a predetermined depth from the bottom surface of the vial 200a, the cylindrical reflective cover 208 inserts the reflective cover of the vial 200a. The ring-shaped cover member 209 of urethane resin material is attached to the reflective cover insertion hole 206 so as not to be separated from the hole 206. At this time, the latching jaw 300 of the cover member 209 is inserted into the reflective cover. The cover member 209 is completely attached to the reflective cover insertion hole 206 while being caught by the locking projection 207 formed at both sides of the bottom of the hole 206.

Figure 4 is an embodiment showing a state in which the cover bottle glass body of the present invention is inserted into the cover bottle receiving member and embedded in the road.

The cover bottle glass body 200a of the present invention configured as described above is buried at a predetermined interval on the road centerline, and at this time, the cover bottle glass body 200a itself is buried on the road, or the applicant maintains registration of the applicant (utility model registration). No. 207975) may be embedded in the cover bottle receiving member 401, which is a component of the road safety sign bottle structure.

Hereinafter, the reflex action of the marker bottle vitreous of the present invention will be described in detail.

5 is a state diagram showing a reflection state of the marker bottle vitreous of the present invention.

As described above, when the headlight light of the driving vehicle is scanned while the cover bottle glass body 200a of the present invention is assembled to the road asphalt, the hemispherical shape of the cover bottle glass body 200 a is as shown in FIG. 5. At the same time the light is incident on the protrusion 201, the headlight light is refracted to the inner surface of the disc embedded portion 203 of the cover vial 200a by the role of the prism of the hemispherical protrusion 201, the refraction as described above The light is directly reflected, i.e., recursively, by the reflective surface of the ultra-high brightness reflective label 208 inserted into the reflective cover insertion hole 206 of the marker bottle glass body 200a, and is then reflected back through the hemispherical protrusion 201. The vehicle 100 is back-scanned to the outside of the vitreous body 200a, and the driver drives the vehicle while the driver recognizes the reflected brightness reflected as described above.

Furthermore, in the case of the cover bottle glass body 200a of the present invention, the driver does not recognize the reflection brightness reflected directly through some of the reflective surfaces of the cylindrical reflective cover 208, but the entire curved surface of the predetermined length in which the headlight light is received. Since the driver recognizes the composite reflection luminance reflected directly through the driver, the driver feels the reflection luminance of the brightness that is much stronger than the diffuse reflection (diffuse reflection) luminance of the conventional cover bottle glass body 200 shown in FIG. (Visibility) is greatly improved, and the measuring instrument for measuring the reflection performance value of the cover bottle glass body 200a also has a reflection performance value increased by a conventional diffuse reflection or a marker bottle reflection performance reference value specified by the Ministry of Construction and Transportation. It shows the performance value, comparing the reflection performance value of the cover bottle glass body 200a and the conventional cover bottle glass body 200 of the present invention It has been described the data in Table 1 below.

Table 1 shows a comparison table of the reflection performance reference value specified by the Ministry of Construction and Transportation, the reflection performance value between the normal label bottle glass body 200 and the label bottle glass body 200a of the present invention, and the measurement of the reflection performance of the present invention. The value is the result of the experiment requested by the Korea Textile Testing Institute, a national accredited testing institute, through a test method specified by the Ministry of Construction and Transportation.

Table 1

As shown in Table 1, it can be seen that the reflection performance of the label bottle vitreous 200a of the present invention is significantly improved than the normal label bottle vitreous 200 reflection performance value and the dry bridge reference reflection performance value.

The cover bottle vitreous of the present invention inserts a reflective label from the bottom of the cover bottle vitreous to a predetermined depth and embeds it on the road without a receiving member. A conventional road sign bottle is provided with an excellent effect of preventing the adhesion of the reflective mark or the adhesive portion of the light receiving surface and the reflective mark from being oxidized as well as preventing the adhesive from being oxidized and separated from each other. There is an excellent effect that can significantly reduce the manufacturing cost and construction cost to construct.

In addition, since the marker bottle reflection performance measurement by the marker bottle reflection performance measuring instrument is measured by the amount of retroreflective luminance reflected directly through the reflection marker inserted into the marker bottle glass body of the present invention, the amount of diffuse reflection luminance of the conventional marker bottle vitreous body or the Ministry of Construction and Transportation is designated. As the amount of reflected luminance is greatly increased compared to the reference reflected luminance, the visibility (visibility) felt by the driver is improved.

Claims (4)

An inclined surface inclined downward from the bottom of the hemispherical protrusion of the disc surface to the outer circumference, a disc embedded portion formed at a predetermined height at the bottom of the inclined surface, and an outer bottom indented portion having a constant thickness at the bottom of the disc embedded portion and concave to the center In the configured vial vitreous; A reflective label insertion hole formed in a circumferential shape having a predetermined depth from a bottom surface of the vial of the cover bottle; A cylindrical reflection cover inserted into the reflection cover insertion hole and retroreflecting the headlight light scanned from the vehicle to improve driver's appetite; And a cover member which is attached to the reflective cover insertion hole and prevents the reflective cover inserted into the reflective cover insertion hole from being separated from the outside of the cover bottle glass body. The cover bottle glass body according to claim 1, wherein both sides of the bottom surface of the reflective cover insertion hole have a locking step so that the cover member can be bound so that the cylindrical reflective cover is not separated out of the reflective cover insertion hole. The cover bottle glass body according to claim 1, wherein the cover member is formed in a trapezoidal ring shape in which a locking jaw is formed so as to be coupled to the locking jaw of the reflective cover insertion hole. The cover bottle glass body according to claim 3, wherein the cover member is made of a urethane resin having good elasticity.