JP2010156106A - Raised pavement marker - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a raised pavement marker capable of retroreflecting either of light at close range and light at long range with a high degree of reflection brightness. <P>SOLUTION: This raised pavement marker is attached to a marker body 10 in a state in which a first retroreflective element 12 and a second retroreflective element comprising a corner cube array are arranged in such a manner that light applied from single direction makes a simultaneous entry into each of entrance-exit surfaces. The first retroreflective element 12 comprises a columnar or plate-like transparent body; a front surface serves as the entrance-exit surface 56; a rear surface serves as a first reflecting surface 58; one of side surfaces serves as a second reflecting surface 60; the entrance-exit surface 56 is formed in a toroidal shape protruding forward in a lateral view; the first reflecting surface 58 is formed in a toroidal shape protruding backward in a lateral view; and an angle between the second reflecting surface 60 and a plane including all side portions of the first reflecting surface 58 is set as a right angle. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a roadway, and more particularly to an improved structure of a roadway having a retroreflection function.

  In general, road fences with reflectors are installed on the ground surface such as curbs around the road and the road, so that the driver of the vehicle traveling on the road can guide the line of sight to promote safe driving. To be done.

  There are various types of road fences having this reflector, and among them, a so-called retroreflective function that reflects light incident from a predetermined direction toward the light source in a direction substantially parallel to the incident direction. The one provided with the retroreflective element provided is preferably used because it exhibits sufficient visibility. The retroreflective elements attached to such roadsides generally include retroreflective elements having a large number of minute glass beads and retroreflective elements comprising a corner cube array having a number of regularly arranged corner cubes. Is used (see, for example, Patent Documents 1 and 2 below).

  Among these conventional roadsides, those with retroreflective elements composed of corner cube arrays exhibit higher reflection brightness than roadsides with retroreflective elements equipped with many glass beads. It is known that

  However, the present inventors have made various studies on the light reflection characteristics of a roadway to which retroreflective elements composed of corner cube arrays are attached. As a result, the light irradiated from a short distance of several tens of meters is used. It has been found that although a sufficiently high reflection luminance can be exhibited, the reflection luminance with respect to light irradiated from a long distance of several hundred meters is not sufficiently satisfactory.

JP 2005-273266 A JP 2006-243618 A

  Here, the present invention has been made in the background of the circumstances as described above, and the problem to be solved is that both the light from a short distance and the light from a long distance have high reflection luminance. It is therefore possible to provide a roadway with a retroreflective function that can exhibit excellent visibility at both short distances and long distances.

  As a result of carrying out various studies to solve such problems, the present inventors have made a columnar or plate-like transparent body, the front surface is the entrance / exit surface, the rear surface is the first reflecting surface, and the side surface One is a second reflecting surface, the input / output surface has a toroidal shape protruding forward in side view, the first reflecting surface has a toroidal shape protruding backward in side view, A retroreflective element having a right angle formed by a plane including all sides of the first reflecting surface and the second reflecting surface emits retroreflected light having a high reflection luminance with respect to light from a distance. I found. This is considered to be because the diffusion of the incident light and the reflected light is sufficiently suppressed because the entrance / exit surface and the first reflecting surface have a toroidal shape. As a result of further earnest research based on such knowledge, the present invention has been completed.

  It should be noted that the present invention can be suitably implemented in various aspects as listed below in order to solve the problems described above or the problems grasped from the description and drawings of the entire specification. Moreover, each aspect described below can be employed in any combination. The aspects or technical features of the present invention are not limited to those described below, and can be recognized based on the description of the entire specification and the inventive concept disclosed in the drawings. Should be understood.

<1> A road fence having a retroreflective function, which is installed on a road or around the road, (a) a fence body installed on the road or around the road, and (b) a columnar or plate-like transparent body. The front surface is an input / output surface, the rear surface is a first reflective surface, and one of the side surfaces is a second reflective surface, and the input / output surface has a toroidal shape protruding forward in a side view, The first reflecting surface has a toroidal shape protruding rearward in a side view, and the angle formed between the plane including all sides of the first reflecting surface and the second reflecting surface is a right angle. A retroreflective element;
(C) a second retroreflective element comprising a corner cube array having a number of regularly arranged corner cubes, wherein the first retroreflective element and the second retroreflective element are Attached to the heel body, the respective entrance / exit surfaces of the first and second retroreflective elements are arranged in the heel body portion where the light irradiated from a single direction is simultaneously incident. A road fence characterized by

<2> A plurality of toroidal surface portions having a toroidal shape in which the entrance / exit surfaces of the first retroreflective element protrude forward in a side view, in a direction perpendicular to the plane including the incident optical axis, A direction perpendicular to the plane including the incident optical axis, wherein the first reflecting surface has a toroidal shape that protrudes backward in a side view, and is formed in a shape that is continuously located side by side. The road fence according to the above aspect <1>, which is formed into a shape formed by arranging a plurality of them in succession.

<3> A plurality of the first retroreflective elements are adjacent to each other with their side surfaces facing each other and with the input / output surface and the second reflective surface facing each other in a certain direction. Are connected to each other through a coupling body to form a retroreflective element unit, and the plurality of first retroreflective elements constituting the retroreflective element unit and the second retroreflective element unit The retroreflective element unit and the second retroreflective element are arranged such that the respective entrance / exit surfaces of the retroreflective element are disposed on the heel body portion where light irradiated from a single direction is simultaneously incident. The road fence according to <1> or <2>, wherein the road fence is attached to the fence main body.

<4> The heel body is a block body or a plate-like body having a polygonal shape in plan view, and at least one piece located on both sides of a predetermined reference point on the outer peripheral surface of the heel body. Both the first retroreflective element and the second retroreflective element are disposed on the side surface portion of the first retroreflective element, and the first retroreflective element has the second reflective surface opposite to the reference portion. The road fence according to any one of the above aspects <1> to <3>, which is attached to the fence main body in a state of being positioned on the side.

<5> The first retroreflective element is in a state where the input / exit surface is positioned so as to extend in parallel to the central axis of the heel body, or from the central axis of the heel body toward the lower side. The second retroreflective element is attached to the bag body while being inclined so as to be gradually separated, while the second retroreflective element has an input / exit surface that is more than that of the first retroreflective element. Any one of the above aspects <1> to <4> attached to the heel body in a state where the heel body is gradually inclined and gradually inclined away from the central axis of the heel body as it goes downward The road fence described in one.

<6> The above aspects <1> to <5>, wherein an angle formed by a plane including all sides of the input / exit surface of the first retroreflective element and the second reflective surface is an acute angle. Road fence as described in any one of them.

<7> The above aspect <1>, wherein an angle formed between a side surface of the first retroreflective element facing the second reflecting surface and a plane including all sides of the input / output surface is an acute angle. Thru | or the road fence as described in any one of <6>.

<8> A metal thin film is fixed to the outer surfaces of the first reflecting surface and the second reflecting surface of the first retroreflective element so as to cover the entire outer surfaces of the first and second reflecting surfaces. The road fence according to any one of the above aspects <1> to <7>.

<9> (a) It is made of a columnar or plate-like transparent body, the front surface is the input / output surface, the rear surface is the first reflective surface, and one of the side surfaces is the second reflective surface, and the input / output surface is the side surface The first reflecting surface has a toroidal shape protruding rearward in a side view, and further includes a plane including all sides of the first reflecting surface and the second reflecting surface. A first retroreflective element whose angle with the reflecting surface is a right angle, and (b) a second retroreflective element composed of a corner cube array having a number of regularly arranged corner cubes, The first retroreflective element is located at a position where light irradiated from a single direction is simultaneously incident on the input / exit surfaces of the first retroreflective element and the second retroreflective element. And the second retroreflective element are disposed in the retroreflector

  That is, the road fence according to the present invention has two types of retroreflective elements having different structures, and one of them emits retroreflected light having high reflection luminance with respect to light from a distance. It consists of a first reflective element with a special structure that can be made, the other of which consists of a corner cube array known to emit retroreflected light with high reflection brightness for light incident from a short distance The second retroreflective element is used.

  Therefore, for example, on such a roadside, for example, light irradiated from a long distance of several hundred meters is retroreflected with high reflection brightness by the first retroreflective element, and also irradiated from a short distance of several tens of meters. The first light and the second retroreflective element cooperate with each other so that the reflected light can be retroreflected with higher reflection luminance.

  Therefore, in such a road fence according to the present invention, excellent visibility at both short distance and long distance can be exhibited extremely advantageously. As a result, it is possible to dramatically improve the safety of vehicles and pedestrians traveling on the road where the road fence is installed.

  Hereinafter, in order to clarify the present invention more specifically, embodiments of the present invention will be described in detail with reference to the drawings.

  First, FIG. 1 thru | or FIG. 3 each shows one Embodiment of the road fence which has a structure according to this invention in the plane form, the side form, and the cross-sectional form, respectively. As is clear from these drawings, the road fence of the present embodiment has a fence main body 10, and the retroreflective unit 13 including a plurality of first retroreflective elements 12 and A plurality of the retroreflective elements 14 are respectively attached. In addition, the up-down direction and the left-right direction described below indicate directions corresponding to the up-down direction and the left-right direction in FIG.

  More specifically, as shown in FIGS. 4 and 5, the heel body 10 as a whole has an octagonal shape with a low height in plan view, and is made of a resin lower member 16 and an upper side. It consists of a member 18.

  As is apparent from FIGS. 6 to 8, the lower member 16 as a whole is formed of a substantially octagonal flat plate. On the upper surface of the lower member 16, two cylindrical ribs 19, 19 having different diameters are coaxially positioned at the central portion thereof, and are integrally erected. A plurality of reinforcing ribs 20 are integrally provided so as to extend vertically and horizontally. In addition, in two of the eight edge portions of the lower member 16 that face each other, the vertical wall portions 22 that extend in the vertical direction have a width that is shorter by a predetermined dimension than the length of each edge portion. With each, it is erected integrally.

  The two edge portions on which such ridge wall portions 22 are erected are provided with narrow fitting grooves 24 on both sides in the length direction with the ridge wall portion 22 interposed therebetween. One each is provided so as to extend along the edge. A narrow fitting groove 24 is also formed in each of the remaining six edge portions so as to extend continuously along the respective edge portions substantially along the entire length thereof. Also, a total of four edge portions, that is, eight sides of the lower member 16, each of which is located on both sides of each of the two edge portions provided with the flange wall portion 22, are sandwiched between them. One shallow positioning recess 25 having a rectangular shape is provided in each inner portion of each of the edge portions located at every other edge portion. The positioning recess 25 is an inclined surface whose bottom surface is inclined upward toward each edge of the lower member 16. Thereby, the depth of the positioning recess 25 is gradually reduced toward each edge of the lower member 16.

  On the other hand, as is clear from FIGS. 4, 9, and 10, the upper member 18 has an octagonal top plate portion 26 that is slightly smaller than the main body 10. The top plate portion 26 is integrally formed with one trapezoidal inclined side wall portion 28 for each of the eight edge portions. The eight inclined side wall portions 28 a, 28 b, 28 c, 28 d, 28 e, 28 f, 28 g, and 28 h are inclined downward from the respective edge portions of the top plate portion 26 in a direction away from the top plate portion 26. It extends to. In addition, four inclined side wall portions 28a, 28c, 28e, and 28g located every other one of the eight inclined side wall portions 28a to 28h have respective lower ends (tips in the extending direction). On the other hand, the extended side wall part 30 extended so that it may incline downward toward the direction spaced apart from each inclination side wall part 28 is integrally formed, respectively. On the other hand, the lower four end surfaces of the remaining four inclined side wall portions 28b, 28d, 28f, and 28h that are not provided with the extended side wall portion 30 are provided on the lower member 16 although not shown. A narrow fitting groove similar to the fitting groove 24 is formed.

  As shown in FIGS. 3 and 4, among the four extended side wall portions 30a, 30b, 30c, 30d, the extended side wall portions 30a, 30c provided on the inclined side wall portions 28a, 28e, respectively, In the opposing direction of the inclined side wall portions 28a and 28e, the extended side wall portions 30b and 30d provided on the inclined side wall portions 28c and 28g are opposed to each other, that is, the inclined side wall portions 28c and 28g are opposed to each other. In the direction perpendicular to the opposing direction of the extended side wall portions 30a and 30c provided on the portions 28a and 28e, respectively, they are arranged to face each other.

  Moreover, in these four extended side wall parts 30a-30d, the engagement protrusion 32 is the width direction (top plate part) of each extended side wall part 30 in each lower end surface so that it may become clear from FIG.9 and FIG.10. 26 with a narrow ridge shape extending in the circumferential direction of 26. Further, of the four extended side wall portions 30a to 30d, the extended side wall portions 30a and 30c integrally formed at the lower ends of the two inclined side wall portions 28a and 28e facing each other are provided in the width direction thereof. A trapezoidal cutout 34 is provided at the center.

  As shown in FIGS. 3, 4, 9, and 10, the outer surfaces of the two extended side wall portions 30 b and 30 d that are integrally formed at the lower ends of the two inclined side wall portions 28 c and 28 g, Each is a first mounting surface portion 36. Of the eight inclined side wall portions 28a to 28h, the six inclined side wall portions 28b and 28c excluding the two inclined side wall portions 28a and 28e integrally formed with the extended side wall portions 30a and 30c having the notch portions 34. , 28d, 28f, 28g, and 28h are second mounting surface portions 38, respectively. Further, each of the first mounting surface portions 36 is provided with a shallow first mounting recess 40, and each of the second mounting surface portions 38 is provided with a shallow second mounting recess 42.

In addition, each 1st attachment surface part 36 and each 2nd attachment surface part 38 respond | correspond to each of the extended side wall parts 30b and 30d and the inclination side wall parts 28b, 28c, 28d, 28f, 28g, and 28h, and it is an upper side as it goes below. The central axis of the member 18 (the main body 10) has an inclined surface extending so as to be gradually separated from P. Here, the gradient of the first mounting surface portion 36 (the angle indicated by θ _{1 in} FIG. 11) is slightly smaller than the right angle, and the gradient of the second mounting surface portion 38 (see FIG. The angle indicated by θ _{2 in FIG} . 11 is sufficiently smaller than the gradient of the first mounting surface portion 36 and is gentle.

  And as FIG. 5 shows, the engagement protrusion 32 provided in the lower end surface of the four extended side wall parts 30a-30d of the upper member 18 is provided in the four edge parts of the lower member 16. As shown in FIG. The upper member 18 is overlapped and assembled with the lower member 16 in a state of being fitted in the fitting groove 24, and the upper member 18 and the lower member 16 are assembled in such an assembled state. Are bonded with an adhesive or the like. Therefore, the bag main body 10 is configured as an integrally assembled product including the upper member 18 and the lower member 16.

  Thus, in the bag main body 10, as shown in FIGS. 3 to 5, the eight inclined side wall portions 28a to 28h and every other one of the eight inclined side wall portions 28a to 28h are positioned. It has four extended side wall portions 30a to 30d that extend integrally from the lower end. And the opening part 44 opened toward a side is formed between the adjacent ones in the circumferential direction among such four extended side wall parts 30a-30, respectively. Note that the notches 34 provided in the two extended side wall portions 30 a and 30 c are respectively closed by the two flange wall portions 22 and 22 formed integrally with the lower member 16.

  In other words, here, the disposition positions of the two inclined side wall portions 28c and 28g integrally formed with the extended side wall portions 30b and 30d having the first mounting surface portion 36 are respectively the first and second reference locations. Has been. In addition, one opening 44 is provided on each side of the circumferential direction (left and right direction) of the bag main body 10 with the inclined side wall portion 28c disposed at the first reference location in between, and Inclined side wall portions 28 b and 28 d that do not have the extended side wall portion 30 are disposed so as to be positioned above the opening 44. In addition, one opening 44 is provided on each of both sides in the circumferential direction of the bag main body 10 with the inclined side wall portion 28g disposed at the second reference position in between, and each opening 44 is provided. Inclined side wall portions 28f and 28h that do not have the extended side wall portion 30 are disposed so as to be positioned above the upper side. Note that, as described above, in the present embodiment, one piece is provided on each of the inner side portions of the edge portions located every other edge portion of the eight edge portions of the lower member 16 of the bag body 10. The positioning recess 25 is disposed at a position corresponding to each formation site of the four openings 44.

  And in the road fence of this embodiment which has such a fence main body 10, as shown in FIG. 1 thru | or FIG. 3, four retroreflection units 13 are in the four opening parts 44 of the fence main body 10. As shown in FIG. Are fitted and attached respectively. Further, the six second retroreflective elements 14 are fitted into the respective second mounting recesses 42 provided on the six inclined side wall portions 28b, 28c, 28d, 28f, 28g, 28h. In this state, they are respectively attached in a state of being superimposed on the second attachment surface portion 38. Then, such a road fence is inserted into a through hole (not shown) penetrating the center of each of the upper member 18 and the lower member 16 of the fence main body 10 so that the road fence is positioned on the road surface or around the road. It is designed to be fixed to a curb or the like.

  By the way, as shown in FIG. 11, the second retroreflective element 14 is configured by a conventionally known corner cube array. That is, the second retroreflective element 14 includes a first reflecting surface 50a and a first reflecting surface 50a orthogonal to each other on the other plate surface of the transparent resin flat plate in which one plate surface is a flat input / output surface 48a. A large number of corner cubes 46 having a substantially quadrangular prism shape having two reflecting surfaces 52a are regularly arranged vertically and horizontally and integrally formed. In this case, the second retroreflective element 14 is exposed to the outside by positioning the input / output surface 48a so as to extend inclined with the same gradient as the second mounting surface portion 38. Thus, it is bonded and fixed to the six inclined side wall portions 28b, 28c, 28d, 28f, 28g, and 28h.

  As is clear from FIGS. 1 to 3 and FIG. 11, in the present embodiment, the first and second reference points to be put out of the six inclined side wall portions 28b, 28c, 28d, 28f, 28g, and 28h. And the second retroreflective elements 14 and 14 fixed to the inclined side wall portions 28c and 28g, respectively, in which the extended side wall portions 30b and 30d are integrally formed at the lower ends of the inclined side wall portions 28c and 28g, respectively. In addition to the upper portion 14a made of a corner cube array fixed to the second mounting surface portion 38, the lower portion 14b is formed integrally with the lower end of the upper portion 14a. The lower portion 14b has a flat plate portion extending integrally from the lower end of the upper portion 14a, and one surface of the flat plate portion is continuous with the entrance / exit surface 48b of the upper portion 14a. In addition, a plurality of triangular pyramid-shaped prism bodies each having a first reflecting surface 50b and a second reflecting surface 52b that intersect with each other are arranged in a row in the circumferential direction of the main body 10 on the other surface. Arranged and configured. Such a lower portion 14b is fitted in the first mounting recess 40 of each first mounting surface portion 36 in the extended side wall portions 30b and 30d and attached to the first mounting surface portion 36, respectively. ing.

  In the road fence of this embodiment, the retroreflective unit 13 fitted and fitted in each of the four openings 44 of the fence main body 10 has a special structure that cannot be seen in the past. is doing.

  That is, as shown in FIG. 12, the retroreflective unit 13 includes a plurality of (here, four) first retroreflective elements 12. The first retroreflective element 12 constituting the retroreflective unit 13 has a quadrangular prism shape as a whole and is formed using a transparent resin material. A plurality of the first retroreflective elements 12 are adjacent to each other on one surface in the thickness direction of the long rectangular flat plate-like connecting body 54 made of the same material as each first retroreflective element 12. Are integrally formed in a state of being arranged side by side. Accordingly, the plurality of first retroreflective elements 12 are connected to each other by the connecting body 54 to form the retroreflective unit 13. Further, an outer flange portion 55 that protrudes a predetermined height and continuously extends in the circumferential direction is integrally provided on the outer peripheral surface of the connection body 54. In addition, as a transparent resin material used as a forming material of the first retroreflective element 12 and the coupling body 54, a resin material or the like conventionally used as a forming material of a lens body, such as a methacrylic resin, a polycarbonate resin, or a polystyrene resin. Can be exemplified. The first retroreflective element 12 and the coupling body 54 are desirably colorless and transparent, but may be colored as long as they have at least light transmittance.

  As is apparent from FIGS. 12 to 14, each first retroreflective element 12 is inserted on the front surface of the connection body 54 on the opposite side of the first retroreflective element 12 formation side. A light exit surface 56 is formed. Further, a rear surface extending in parallel to face the input / output surface 56 is a first reflecting surface 58 and includes an incident optical axis for the first retroreflective element 12 among the four side surfaces. One side surface of the two side surfaces intersecting the plane is the second reflecting surface 60.

  The first reflecting surface 58 and the second reflecting surface 60 of the first retroreflective element 12 are both mirror-finished on the outer surfaces. A metal thin film 62 is fixed to the outer surfaces of the first and second reflecting surfaces 58 and 60 and the side surface 61 facing the second reflecting surface 60 so as to cover the entire surface. The mirror finish of the first and second reflecting surfaces 58 and 60 is, for example, when the first retroreflective element 12 and the retroreflective unit 13 are molded using a predetermined molding die. It can be easily implemented by mirror-finishing the surface. The metal thin films 62 on the outer surfaces of the first and second reflecting surfaces 58 and 60 and the side surface 61 are easily formed by performing vapor deposition using a metal material such as aluminum, for example.

  In this embodiment, as is apparent from FIGS. 13 and 14, the toroidal in which the entrance / exit surface 56 of the first retroreflective element 12 projects forward (downward in FIGS. 13 and 14) in a side view. A plurality of (in this case, three) toroidal surface portions 56a having a shape are formed in such a manner that a plurality of toroidal surface portions 56a are successively arranged side by side in a direction perpendicular to the plane including the incident optical axis (left and right direction in FIG. 13). ing. In addition, the first reflecting surface 58 of the first retroreflective element 12 has a plurality of (here, three) toroidal surface portions 58a that exhibit a toroidal shape protruding rearward (upward in FIGS. 13 and 14) in a side view, A plurality of shapes are arranged in a row in a direction perpendicular to the plane including the incident optical axis (the left-right direction in FIG. 13).

  In other words, as shown in FIG. 13, the entrance / exit surface 56 when the first retroreflective element 12 is cut in a direction orthogonal to the facing direction of the second reflecting surface 60 and the side surface 61 facing the second reflecting surface 60. Each cross-sectional shape of the first reflective surface 58 includes a plurality (three in this case) of arcs that protrude outward (forward or backward) in a direction perpendicular to the opposing direction of the second reflective surface 60 and the side surface 61. ), And is formed in a shape that is continuously arranged. Further, as shown in FIG. 14, respective cross sections of the input / output surface 56 and the first reflective surface 58 when the first retroreflective element 12 is cut in the opposing direction of the second reflective surface 60 and the side surface 61. The shape is an arc shape that is convex outward (forward and backward). In FIGS. 12 to 14, the respective arc-shaped cross sections (toroidal surface portions 56 a and 58 a) of the input / output surface 56 and the first reflecting surface 58 are shown with a sufficiently smaller radius of curvature than actual. It should be understood.

  As described above, in the first retroreflective element 12, the input / output surface 56 and the first reflective surface 58 have a plurality of toroidal surface portions 56 a, 58 a, respectively. Diffusion of the incident light and the reflected light on the first reflecting surface 58 can be effectively suppressed.

  As shown in FIG. 14, in the first retroreflective element 12, the angle between the virtual plane: α and the second reflective surface 60 that includes all four sides of the first reflective surface 58 is a right angle. On the other hand, an imaginary plane including all four sides of the entrance / exit surface 56: an angle formed by β and the second reflecting surface 60: a is an acute angle slightly smaller than 90 °. Further, the angle between the side surface 61 facing the second reflecting surface 60 and the virtual plane: α is an obtuse angle, while the angle between the side surface 61 and the virtual plane: β is an acute angle. Has been. Of these four angles: A to D, the specific angle of each of the three angles except for A is not particularly limited. For example, the first retroreflective element 12 is determined appropriately in consideration of the incident angle of light to the 12 entrance / exit surfaces 56 and the releasability when the first retroreflective element 12 and the retroreflective unit 13 are molded. .

  Then, as shown in FIG. 15, a plurality (four in this case) of the first retroreflective elements 12 are arranged in a row adjacent to each other with their respective entrance / exit surfaces 56 directed in the same direction, In addition, in the state where the two adjacent to each other are arranged so that the second reflective surface 60 of one of them and the side surface 61 of the other of them are opposed to each other, Connected. Thus, a retroreflective unit 13 is formed.

  Here, as shown in FIG. 3 and FIG. 15, the retroreflective unit 13 having the above-described structure is inserted into the four openings 44 of the bag main body 10 and the first retroreflective elements 12 are inserted / extracted. One exit surface 56 is accommodated and arranged with the exit surface 56 facing the side of the bag main body 10. Moreover, the fitting groove | channel provided so that it might be located in the opening peripheral part of each opening part 44 with respect to the upper side member 18 and the lower side member 16 which were mutually adhere | attached of the collar main body 10 under such an accommodation state 24, the outer flange portion 55 of the connecting body 54 is fitted therein. Furthermore, each first retroreflective element 12 is adjacent to the second reflecting surface 60 and the side surface 61 facing each other in the positioning recess 25 provided in the lower member 16 so as to correspond to each opening 44. One of the side surfaces that are separate from each other is accommodated so as to overlap the bottom surface of each positioning recess 25.

  Thus, as shown in FIG. 1 to FIG. 3 and FIG. 15, two of the four retroreflective units 13, 13, 13, and 13 are disposed at the first reference point to be placed. The lower portion 14b of the second retroreflective element 14 attached to the extended side wall portion 30b of the inclined side wall portion 28c below the two inclined side wall portions 28b and 28d positioned with the inclined side wall portion 28c interposed therebetween. They are fixed so that they are located on both the left and right sides. As a result, the second retroreflective elements 14 and 14 attached to the two inclined side wall portions 28b and 28d and the first retroreflective elements 12 of the two retroreflective units 13 and 13 respectively move up and down. Therefore, the respective entrance / exit surfaces 48 and 56 of the second retroreflective element 14 and the first retroreflective element 12 arranged above and below are irradiated from a single direction. Are arranged so that the light beams can be incident simultaneously.

  And in such a state, the entrance / exit surface 56 (connecting body 54) of the 1st retroreflection element 12 which each of the two retroreflection units 13 and 13 has has both right and left of a 1st reference | standard location. It is positioned so as to extend in a reverse “C” shape along the two edge portions of the adjacent main body 10 (upper member 18 and lower member 16), and positioning. Inclined at an angle corresponding to the inclination angle of the bottom surface of the recess 25 and exposed to the outside obliquely upward. In addition, the second reflecting surfaces 60 of all the first retroreflective elements 12 included in each of the two retroreflective units 13 and 13 are extended side walls of the inclined side wall portion 28c disposed at the first reference location. It is arrange | positioned on the opposite side to the part 30b side.

  Similarly, the remaining two retroreflective units 13, 13 are provided with two inclined side wall portions 28f, with the inclined side wall portion 28g disposed at the second reference position to be interposed therebetween. Below 28h, they are respectively fixed so as to be located on both the left and right sides of the lower part 14b of the second retroreflective element 14 attached to the extended side wall part 30d of the inclined side wall part 28g. Accordingly, the second retroreflective elements 14 and 14 attached to the two inclined side wall portions 28f and 28h, respectively, and the first retroreflective elements 12 of the two retroreflective units 13 and 13 are vertically moved. Therefore, the respective entrance / exit surfaces 48 and 56 of the second retroreflective element 14 and the first retroreflective element 12 arranged above and below are irradiated from a single direction. Are arranged so that the light beams can be incident simultaneously.

  And in such a state, the entrance / exit surface 56 (connecting body 54) of the 1st retroreflection element 12 which each of the two retroreflection units 13 and 13 has has both right and left of a 2nd reference | standard location. It is positioned so as to extend in a reverse “C” shape along the two edge portions of the adjacent main body 10 (upper member 18 and lower member 16), and positioning. Inclined at an angle corresponding to the inclination angle of the bottom surface of the recess 25 and exposed to the outside obliquely upward. In addition, the second reflecting surfaces 60 of all the first retroreflective elements 12 included in each of the two retroreflective units 13 and 13 are extended side walls of the inclined side wall portion 28g disposed at the second reference location. It is arrange | positioned on the opposite side to the part 30d side.

  Here, the gradient of the entrance / exit surface 56 of each first retroreflective element 12 is below the second retroreflective element 14 attached to the extended side wall parts 30b, 30d of the inclined side wall parts 28c, 28g. The gradient of the entrance / exit surface 48a of the upper part 14a of the second retroreflective element 14 attached to the inclined side wall portions 28c, 28g is substantially the same as the gradient of the entrance / exit surface 48b of the portion 14b, and the inclined side wall portion. It is steeper than the gradient of the entrance / exit surface 48 of the second retroreflective element 14 attached to 28b, 28d, 28f, 28h.

  And in the road fence of this embodiment made into such a structure, it attaches to the ground surface on a road, a curbstone, or a position close to it, and will be used. Therefore, for example, light from a headlight or the like of a vehicle traveling on a road near the road fence is irradiated obliquely from above the road fence. Therefore, the light emitted to the road fence from a short distance mainly includes the entrance / exit surface 48 of the second retroreflective element 14 attached to each of the four inclined side wall portions 28b, 28d, 28f, 28h, The light enters from either of the entrance / exit surfaces 48a of the upper portion 14a of the second retroreflective element 14 attached to the inclined side wall portions 28c and 28g, respectively. Then, as indicated by an arrow in FIG. 11, the incident light is reflected on the first reflecting surface 50 a and the second reflecting surface 52 a of the second retroreflective element 14 on which the light is incident. From the exit surface 48a (48) toward the light source, the light is retroreflected in a direction substantially parallel to the incident direction. As described above, the second retroreflective element 14 is configured by a corner cube array. Therefore, in the road fence of this embodiment, sufficiently high reflection luminance is exhibited with respect to the light irradiated on the second retroreflective element 14 from a relatively short distance of about several tens of meters. It is like that.

  In addition, the light from a headlight or the like of a vehicle traveling on a relatively far road that is several hundred meters away from the road fence, even if the irradiation direction is the same direction as the light from a short distance as described above, Is irradiated in a substantially horizontal direction. At this time, such light is mainly from any of the four retroreflective units 13, 13, 13, and 13 located below the four inclined side wall portions 28b, 28d, 28f, and 28h. The light is incident from the entrance / exit surface 56 of each first retroreflective element 12 in FIG. Then, as indicated by arrows in FIG. 15, the incident light is reflected on the second reflecting surface 60 and the first reflecting surface 58 of the first retroreflective element 12 on which the light is incident, and then enters and exits. The light is retroreflected from the exit surface 56 toward the light source in a direction substantially parallel to the incident direction.

  Here, as described above, since the diffusion of light on the input / output surface 56 and the first reflective surface 58 of the first retroreflective element 12 is sufficiently suppressed, the first Each of the retroreflective elements 12 can exhibit sufficiently high reflection luminance with respect to light irradiated from a relatively long distance of about several hundred meters. In addition, since a plurality of such first retroreflective elements 12 are connected to each other to form the retroreflective unit 13, the reflection luminance with respect to light from a distant place is further advantageously increased. The first and second reflecting surfaces 58 and 60 of each first retroreflective element 12 are mirror-finished and cover the entire outer surface of the first and second reflecting surfaces 58 and 60. A metal thin film 62 is deposited on the substrate. As a result, the transmission loss of the light incident on each first retroreflective element 12 can be effectively eliminated or advantageously reduced, so that the reflection luminance of each first retroreflective element 12 is reduced. , More advantageously enhanced. In addition, even when light irradiated from a short distance is incident on each first retroreflective element 12 (each retroreflective unit 13) from an obliquely upward direction, such light is not transmitted from a long distance. Similar to the irradiated light, each first retroreflective element 12 is reliably retroreflected.

  Further, the light irradiated from the substantially horizontal direction enters the lower portion 14b of the second retroreflective element 14 attached to each of the two extended side wall portions 30b and 30d as indicated by arrows in FIG. -It also enters from the output surface 48b. The incident light is reflected by the first reflecting surface 50b and the second reflecting surface 52b, and then retroreflected from the input / output surface 48b toward the light source in a direction substantially parallel to the incident direction. It has become. This also makes it possible to obtain higher reflection luminance with respect to light irradiated from a distance in a substantially horizontal direction.

  Thus, in the road fence of this embodiment, the light irradiated from a long distance is retroreflected with high reflection luminance mainly by the first retroreflective element 12 of each retroreflective unit 12. In addition, light irradiated from a short distance can be retroreflected with higher reflection brightness by both the first retroreflective element 12 and the second retroreflective element 14.

  Therefore, in the road fence of this embodiment as described above, excellent visibility can be exhibited very advantageously both at a short distance and a long distance. As a result, it is possible to dramatically improve the safety of vehicles and pedestrians traveling on roads and the like where such road fences are installed.

  Further, in the roadway of the present embodiment, the input / output surface 56 and the first reflection surface 58 of the first retroreflective element 12 have a plurality of toroidal surface portions 56a and 58a, respectively. ing. As a result, the first retroreflective element 12 has a structure in which a plurality of toroidal lenses are laminated, so that the incident light to the first retroreflective element 12 has a higher reflection luminance. Can be retroreflected.

  Furthermore, in such a road fence, the fence main body 10 has a low block shape with an octagonal shape in plan view, and two edges of the eight edge parts of the fence main body 10 facing each other. The first and second reference positions are the first and second reference positions, respectively, and the first recursion is performed between the left and right sides sandwiching the first reference position and the left and right sides sandwiching the second reference position. A plurality of retroreflective units 13 including the reflective elements 12 are disposed in a state where the input / output surfaces 56 are extended in an inverted “C” shape. In addition, the retroreflective unit 13 disposed on both sides of the first reference position positions the second reflecting surface 60 on the opposite side of the first reference position side, and also on both sides of the second reference position. The retroreflective unit 13 disposed on the second side has the second reflection surface 60 located on the side opposite to the second reference position side. Therefore, it becomes possible to retroreflect the irradiation light from a wider range with sufficiently high reflection luminance.

  Further, in the roadway of the present embodiment, a virtual plane including all four sides of the input / output surface 56 of the first retroreflective element 12: β and the second of the first retroreflective element 12. While the angle between the reflecting surface 60 and the side surface 61 facing the second reflecting surface 60 and the imaginary plane β is an acute angle, the second reflecting surface 60 and The angle formed between each of the remaining two side surfaces excluding the side surface 61 and the virtual plane: β is a right angle. Accordingly, the first retroreflective element 12 is tapered from the input / output surface 60 toward the first reflective surface 58 side. Therefore, when the first retroreflective element 12 and the retroreflective unit 13 including the first retroreflective element 12 are manufactured by molding using a resin material, the first retroreflective element 12 and the retroreflective unit 13 of interest are manufactured. The releasability is effectively enhanced, and thus the advantage that the first retroreflective element 12 and the retroreflective unit 13 can be easily manufactured is obtained.

  As mentioned above, although embodiment of this invention was explained in full detail, it is an illustration to the last, Comprising: This invention is not interpreted limitedly by the specific description in such embodiment.

  For example, the shape of the heel body 10 is not limited to the illustrated one, and various shapes can be appropriately employed.

  Further, the attachment positions of the first retroreflective element 12 and the second retroreflective element 14 with respect to the bag main body 10 are not particularly limited to those illustrated, and the first retroreflective element 12 is not limited thereto. In addition, each of the entrance / exit surfaces 56 and 48 of the second retroreflective element 14 may be a position where light irradiated from a single direction is simultaneously incident. Therefore, the one retroreflective element 12 and the second retroreflective element 14 are connected to the same side face among the several side faces whose entrance and exit faces 56 and 48 are, for example, inclined surfaces of the bag body 10. On the other hand, it may be attached so as to be lined up and down or left and right, or it may be attached so as to be lined up and down or left and right with respect to the same side of several side surfaces consisting of vertical surfaces I can do it.

  Furthermore, in the said embodiment, although the entrance / exit surface 56 and the 1st reflective surface 58 of the 1st retroreflection element 12 were made into the shape which has several toroidal surface parts 56a and 58a, respectively, those entrance / exit Each of the surface 56 and the first reflecting surface 58 may be constituted by one toroidal surface.

  Furthermore, in the above embodiment, the first retroreflective element 12 is attached to the bag main body 10 in a form configured as a retroreflective unit 13 formed by connecting a plurality of elements together. The retroreflective element 12 may be attached to the bag main body 10 alone.

  In addition, the present invention has a first retroreflective element and a second retroreflective element, and light irradiated from a single direction is reflected by the first retroreflective element and the second retroreflective element. Retroreflectors in which a first retroreflective element and a second retroreflective element are arranged at positions simultaneously incident on the respective entrance / exit surfaces, for example, road guide signs other than road fences ( Reflective signs for chatter bars and guardrails), visual tapes and reflective signs affixed to vehicles such as automobiles, motorcycles and bicycles, road signs and construction signs, parking lots, stop position signs, airfield guidance signs, etc. It can be envisaged to be applied to safety materials such as various kinds, signboards, helmets and life preservers, and facilities.

  In addition, although not listed one by one, the present invention can be carried out in a mode with various changes, modifications, improvements, etc. based on the knowledge of those skilled in the art, and such a mode can be implemented in the present mode. It goes without saying that any one of them falls within the scope of the present invention without departing from the spirit of the invention.

It is front explanatory drawing which shows one Embodiment of the road fence which has a structure according to this invention. FIG. 2 is an upper surface explanatory view of the road fence shown in FIG. 1. It is III-III cross-sectional explanatory drawing of FIG. It is upper surface explanatory drawing of the fence main body which comprises the road fence shown by FIG. It is side surface explanatory drawing of the bag main body shown by FIG. FIG. 5 is an upper surface explanatory view of a lower member constituting the bag main body shown in FIG. 4. It is a VII-VII cross-section expansion explanatory drawing of FIG. It is VIII-VIII cross-section expansion explanatory drawing of FIG. It is side surface explanatory drawing of the upper member which comprises the bag main body shown by FIG. 4, Comprising: It is a figure corresponded in the IX arrow of FIG. It is another side surface explanatory drawing of the upper member which comprises the bag main body shown by FIG. 4, Comprising: It is a figure corresponded to X arrow of FIG. It is the elements on larger scale of the XI-XI cross section in FIG. It is front explanatory drawing which shows the retroreflection unit formed by mutually connecting the some of the 1st retroreflection elements which the road fence shown in FIG. 1 has. It is XIII-XIII cross-section expansion explanatory drawing of FIG. It is the XIV-XIV cross-section partial clear figure of FIG. FIG. 4 is a partially enlarged explanatory view of FIG. 3, showing a state in which the first retroreflective element is attached to the bag main body.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Road fence 12 1st retroreflective element 13 Retroreflective unit 14 2nd retroreflective element 28 Inclined side wall part 30 Extended side wall part 44 Opening part 46 Corner cube 48,56 Incoming / outgoing surface 50,58 First reflective surface 52 , 60 Second reflecting surface 62 Metal thin film

Claims (8)

A road fence with a retroreflective function that is installed on the road or around the road,
The main body of the fence installed around the road and the road,
It consists of a columnar or plate-like transparent body, the front surface is the entrance / exit surface, the rear surface is the first reflection surface, and one of the side surfaces is the second reflection surface, and the entrance / exit surface protrudes forward in side view The toroidal shape has a toroidal shape in which the first reflecting surface protrudes rearward in a side view, and an angle formed by a plane including all sides of the first reflecting surface and the second reflecting surface A first retroreflective element having a right angle;
A second retroreflective element comprising a corner cube array having a number of regularly arranged corner cubes;
And the first retroreflective element and the second retroreflective element are attached to the bag body, and the first and second retroreflective elements each have a single entrance / exit surface. A road fence characterized in that the road fence is disposed in the main body portion where light irradiated from one direction is simultaneously incident.   A plurality of toroidal surface portions having a toroidal shape in which the input / output surfaces of the first retroreflective element protrude forward in a side view are continuously arranged in a direction perpendicular to a plane including the incident optical axis. A plurality of toroidal surface portions exhibiting a toroidal shape protruding rearward in a side view are formed in a direction perpendicular to the plane including the incident optical axis. The road fence according to claim 1, wherein the road fence has a shape formed by being arranged side by side.   A plurality of the first retroreflective elements are arranged so that their side surfaces face each other, and the input / output surface and the second reflective surface face each other in a certain direction, and are adjacent to each other. In this state, the retroreflective element units are connected to each other via a connecting body, and the plurality of first retroreflective elements and the second retroreflective elements constituting the retroreflective element units are configured. The retroreflective element unit and the second retroreflective element are arranged so that the respective entrance / exit surfaces are arranged in the heel body portion where light irradiated from a single direction is simultaneously incident, The road fence of Claim 1 or Claim 2 attached to this fence main body.   The heel body is composed of a block body or a plate-like body having a polygonal shape in plan view, and at least one side surface portion located on both sides of a predetermined reference point on the outer peripheral surface of the heel body. In addition, both the first retroreflective element and the second retroreflective element are respectively disposed, and the first retroreflective element is positioned on the opposite side of the reference location from the second reflective surface. The road fence according to any one of claims 1 to 3, wherein the road fence is attached to the main body of the fence in a state of being allowed to stand.   The first retroreflective element is positioned so that the input / output surface extends parallel to the central axis of the heel body, or is gradually separated from the central axis of the heel body as it goes downward The second retroreflective element has a gentler slope than the incident / exit surface of the first retroreflective element, while the second retroreflective element is attached to the bag body in an inclined state. 5. The device according to claim 1, wherein the heel body is attached to the heel body in a state where the heel body is inclined so as to be gradually separated from the central axis of the heel body as it goes downward. Road fence.   The angle formed by a plane including all sides of the input / output surface of the first retroreflective element and the second reflective surface is an acute angle. Road fence described in 1.   The angle formed by the side surface of the first retroreflective element facing the second reflecting surface and a plane including all sides of the input / output surface is an acute angle. The road fence described in any one of them. A metal thin film is fixed to the outer surfaces of the first reflecting surface and the second reflecting surface of the first retroreflective element so as to cover the entire outer surfaces of the first and second reflecting surfaces. The road fence according to any one of claims 1 to 7.

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