CN216839111U - Luminous reflection of light resilience road sign - Google Patents

Abstract

A luminous reflective resilient road sign comprises a vertical face mark body (1), a base (2) and a retroreflective body (3), wherein the vertical face mark body (1) is sequentially provided with an implantation root (1 c), a resilient part (1 b) and a mark main body part (1 a) from bottom to top, the base (2) is a flat platform body which is provided with an implantation groove (2 c) with an opening at the top and has a small top and a big bottom, the structural hardness of the base (2) is more than or equal to that of the vertical face mark body (1), and the implantation root (1 c) of the vertical face mark body (1) is implanted into the implantation groove (2 c) of the base (2) to form a combination body; the combination body is provided with a groove or a hole, and a retro-reflector (3) and a long afterglow illuminant (4) are arranged in the groove or the hole: both had contrary reflective function, and contrary reflective body is difficult for droing and damaging, had long afterglow luminous function again, can set up the long afterglow luminescent sheet material that 1~4mm is thick, and luminous luminance is higher, and the bonding fastness of sign body and base is higher, and rebound effect is good, more resistant wheel rolls or foreign matter collides with, and life is longer.

Description

Luminous reflection of light resilience road sign

Technical Field

The utility model relates to a traffic safety equipment field, concretely relates to luminous reflection of light resilience road sign with road surface induction, indicative function.

Technical Field

The reflective rebounding road sign is a reflective mark with a rebounding function and is arranged on traffic facilities such as roads, bridges and tunnels. The existing reflective resilient road sign takes a lane marking and a warning post as representatives, has defects in structure, function and reflective performance, and influences the application range and service life of the reflective resilient road sign.

Firstly, the lane marker structure is unreasonable, the retroreflection body is easy to fall off, and the marking body above and the base below are easy to separate due to wheel impact or rolling. And many reflection of light resilience road sign only set up the retro-reflector on the sign body of upper side, and the retro-reflector drops, or just loses indication or induction completely after sign body and base separate, and actual life is low. In addition, the existing lane marking has a monotonous shape of the marking body, and is difficult to meet the continuously developed traffic security and protection requirements.

The existing warning post takes a hollow cylinder as a main part, the post body is easy to damage after being repeatedly rolled by wheels, and a circular ring-shaped reflecting material on the post body is also easy to fall off or damage in the process, so that the practical service life is short.

Secondly, current reflection of light resilience road sign function is single, only has contrary reflective function, need rely on contrary reflective material reflection to come and go vehicle car light and provide passive light-emitting, can not break away from the reliance to car light, can only play the induction effect to motor vehicles moreover, and is very little to pedestrian and non-motor driver's effect, consequently has very big limitation in the function.

There are also people who spray the long afterglow luminescent paint on the rebound road sign to realize the long afterglow luminescent function; however, due to the limitation of the process, the thickness of the long afterglow luminescent paint is too thin, the brightness level is too low, and the long afterglow luminescent layer is easy to fall off after the resilient body is rolled by wheels, which can not meet the practical requirements.

In conclusion, along with the development of traffic, roads are wider and wider, road conditions are more and more complex, the number of road sections where vehicles and people are mixed or travel in a mixed mode is more and more, and the original reflective resilient road signs cannot meet the requirements. How to design a luminous reflection of light resilience road sign that had both had contrary reflective function, had long afterglow luminous function again, and luminous effectual, combine the fastness higher, the rebound effect is better, more resistant wheel rolls, and the longer luminous reflection of light resilience road sign of life becomes urgent of affairs.

SUMMERY OF THE UTILITY MODEL

The shortcoming to current product is according to contrary reflective material and the respective material characteristic of long afterglow luminescent material to the overall structure of innovation reflection of light resilience road sign and the structure of long afterglow luminous body and the combination mode the to-be-solved technical problem the utility model provides a not only have contrary reflective function but also have long afterglow luminescent function, be particularly suitable for high brightness long afterglow material and combine the fastness high, the structure is more reasonable, the longer luminous reflection of light resilience road sign of life.

Compared with the prior reflective resilient road sign, the retroreflective body is easy to fall off, the elastic road sign of the utility model has the advantages that the mark body is provided with the groove and the retroreflective body is arranged in the groove, so that the elastic road sign is not easy to fall off and is resistant to wheel rolling or foreign matter collision; and the joint part structure of the base and the identification body is optimized to enhance the joint fastness of the base and the identification body, so that the base of the luminous reflective rebound road sign is not easy to separate from the identification body compared with the existing reflective rebound road sign, and the service life is prolonged.

The utility model discloses a set up the recess on the elasticity road sign and set up long afterglow luminous body in the recess to make it not only have passive contrary reflective function, but also increased long afterglow luminous function, and can fix the long afterglow luminescent sheet material that 1.5mm ~4mm is thick, combine the fastness height to be difficult for droing, resistant wheel rolls or the foreign matter collides with, and luminous luminance is high, can provide luminous instruction and induction to pedestrian on the road and non-motor driver.

The utility model discloses elasticity still can set up the shape of sign body and base as required to satisfy the requirement of different traffic road conditions to the multipurpose. Not only can be used as a lane marking, but also can solve the defects of the existing lane marking; the reflector can also be used as a raised road sign with a vertical face mark body or a road side edge delineator, and solves the problems that the light emitting area and the light reflecting area of the existing raised road sign are difficult to increase and the problem that the counter reflector on the delineator only has a side light reflecting effect due to the limitation of the main light reflecting angle.

The utility model discloses a concrete technical scheme is: a luminous reflective resilient road sign is shown in figure 1 and comprises a vertical surface mark body (1), a base (2) and a retroreflective body (3), wherein the vertical surface mark body (1) comprises an implantation root part (1 c) implanted in the base (2), at least a springback part (1 b) with a front-back direction bending springback function (bending springback after being rolled by wheels) and a mark main body part (1 a) which is provided with a front mark surface and a back mark surface and has a flat top part from bottom to top in sequence, the base (2) is a flat platform body which is provided with an implantation groove (2 c) with an opening at the top, the front side and the rear side of the implantation groove (2 c) are respectively provided with a second mounting fixing hole (2 f), the flat platform body is used for mounting and fixing, and the upper part is small and the lower part is large, the implantation root (1 c) of the vertical surface identification body (1) is implanted into the implantation groove (2 c) of the base (2) to form an assembly body with a fitting structure; the assembly is provided with a groove or a hole, and a counter reflector (3) is arranged in the groove or the hole; the structural hardness of the base (2) is greater than or equal to that of the vertical face identifier (1) (the softness of the material of the vertical face identifier (1) is greater than or equal to that of the material of the base (2)) (the resilience of the vertical face identifier is facilitated, and the fixation of the base is facilitated); the groove or the hole of the combination body is also internally provided with a long afterglow illuminant (4); or facade sign body (1) for having the long afterglow luminous formed body (i.e. long afterglow luminous body (4) of resilience function act as facade sign body (1)), the long afterglow luminous formed body on be equipped with recess or hole, recess or hole in be equipped with counter-reflector (3) (can be used to on road, garage parking, tunnel, guardrail or other traffic safety facility etc. when the car light goes out, have the effect of induction pedestrian concurrently, make things convenient for the people to flee, expanded the service function and the usage of current product).

Furthermore, a groove or a hole is arranged on the mark main body part (1 a), a counter reflector (3) is arranged in the groove or the hole of the mark main body part (1 a), grooves or holes are arranged on the front end surface and the rear end surface of the base (2), and long afterglow luminous bodies (4) are arranged in the grooves or the holes on the front end surface and the rear end surface of the base (2);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the counter reflector (3) and a long afterglow illuminant (4);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a long afterglow luminous body (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with a counter reflector (3);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a long afterglow luminous body (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with a counter reflector (3) and the long afterglow luminous body (4);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3) and a long afterglow illuminant (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the counter reflector (3);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3) and a long afterglow illuminant (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the long afterglow illuminant (4);

or mark main part (1 a) on be equipped with recess or hole, the recess or the hole of mark main part (1 a) in be equipped with counter-reflector (3) and long afterglow luminous body (4), base (2) around be equipped with recess or hole on the terminal surface, base (2) around the recess or the hole of terminal surface in be equipped with counter-reflector (3) and long afterglow luminous body (4).

Furthermore, the mark main body part (1 a) of the facade mark body (1) is of a flat solid plate-shaped structure which is symmetrical along the central axis of the two mark surfaces on the facade mark body; the springback part (1 b) of the facade identification body (1) is of an internal hollow structure (convenient for injection molding to save materials and has a better springback effect), the outer contour of the horizontal section of the springback part (1 b) is circular, oval, rectangular, trapezoidal or triangular, and the outer part of the springback part (1 b) is of a corrugated pipe structure or a folded structure; or rebound portion (1 b) look sideways at and be the chevron shape, rebound portion (1 b) below is equipped with two respectively and implants root (1 c), implantation groove (2 c) be the double flute structure, two implantation root (1 c) implant in the double flute structure respectively.

Preferably, the sign main part (1 a) of the facade sign body (1) is a flat solid plate-shaped structure which is circular, elliptical, rectangular or other polygons in the normal front view of the sign surface, the rebound part (1 b) of the facade sign body (1) is a hollow elliptic cylinder-shaped structure with an elliptical horizontal section and an external contour, and the rebound part (1 b) is connected with the sign main part (1 a) through a transition section.

Preferably, the horizontal cross-sectional area of the rebounding part (1 b) is gradually reduced from bottom to top and is connected and transited with the bottom of the mark main body part (1 a), or the horizontal cross-sectional area of the mark main body part (1 a) is gradually increased from top to bottom and is connected and transited with the top of the rebounding part (1 b), or the horizontal cross-sectional area of the rebounding part (1 b) is smaller than the horizontal cross-sectional area of the implant root part (1 c), or the ratio of the thickness W1 of the mark main body part (1 a) to the maximum distance W2 of the front and back surfaces of the rebounding part (1 b) along the normal direction of a mark surface (namely the main reflection angle of a first counter reflector (3-1) on the mark main body part (1 a) is 1: 1.5-1: 6, so as to facilitate rebound restoration.

Preferably, the counter reflector (3) on the facade mark body (1) is a microprism type reflecting film or a glass bead type reflecting film, and the counter reflector (3) on the base (2) is a reflective cat eye glass bead or a reflective glass bead array sheet or a microprism crystal lattice sheet.

Furthermore, the main reflecting angle of the counter reflector (3) on the base (2) and the main reflecting angle of the counter reflector (3) on the vertical surface identification body (1) form a cross angle theta of 7-45 degrees, so that the reflecting effect of a larger reflecting angle can be realized, and the reflecting effect on the vehicles in the lateral direction or the vehicles in a curve is better.

Preferably, the long afterglow luminous body (4) on the identification surface of the identification main body part (1 a) comprises a semi-flexible (bendable and resilient) long afterglow luminous layer (4-2), a semi-flexible transparent protective surface layer (4-1) (a PC sheet or a PET sheet) is arranged above the long afterglow luminous layer (4-2), a white reflecting bottom layer (4-3) is arranged at the bottom of the long afterglow luminous layer (4-2), and the long afterglow luminous body is combined in a groove or a hole of the identification main body part (1 a) through an adhesive layer (4-4) (a 3M adhesive layer). Can resist the rolling of wheels or the collision of foreign matters, and is not easy to deform and fall off.

Preferably, the mark surface of the mark main body part (1 a) is a plane or an arc surface, the counter reflector (3) on the mark surface is a semi-flexible reflective sheet correspondingly in a plane or an arc shape, and the long afterglow luminescent body (4) on the mark surface is a semi-flexible long afterglow luminescent sheet correspondingly in a plane or an arc shape and is combined in the groove or the hole of the mark main body part (1 a) through an adhesive layer.

Preferably, the counter reflector (3) or the long afterglow luminous body (4) is of a sheet structure and is fixed in a groove or a hole of the vertical surface identifier (1) through ultrasonic heat seal or an adhesive, or is fixed in a groove or a hole of the base (2) through ultrasonic heat seal or an adhesive; or the marking surface of the vertical surface marking body (1) is provided with a groove or a hole forming a pattern or a character shape, and a counter reflector (3) or/and a long afterglow luminous body (4) are fixed in the groove or the hole through ultrasonic heat seal or adhesive to form the marking surface with the pattern or the character.

Further, the long afterglow luminous body (4) is a mixed curing pre-formed object of the long afterglow luminous powder and the transparent medium, the long afterglow luminous body (4) and the groove or the hole of the vertical surface identification body (1) are combined into a formed body of a secondary injection molding structure through a secondary injection molding process (sometimes called as over-molding or implantation injection molding), or the long afterglow luminous body (4) is a mixed curing pre-formed object of the long afterglow luminous powder and the transparent medium with a pattern or character shape, and the long afterglow luminous body (4) and the groove or the hole of the vertical surface identification body (1) are combined into a formed body of the secondary injection molding structure, the identification surface of which is provided with the pattern or the character through the secondary injection molding process; or the long afterglow luminous body (4) is combined with the vertical surface mark body (1) into a molded body with a double injection molding structure through a double injection molding process (particularly, a double-color pattern or character can be formed on the mark surface). The bonding fastness of the two is higher, the wheel rolling or foreign matter collision resistance is better, and the falling is not easy.

Furthermore, a first fit structure (1 d) which is mutually matched with the corresponding part in the implantation groove (2 c) is arranged on the implantation root part (1 c), and the vertical face mark body (1) is fixed on the base (2) through the first fit structure (1 d).

Furthermore, the first fitting structure (1 d) horizontally extends along the bottom surface of the base (2) to form an expansion part (1 e), and a second fitting structure (2 d) which can be combined with the male and female parts of the expansion part (1 e) is arranged on the base (2).

Furthermore, be equipped with vertical through-going installation fixed orifices one (1 f) on extension portion (1 e), make when facade sign body (1) fix on base (2) through agreeing with structure one (1 d), in extension portion (1 e) of facade sign body (1) bottom combines to agree with structure two (2 d) of base (2) through public mother, and make installation fixed orifices one (1 f) and installation fixed orifices two (2 f) counterpoint from top to bottom and form coaxial vertical perforating hole [ make during the later stage installation, the set screw can be fixed the extension portion and the base (2) perforation of facade sign body (1) on installation face (ground) simultaneously ].

Preferably, the front end surface and the rear end surface of the base (2) are inclined surfaces, the elevation angle of the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees, the elevation angle of the reflecting surfaces of the counter reflectors (3) on the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees, and the elevation angle of the light emitting surfaces of the long afterglow luminous bodies (4) on the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees.

Preferably, the height H1 of the mark main body part (1 a) is between 100mm and 500mm, and the thickness W1 of the mark main body part (1 a) is between 5mm and 20 mm; or the height II H2 of the rebound part (1 b) is between 30mm and 150mm, and the maximum width II W2 of the rebound part (1 b) along the normal direction of the marking surface is between 15mm and 20 mm; or the height of the implant root (1 c) is three H3 (namely the height of the base (2)) between 20mm and 60 mm; or the ratio of the height I H1 of the mark main body part (1 a) to the height II H2 of the rebound part (1 b) is 1: 1-10: 1, or the ratio of the height II H2 of the springback part (1 b) to the height III H3 of the implantation root part (1 c) is 1: 2-5: 1, or the ratio of the height four H4 of the solid section of the vertical surface marking body (1) to the height five H5 of the hollow section is 1: 1-10: 1, or the ratio of the thickness I W1 of the mark main body part (1 a) to the maximum width II W2 of the rebound part (1 b) along the normal direction of the mark surface is 1: 1.2-1: 12, or the maximum width of the springback part (1 b) along the normal direction of the marking surface is two W2 less than the maximum width of the implantation root part (1 c) along the normal direction of the marking surface, or the maximum length of the springback part (1 b) along the direction vertical to the normal direction of the marking surface is smaller than the maximum length of the implant root part (1 c) along the direction vertical to the normal direction of the marking surface.

Preferably, the outer contour of the base (2) is generally rectangular or rhombic or trapezoidal or other symmetrical polygons in plan view; or the length of the bottom surface of the base (2) is 120mm-350mm, or the width of the bottom surface of the base (2) is 100mm-300 mm.

Furthermore, the facade mark body (1) is provided with anti-skid lines, or the bottom surface of the base (2) is provided with anti-skid projections, so that the anti-skid performance is improved.

Furthermore, the facade identification body (1) is combined with the base (2) through the implantation root (1 c) which is easy to disassemble, for example, after the implantation root (1 c) of the facade identification body (1) is embedded into the implantation groove (2 c) of the base (2), a pressing strip or a pressing frame is covered and fixed by screws, so that the facade identification body is convenient to replace and repair.

Facade marker (1):

the vertical surface mark body (1) is a mark body with a rebound structure, a flat top and two opposite mark surfaces, is generally formed by adopting an elastic material (such as PP or PE) through processes of injection molding or blow molding and the like, and can adopt a full solid or hollow lower part design.

Base (2):

the base (2) is a flat platform body which is used for installation and fixation and has a small upper part and a large lower part, and is generally formed by relatively hard (compared with a vertical surface marking body material) materials (such as ABS or PP and the like) through processes of injection molding and the like.

Counter reflector (3):

the counter reflector (3) is a microprism type reflecting film or a glass bead type reflecting film or a reflective cat-eye glass bead or a reflective glass bead array sheet or a microprism crystal lattice sheet and the like.

Long afterglow phosphor (4):

the long afterglow luminous body (4) is a mixed curing molding product or a mixed curing molding product of long afterglow luminous powder and a transparent medium, and preferably a semi-flexible long afterglow luminous sheet with a semitransparent flexible protective surface layer and a white reflecting bottom layer at the bottom.

The utility model has the main advantages that: this structure had both had the contrary reflective function, and contrary reflector is difficult for droing and damaging, had long afterglow luminous function again to can set up the long afterglow luminescent sheet material that 1~4mm is thick, and luminous luminance is higher, and the bonding fastness of sign body and base is higher, and the resilience is effectual, and more resistant wheel rolls or the foreign matter collides with, and life is longer.

Drawings

Fig. 1 is a schematic perspective view of the technical solution of the present invention;

fig. 2 is a schematic perspective view of a first embodiment of the present invention;

fig. 3 is a schematic front structural view of a first embodiment of the present invention;

fig. 4 is a schematic side view of a first embodiment of the present invention;

fig. 5 is an exploded view of a first embodiment of the present invention;

fig. 6 is an exploded schematic view of a solution B according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a second embodiment of the present invention;

fig. 8 is a schematic side sectional view of a second embodiment of the present invention;

fig. 9 is a schematic side cross-sectional three-dimensional structure diagram according to a second embodiment of the present invention;

fig. 10 is a schematic top view of a second embodiment of the present invention;

fig. 11 is a schematic perspective view of a third embodiment of the present invention;

fig. 12 is a schematic front structural view of a fourth embodiment of the present invention.

Detailed Description

Example one

A luminous reflective resilient road sign comprises a facade mark body (110), a base (120), a retroreflective body (130) and a long afterglow luminous body (140), as shown in figures 2-6.

Facade logo (110):

the facade mark body (110) is wholly made of PU or PE materials through injection molding, adopts a full solid design, and is in a narrow trapezoid shape with a small upper part and a big lower part.

The vertical surface mark body (110) sequentially comprises a mark main body part (110 a), a rebound part (110 b) and an implantation root part (110 c) (implanted into an implantation groove (120 c) of the base (120) from top to bottom).

As shown in figures 2, 3 and 4, the mark main body part (110 a) is in a solid flat plate shape, two opposite mark surfaces of the mark main body part are respectively provided with a square groove positioned above and an exclamation mark-shaped groove positioned below, a semi-flexible square long afterglow luminescent sheet which is formed by mixing and curing long afterglow powder and polyurethane resin and has a bottom surface provided with a white substrate layer, a surface layer provided with a PET transparent protective film, the thickness of the square groove is 2-3.5mm, the square long afterglow luminescent sheet is fixed through a 3M adhesive layer and serves as a long afterglow luminescent body (140), a microprism reflective film in a corresponding shape is pasted in the exclamation mark-shaped groove and serves as a counter reflector (130), and the main reflective angle of the microprism reflective film is parallel to the front and back directions of the base (120).

The rare earth-doped alkaline earth aluminate long-afterglow luminescent powder and transparent PE resin or transparent polyurethane resin can be mixed and injected into a square long-afterglow preformed luminophor (140), and the square long-afterglow preformed luminophor and the square groove of the mark main body part (110 a) are combined into a secondary injection molding body through a secondary injection structure.

The rebound part (110 b) is of an oval solid structure with the outer profile of the horizontal section, and the outer part of the rebound part is provided with an elastic fold structure.

The implantation root (110 c) is used as a part implanted into the base (120) from the bottom of the vertical face mark body (110), the length and the width of the implantation root (110 c) are both larger than those of the vertical face mark body (110) and the rebound part (110 b), the periphery of the implantation root (110 c) protrudes towards the periphery to form a first fitting structure (110 d) which is matched with the implantation groove (120 c) of the base (120), and during installation, the implantation root (110 c) is inserted from bottom to top along with the vertical face mark body (110) from the lower part of the base (120) and is matched into the implantation groove (120 c) of the base (120) through the first fitting structure (110 d).

As shown in fig. 5 and 6, the bottom of the first fitting structure (110 d) may further extend out of the expansion portion (110 e) horizontally along the direction of the second mounting fixing hole (120 f) on the base (120), the height (or thickness) of the expansion portion (110 e) is lower than the height (or thickness) of the first fitting structure (110 d), and when the first fitting structure (110 d) is fitted into the embedding groove (120 c) of the base (120), the expansion portion (110 e) is embedded into the second fitting structure (120 d) (groove with corresponding shape) on the bottom surface of the base (120).

Furthermore, a first mounting fixing hole (110 f) is formed in the expansion portion (110 e), and when the mounting structure is mounted, a second mounting fixing hole (120 f) in the base (120) and the first mounting fixing hole (110 f) in the expansion portion (110 e) are overlapped from bottom to top to form a coaxial through hole structure, so that mounting screws can penetrate through the coaxial through hole structure and can be fixed on a mounting surface together.

Base (120):

the base (120) is a flat table body which is formed by injection molding of ABS material and is approximately hexagonal or octagonal in plan view. An implanting groove (120 c) with an upper opening and a lower opening is formed in the center of the base (120), and the structure in the implanting groove (120 c) is matched with the first matching structure (110 d). And a second mounting fixing hole (120 f) which is symmetrically arranged in front and back of the implanting groove (120 c) is formed in the base (120), and a second fitting structure (120 d) combined with the male part and the female part of the expansion part (110 e) is arranged on the periphery of the bottom of the second mounting fixing hole (120 f).

The front end face and the rear end face of the base (120) are inclined planes with 55-degree inclination angles (namely the elevation angles of the front end face and the rear end face relative to the bottom face of the base part (2)), the left side and the right side of the front end face and the right side of the rear end face are respectively provided with a recess, a 70-degree inclination angle inclined plane facing to the side front side or the side rear side is arranged in the recess, a glass bead array reflecting sheet or a microprism type reflecting crystal lattice sheet or a cat eye reflecting bead is adhered on the 70-degree inclination angle inclined plane through an adhesive to serve as a counter reflector (130), the main reflecting angle of the counter reflector (130) on the base (120) is parallel to the bottom face of the base (120) and forms 25 degrees with the included angle theta of the main reflecting angle of the counter reflector (130) on the identification main body part (110 a), the reflecting effect of a larger reflecting angle can be realized, and the reflecting effect of vehicles on the side direction of the road sign or vehicles on curves is better.

The utility model discloses a luminous reflection of light resilience road sign, can be used to the road, the garage parking, the tunnel, guardrail or other traffic safety facilities are last, protruding road sign or road side edge delineators that can act as the lane marking or have the facade sign body, compare the luminous reflection of light resilience road sign of tradition, multidirectional contrary reflective function has, and contrary reflective body is difficult for droing and damaging, long afterglow luminous function has again, and can set up the luminous sheet of long afterglow that 1~4mm is thick, luminous luminance is higher, and the combination fastness of the sign body and base is higher, it is effectual to kick-back, more resistant wheel rolls or the foreign matter collides with, service life is longer.

Example two

A luminous reflective resilient road sign comprises a facade mark body (210), a base (220), a retroreflective body (230) and a long afterglow luminous body (240), as shown in figures 7-10.

Facade identifier (210):

the facade mark body (210) is wholly made of PE materials through injection molding or blow molding, the lower part is hollow, and the shape of the whole facade is in a narrow trapezoid shape with a small upper part and a big lower part.

The vertical surface marker body (210) sequentially comprises a marker main body part (210 a), a rebound part (210 b) and an implantation root part (210 c) (implanted into an implantation groove (220 c) of the base (220)) from top to bottom.

The mark main body part (210 a) is in a solid flat plate shape, two opposite mark surfaces of the mark main body part are respectively provided with a square groove positioned above and an exclamation mark-shaped groove positioned below, a square long afterglow luminescent sheet which is formed by mixing, curing and molding long afterglow powder and polyurethane resin and is 2.5mm thick, semi-flexible, the bottom surface of the square groove is provided with a white substrate layer through a 3M adhesive layer, a surface layer is provided with a PET transparent protective film, the square long afterglow luminescent sheet is used as a long afterglow (240), a microprism reflective film in a corresponding shape is pasted in the exclamation mark-shaped groove and is used as a counter reflector (230), and the main reflective angle of the microprism reflective film is parallel to the front and back directions of the base (220).

The rebound part (210 b) is of an oval hollow structure with the outer contour of the horizontal section, and the outer part of the rebound part is provided with an elastic fold structure.

The implantation root (210 c) is used as a part implanted into the base (220) from the bottom of the vertical face mark body (210), the length and the width of the implantation root (210 c) are both larger than those of the vertical face mark body (210) and the rebound part (210 b), the periphery of the implantation root (210 c) protrudes towards the periphery to form a first fitting structure (210 d) which is matched with the implantation groove (220 c) of the base (220), and during installation, the implantation root (210 c) is inserted from bottom to top along with the vertical face mark body (210) from the lower part of the base (220) and is matched into the implantation groove (220 c) of the base (220) through the first fitting structure (210 d).

The bottom of the first fitting structure (210 d) can also horizontally extend out of an expansion part (210 e) along the direction of the second mounting fixing hole (220 f) on the base (220), the height (or thickness) of the expansion part (210 e) is lower than that of the first fitting structure (210 d), and when the first fitting structure (210 d) is fitted into the implantation groove (220 c) of the base (220), the expansion part (210 e) is then fitted into the second fitting structure (220 d) (a groove with a corresponding shape) on the bottom surface of the base (220).

Furthermore, the expansion part (210 e) is also provided with a first mounting fixing hole (210 f), and when the mounting structure is mounted, a second mounting fixing hole (220 f) on the base (220) and the first mounting fixing hole (210 f) on the expansion part (210 e) are overlapped at the lower part and the upper part to form a coaxial through hole structure for a mounting screw to pass through and fix the mounting screw and the mounting fixing hole on a mounting surface together.

Base (220):

the base (220) is a flat platform body which is formed by injection molding of ABS material and is approximately hexagonal or octagonal in plan view. An implantation groove (220 c) with an upper opening and a lower opening is formed in the center of the base (220), and the structure in the implantation groove (220 c) is matched with the first matching structure (210 d). And a second mounting fixing hole (220 f) which is symmetrically arranged in front and back of the implanting groove (220 c) is formed in the base (220), and a second fitting structure (220 d) combined with the male part and the female part of the expansion part (210 e) is arranged on the periphery of the bottom of the second mounting fixing hole (220 f).

The front end face and the rear end face of the base (220) are inclined planes with an inclination angle of 50 degrees, the left side and the right side of the front end face and the right side of the rear end face are respectively provided with a recess, a 65-degree inclined plane towards the front side or the rear side is arranged in the recess, cat eye reflective beads are bonded on the 65-degree inclined plane through an adhesive to serve as the counter reflector (230), the main reflective angle of the counter reflector (230) on the base (220) is parallel to the bottom face of the base (220) and is 30 degrees relative to the included angle theta of the main reflective angle of the counter reflector (230) on the mark main body part (210 a), the reflective effect of a larger reflective angle can be realized, and the reflective effect of vehicles at the side direction of the road mark or curved vehicles is better.

The utility model discloses a luminous reflection of light resilience road sign, can be used to the road, the garage parking, the tunnel, guardrail or other traffic safety facilities are last, protruding road sign or the road side edge delineator that can act as the lane mark or have the facade sign body, compare the luminous reflection of light resilience road sign of tradition, have the function of retroreflection of multidirectional, and retroreflection body is difficult for droing and damaging, long afterglow luminous function has again, and can set up the luminous sheet of long afterglow that 1~4mm is thick, luminous luminance is higher, and the sign body is higher with the combination fastness of base, the resilience is effectual, it collides with more resistant wheel roll or foreign matter, life is longer.

EXAMPLE III

A luminous reflective resilient road sign comprises a facade mark body (310), a base (320), a retroreflective body (330) and a luminous body (340), as shown in figure 11.

Facade identifier (310):

the facade mark body (310) is wholly made of PU or PE materials through injection molding, the facade mark body adopts a full solid design, and the shape of the whole facade is in a strip shape with the same width at the upper part and the lower part.

The vertical surface marker body (310) sequentially comprises a marker main body part (310 a), a rebound part (310 b) and an implantation root part (310 c) (implanted into an implantation groove (320 c) of the base (320) from top to bottom).

Wherein, the sign main body part (310 a) is a solid flat plate with a horizontal section and an outline similar to a rectangle, two opposite sign surfaces of the sign main body part are respectively provided with an upper polygonal groove and a lower rounded square groove, and the upper square groove

The long-afterglow luminescent sheet which is fixed in the polygonal groove through the 3M adhesive layer, has a white substrate layer on the bottom surface, a PET transparent protective film on the surface layer, is 3mm thick, semi-flexible, long-afterglow powder and polyurethane resin are mixed, cured and molded into a corresponding shape and serves as a long-afterglow luminescent body (340), a microprism reflective film in a corresponding shape is adhered in the round-corner square groove on the lower part and serves as a counter reflector (330), and the main reflective angle of the microprism reflective film is parallel to the front and back directions of the base (320).

The rebound part (310 b) is a rectangular solid structure with the outer profile of the horizontal section, and the outer part of the rebound part is provided with an elastic fold structure.

The implantation root (310 c) is used as a part implanted into the base (320) from the bottom of the vertical face mark body (310), the length and the width of the implantation root (310 c) are both larger than those of the vertical face mark body (310) and the rebound part (310 b), the periphery of the implantation root (310 c) protrudes towards the periphery to form a first fit structure (310 d) matched with the implantation groove (320 c) of the base (320), and during installation, the implantation root (310 c) is inserted from bottom to top along with the vertical face mark body (310) from the lower part of the base (320) and is matched into the implantation groove (320 c) of the base (320) through the first fit structure (310 d).

Furthermore, the expansion part (310 e) is also provided with a first mounting fixing hole (310 f), and when the mounting structure is mounted, a second mounting fixing hole (320 f) on the base (320) and the first mounting fixing hole (310 f) on the expansion part (310 e) are overlapped at the lower part and the upper part to form a coaxial through hole structure, so that a mounting screw can penetrate through the coaxial through hole structure and can be fixed on a mounting surface together.

Base (320):

the base (320) is a rectangular frustum of a pyramid formed by injection molding of ABS material. An implantation groove (320 c) with an upper opening and a lower opening is formed in the center of the base (320), and the inner structure of the implantation groove (320 c) is matched with the first matching structure (310 d). The base (320) is provided with a second mounting fixing hole (320 f) which is symmetrically arranged in front and back of the implantation groove (320 c).

The front end face and the rear end face of the base (320) are inclined planes with inclination angles of 60 degrees, the centers of the front end face and the rear end face are respectively provided with a trapezoidal groove, a microprism type light reflecting crystal lattice plate serving as a counter reflector (330) is fixed in the trapezoidal groove through ultrasonic heat sealing, and the main light reflecting angle of the counter reflector (330) is parallel to the bottom face of the base (320).

The utility model discloses a luminous reflection of light resilience road sign, can be used to the road, the garage parking, the tunnel, guardrail or other traffic safety facilities are last, protruding road sign or the road side along the delineator that can act as the lane mark or have the facade sign body, compare the luminous reflection of light resilience road sign of tradition, back reflection of light function has, and back reflection of light body is difficult for droing and damaging, long afterglow luminous function has again, and can set up the luminous sheet of long afterglow that 1~4mm is thick, luminous luminance is higher, and the sign body is higher with the combination fastness of base, resilience effect is good, it rolls or the foreign matter collides with to bear or endure more, service life is longer.

Example four

A luminous reflective resilient road sign comprises a facade mark body (410), a base (420), a retroreflective body (430) and a long afterglow illuminant (440), as shown in figure 12.

Facade identifier (410):

facade sign body (410) is whole by PE material injection moulding, adopts solid design, and whole positive shape is big end up: the upper part is a square flat plate structure with larger width, and the lower part is an elliptic cylinder structure with smaller outer diameter.

The vertical surface mark body (410) sequentially comprises a mark main body part (410 a), a rebound part (410 b) and an implantation root part (410 c) (implanted into an implantation groove (420 c) of the base (420) from top to bottom).

The mark main body part (410 a) is a square solid flat plate, two opposite mark surfaces of the mark main body part are planes, a square groove is arranged on the mark main body part, a closed convex rib is arranged in the center of the square groove to enclose the square groove to form a circular groove, a circular long-afterglow light-emitting sheet which is formed by fixing a 3M adhesive layer, has a white substrate layer on the bottom surface, has a PET transparent protective film on the surface layer, is 2.5mm thick, is semi-flexible, is doped with rare earth alkaline earth aluminate long-afterglow powder and is formed by mixing and curing polyurethane resin and serves as a long-afterglow light-emitting body (440), a microprism type light-reflecting film in a corresponding shape is adhered to the part of the square groove, which is positioned outside the circular groove, and serves as a counter reflector (430), and the main light-reflecting angle of the counter reflector (430) is parallel to the front and back directions of the base (420).

The mark main body part (410 a) can also be a long-afterglow luminous forming body formed by mixing rare earth-doped alkaline earth aluminate long-afterglow luminous powder and transparent flexible PU or PE resin and curing, at the moment, the whole long-afterglow luminous forming body serves as the mark main body part (410 a), a square groove is arranged on the long afterglow luminous body, a microprism reflecting film serving as a first counter reflector (430-1) is adhered in the groove, and the main reflecting angle of the microprism reflecting film is parallel to the front-back direction parallel to the base (420).

The vertical surface mark body (410) can also be a long afterglow luminescent forming body formed by mixing rare earth-doped alkaline earth aluminate long afterglow luminescent powder and transparent flexible PU or PE resin and curing, at the moment, the whole long afterglow luminescent forming body serves as the vertical surface mark body (410), a square groove is arranged on the long afterglow luminescent body, a microprism reflecting film serving as a first counter reflector (430-1) is adhered in the groove, and the main reflecting angle of the microprism reflecting film is parallel to the front and back direction parallel to the base (420).

The rebound part (410 b) is a solid elliptic cylinder structure with an outer diameter smaller than the front length of the mark main body part (410 a) and an outer contour of a horizontal section in an elliptic shape, and the outer part of the rebound part is provided with an elastic fold structure. The rebound part (410 b) is connected with the upper mark main body part (410 a) through a transition section.

The implantation root (410 c) is used as the part implanted into the base (420) at the bottom of the vertical surface mark body (410), the length and the width of the implantation root are both larger than those of the vertical surface mark body (410) and the rebound part (410 b), the periphery of the implantation root (410 c) protrudes towards the periphery to form a first fitting structure (410 d) which is matched with the implantation groove (420 c) of the base (420), and during installation, the implantation root (410 c) is inserted from bottom to top along with the vertical surface mark body (410) from the lower part of the base (420) and is matched into the implantation groove (420 c) of the base (420) through the first fitting structure (410 d).

The bottom of the first fitting structure (410 d) can also horizontally extend out of an expansion part (410 e) along the direction of a second mounting fixing hole (420 f) on the base (420), the height (or thickness) of the expansion part (410 e) is lower than that of the first fitting structure (410 d), and when the first fitting structure (410 d) is fitted into an implantation groove (420 c) of the base (420), the expansion part (410 e) is then fitted into the second fitting structure (420 d) (a groove with a corresponding shape) on the bottom surface of the base (420).

Base (420):

the base (420) is a flat platform body which is formed by injection molding of ABS material and is approximately square in overlook (the connected end surfaces can be connected by a transition section). An implantation groove (420 c) with an upper opening and a lower opening is formed in the center of the base (420), and the inner structure of the implantation groove (420 c) is matched with the first matching structure (410 d). And a second mounting and fixing hole (420 f) which is symmetrically arranged in front and back of the implanting groove (420 c) is formed in the base (420), and a second fitting structure (420 d) combined with the male part and the female part of the expansion part (410 e) is arranged at the bottom of the second mounting and fixing hole (420 f).

The front and rear end surfaces of the base (420) are inclined planes with an inclination angle of 45 degrees. The centers of the front end surface and the rear end surface are respectively provided with a trapezoidal groove, a microprism type light reflecting crystal lattice plate serving as a counter reflector (430) is fixed in the trapezoidal groove through ultrasonic heat seal, and the main light reflecting angle of the counter reflector (430) is parallel to the front direction and the rear direction of the base (420).

The utility model discloses a luminous reflection of light resilience road sign, can be used to the road, the garage parking, the tunnel, guardrail or other traffic safety facilities are last, protruding road sign or the road side along the delineator that can act as the lane mark or have the facade sign body, compare the luminous reflection of light resilience road sign of tradition, both have contrary reflection function, contrary reflection body is difficult for droing and damaging, long afterglow luminous function has again, and can set up the luminous sheet of long afterglow that 1~4mm is thick, luminous brightness is higher, and the combination fastness of the sign body and base is higher, resilience effect is good, it collides with more resistant wheel rolling or foreign matter, life is longer.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, variations, combinations, or alterations made therein, or all applications of the technology in the field of related and similar technology, which are within the spirit and principles of the present invention, should be considered as being within the scope of the present invention.

Claims (17)

1. A luminous reflective resilient road sign comprises a vertical surface marking body (1), a base (2) and a retroreflective body (3), wherein the vertical surface mark body (1) comprises an implantation root part (1 c) implanted in the base (2), a springback part (1 b) with a front-back direction bending springback function and a mark main body part (1 a) which is provided with a front mark surface and a back mark surface which are opposite to each other and has a flat top part from bottom to top in sequence, the base (2) is a flat platform body which is provided with an implantation groove (2 c) with an opening at the top, the front side and the rear side of the implantation groove (2 c) are respectively provided with a second mounting fixing hole (2 f), the flat platform body is used for mounting and fixing, and the upper part is small and the lower part is large, the implantation root (1 c) of the vertical face identification body (1) is implanted into the implantation groove (2 c) of the base (2) to form a combination body with a fitting structure; the assembly is provided with a groove or a hole, and a counter reflector (3) is arranged in the groove or the hole; the method is characterized in that: the structural hardness of the base (2) is greater than or equal to that of the vertical surface identification body (1), and a long afterglow luminous body (4) is arranged in a groove or a hole of the combination body; or the vertical surface marking body (1) is a long afterglow luminous forming body with a rebound function, a groove or a hole is arranged on the long afterglow luminous forming body, and a counter reflector (3) is arranged in the groove or the hole.

2. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the mark main body part (1 a) is provided with a groove or a hole, a retro-reflector (3) is arranged in the groove or the hole of the mark main body part (1 a), grooves or holes are formed in the front end surface and the rear end surface of the base (2), and long-afterglow luminous bodies (4) are arranged in the grooves or the holes in the front end surface and the rear end surface of the base (2);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the counter reflector (3) and a long afterglow illuminant (4);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a long afterglow luminous body (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with a counter reflector (3);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a long afterglow illuminant (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with a counter reflector (3) and the long afterglow illuminant (4);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3) and a long afterglow illuminant (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the counter reflector (3);

or the mark main body part (1 a) is provided with a groove or a hole, the groove or the hole of the mark main body part (1 a) is internally provided with a counter reflector (3) and a long afterglow illuminant (4), the front end surface and the rear end surface of the base (2) are provided with grooves or holes, and the grooves or the holes of the front end surface and the rear end surface of the base (2) are internally provided with the long afterglow illuminant (4);

or mark main part (1 a) on be equipped with recess or hole, the recess or the hole of mark main part (1 a) in be equipped with counter-reflector (3) and long afterglow luminous body (4), base (2) around be equipped with recess or hole on the terminal surface, base (2) around the recess or the hole of terminal surface in be equipped with counter-reflector (3) and long afterglow luminous body (4).

3. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the mark main body part (1 a) of the vertical face mark body (1) is of a flat solid plate-shaped structure which is symmetrical along the central axis of the two mark surfaces on the mark main body part; the rebound part (1 b) of the facade marker body (1) is of an internal hollow structure, the outer contour of the horizontal section of the rebound part (1 b) is circular, oval, rectangular, trapezoidal or triangular, and the outer part of the rebound part (1 b) is of a corrugated pipe structure or a folded structure; or rebound portion (1 b) look sideways at and be the chevron shape, rebound portion (1 b) below is equipped with two respectively and implants root (1 c), implantation groove (2 c) be the double flute structure, two implantation root (1 c) implant in the double flute structure respectively.

4. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: sign main part (1 a) of facade sign body (1) be for being circular or oval or rectangular flat solid platelike structure along sign face normal direction front view, resilience portion (1 b) of facade sign body (1) be oval-shaped hollow elliptic cylinder structure for horizontal cross-section outline, resilience portion (1 b) link up through the transition section with sign main part (1 a).

5. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the horizontal cross-sectional area of the springback part (1 b) is gradually reduced from bottom to top and is connected with the bottom of the mark main body part (1 a) in a transition mode, or the horizontal cross-sectional area of the mark main body part (1 a) is gradually increased from top to bottom and is connected with the top of the springback part (1 b) in a transition mode, or the horizontal cross-sectional area of the springback part (1 b) is smaller than the horizontal cross-sectional area of the implant root part (1 c), or the ratio of the thickness W1 of the mark main body part (1 a) to the maximum distance W2 of the front surface and the rear surface of the springback part (1 b) along the normal direction of the mark surface is 1: 1.5-1: 6.

6. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the counter-reflector (3) on the facade mark body (1) is a microprism type reflective film or a glass bead type reflective film, and the counter-reflector (3) on the base (2) is a reflective cat-eye glass bead or a reflective glass bead array sheet or a microprism lattice sheet.

7. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the main reflecting angle of the counter reflector (3) on the base (2) and the main reflecting angle of the counter reflector (3) on the vertical surface mark body (1) form an intersection angle theta of 7-45 degrees.

8. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the long afterglow luminous body (4) on the mark surface of the mark main body part (1 a) comprises a semi-flexible long afterglow luminous layer (4-2), a semi-flexible transparent protective surface layer (4-1) is arranged above the long afterglow luminous layer (4-2), the bottom of the long afterglow luminous layer (4-2) is provided with a white reflecting bottom layer (4-3) which is combined in a groove or a hole of the mark main body part (1 a) through an adhesive layer (4-4), or the mark surface of the mark main body part (1 a) is a plane or an arc surface, the counter reflector (3) on the mark surface is a semi-flexible reflecting sheet which is correspondingly plane-shaped or arc-surface-shaped, the long afterglow luminous body (4) on the mark surface is a semi-flexible long afterglow luminous sheet which is correspondingly plane-shaped or arc-surface-shaped, is combined in the groove or the hole of the mark main body part (1 a) through an adhesive layer (4-4).

9. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the reverse reflector (3) or the long afterglow luminous body (4) is of a sheet structure and is fixed in a groove or a hole of the vertical surface identifier (1) through ultrasonic heat seal or an adhesive, or is fixed in a groove or a hole of the base (2) through ultrasonic heat seal or an adhesive; or the marking surface of the vertical surface marking body (1) is provided with a groove or a hole forming a pattern or a character shape, and a counter reflector (3) or/and a long afterglow luminous body (4) are fixed in the groove or the hole through ultrasonic heat seal or adhesive to form the marking surface with the pattern or the character.

10. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the long afterglow luminous body (4) is a mixed curing pre-formed object of long afterglow luminous powder and a transparent medium, the long afterglow luminous body (4) and a groove or a hole of the vertical surface identification body (1) are combined into a formed body of a secondary injection molding structure through a secondary injection molding process, or the long afterglow luminous body (4) is a mixed curing pre-formed object of the long afterglow luminous powder and the transparent medium with a pattern or character shape, and the long afterglow luminous body (4) and the groove or the hole of the vertical surface identification body (1) are combined into a formed body of the secondary injection molding structure with a pattern or character on an identification surface through the secondary injection molding process; or the long afterglow luminous body (4) is combined with the vertical surface mark body (1) into a forming body with a double injection structure through a double injection process.

11. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the implantation root (1 c) is provided with a first fitting structure (1 d) which is fitted with the corresponding part in the implantation groove (2 c), and the vertical face identification body (1) is fixed on the base (2) through the first fitting structure (1 d).

12. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the front end surface and the rear end surface of the base (2) are inclined surfaces, the elevation angle of the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees, the elevation angle of the reflecting surfaces of the counter reflectors (3) on the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees, and the elevation angle of the light emitting surfaces of the long afterglow luminous bodies (4) on the inclined surfaces relative to the bottom surface of the base (2) is 15-75 degrees.

13. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the height H1 of the mark main body part (1 a) is between 100mm and 500mm, and the thickness W1 of the mark main body part (1 a) is between 5mm and 20 mm; or the height II H2 of the rebound part (1 b) is between 30mm and 150mm, and the maximum width II W2 of the rebound part (1 b) along the normal direction of the marking surface is between 15mm and 20 mm; or the height of the implant root (1 c), tri H3, is between 20mm and 60 mm; or the ratio of the height I H1 of the mark main body part (1 a) to the height II H2 of the rebound part (1 b) is 1: 1-10: 1, or the ratio of the height II H2 of the rebound part (1 b) to the height III H3 of the implantation root part (1 c) is 1: 2-5: 1, or the ratio of the height IV H4 of the solid section of the vertical mark body (1) to the height V H5 of the hollow section thereof is 1: 1-10: 1.

14. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the outline of the base (2) is generally rectangular, rhombic or trapezoidal in overlooking; or the length of the bottom surface of the base (2) is between 120mm and 350mm, or the width of the bottom surface of the base (2) is between 100mm and 300 mm.

15. A luminescent retroreflective resilient road marking as claimed in claim 1, wherein: the facade mark body (1) is provided with anti-skid lines, or the bottom surface of the base (2) is provided with anti-skid protrusions.

16. A luminescent retroreflective rebounding pavement marker according to claim 11, wherein: the first fit structure (1 d) extends horizontally along the bottom surface of the base (2) to form an expansion part (1 e), and the base (2) is provided with a second fit structure (2 d) which can be combined with a male part and a female part of the expansion part (1 e).

17. A luminescent retroreflective resilient road marking as claimed in claim 16, wherein: the expansion part (1 e) is provided with a first vertical through installation fixing hole (1 f), so that when the vertical face identification body (1) is fixed on the base (2) through the first fitting structure (1 d), the expansion part (1 e) at the bottom of the vertical face identification body (1) is combined into the second fitting structure (2 d) of the base (2) through the male and female parts, and the first installation fixing hole (1 f) and the second installation fixing hole (2 f) are aligned up and down to form a coaxial vertical through hole.

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