CN216870854U - Non-light tight microprism reflective membrane - Google Patents

Abstract

The utility model discloses a light-tight microprism reflective membrane, which comprises a protective layer, a light-tight layer and a reflective layer, wherein the bottom of the protective layer is fixedly provided with the light-tight layer, the bottom of the light-tight layer is fixedly provided with the reflective layer, the protective layer comprises a waterproof layer, an anti-collision layer, a buffer layer, an ink layer, a scratch-resistant coating and a zinc oxide layer, the top of the protective layer is coated with the waterproof layer, the bottom of the waterproof layer is fixedly provided with the anti-collision layer, the bottom of the anti-collision layer is fixedly provided with the buffer layer, the bottom of the buffer layer is fixedly provided with the ink layer, the microprism reflective membrane has the advantages that when the prism layer reflects light, the effect of reflecting light cannot be irradiated on the prism layer, the influence of reflection is reduced, meanwhile, a protective device is added on the shell of the original microprism reflective membrane, the damage caused by slight collision is avoided, and the normal use in the later period can be ensured, the service time of the microprism reflective film is prolonged.

Description

Lighttight microprism reflective film

Technical Field

The utility model relates to the technical field of microprism reflective films, in particular to a light-tight microprism reflective film.

Background

Along with the development of national economy, traffic roads develop very rapidly, the mileage of roads in China increases rapidly, the high speed and informatization of road traffic engineering becomes the development direction, and accordingly, traffic management and traffic safety are put forward to very important positions, and the arrangement of traffic signs, road traffic safety facilities, vehicle marks and indication marks is an important part of traffic safety management, and the reflective signs refer to road traffic signs made of reflective materials, and can display the patterns or characters of the signs when being irradiated by street lamps or automobile headlamps for driving at night, so that the identification and safe driving are facilitated.

The prior product still has the following problems in the using process:

1. when the existing microprism reflective film reflects light rays on the prism layer, the effect of reflecting the light rays is influenced by the quantity of the light rays irradiated on the prism layer;

2. the existing microprism reflective membrane shell is fragile and can be damaged when slight collision occurs, so that the normal use in the later stage is influenced, and the service time of the microprism reflective membrane is shortened.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a light-tight microprism reflective film, which solves the problems that when the conventional microprism reflective film reflects light on a prism layer, the effect of reflecting light is influenced by the amount of light irradiating the prism layer, and meanwhile, the conventional microprism reflective film has a fragile shell which is damaged when slight collision occurs, so that the later normal use is influenced, and the service time of the microprism reflective film is shortened.

(II) technical scheme

In order to achieve the purpose, the utility model is realized by the following technical scheme: the utility model provides an opaque microprism reflective membrane which comprises a protective layer, a non-light-transmitting layer and a reflective layer, wherein the non-light-transmitting layer is fixedly arranged at the bottom of the protective layer, the reflective layer is fixedly arranged at the bottom of the non-light-transmitting layer, the protective layer comprises a waterproof layer, an anti-collision layer, a buffer layer, an ink layer, a scratch-resistant coating and a zinc oxide layer, the waterproof layer is coated at the top of the protective layer, the anti-collision layer is fixedly arranged at the bottom of the waterproof layer, the buffer layer is fixedly arranged at the bottom of the anti-collision layer, and the ink layer is fixedly arranged at the bottom of the buffer layer.

Preferably, the ink layer is uniformly coated, the bottom of the ink layer is fixedly provided with a scratch-resistant coating, and the bottom of the scratch-resistant coating is fixedly provided with a zinc oxide layer.

Preferably, the opaque layer includes pressure sensitive adhesive layer, sclerosis coating, polymethyl methacrylate layer, hydrophobic layer, cured layer and prism layer, zinc oxide layer bottom fixed mounting has pressure sensitive adhesive layer, pressure sensitive adhesive layer bottom fixed mounting has the sclerosis coating.

Preferably, a polymethyl methacrylate layer is fixedly mounted at the bottom of the hardening coating, a hydrophobic layer is fixedly mounted at the bottom of the polymethyl methacrylate layer, a curing layer is fixedly mounted at the bottom of the hydrophobic layer, and a prism layer is fixedly mounted at the bottom of the curing layer.

Preferably, the reflecting layer comprises a protective layer, a light transmitting layer, a titanium dioxide bonding layer, a titanium dioxide reflecting layer, a surface film layer and a supporting layer, the protective layer is fixedly mounted at the bottom of the prism layer, the light transmitting layer is fixedly mounted at the bottom of the protective layer, and the titanium dioxide bonding layer is fixedly mounted at the bottom of the light transmitting layer.

Preferably, a titanium dioxide reflecting layer is fixedly mounted at the bottom of the titanium dioxide bonding layer, a mask layer is fixedly mounted at the bottom of the titanium dioxide reflecting layer, a supporting layer is fixedly mounted at the bottom of the mask layer, and the mask layer and the supporting layer are both made of resin materials.

(III) advantageous effects

The utility model provides a light-tight microprism reflective film. The method has the following beneficial effects:

(1) this microprism reflective membrane, through the aggregate erection of euphotic layer and reflector layer, solved current microprism reflective membrane when prism layer reflection light, the problem of how much influence of light of its reflection light can receive on prism layer itself is shone to its effect, through the aggregate erection of euphotic layer and reflector layer, when prism layer reflection light, its reflection light's effect can not receive and shine on prism layer itself, has reduced the influence of reflection.

(2) This microprism reflective membrane, installation through the protective layer, it is relatively fragile to have solved current microprism reflective membrane shell, will receive the damage when taking place slight collision, thereby influence the normal use in later stage, the problem of the live time of microprism reflective membrane has been shortened, installation through the protective layer, protection device has been increased at original microprism reflective membrane shell, the damage of having avoided causing because of slight collision, can guarantee the normal use in later stage, the live time of microprism reflective membrane has been prolonged.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the construction of the waterproof layer of the present invention;

FIG. 3 is a schematic diagram of a structure of a light-impermeable layer according to the present invention;

FIG. 4 is a schematic view of the structure of the light-reflecting layer of the present invention.

In the figure, 1, a protective layer; 11. a waterproof layer; 12. an anti-collision layer; 13. a buffer layer; 14. an ink layer; 15. a scratch-resistant coating; 16. a zinc oxide layer; 2. a light-impermeable layer; 21. a pressure sensitive adhesive layer; 22. hardening the coating; 23. a polymethyl methacrylate layer; 24. a hydrophobic layer; 25. curing the layer; 26. a prism layer; 3. a light-reflecting layer; 31. a protective layer; 32. a light transmitting layer; 33. a titanium dioxide bonding layer; 34. a titanium dioxide light reflecting layer; 35. a mask layer; 36. and (4) a support layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention provides a technical solution: an opaque microprism reflective film comprises a protective layer 1, an opaque layer 2 and a reflective layer 3, the bottom of the protective layer 1 is fixedly provided with a non-light-transmitting layer 2, the bottom of the non-light-transmitting layer 2 is fixedly provided with a reflecting layer 3, the protective layer 1 comprises a waterproof layer 11, an anti-collision layer 12, a buffer layer 13, an ink layer 14, a scratch-resistant coating 15 and a zinc oxide layer 16, a waterproof layer 11 is coated on the top of the protective layer 1, an anti-collision layer 12 is fixedly arranged at the bottom of the waterproof layer 11, the bottom of the anti-collision layer 12 is fixedly provided with a buffer layer 13, the bottom of the buffer layer 13 is fixedly provided with an ink layer 14, and the anti-collision layer 12 and the buffer layer 13 are assembled and installed through a waterproof layer 11, the protection device is additionally arranged on the original microprism reflective membrane shell, the damage caused by slight collision is avoided, the normal use in the later stage can be ensured, and the service time of the microprism reflective membrane is prolonged.

The printing ink layer 14 is uniformly coated, the bottom of the printing ink layer 14 is fixedly provided with the scratch-resistant coating 15, the bottom of the scratch-resistant coating 15 is fixedly provided with the zinc oxide layer 16, and the oxidation or scratch damage of the reflective film of the microprism and the influence on the attractiveness are prevented through the combined installation of the scratch-resistant coating 15, the zinc oxide layer 16 and the printing ink layer 14.

The light-tight layer 2 comprises a pressure-sensitive adhesive layer 21, a hardened coating 22, a polymethyl methacrylate layer 23, a hydrophobic layer 24, a cured layer 25 and a prism layer 26, the bottom of the zinc oxide layer 16 is fixedly provided with the pressure-sensitive adhesive layer 21, the bottom of the pressure-sensitive adhesive layer 21 is fixedly provided with the hardened coating 22, and the protective layer 1 and the light-tight layer are effectively fixed together through the installation of the pressure-sensitive adhesive layer 21, so that the light-tight layer cannot fall off and the use is influenced.

The utility model discloses a little prism reflective membrane, including hardened coating 22, hardening coating 23, polymethyl methacrylate layer 23, hydrophobic layer 24 bottom fixed mounting has cured layer 25, cured layer 25 bottom fixed mounting has prism layer 26, through the installation of hydrophobic layer 24 for more smooth in the touch of little prism reflective membrane makes things convenient for people to use, has promoted the practicality.

The reflective layer 3 comprises a protective layer 31, a light transmitting layer 32, a titanium dioxide bonding layer 33, a titanium dioxide reflective layer 34, a surface film layer 35 and a supporting layer 36, the bottom of the prism layer 26 is fixedly provided with the protective layer 31, the bottom of the protective layer 31 is fixedly provided with the light transmitting layer 32, the bottom of the light transmitting layer 32 is fixedly provided with the titanium dioxide bonding layer 33, the light reflecting effect is conveniently achieved through installation of the light transmitting layer 32, and the connection strength between the prism layer 26 and the reflective layer 3 can be increased due to the installation of the titanium dioxide bonding layer 33.

The bottom of the titanium dioxide bonding layer 33 is fixedly provided with a titanium dioxide reflecting layer 34, the bottom of the titanium dioxide reflecting layer 34 is fixedly provided with a surface film layer 35, the bottom of the surface film layer 35 is fixedly provided with a supporting layer 36, the surface film layer 35 and the supporting layer 36 are both made of resin materials, and by means of the installation of the titanium dioxide reflecting layer 34, the titanium dioxide reflecting layer 34 can increase the reflecting effect of the prism layer by combining the principle that white light can reflect all colors.

The working principle is as follows: when in use, firstly, the waterproof layer 11, the anti-collision layer 12 and the buffer layer 13 are combined and installed, a protection device is added on the original microprism reflective membrane shell, the damage caused by slight collision is avoided, the later normal use can be ensured, the service time of the microprism reflective membrane is prolonged, secondly, the oxidation or scratch damage of the microprism reflective membrane is prevented through the combined installation of the anti-scratch layer 15, the zinc oxide layer 16 and the ink layer 14, the attractive appearance is influenced, then, the protective layer 1 and the opaque layer are effectively fixed together without falling off and influencing the use through the installation of the pressure sensitive adhesive layer 21, then, the microprism reflective membrane is more smooth to touch through the installation of the hydrophobic layer 24, the use is convenient for people, the practical degree is improved, the combined installation of the opaque layer 2 and the reflective layer 3 is realized, when the prism layer 26 reflects light, the effect of the reflected light cannot be irradiated on the prism layer 26 per se, the effect of reflections is reduced.

The utility model 1, protective layer; 11. a waterproof layer; 12. an anti-collision layer; 13. a buffer layer; 14. an ink layer; 15. a scratch-resistant coating; 16. a zinc oxide layer; 2. a light-impermeable layer; 21. a pressure sensitive adhesive layer; 22. hardening the coating; 23. a polymethyl methacrylate layer; 24. a hydrophobic layer; 25. curing the layer; 26. a prism layer; 3. a light-reflecting layer; 31. a protective layer; 32. a light transmitting layer; 33. a titanium dioxide bonding layer; 34. a titanium dioxide light reflecting layer; 35. a mask layer; 36. the supporting layer and the components are all universal standard components or components known by technicians in the field, the structure and the principle of the reflective film are known by technicians or known by conventional experimental methods, the reflective film solves the problems that when the existing microprism reflective film reflects light on a prism layer, the effect of the reflected light is influenced by the amount of the light irradiated on the prism layer, and the existing microprism reflective film is fragile and damaged when slight collision occurs, so that the later normal use is influenced, and the service life of the microprism reflective film is shortened. The protection device is additionally arranged on the original microprism reflective membrane shell, the damage caused by slight collision is avoided, the normal use in the later stage can be ensured, and the service time of the microprism reflective membrane is prolonged.

While there have been shown and described what are at present considered the fundamental principles and essential features of the utility model and its advantages, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. An opaque microprism retroreflective sheeting, comprising: including inoxidizing coating (1), opaque layer (2) and reflector layer (3), inoxidizing coating (1) bottom fixed mounting has non-photic layer (2), non-photic layer (2) bottom fixed mounting has reflector layer (3), inoxidizing coating (1) includes waterproof layer (11), anticollision layer (12), buffer layer (13), printing ink layer (14), prevents scraping coating (15) and zinc oxide layer (16), waterproof layer (11) have been paintd at inoxidizing coating (1) top, waterproof layer (11) bottom fixed mounting has anticollision layer (12), the bottom fixed mounting of anticollision layer (12) has buffer layer (13), buffer layer (13) bottom fixed mounting has printing ink layer (14).

2. The light-impermeable microprismatic light-reflecting film of claim 1, wherein: the ink layer (14) is uniformly coated, the bottom of the ink layer (14) is fixedly provided with a scratch-resistant coating (15), and the bottom of the scratch-resistant coating (15) is fixedly provided with a zinc oxide layer (16).

3. The light-impermeable microprismatic light-reflecting film of claim 1, wherein: the light-tight layer (2) comprises a pressure-sensitive adhesive layer (21), a hardening coating (22), a polymethyl methacrylate layer (23), a hydrophobic layer (24), a hardening layer (25) and a prism layer (26), wherein the pressure-sensitive adhesive layer (21) is fixedly arranged at the bottom of the zinc oxide layer (16), and the hardening coating (22) is fixedly arranged at the bottom of the pressure-sensitive adhesive layer (21).

4. The light-impermeable microprismatic light-reflecting film of claim 3, wherein: hardened coating (22) bottom fixed mounting has polymethyl methacrylate layer (23), polymethyl methacrylate layer (23) bottom fixed mounting has hydrophobic layer (24), hydrophobic layer (24) bottom fixed mounting has solidified layer (25), solidified layer (25) bottom fixed mounting has prism layer (26).

5. The light-impermeable microprismatic light-reflecting film of claim 4, wherein: the light reflecting layer (3) comprises a protective layer (31), a light transmitting layer (32), a titanium dioxide bonding layer (33), a titanium dioxide light reflecting layer (34), a mask layer (35) and a supporting layer (36), the bottom of the prism layer (26) is fixedly provided with the protective layer (31), the bottom of the protective layer (31) is fixedly provided with the light transmitting layer (32), and the bottom of the light transmitting layer (32) is fixedly provided with the titanium dioxide bonding layer (33).

6. The light-impermeable microprismatic light-reflecting film of claim 5, wherein: the light-emitting diode is characterized in that a titanium dioxide light reflecting layer (34) is fixedly mounted at the bottom of the titanium dioxide bonding layer (33), a surface film layer (35) is fixedly mounted at the bottom of the titanium dioxide light reflecting layer (34), a supporting layer (36) is fixedly mounted at the bottom of the surface film layer (35), and the surface film layer (35) and the supporting layer (36) are both made of resin materials.

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