KR20020010380A - Prism film - Google Patents

Abstract

PURPOSE: Provided is a prism film with self and angle reflection performed simultaneously which displays self-reflected light and angle-reflected light on the surface of a film when radiating light so that it helps to see a light board from a remote place. CONSTITUTION: The prism film with self and angle reflection performed simultaneously comprises the parts of: a synthetic resin class film(1) which displays color paints in print or painting; a prism layer(2) which forms a self reflection side(2a) with single side structure of a triangular prism on the reverse side of the film and an angle reflection side(2b) with uneven section structure of hologram to display in letter, number and figure; and an aluminium reflection layer(3) which deposits the entire self and angle reflection layer of the prism layer.

Description

Prism film which causes retroreflection and angle reflection at the same time {Prism film}

The present invention relates to a prism film that retroreflects light and angles reflection at the same time.

In general, road signs indicating the destination of the road and its direction are installed in various places on the roadsides of various roads, and road bottles and reflection indicators that are brightly reflected by the headlights of driving vehicles on the center line, lanes, and curved roads of the road. Is installed.

In the case of road signs installed on the road as described above, the driver of the vehicle driving on the road can easily grasp the destination and direction indicated on the road signs, so that the lane change or the direction change in advance without any inconvenience to the traffic of other vehicles. It is to make it easy to find the destination where you want to go, especially at night so that it is reflected by the headlights of the driving vehicle so that the driver can easily read the destination and the direction indicated on the road sign at a long distance. We are considerate to be able.

In addition, the above road bottles and reflection lights are mainly reflected by the headlights of the vehicle at night so that the driver can easily grasp the center line and lane markings, and is in charge of informing the driver in advance that the road is curved. .

Conventional road signs use luminous paint to indicate the destination and direction of travel so that the road signs can be brightly reflected by the headlights of vehicles at night, and in the case of road bottles or reflecting lights, light is transmitted. The triangular prism structure is formed on the inner surface of the synthetic resin reflector so that the headlights of the vehicle are reflected brightly when the road bottles and the reflecting lights illuminate.

However, road signs marked with luminous paints as described above have a problem that it takes a lot of maintenance costs because the luminous paint discolors and the function of luminous paints is gradually lost as time passes and the luminous paint must be repainted at regular intervals. In the case of road bottles and reflecting lights, the triangular prism formed on the inner surface of the reflector has a retroreflective structure that reflects only brightly in the direction of the light. The driver is pointed out that the road bottle and the reflecting light is reflected brightly, but the problem is that the road bottle and the reflecting light are not reflected brightly to the driver of another vehicle driving in different lanes.

The present invention has been made in view of the above problems, and provides a prism film having a function of retroreflecting in a direction in which light shines and a function of so-called angle reflection reflecting in a direction deviated at a predetermined angle from a direction in which the light shines. When the prism film of the present invention is applied to a road sign installed on a road, a reflection lamp, a road bottle, etc., a vehicle driving on any one lane illuminates the above road sign, a reflection sign, a road bottle with a headlamp. In this case, the reflected light is reflected back to the vehicle and at the same time, the angle is reflected at different angles so that the lights of the above road signs, reflective signs, and road bottles can be brightly reflected to all drivers of the vehicles driving in different lanes. Therefore, it is possible to promote safe driving at night, and the prism film of the present invention is applied to the lighting signboard. If hayeoteul has to be brightly reflecting the light signboard in a wide angle range is to increase the installation effect of the illuminated signs.

The present invention as a means for achieving the above object,

A synthetic resin film in which colored pigments through which light is transmitted are marked by printing or painting;

A prism layer formed on the back surface of the film such that a retroreflective surface having a cross-sectional structure of a triangular prism and an angle reflecting surface having a concave-convex cross-sectional structure of a hologram are alternately formed to represent letters, numbers, and figures; And

An aluminum reflecting layer deposited over the retroreflective surface and the angle reflecting surface of the prism layer;

It is characterized by consisting of

In addition, the entire surface of the film on which the aluminum reflective layer is deposited is formed in a triangular prism cross-section, the entire surface of the film is characterized in that the cross-section is formed by the uneven cross-sectional structure of the hologram,

In addition, it is characterized in that the color of the light transmitted on the surface of the film to form letters, numbers, symbols and ground color.

1 and 2 are cross-sectional views of one embodiment of the present invention.

3 is a cross-sectional view of another embodiment of the present invention.

Figure 4 is a state of use applied to the road sign embodiment of the present invention.

※ Explanation of code for main part of drawing

1: film 2: prism layer

2a: retroreflective layer 2b: angle reflective layer

3: aluminum deposition layer 4: road sign

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are cross-sectional views of one embodiment of the present invention, Figure 3 is a cross-sectional view of another embodiment of the present invention, Figure 4 is a view showing a state of use applied to the road sign embodiment of the present invention,

Reference numeral 1 denotes a film, and the film 1 is transparent and colorless as a synthetic resin film through which light is transmitted.

The surface of the film (1) is formed as a smooth surface so as to transmit light as it is, while the back reflection surface (2a) having a cross-sectional structure of the triangular prism and the angle reflection surface (2b) having a concave-convex cross-sectional structure of the hologram ) Is composed of a prism layer 2 formed alternately.

As described above, the retroreflective surface 2a of the prism layer 2 formed on the back surface of the film 1 has a triangular prism-shaped cross-sectional structure formed in the size of tens or hundreds of microns or more, or several tens or more of them. The angle reflecting surface 2b of the prism layer 2 has a hologram-shaped concave-convex cross-sectional structure having a very small size of 1 to 5 microns up, down, left and right in number. 1, the angle reflecting surface 2b is formed between a triangular prism-shaped bone portion and a bone portion forming the retroreflective surface 2a, or as shown in the embodiment of FIG. Likewise, it may be formed between the triangular prism-shaped floor and the floor.

In addition, each of the retroreflective surface 2a and the angle reflective surface 2b of the prism layer 2 formed on the back surface of the film 1 as described above is processed with high precision by using a laser beam (LASER BEAM). In the case of the angle reflecting surface 2b, when processing using a laser beam, when the laser beam is reflected by the beam splitter and the wavelength reflected by the reflecting mirror, respectively, is reflected in a different angle direction and meets two wavelengths. It is formed to have a very small uneven cross-sectional structure inclined in a specific angle range by the interference of.

An aluminum deposition layer 3 reflecting light is deposited on the entire retroreflective surface 2a and angle reflective surface 2b constituting the prism layer 1.

Each of the retroreflective surface 2a and the angle reflective surface 2b of the prism layer 1 by the aluminum deposition layer 3 has a function of reflecting light.

That is, the aluminum vapor deposition 3 allows the retroreflective surface 2a of the prism layer 2 to have a so-called retroreflective function that reflects light back to 180 degrees, while the angle reflective surface 2b emits light 1. It shows the feature to have a so-called angle reflection function to be refracted and reflected within the angle range of FIGS.

In addition, as shown in the embodiment of FIG. 3, a retroreflective surface 2a having a cross-sectional structure of a triangular prism is formed on the entire rear surface of the film 1, and then an aluminum deposition layer 3 is formed on the retroreflective surface 2a. In addition, the whole surface of the said film 1 can also be formed as the angle reflection surface 2b which has the uneven cross-sectional structure of hologram.

On the other hand, when printing or painting letters, numbers, symbols, and the ground color using a pigment that transmits light on the surface of the film (1) smooth surface or the angle reflection surface (2b) of each embodiment of the film (1) The light irradiated from the front side is transmitted by letters, numbers, symbols and ground color of the colored pigment printed or marked on the surface thereof and reflected by the aluminum deposition layer 3, and also printed or marked on the surface of the film 1 The letters, numbers, symbols, and ground color of the colored pigments are brightly reflected by the retroreflective and angle-reflected reflected light on the retroreflective surface 2a and the angle reflective surface 2b forming the prism layer 2, And features that enable clear observation from a distance.

Referring to the operation of the present invention configured as described above is as follows.

1 and 2, when light is emitted from the surface of the film 1, the light is transmitted to the surface of the film 1, and then the aluminum deposition layer 3 deposited on the prism layer 2 is formed. In the case of the retroreflective surface 2a constituting the prism layer 2, the cross-sectional structure is formed in the shape of a triangular prism, and the light is returned to 180 degrees and retroreflected. In the case of (2b), the concave-convex cross-sectional structure diffracts light within an angle ranging from 1 degree to 45 degrees, thereby making angle reflection. Therefore, when the light shines in front of the film 1, it is observed that the reflected light retroreflected from the retroreflective surface 2a of the prism layer 2 formed on the rear surface is reflected brightly toward the direction in which the light is shining. It is possible to observe that the reflected light reflected from the angle reflecting surface (2b) of the prism layer (2) is reflected brightly toward the direction within the angle range of 1 degree to 45 degrees in the direction of the light shining Will be.

As an embodiment in which the film 1 having the retroreflective and angle reflecting functions as described above is applied to the road sign 4, the road sign installed on the 4 lane side which is a lower lane in the one-way road 4 as shown in FIG. 4. In the embodiment in which the aluminum deposition layer 3 deposited on the back side of the film 1 on the front side of the film 1 is bonded as the adhesive 5, a vehicle traveling on four lanes is driven by the headlights. When the headlights shine through, the surface of the film 1 transmits letters, numbers, symbols, and background colors indicated by printing or painting as colored pigments to the aluminum deposition layer 3 deposited on the prism layer 2. In this case, the reflected light reflected by the retroreflective surface 2a of the prism layer 2 is directed toward the vehicle that illuminates the road sign 4 with a headlamp, while the angle is reflected by the angle reflective surface 2b. Reflected reflected light Signs, for 4 example, the illuminating drive is different from the vehicle, it is toward the other vehicles running the car 1, 2, 3. That is, the driver of the four-lane vehicle illuminating the road sign 4 with the headlamps observes the reflected light retroreflected by the retroreflective surface 2a while the reflected light angled by the angle reflective surface 2a is Since it is reflected toward the 1,2,3 lanes, each driver of the vehicle traveling on the 1,2,3 lanes can observe the reflected light reflected by the angle reflecting surface 2b. In this case, 1,2 When the vehicle traveling in the third lane coincides with the angle reflection angle of the angle reflection surface 2b, the driver of the vehicle can observe that the reflected light reflected by the angle reflection surface 2b is brightly reflected. However, when the angle does not coincide with the angle reflection angle of the angle reflection surface 2b, the light is observed as a non-bright reflected light, and as the vehicle travels to the position corresponding to the angle reflection angle, the light is gradually reflected. Will be.

Therefore, as a colored pigment that transmits light to the surface of the film 1 adhered to the road sign 4, letters indicating the destination of the road marked by printing or painting, numbers indicating national roads and local roads, and directions Indicated by the arrow symbol and the ground color, the driver of all vehicles driving the retroreflected and angled reflected light by the retroreflective surface 2a and the angle reflective surface 2b constituting the prism layer 2 can be used. It is possible to observe brightly reflected state.

On the other hand, in the above embodiment, but the embodiment was formed by directly forming the retroreflective surface (2a) and the angle reflecting surface (2b) that forms the prism layer (2) on the back surface of the film (1), An ultraviolet curable resin or a thermosetting resin may be coated on the back surface of the film 1 and the prism layer 2 may be formed thereon.

Next, the illustrated example of FIG. 3 forms a retroreflective surface 2a having a triangular prism cross-section on the entire rear surface of the film 1, and an angle having a holographic uneven cross-sectional structure on the entire surface of the film 1. In the embodiment in which the aluminum deposition layer 3 is formed on the retroreflective surface 2a after the reflective surface 2b is formed, the angle reflective surface 2b formed on the surface of the film 1 becomes minute unevenness. Since there is no aluminum deposition layer 3 that reflects the light, the light passes through the angle reflection surface 2b in a straight and refracted state, and then the aluminum deposition layer ( 3) is retroreflected by the deposited retroreflective surface (2a), wherein the light that is transmitted through the angle reflection surface (2b) linearly and the light that is refracted and transmitted through the retroreflected direction, respectively, and retroreflective Reflected light hits the angle reflecting surface 2b again. The angle reflecting surface 2b formed on the surface of the film 1 by linearly reflected light and refracted and reflected light is linearly reflected toward the front of the film 1 as in the above-described embodiment. Since the reflected light and the reflected light reflected angles within the angle range of 1 degree to 45 degrees appear together, even when the embodiment is applied to the road sign 4, the headlight of the vehicle is directed toward the road sign 4. Not only the driver but also the driver of a vehicle driving in another lane can observe bright reflections of letters, numbers, symbols, and ground colors, which are marked by printing or painting, on the angle reflecting surface 2b forming the surface of the film 1. Will be.

According to the present invention as described above to form an angle reflection surface having a triangular prism-shaped cross-sectional structure and an angle reflection surface having a concave-convex cross-sectional structure of the hologram on the back surface of the transparent film and then the reflex reflection surface and the angle reflection surface As a means of depositing and forming an aluminum deposition layer on the prism layer, the angle reflection within the angle range of 1 degree to 45 degrees with respect to the reflected light and the direction of the light reflected back to the direction of light when the light shines from the surface of the film As the reflected light appears on the surface of the film, the light is reflected in the direction of the light by the retroreflected reflection, and the angle is reflected in the direction away from the angle by the reflection. It has the effect of making light observable brightly, so the film of the present invention When applied to a reflective sign indicating a curved road, when a vehicle driving in one lane illuminates the headlights, the driver of the vehicle as well as the driver of the vehicle driving in another lane are not displayed on the road sign or the reflective sign. By allowing the user to observe the bright reflections, the vehicle can be operated more safely, thereby providing an advantage of preventing safety accidents. Also, when the present invention is applied to a lighting signboard, the contents indicated on the lighting signboard are also in various directions. It is a useful invention that provides advantages such as allowing to observe from a distance.

Claims (3)

A synthetic resin film in which colored pigments through which light is transmitted are marked by printing or painting; A prism layer formed on the back surface of the film such that a retroreflective surface having a cross-sectional structure of a triangular prism and an angle reflecting surface having a concave-convex cross-sectional structure of a hologram are alternately formed to represent letters, numbers, and figures; And An aluminum reflecting layer deposited over the retroreflective surface and the angle reflecting surface of the prism layer; A prism film that causes retroreflection and angle reflection simultaneously. The method of claim 1, The prism causing the retroreflection and the angle reflection at the same time, characterized in that the cross-section is formed on the entire back surface of the film on which the aluminum reflective layer is deposited, and the uneven cross-sectional structure of the hologram is formed on the entire surface of the film. film. The method according to claim 1 or 2, A prism film that simultaneously generates reflex reflections and angle reflections, wherein letters, numbers, symbols, and ground colors are formed by colored light that is transmitted through the surface of the film.