KR20050098095A - A dual projection screen - Google Patents

Abstract

Provided is a double-sided projection screen comprising a surface layer composed of a plurality of layers, a substrate layer, and a back layer composed of a plurality of layers.

The surface layer includes a thermoplastic resin layer, and the back layer includes a photoluminescent agent and a matting agent, and is a double-sided projection screen which may be formed in a box type or a roll type.

Since the double-sided projection screen manufactured by the present invention includes a photoluminescent agent, a matting agent, and a thermoplastic resin layer, the image beam irradiated from the projector can be uniformly collected, so that the beam passing through the transparent and opaque thermoplastic resin layer is 1 By the way, a clear image is formed on the front of the screen, and the beam passing through the substrate layer forms the same image as the image on the front while increasing luminance at the rear of the screen while passing through the photoluminescent agent and the quencher. These screens simultaneously produce clear and clear image quality on both sides of the screen regardless of the brightness of the light source in the room.

Description

A dual projection screen {A dual projection screen}

The present invention relates to a double-sided projection screen and a method for manufacturing the same, and more particularly, to a double-sided projection screen and a method of manufacturing the same that can be seen at the same time on both sides of the screen of a clear image quality regardless of the surrounding brightness.

BACKGROUND ART Multimedia, which is an information transmission system, is widely used, and an image display device that displays an image by converting an electrical signal into a signal of light is used.

Such an image display apparatus can be classified into a direct view type and a projection type, each of which has advantages and disadvantages.

For example, the cathode ray tube represented by the direct view type has a limitation in increasing the size of the screen, whereas the liquid crystal display device represented by the projection type has a high light loss and a thin film transistor is formed for each pixel. have.

However, companies use the image display device as a means of delivering their product information to consumers. This is because it is thought that the effect of stimulating consumers by creating a unique atmosphere by emphasizing the image of the company and products through sight and hearing.

The desire of these companies has increased, and projectors have been developed using Actuated Mirror Arrays. Such a projector needs a screen for displaying an image.

Such a permeable screen projects an image onto the back of the screen in a direction opposite to the front projection screen where the image is projected onto the screen in the same direction as the viewer sees, and the viewer viewing the image on the front of the screen. There is a rear projection screen method.

Since the front projection screen passes through the light projected from the lens of the projector and the image is displayed by the reflected light, the front projection screen is affected by the ambient light, thereby limiting the display of the bright image.

The rear projection screen developed to overcome this problem can display a uniform image over the entire screen, and the contrast can be adjusted to display images and characters clearly.

1 is a view showing an example of a conventional rear projection screen, a Fresnel lens (2), a horizontal viewing angle of a front viewer, which is made to uniformly collect a variety of images projected from the rear projector (1) to the viewer It is shown that it consists of a vertical lenticular lens (4) to secure a 180 degree, and a diffusion agent (3) for vertically distributing and diffusing the projected image.

FIG. 2 is a view showing an example of another conventional rear projection screen, in which first and second sheets 5 and 6 and first sheets are arranged in a traveling direction of an image beam emitted from a lens of the rear projector 1; FIG. The screen consists of a Fresnel lens (2) formed in (5), a lenticular lens (4) formed in the second sheet (6), and a blastlife (7) that absorbs external light and improves contrast.

Since the screen configured as described above has a Fresnel lens and a lenticular lens as an optical system, not only manufacturing technology is difficult but also manufacturing cost of the screen is high, and in particular, an image can be displayed only on one side of the screen.

3 shows another conventional rear projection screen, which improves the problem of the rear projection screen by using the base sheet 7 as a transparent material, and attaches a transparent material bead 12 to one side of the sheet. Since the Fresnel sheet 2 'formed with the Fresnel lens 2 is adhered to one side of the bead layer, the manufacturing process is relatively simple. However, since the tempered glass or the transparent acrylic plate is used as the base sheet, it is radiated from the projector. It is difficult to display a clear image by scattering natural light while passing through the sheet, and it is still possible to use only one side of the screen.

Meanwhile, Korean Patent Laid-Open Publication No. 2002-0051181 discloses a transmissive double-sided projection screen.

The screen of this patent also uses a transparent plate-like glass substrate, so it cannot fundamentally solve the problem of light scattering.

SUMMARY OF THE INVENTION The present invention has been invented to solve the problems of the prior art described above, and an object of the present invention is to display a clear image regardless of the brightness of the surroundings and to display a picture on both sides of the screen simultaneously. And to provide a method of manufacturing the same.

In order to realize the object of the present invention, the screen provided by the present invention provides a double-sided projection screen composed of a surface layer composed of a plurality of layers, a substrate layer, and a back layer composed of a plurality of layers.

The surface layer includes a thermoplastic resin layer, and the back layer includes a photoluminescent agent and a matting agent, and is a double-sided projection screen which may be formed in a box type or a roll type.

Since the double-sided projection screen manufactured by the present invention includes a photoluminescent agent, a matting agent, and a thermoplastic resin layer, the image beam irradiated from the projector can be uniformly collected, so that the beam passing through the transparent and opaque thermoplastic resin layer is 1 By the way, a clear image is formed on the front of the screen, and the beam passing through the substrate layer forms the same image as the image on the front while increasing luminance at the rear of the screen while passing through the photoluminescent agent and the quencher. These screens simultaneously produce clear and clear image quality on both sides of the screen regardless of the brightness of the light source in the room.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Fig. 4, the double-sided projection screen according to the present invention is provided with a base layer 100, a surface layer 200 provided on one side of the base layer 100, and displaying one side image, and this surface layer ( And a backing layer 300 provided at a position opposite to the backing 200 to display an image on the other side of the base layer 100.

The surface layer 200 is formed of a thermoplastic resin layer, and the back layer 300 is formed of a photosensitive agent and a matting agent layer.

As shown in the drawing, the base layer 100 may display an image on one surface by a surface layer 200 made of a corona treatment layer 20a, a primer treatment layer 20b, and a thermoplastic resin layer 20c. have.

The base layer 100 may be a polyethylene terephthalate film or an aromatic polypropylene film, a rigid translucent polyvinyl chloride film, or the like.

Most preferred among these is the most widely used linear polyester, which is polyethylene terephthalate having excellent transparency, heat resistance, durability, chemical resistance, and the like. This feature is desirable given that the present invention relates to a permeable screen.

The thickness of the film used as the base material layer 100 may be in the range of 15 μm to 200 μm. If the film has a thickness of less than this range, the elongation of the polyethylene terephthalate film is high and is increased due to tension during lamination, and thus the left and right thickness variations are varied. It is not possible to secure the viewing angle of the upper, lower, left, right, and having a thickness of more than the above range may leave a broken line when bending the product due to the low flexibility of the polyethylene terephthalate film.

Polarity is imparted by forming the corona treatment layer 20a on both the front and back surfaces of the base layer 100 by corona treatment. Since this corona treatment can be performed by a conventional method, detailed description is abbreviate | omitted.

Then, a primer treatment layer 20b is formed on the corona treatment layer 20a. The primer treatment layer is performed for smooth application of the thermoplastic resin layer 20c provided on the treatment layer.

The primer forming the primer treatment layer 20b is a urethane acrylate-based resin primer or ethylene vinyl acetate-based resin primer is provided in a suitable thickness, for example, 0.1㎛-10㎛.

The thermoplastic resin layer 20c is provided on the primer-coated base layer so that the image beam emitted from the projector lens can be displayed on the front surface.

The thermoplastic resin layer 20c may be formed of an ethylene vinyl acetate resin having a thickness of 10 μm to 100 μm.

Although the ethylene vinyl acetate resin is in an opaque state, the light transmittance is good so that the light of the beam projector can be transmitted well to display another image on the back of the screen as well as to display an image on the surface of the screen. Have

This ethylene vinyl acetate resin solution can be smoothly produced when a vinyl acetate content of 40 wt% or more is used.

If the above ratio of the resin solution is 40% by weight or more, the flowability of the solution is so good that uniform application is difficult when applying with an extruder.

As shown in FIG. 5, the back layer 300 includes a corona treatment layer 30a, a photoluminescent coating layer 30b, and a quencher coating layer 30c, and is provided on the back surface of the base layer 100.

The back layer is a screen for displaying another image, and the photoluminescent pigment is coated on the back surface of the film of the corona-treated substrate layer 100 so as to quickly absorb the light emitted from the projector and exhibit strong luminance. Shape 30a).

In the present invention, the photoluminescent agent is prepared by mixing any one or one or more compounds of a zinc compound, an alkali earth aluminate, an alkali earth silicate, a sulfide or an oxide with a medium as a pigment, and then It is provided by a spray coating method. In the present embodiment, the medium is an acrylic resin solution.

The photoluminescent pigments may be used in combination of one or more kinds in consideration of emission color and luminance.

The mixture of the photoluminescent pigment and the medium shows the best efficiency when the ratio is 1: 1. If greater than or less than the weight ratio, there is a disadvantage that the brightness is lowered.

The photosensitive agent coating layer 30b thus prepared may be coated with a thickness of 20 μm-40 μm. If the thickness is less than the thickness range, light absorption and luminous efficiency is lowered, so that it is difficult to display a bright image. If the photosensitive agent is coated over the thickness range, too much light is repeatedly absorbed and emitted, so that a clear image cannot be seen.

The matting agent coating layer 30c applied to the surface of the photosensitive agent coating layer 30b thus formed is provided to prevent glare and to secure the viewing angle as much as possible.

The matting agent coating layer is any one of a liquid resin solution of a polyurethane resin, an acrylic resin, a polyvinyl acetate resin, and an ethylene vinyl acetate, and silica, titanium, calcium carbonate, barium sulfate, zinc oxide, and aluminum hydroxide of fine powder. One fine powder is obtained by mixing and spray coating in a 1: 1 ratio.

At this time, the thickness of the coating layer is preferably coated in the range 20㎛-40㎛ to display a clear image. When the coating is in the thickness less than the above range, the diffuse reflection effect of the light is reduced, and when the coating is in the thickness above the range is inhibited the distribution and diffusion of light.

The matting agent coating layer (30c) is to be emitted as the light emitted from the projector passes through the photoluminescent agent so that the emitted light can be irregularly dispersed. This is because the fine powders of the matting agent are irregularly applied so that the dispersion of light is controlled when passing through these powders, thereby reducing the reflectance, and the contrast is improved. Also, the light is reflected in all directions by the diffuse reflection, thereby securing the viewing angle. Will be.

6 is a partially enlarged cross-sectional view of the double-sided projection screen obtained through the above processes. As can be seen here, a surface layer 200 made of a corona treatment layer 20a, a primer coati layer 20b, and a thermoplastic resin layer 20c is formed on one side of the base layer 100, and the substrate corresponds to the surface layer. On the other side of the layer 100, a backing layer 300 made of a corona treatment layer 30a, a photosensitive agent coating layer 30b, and a matting agent coating layer 30c is made.

The screen manufactured as described above is cut into various shapes, and then a frame is completed to form a box type or roll type screen.

As described above, the double-sided projection screen according to the present invention uniformly collects the image beams emitted from the projector and passes the transparent and opaque thermoplastic resin layer to display a clear image on one side of the screen, and at the same time luminous the image. By passing through the coating layer and the matting agent, the image is displayed to secure the viewing angle while increasing the rear brightness of the screen. Therefore, the image can be displayed simultaneously on both sides of the screen regardless of the brightness of the indoor and outdoor light sources. Can be.

1 is a view for explaining a conventional rear projection screen.

2 is a view for explaining another conventional rear projection screen.

3 is a view for explaining another conventional rear projection screen.

4 is a cross-sectional view of a surface layer including a base layer according to the present invention.

5 is a cross-sectional view of the back layer including the base layer according to the present invention.

Figure 6 is a cross sectional view of a double-sided projection screen in accordance with the present invention.

Claims (14)

Substrate layer on the film with good transparency; A surface layer displaying an image beam emitted from a projector on one side of the base layer; And a backing layer provided on the other side of the substrate layer at a position corresponding to the surface layer to display an image emitted from the projector and passing through the surface layer. The double-sided projection screen according to claim 1, wherein the base layer is any one of a polyethylene terephthalate film, a directional polypropylene film, and a rigid translucent polyvinyl chloride film. The double-sided projection screen of claim 1, wherein the surface layer is coated with a thermoplastic resin layer so that an image beam emitted from the projector can be displayed. The double-sided projection screen according to claim 3, wherein the thermoplastic resin layer is an opaque, high permeability ethylene vinyl acetate resin layer. The two-sided projection screen of claim 1, wherein the substrate layer surface and back surface are corona treated and the surface corona treated layer is coated with a primer. The double-sided projection screen according to claim 5, wherein the primer is a urethane acrylic resin primer or an ethylene vinyl acetate resin primer. The double-sided projection screen of claim 1, wherein the back layer is provided with a photosensitive agent coating layer for quickly absorbing an image beam passing through the surface layer and increasing brightness. The double-sided projection screen of claim 7, wherein the photoluminescent coating layer is coated with a mixture of medium and photoluminescent pigment. The double-sided projection screen according to claim 8, wherein the phosphorescent pigment is selected from zinc compounds, alkaline earth aluminates, alkaline earth silicates, sulfides and oxides. The double-sided projection screen according to claim 8, wherein the medium is an acrylic resin solution. The double-sided projection screen of claim 1, wherein the back layer further comprises a matting agent coating layer capable of reducing reflectance of light and securing a viewing angle through diffused reflection. 12. The double-sided projection screen of claim 11, wherein the matting agent coating layer is coated with any one of medium and fine powder of silica, titanium, barium sulfate, zinc oxide, aluminum hydroxide, and calcium carbonate. The double-sided projection screen of claim 12, wherein the medium is one of a polyurethane resin solution, an acrylic resin solution, a polyvinyl acetate resin solution, and an ethylenevinyl acetate solution. Film-like base layer having good permeability; A corona treatment layer formed on one side of the base layer; A primer coating layer formed on the corona treatment layer; A thermoplastic resin layer formed on the primer coating layer; Another corona treatment layer formed on the other side of the substrate layer; A photosensitive agent coating layer formed on the corona treatment layer; Double-sided projection screen comprising a matting agent coating layer formed on the photosensitive agent coating layer.