KR20130091821A - Portable double sided projection screen for streoscopic - Google Patents

Abstract

PURPOSE: A stereoscopic and double-sided portable screen is provided to selectively implement functions of a high-reflection screen, a stereoscopic screen, and a white mat screen as necessary using one screen with simply rotating the installation direction of a screen support. CONSTITUTION: A stereoscopic and double-sided portable screen includes a screen substrate (1), a reflective screen, a white mat screen, a supporting part, and a reflection angle adjusting unit. A front screen (2) and a rear screen (3) are respectively formed at the front and the rear side of the screen substrate. The reflective screen at one of the front or rear screen has a reflective layer and a surface protecting layer. The white mat screen is formed at the other of the front or rear screen. The supporting part is formed by connecting the screen substrate, a rotation support (4), and a support (5) through a folding line (4a). The supporting part is capable of rotating at 180° back and forth. The screen reflection angle adjusting unit has a magnet and a magnetic body.

Description

Portable Double Sided Projection Screen for Streoscopic}

The present invention relates to a screen structure that can be usefully used for a mini projector or a phone projector in which projector functions are combined. In particular, the present invention is a portable screen, and two different heterogeneous screen structures are configured in one screen structure. The other side of the silver stereoscopic screen relates to a portable stereo dual-sided screen characterized by a general screen structure.

Projectors that project stereoscopic images include shutter glasses and polarized glasses, depending on the type of glasses used. The image of the shutter-type stereoscopic projector is very dark because the brightness is less than 1/5, and the image of the stereoscopic projector of the polarized glasses type can be viewed by reflecting the polarization degree on the screen itself. It decreases to 1/10 below, and is very dark.

   Therefore, screen for stereoscopic image should use high reflective screen or 3D reflective screen with polarization reflection function.

    However, these reflective screens have the advantage of being able to be used in bright places due to their high brightness, while the viewing angle is small so that only one or two people can watch.

    On the other hand, the conventional white matte screen in which image light is diffused in all directions has a merit that many people can see because the brightness is dark but the viewing angle is wide in a dark room.

   Accordingly, the stereoscopic screen and the reflective screen are conventionally used. Each scattering screen had to be carried separately.

Patent application number KR 10-2006-0006110 Patent application number KR 20-2010-006972

The present invention has a heterogeneous screen having different configurations and functions on both sides of the screen in one screen structure in consideration of the problem point, and one side of the screen is provided with a reflective screen for stereoscopic images and the front and rear screens are installed. The screen mounting unit connected to the board rotates 180 degrees on both sides of the front and rear sides so that one of the front and rear double-sided screens can be selected and used. It proposes a portable three-sided double-sided screen configuration method with low production cost as a single-plate structure production method.

 The present invention constitutes a screen on both sides before and after the screen substrate, and one side of the screen constitutes a reflective screen having a stereoscopic image function or a reflective function.

   The other side forms a white mat screen.

   The stereoscopic screen comprises a reflective layer that can reflect polarization and a surface protection layer that can reflect polarization while maintaining polarization degree on the surface.

   It is folded under the double-sided screen board, and the screen base can be rotated 180 degrees in the front and rear directions.

    The left and right sides of the screen substrate are provided with a magnetic material or a squeegee structure at predetermined intervals so that the reflection angle of the reflective screen can be adjusted as the screen pedestal moves up and down.

In addition, it is possible to produce the components in a single process by dual configuration of the above components on the front and back of the single plate structure.

The present invention can be selected and used by simply rotating the installation direction of the screen pedestal in one screen, the high reflective screen, three-dimensional screen function and the white matte screen on one screen, as needed, both sides before and after the screen substrate in one screen structure.

   In addition, the screen has the front, rear left and right sides of the substrate with magnets, magnetic materials or squeaks.

Its structure makes it possible to automatically adjust the screen's reflection angle by adjusting only the proper screen angle.

In addition, by double-constituting the above components in a single form on the front and back side of the single plate structure, mass production is possible in a single process and manufacturing cost can be significantly reduced.

1 is an explanatory diagram in use of the present invention;
2 (a) is an explanatory diagram when carrying the present invention.
Figure 2 (b) is an explanatory diagram when using the present invention
Figure 3 (a) is an explanatory diagram of the front of the screen of the present invention
Figure 3 (b) is an explanatory diagram of the configuration of the back of the screen of the present invention
Figure 4 (a) is a diagram illustrating the use of a three-dimensional reflective screen
Figure 4 (b) is a diagram illustrating the use of the white mat screen
5 is a front and rear screen explanatory diagram of a screen substrate;
6A is an explanatory diagram of adjusting the screen reflection angle.
6B is an explanatory diagram of adjusting the screen reflection angle.

The present invention consists of a screen part 100 and a pedestal part 200 which rotates 180 degrees before and after and a reflection angle adjustment part for adjusting the reflection angle of the screen.

  Figure 3 (a) is a diagram illustrating the front configuration of the present invention and Figure 3 (b) is a diagram illustrating the back configuration of the present invention.

   As shown in FIGS. 3A and 3B, the screen part includes a screen substrate 1, a front screen 2, and a rear screen 3.

   The pedestal part 200 that is rotated 180 degrees is composed of a rotating support 4 and a support 5, a handle 6 connected to the support, and a magnet and magnetic structure provided at the symmetrical positions of the front and rear surfaces thereof.

   This will be described in detail according to the drawings.

   1, 2 (a), 2 (b), 3 (a), 3 (b), and 5, the present invention is provided on both sides of one screen substrate 1 before and after. Comprising a screen having different functions, and the structure of the support (5) is connected to the structure of the rotating support (4) and the handle (6) structure with a bent line (4a) between the components

     The front screen (2) of the front of the screen substrate (1) is a reflective screen composed of a transparent protective surface protective film () having a refractive index of less than 1.6 and a reflective layer (2a) on the surface to reflect the degree of polarization to the thin film structure such as plastic, metal, film The rear screen 3 on the back of the screen substrate 1 is composed of a scattering screen made of a white matte material having a large diffusion angle.

  When the refractive index of the screen surface is more than 1.65, the polarization degree is diffused, so stereoscopic image viewing becomes impossible.

That is, the polarized light is overlapped at the symmetric polarization angle to block and pass the image within 10%. Usually, the medium of the permeable material is 1.5.

  Therefore, if 10% of the refractive index 1.5 is 1.65 or more added, the degree of polarization collapses.

  Therefore, one of the two surfaces of the front screen 2 and the rear screen 3 has a reflective layer 2a by depositing or applying aluminum to the screen substrate surface 2C as shown in FIG. 5 and having a reflective car with a refractive index of less than 1.6 on the surface. And a reflective screen composed of a surface protective layer 2b coated with acrylic resin, vinyl chloride, or the like.

   In another embodiment, the surface protection layer 2b is formed on a metal surface having a white metal shape, such as aluminum itself or stainless steel, by a chemical treatment such as an oxide film, a pickling treatment, or the like to make a surface reflection.

  The reason for the direct reflection from the surface protective layer 2b having a refractive index of less than 1.6 as described above is that the stereoscopic image that is deflected by the polarizing plate and projected onto the screen must be reflected while the polarization angles of the left and right images are maintained as they are and projected from the projector. Since the left eye image and the right eye image are not mixed, the left image of the stereoscopic image can be separately viewed in the left eye of the polarized glasses and the right image in the right eye of the polarized glasses through polarized glasses.

   The front and rear screens 2 and 3 have a front left magnet 7a and a front right magnet 7b provided with a magnet in the form of a steel sheet or a tape having a magnetic body, and the rear screen 3 is surrounded by A magnetic body or a tape magnet is provided with a rear left magnet 8a and a rear right magnet 8b.

  The structure of the pedestal 100 is configured as follows.

The lower portion of the screen substrate 1 is connected to the bent line 4a which can be bent up and down in connection with the rotating support 4 structure, and the support 5 and the handle 6 are bent in the same manner as the bent line 4a. Connect and configure by.

   In addition, the handle 6, the upper portion of the support (5), the front of the left front magnetic body (9a) and the left front magnetic body (9b) constitutes the upper back of the handle (6) and the support (5) left rear magnetic body (10a) And the right rear side magnetic body 10b.

    The magnet and the magnetic substance (iron plate or the like) may be provided with their positions interchanged.

    This structure is a thin film structure when carrying as shown in (a) of FIG. 2, and the rotating support (4) structure is used on the back of the screen substrate (1) when the front screen (2) is used as shown in (b) of FIG. When the folding screen is used and the rear screen (3) is used, the rotation base (4) is rotated 180 degrees toward the front of the structure.

   Therefore, the rotational base 4, the support 5, and the handle 6, which is a part of the support, are rotated both directions 180 degrees before and after by the respective folding lines 4a. The back screen (3) can be selected and used.

   In addition, in adjusting the angle, as shown in FIGS. 6A and 6B, when adjusting the reflection angle of the front screen 2, the rear left magnet provided in the up and down direction around the rear screen 3 is provided. The reflection angle of the front screen (2) is adjusted while the left and right front magnetic bodies (9a, 9b) provided on the upper side of the handle (5) and the handle (6) are engaged by riding the right side (8a) and the rear right magnet (8b). Can be.

The reflection angle of the rear screen 3 is also the same as above, and the support 5 and the handle () on the front left and right magnets 7a and 7b provided in the left, right, up and down directions around the front screen 2. Left and right magnetic bodies (10a, 10b) provided at both ends of the left and right by the magnetic force can adjust the reflection angle of the rear screen (3).

 That is, as in 6 (a). The front screen 2 is tilted forward with the reflection angle forward and the left and right front screen 2 is tilted forward with the reflection angle

  As shown in 6 (b), when the left rear right magnets 8a and 8b are engaged with the left and right front magnetic bodies 9a and 9b, the front screen 2 is tilted backward.

  Therefore, the inclination angle of the screen substrate 1 can be adjusted to an appropriate reflection angle by the support 5.

  The reflection angle of the rear screen 3 can be adjusted by the same logic.

  In addition, as shown in Figure 3 (a) and Figure 3 (b) by constituting the components of the present invention on one substrate before and after the two-sided structure integrally, single production by a single process is possible,

In other words, it consists of the dual structure of the front and back of the components such as magnet, magnetic material, screen, etc. to enable a single process on a single substrate.

The following is an example of the configuration according to the embodiment of the screen.

(Example 1)

In the configuration of the screen substrate 1 as shown in FIG. 5, one of the front and rear screens 2 and 3 has a flat reflective screen having an aluminum reflecting layer of 2 or more reflectances on one side and a reflectance of less than 1 gain on the other side. Consists of a white matte screen.

  This embodiment can be used as a flat reflective screen when using a three-dimensional image projector, and a white matte screen can be used when viewing a normal image in the dark room.

(Example 2)

In the configuration of the screen substrate 1 as shown in FIG. 5, one surface of both front and rear screens 2 and 3 includes curved reflective screens that are bent in one direction of the left, right, or upper and lower directions with a reflectance of 2 or more, and the other surface. It consists of a white matte screen with a level of reflectance of 1 gain.

   This screen consists of a curved reflective screen that can watch more than 3 times brighter images than normal screens, and a white matte screen can be used for multiple viewing in the dark room.

(Example 3)

In the configuration of the screen substrate 1 as shown in Fig. 5, one of the front and rear screens 2 and 3 is composed of a spherical screen having a reflective surface on one surface thereof, and the surface is coated with a refractive index material having a refractive index of less than 1.5 to reflect polarization. Enable a white matte screen with a level of reflectance of 1 gain.

  An example of such an embodiment may be to view a stereoscopic image and 2D image of more than five times the brightness when projecting a three-dimensional polarizing projector image, and a white matte screen can be used when multiple views in the dark room.

(Example 4)

In the configuration of the screen substrate 1 as shown in Fig. 5, the front and rear screens 2 and 3 are formed of a reflective screen having an aluminum reflective layer having a reflectance of 2 or more on both sides, and a curved reflective screen of 3 or more on the other side of the screen. Consists of.

   In this embodiment, the 3D image and the 2D image can be viewed with an aluminum reflective layer in the dark room, and the curved reflective screen on the back can watch 2D and 3D or more with about three times or more brightness.

(Example 5)

In the configuration of the screen substrate 1 as shown in Fig. 5, one of the front and rear screens 2 and 3 has one surface composed of a planar reflective screen having two or more reflectances, and the other surface composed of a spherical screen having five or more reflectances and the front screen. In (2), the viewing angle is used for a wide reflection screen, and as for the rear screen (3), the viewing angle is narrow but the brightness can be used as a high brightness screen more than five times higher.

(Example 6)

In the configuration of the screen substrate 1 as shown in FIG. 5, one of the front and rear screens 2 and 3 has one surface composed of a contrast-oriented dark screen having a dark transparent layer formed on the surface of the reflective layer, and the other surface having a brightness-oriented reflective screen. Or a stereoscopic screen.

In this case, the brightness is dark on a dark screen, but you can watch high-contrast images. On the reflective screen, the contrast is low, but the brightness or the stereoscopic video can be viewed.

  As described above, the structure of the present invention is that two functions can be performed in one portable screen by configuring heterogeneous screens each having opposite or different functions on both sides before and after the screen substrate 1.

(Example 7)

As shown in Fig. 2a and 2b, the lower supporter 5 structure is made of a plastic material such as a plastic inner or urethane and the inner surface is made of a hard material of metal such as plastic or aluminum plate. .

In this configuration, the surface material of the soft material is composed of a variety of external design and the internal material of the hard material maintains the firmness of the pedestal (4) function.

The front, rear left and right seats described above, and the front, rear left and right magnetic bodies can all be replaced with a squeak structure to obtain the same result.

  Therefore, the present invention

As shown in FIG. 5, the front and rear surfaces of one screen substrate 1 are provided with screens having heterogeneous performances.

 One side is composed of a reflective screen that combines 3D images.

 The other side is a high contrast or white matte screen

 Under the structure, the base 4 and the support 5 which can be rotated 180 degrees are connected to each other.

Easy selection of front screen (2) and rear screen (3)

  You can adjust the reflection angle of the front and rear screens (2, 3) arbitrarily

As shown in Figure 3 (a) and Figure 3 (b), the present invention consists of the front and back of a single raw material is characterized in that the production process is simple and mass-produced with a single plate production can be produced at a low manufacturing cost Replaces two screen functions on one screen, making it easy to carry and easy to use

100: screen
1. Screen board
2. Front screen
3. Back screen
200: Stand
4. Swivel Base
4a.Bending line
5.support
6.Handle
7a.Front left magnet
7b.Front right side magnet
8a.Rear seat magnet
8b.Rear right side magnet
9a.Left front magnetic body
9b.Right front magnetic body
10a.Left back magnetic body
10b. Right back side magnetic body

Claims (8)

In the portable screen structure
Composed of the screen part 100 and the pedestal part (200)
A front screen 2 and a rear screen 3 composed of both front and rear surfaces of one screen substrate 1;
A reflective screen having a reflective layer 2a and a surface protective layer 2b formed on one of the front screen 2 and the rear screen 3;
A white mat screen configured on the other side;
The screen substrate (1), the support base (4) and the support (5) is composed of a fold line (4a) connected to each other, the support part 200 which can be rotated 180 degrees in the front and rear directions;
Portable three-dimensional double-sided screen, which comprises a screen reflection angle adjusting device equipped with a magnet and a magnetic material
The portable three-dimensional double-sided screen according to claim 1, wherein the reflection angle adjusting device is provided with a squeegee structure.
The flat reflective screen according to claim 1, further comprising a reflective layer (2a) and a surface protective layer (2b) formed on one of the front screen (2) and the rear screen (3).
Portable three-sided double-sided screen featuring one white mat screen on one side of the remaining screens
The curved reflective screen according to claim 1, further comprising a reflective layer (2a) and a surface protective layer (2b) formed on one of the front screen (2) and the rear screen (3).
Portable three-sided double-sided screen featuring one white mat screen on one side of the remaining screens
According to claim 1, wherein the front screen (2) and the rear screen (3)
Spherical Reflective Screen
Portable three-sided double-sided screen featuring one white mat screen on one side of the remaining screens
The flat reflective screen according to claim 1, further comprising a reflective layer (2a) and a surface protective layer (2b) formed on one of the front screen (2) and the rear screen (3).
Portable three-sided double-sided screen featuring one white mat screen on one side of the remaining screens
According to claim 1, wherein one of the front screen (2) and the rear screen (3) and the reflective screen and
Portable stereo dual sided screen characterized by having a high contrast screen with a dark surface layer on one side of the remaining screens
The method according to any one of claims 1 to 7, wherein the screen substrate structure, the front and back screen structure, the rotation base (4), the bend line (4a), and the support (5) structure are formed on both sides before and after a single substrate. Portable stereo dual sided screen

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