KR100630936B1 - Apparatus For Distortion Correction In Projectors - Google Patents

Abstract

Disclosed is a light projection display device equipped with an image distortion correction device. The light projection display device includes a housing rotatably mounted on a front surface of a body of the light projection display device, mounted inside the housing, and having a wedge-shaped cross section including an optical axis, and refracting light projected from the body at a predetermined angle on the screen. Wedge-shaped lens that corrects image distortion by projecting, Rotating support for wedge-shaped lens, Support member for tilting the wedge-shaped lens in a forward and backward direction, and Fixing to fix the wedge-shaped lens inclined at a predetermined angle And an image distortion correction device composed of members.

Light Projection, Imaging, Distortion, Wedge Lens

Description

Apparatus For Distortion Correction In Projectors

1 is a schematic diagram showing displaying an image on a screen by a conventional light projection display.

Figure 2 is a schematic diagram showing displaying a conventional light projection display in a state inclined upward by a predetermined angle.

3 shows a distorted image displayed by a conventional projection display.

4 is a schematic diagram showing displaying an image on a screen by a light projection display of the present invention.

FIG. 5 is an enlarged view showing an enlarged portion "A" of FIG.

Fig. 6 is a sectional view showing that the wedge-shaped lens of the present invention is mounted on a light projection display.

FIG. 7 is an enlarged front view of portion “B” of FIG. 6; FIG.

FIG. 8 is a bottom view showing the portion “C” of FIG. 7;

* Explanation of symbols for main parts of the drawings

10: light projection display device 20: image distortion correction device

21: Wedge-shaped lens 22: Housing

The present invention relates to a light projection display device, and more particularly, to a light projection display device capable of correcting distortion of an image by mounting a wedge lens.

In general, an optical projection display device is an apparatus for generating an image by using an image display means such as an LCD or a polymer dispersed liquid crystal display panel, and magnifying and projecting the image onto a large screen using a projection lens.

Such a light projection display device has been developed in recent years because a large screen can be obtained. Depending on how the image is projected on the screen, it is divided into front projection type and rear projection type.

1 is a schematic view showing an image being projected onto a screen by such a light projection display device.

As shown, the light projection type display device 1 separates the light source 2 from which light is generated and the light generated from the light source 2 into P waves and S waves, and transmits P waves and reflects S waves. (PBS; Polarizing Beam Splitter; 4), a reflector 3 reflecting the S-waves reflected from the linear polarizing plate 4, a retarder 8 converting the S-waves reflected from the reflector 3 into P-waves, and an image. It generates an LCD 5, and a projection lens 6 for projecting the light of the linearly polarized light generated from the LCD 5 to the screen (7).

When the light projection display device 1 projects an image on the screen 7, the image is displayed on the front of the screen 7.

However, when the light-projection type display device 1 is used on a desk or the like, the image is displayed at the bottom of the desk, thereby preventing the user from recognizing the entire image.

In order to overcome this problem, as illustrated in FIGS. 2 and 3, when the light projection display device 1 is projected by being positioned upward by a predetermined angle θ, an image is distorted from the bottom to the top. Occurs.

That is, the distance between the images a1, a2, a3, a4 becomes larger from the lower to the upper direction. Thus, as a result, the top is longer than the bottom, and the image is keystoned. Therefore, there is a problem that can not watch the correct image.

Accordingly, an object of the present invention is to provide a light projection type display device that can obtain a clear image by correcting distortion of an image by mounting a wedge lens.

In order to achieve the above object of the present invention, the present invention is a light projection display device, a housing rotatably mounted on the front of the body of the light projection display device, mounted inside the housing, the cross section including the optical axis is wedge And wedge-shaped lens that corrects image distortion by refracting the light projected from the body to a predetermined angle, so that the wedge-shaped lens is tilted a predetermined angle in the front and rear directions. It provides a light-projection type display device comprising an image distortion correction device consisting of a support member for fixing and a fixing member for fixing the wedge-shaped lens inclined by a predetermined angle.

According to the present invention, the housing has a cylindrical shape and is rotatably coupled to a circular protrusion protruding from the front surface of the light projection display device.

The support member includes a circular frame surrounding the outer circumferential surface of the wedge-shaped lens and projections radially protruding at both ends of the circular frame to be coupled to a pair of engaging grooves formed on the inner circumferential surface of the housing, respectively, so that the wedge-shaped lens is centered on the projection. As it tilts forward and backward.

In addition, the upper part of the fixing member is integrally connected to the outer circumferential surface of the circular frame, the lower part of the fixing lever is projected to the outside of the housing through the guide hole formed in the axial direction at a predetermined position of the housing, and the lower end of the fixing lever And a handle fixedly fastenable.

In addition, the lower end of the fixed lever is formed with a male thread, and the inside of the handle is formed with a circular groove formed with a female thread on its inner circumferential surface, and the male thread is fastened to the female thread, and when the handle is rotated, the handle rotates in the axial direction of the fixed lever. Accordingly, the wedge-shaped lens can be fixed at a predetermined angle by moving up and down to contact and release the guide hole of the housing.

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

4 is a schematic diagram showing an image being projected onto a screen by such a light projection display device.

As shown, the light projection display device 10 separates the light source 12 from which light is generated, and the light generated from the light source 12 into P waves and S waves, and transmits P waves and reflects S waves. (PBS; Polarizing Beam Splitter 14), a reflector 13 reflecting the S-waves reflected from the linear polarizing plate 14, a phase difference plate 18 converting the S-waves reflected from the reflector 13 into P-waves, and an image. Projection lens 16 is mounted on the front surface of the LCD 15, the projection lens 16 for projecting the linearly polarized light generated from the LCD 15 on the screen 17, and the light projection display device 10 It is composed of an image distortion correction device 20 for correcting the distortion of the light emitted from the.

Light emitted through the projection lens 16 is incident on the wedge-shaped lens 21 of the image distortion correction device 20. Here, the wedge-shaped lens 21 is a lens having a wedge-shaped cross section including an optical axis. The light incident on the wedge-shaped lens 21 is thicker than the upper part of the wedge-shaped lens 21 because the lower part of the wedge-shaped lens 21 is higher than the angle θ₂ (Fig. 5) of the light incident downward. The angle of incident light θ₁; FIG. 5 is larger. That is, the light incident upwards is refracted at a larger angle. Therefore, the distortion of light is corrected.

This will be described in more detail with reference to FIG. 5. Light incident on the wedge-shaped lens 21 is refracted at a predetermined angle by Snell's law below, that is,

Sinθ

＝Ｎ

Sinθ

이다.Snell's Law = N

Sinθ

= N

Sinθ

to be.

Therefore, according to Snell's law, the light incident to the upper portion of the thin wedge-shaped lens 21 is projected below a predetermined distance from the projection point a1 when it is not refracted because the refraction angle θ₁ is large. (b1) is formed.

In addition, light incident on the middle portion of the wedge-shaped lens 21 is projected slightly below the conventional projection point a2 to form the second projection point b2. Since the refraction angle θ₂ is smaller than the refraction angle θ₁ of the light incident upward, the third projection point b3 is slightly above the conventional projection point a3. Will form.

Therefore, when the light projection type display device 10 is tilted upward by a predetermined angle, it is conventionally distorted in the upper direction. However, by mounting the wedge-shaped lens 21, the first and third projection points b1 and b3 become the second. It is refracted at a predetermined angle in the direction of the projection point b2. As a result, the distortion shape of the image projected on the screen 17 is corrected.

The wedge-shaped lens 21 is supported by the image distortion correction device 20 is rotated or tilted at a predetermined angle. 6, 7, and 8 will be described in more detail.

FIG. 6 is a cross-sectional view showing that the wedge-shaped lens of the present invention is mounted on a light projecting display, FIG. 7 is an enlarged front view of part “B” of FIG. 6, and FIG. 8 is part “C” of FIG. Bottom view showing

As shown, the image distortion correction device 20 is a housing 22 having a cylindrical shape mounted on the front of the light projection display device 10, mounted inside the housing 22 and tilted at a predetermined angle backwards and forwards. It consists of a wedge-shaped lens 21, and a fixing lever 24 capable of fixing the wedge-shaped lens 21 in a tilted state at a predetermined angle.

The housing 22 is rotatably mounted to the circular protrusion 11 protruding from the front surface of the light projection display device 10. Accordingly, the projection of light can be controlled by rotating the wedge-shaped lens 21 by rotating the housing 22 clockwise and counterclockwise along the first arrow direction 32.

Since the front surface of the wedge-shaped lens 21 is inclined at a predetermined angle, the thickness of the upper portion is made thicker than the thickness of the lower portion. The wedge-shaped lens 21 is fixed by the circular frame 23, the projections 26 are projected laterally at both ends thereof, the coupling groove formed on the inner surface of the housing 22 Respectively coupled to (27). Accordingly, the wedge-shaped lens 21 is rotatable a predetermined angle back and forth along the second arrow direction 31 about the protrusion 26.

The fixed lever 24 protrudes from the lower end of the circular frame 23. That is, the upper part of the fixing lever 24 is integrally mounted to the outer circumferential surface of the circular frame 23, and the lower part protrudes out of the housing 22 through the guide hole 28 formed in the housing 22. Then, the handle 25 is mounted to the lower end of the fixing lever 24 so as to be fastened.

The handle 25 has a circular groove 25a formed therein, and an internal thread is formed on the inner circumferential surface of the circular groove 25a. In addition, the outer circumferential surface 25b of the handle 25 is inclined at a predetermined angle to contact the inside of the guide hole 28 of the housing 22. The handle 25 is fastened to the male screw thread 24a formed at the lower end of the fixing lever 24. Accordingly, when the handle 25 is rotated, the handle 25 is fixed and released to the guide hole 28 of the housing 22 by moving up and down in the axial direction of the fixing lever 24.

In addition, when the fixing lever 24 rotates the handle 25 and moves downward along the axial direction of the fixing lever 24, the fixing lever 24 is movable in the second arrow direction 33 along the guide hole 28. Therefore, the wedge-shaped lens 21 can be tilted at a predetermined angle.

Hereinafter, the operation according to a preferred embodiment of the present invention in more detail.

4 to 8, when the image is projected onto the screen 17 using the light projection display device 10, light is first projected onto the screen 17. At this time, since the light passes through the wedge-shaped lens 21 and reaches the screen 17, the distortion of the image is prevented as described above.

However, when it is necessary to adjust such an image, the height of the image can be adjusted by appropriately manipulating the wedge-shaped lens 21. That is, the handle 25 is moved forward and backward along the guide hole 28 in the second arrow direction 33. At this time, the wedge-shaped lens 21 is inclined forward and backward. When the adjustment of the image on the screen 17 is completed by operating the wedge-shaped lens 21, it is fixed to the housing 22 by rotating the handle 25 in the direction of the arrow.

Alternatively, the image may be adjusted on the screen by rotating the housing along the first arrow direction 32.

As described above, the user can enjoy a clear image by operating the image distortion correction apparatus.

Therefore, the light projection display device according to the preferred embodiment of the present invention has an advantage that a clear image can be enjoyed by correcting the distortion of the image on the screen by mounting the image distortion correction device.                     

Since the present invention can be variously modified by those skilled in the art without departing from the scope of the claims claimed in the claims, the technical protection scope of the present invention is limited to the specific preferred embodiments described above It is not limited.

Claims (5)

In the light projection display device, A housing rotatably mounted on a front surface of the body of the light projection display device; A wedge-shaped lens mounted inside the housing and having a wedge-shaped cross section including an optical axis, and correcting distortion of an image by refracting light projected from the body at a predetermined angle to project on a screen; Support means for rotatably supporting the wedge-shaped lens such that the wedge-shaped lens is inclined at a predetermined angle in the front and rear directions; And And an image distortion correction device including a fixing means for fixing the wedge-shaped lens inclined by a predetermined angle. The display device of claim 1, wherein the housing has a cylindrical shape and is rotatably coupled to a circular protrusion protruding from a front surface of the light projection display device. According to claim 1, wherein the support means is a circular frame surrounding the outer circumferential surface of the wedge-shaped lens and the projections respectively radially protruding at both ends of the circular frame are respectively coupled to a pair of coupling grooves formed on the inner circumferential surface of the housing Including, the wedge-shaped lens is inclined forward, backward with respect to the projection, characterized in that the light projection display device. The fixing means of claim 3, wherein an upper portion of the fixing means is integrally connected to an outer circumferential surface of the circular frame, and a lower portion of the fixing means protrudes out of the housing through a guide hole axially formed at a predetermined position of the housing. And a handle fixedly fastened to a lower end of the fixing lever. According to claim 4, wherein the lower end of the fixed lever is formed with a male thread, the inside of the handle is formed with a circular groove formed with a female thread on the inner peripheral surface, the male thread is fastened to the female thread, the handle is rotated And the handle is fixed to the wedge-shaped lens at a predetermined angle by contacting and releasing the guide hole of the housing by moving the handle up and down along the axial direction of the fixing lever.

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