FR2774481A1 - Filter for preventing edge misalignment in adjacent projected images - Google Patents

Abstract

The filter to prevent overlapping of the edges of two adjacent images has several plates (40) which are movably positioned in front of a projection lens (301). Each of the plates has a pointed end (42) which can be adjusted with respect to the periphery of the lens.

Description

METHOD AND DEVICE FOR ELIMINATING EDGES FROM TWO IMAGES
OF PROJECTION
The present invention relates to a device and method for eliminating overlapping edges of two adjacent projection images and, more particularly, to an improved device and method, which include a comb-type filter disposed in front of a lens. a projector, so as to produce a diffraction characteristic for adjusting the distribution of light over an area of overlapping edges between two projection images.

 In general, when a large projection image or a visual scene is to be projected on a screen, for example 20 meters by 20 meters, it is necessary that several projectors are arranged in appropriate positions, such so that all the projection images from the projectors can assemble a complete scene. These projection images are arranged to appear on a screen with a specific sequence, in other words, these projection images are arranged side by side. Referring to Figures 1 and 2, it can be seen that three projectors 10, 11, 12, for example, are used to project three respective projection images 100, 110, 120 onto a screen, each of the three projectors 10 , 11, 12 having three projection lenses 3. There will be two overlapping areas (10a 10b) which will be formed on the screen. The zone 10a is composed of a first limit part 101 coming from the projector 10 and a second limit part 111 coming from the projector 11; the area lOb is composed of the second limit part 111 and a third limit part 121. Consequently, the two areas lova, lOb, will be brighter than those on the three projection images 100, 110, 120. These areas 10a , lOb appear as two edges defined between any two adjacent images, and this seriously reduces the quality of the entire image on the screen. In addition, the edges could misguide the viewer when using it in a pilot imitation machine.

A conventional method for eliminating overlapping edges on the screen is to have at least one "edge reduction processing device" and to adjust the circuits from projectors to adjust the brightness of the projection images. However, the edge reduction processing device uses a complicated circuit and many expensive parts, so that the device has a high price which cannot be supplied by ordinary companies. In addition, such a device has good performance on a flat screen but not on a curved screen. When the image includes a bright area such as the sky, and a dark area such as the earth, overlapping areas, if they are in the sky area, will have a brighter area, and if they are in the land area, will present a darker area. This is commonly adjusted by adjusting a "gamma value" of the device by a computer. Generally speaking, there are 147,456 choices of "gamma value" to choose from and this definitely takes a long time.

 The present invention aims to provide an improved device and method for eliminating overlapping edges of two adjacent projection images to reduce and / or solve the problems mentioned above.

 In accordance with one aspect of the present invention, there is provided a device for eliminating overlapping edges of two adjacent projection images, said device comprising a plurality of plates which are adapted to be movably arranged in front of a projection lens, each of said plates having a pointed end which is adapted to be disposed movably relative to the periphery of said lens.

 It is an object of the present invention to provide a device which movably arranges several plates in front of a lens of a projector to produce diffractions around the plates, in order to eliminate overlapping edges of two projection images .

 It is another object of the present invention to provide a method for eliminating overlapping edges of two projection images.

 According to a particular characteristic of the device according to the present invention, a frame is adapted to be arranged in front of said lens and has two opposite sides, each of said two sides having a plurality of rails formed thereon, so that said plates are guided along said rails.

Advantageously, each of said two sides of said frame comprises two columns with a slot defined between said two columns, each of said columns having said rails extending from an internal side thereof.

The present invention also relates to a method for eliminating overlapping edges of two adjacent protective images, characterized in that it comprises the following steps
Step 1: several plates being adapted to be
arranged in front of a lens and relative to the
periphery of said lens
Step 2: said plates being adapted to be
displaced relative to said lens, such
so that diffraction occurs around
said plates; and
Step 3: the adjustment of said plates until a
desired gloss is achieved in said
overlapping edges.

 Each of said plates advantageously has a pointed end. Other objectives, advantages and new features of the invention will appear more clearly on reading the following detailed description given in conjunction with the accompanying drawings.

In these drawings - Figure 1 shows a view given by way of example
three classic projectors and a screen on
which two overlapping areas are formed
- Figure 2 shows a view given by way of example
three classic projection images and two
overlapping areas on the screen as shown
in Figure 1
- Figure 3 is a perspective view of a projector
which has three devices conforming to this
invention, each arranged in front of a lens of the
projector
- Figure 4 is an exploded view of the conforming device
to the present invention and the lens
- Figure 5 is a fragmentary view to show the
frame plates and rails
- Figure 6 is an elevational view of the end
before to show the device of this
invention
- Figure 7 is a view given by way of example for
show the plates that are adjusted when the
projector is in operation
- Figure 8 shows a block diagram for
describe the delta process present invention
- Figure 9 shows a view given by way of example
of three projectors each presenting the
the present invention and a screen on which two areas
overlapping are formed; and
- Figure 10 shows a view given as
example of three projection images and two
overlapping areas that are eliminated by the
device of the present invention.

If we refer to the drawings and first of all to
Figures 3 to 6, we can see that there is shown a projector 20 which, in general, three projection lenses 30, 31, 32, which respectively control the basic colors, red, green and blue, to be projected on a screen 60 as shown in Figure 9. A device according to the present invention generally comprises a frame 500 which is rectangular and fixedly connected to a tube 300 by a connector 501 with screws 502. The tube 300 has a lens 301 received therein, so that light will be projected onto the screen 60 through the lens 301. The frame 500 is disposed in front of the lens 301 and has two opposite sides. Each of the two sides has two columns 50 with a slot 51 defined between the two columns 50, each of the two columns 50 having a plurality of rails 52 extending from an interior side thereof. Several plates 40 each have a pointed end 42, and two ribs 41 extend respectively from two opposite sides of each of the plates 40 so that the two ribs 41 are supported and movably arranged between two opposite rails 52. The pointed ends 42 of the plates 40 each extend in an area of the lens 301 and are arranged to be displaceable relative to the periphery of the lens 301.

 Referring to Figure 7, it can be seen that when the projector 20 is turned on, light is emitted through the lens 301, and the light can be assumed to have a central part H and two limit parts H1. If we refer to Figures 9 and 10, we can see that an embodiment is taken to describe how the device works, three projectors 20, 21 and 22 each have three lenses 30, 31, 32, so that there will be three projection images 200, 210 and 220 represented on the screen 60. Two overlapping zones (211, 212), are formed respectively between the three images 200, 210 and 220, and each of the zones which overlap (211, 212) is formed by the overlapping parts H1.

 Referring to Figures 7 and 8, the plates 40 are moved towards the corresponding lens 301, so that a diffraction takes place around the plates 40. The diffraction reduces the brightness of the boundary parts H1, so that the brightness of the overlapping areas (211, 212) can be adjusted in this way. Therefore, an operator can adjust the plates 40 by pushing them toward the lens 301 or pulling them away from the lens 301, until a desired brightness is achieved in the overlapping areas (211, 212 ).

 Experience has shown that the device according to the present invention does not need highly trained or qualified people to operate, and its cost is much lower than that of the conventional device. In addition, the device works well on a curved screen.

 Although the invention has been explained in relation to its preferred embodiment, it should be understood that many other possible modifications and variations can be made without departing from the spirit and the scope of the invention. as claimed below.

Claims (5)

 1 - Device for eliminating overlapping edges (211, 212) from two adjacent projection images (200, 210, 220), characterized in that it comprises several plates (40) which are adapted to be arranged so movable in front of a projection lens (301), each of said plates (40) having a pointed end (42) which is adapted to be disposed movably relative to the periphery of said lens (301).  2 - Device according to claim 1, characterized in that a frame (500) is adapted to be disposed in front of said lens (301) and has two opposite sides, each of said two sides having a plurality of rails (52) formed on the latter, so that said plates (40) are guided along said rails (52).  3 - Device according to claim 2, characterized in that each of said two sides of said frame (500) comprises two columns (50) with a slot (51) defined between said two columns (50), each of said columns (50) having said rails (52) extending from an inner side thereof.  4 - Method for eliminating overlapping edges (211, 212) from two adjacent projection images (200, 210, 220), characterized in that it comprises the following steps Step 1: several plates (40) being adapted to be  arranged in front of a lens (301) and by  relative to the periphery of said lens (301); Step 2: said plates (40) being adapted to be  moved relative to said lens (301),  such that diffraction occurs around  said plates (40); and Step 3: the adjustment of said plates (40) until  that a desired gloss is achieved in  said overlapping edges (211, 212).  5 - Method according to claim 4, characterized in that each of said plates (40) has a pointed end (42).