JPH0611767A - Projector device - Google Patents

Abstract

PURPOSE:To miniaturize a projector device by enlarging a projected image in a short distance. CONSTITUTION:The image from a projecting means 1 is reflected by using a convex mirror 2 and projected on a screen 3. By using the convex mirror 2, the image is largely enlarged in a short distance, so that the projector device is miniaturized. By making the use of the principle that an image is largely enlarged in a short distance by a convex mirror, an accessory obtained by arranging the mirror 2 and the screen 3 in one housing is prepared and attached to the position of the optical path of the projector device, so that a small-sized and easy rear type projector device is obtained. By providing the turnable convex mirror 2 in a front projection type projector device and the screen 3 on the upper surface of the device, the device becomes an ordinary front projection type projector device when the mirror 2 is tilted. When the mirror 2 is raised, the image from the projecting means is reflected by the mirror 2 and projected on the screen 3 on the upper surface of the device, and then the device becomes a small-sized image monitor device.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a projector device.

[0002]

2. Description of the Related Art With the development of liquid crystal projectors and the like, in recent years, a projector device has been widely used in which an image is once projected on a screen and the screen is viewed to appreciate the image.

By the way, the projector device has a drawback that it becomes large in size because there is a distance between the projection means for projecting an image and the screen, and various means for solving this problem have been considered.

For example, there is a structure in which a conversion lens (magnifying lens) is arranged in front of the projection means and the projection means projects a short distance on the screen.

Further, as shown in FIG. 5, there is a structure in which a plane mirror 51 is arranged so that an image projected from the projection means 52 is reflected by the plane mirror 51 and projected onto a screen 53.

[0006]

However, when the conversion lens is used, the conversion lens is arranged ahead of the projection lens of the projection means, that is, the image once enlarged to some extent by the projection lens,
Since the conversion lens further enlarges the diameter of the conversion lens, the lens becomes high and the projector device becomes expensive, and the lens diameter becomes large, so that the device becomes large. .

When the image is reflected by the plane mirror 51, the problem that the projector device becomes expensive is solved, but it is difficult to greatly enlarge the image projected from the projection means 52 in a short distance. There is a problem that the projector device cannot be downsized.

SUMMARY OF THE INVENTION An object of the present invention is to provide a projector device which can inexpensively enlarge an image projected from a projecting means in a short distance and can downsize the projector device. Another object of the present invention is to provide a small-sized projector device accessory that uses the principle of enlarging an image projected from the above-mentioned projection means to a large extent in a short distance.

[0009]

In order to achieve the above object, a projector device of the present invention comprises a projection means for projecting an image, a convex mirror for reflecting the image from the projection means, and an image reflected by the convex mirror. And a receiving screen.

Further, in the above, the projection means, the convex mirror and the screen are arranged in one housing with a distance therebetween, the projection means is a front projection type projection means, and the screen is the convex mirror. The rear projector device may be characterized in that the image reflected by is received from the back surface of the screen.

Further, in this rear projector device, the convex mirror is mounted in the housing so as to be rotatable between a position for reflecting an image from the projection means and a position for not reflecting the image, and the convex mirror is attached to the housing. When is rotated to a position where the image from the projection means is not reflected, a window portion to the outside of the image from the projection means may be provided at the optical path position of the image from the projection means.

In the accessory of the projector device of the present invention, the convex mirror and the screen are arranged in one housing with the distance between them arranged, and the housing is used as a front projection type projector and its optical path. Install in position and convert to a rear projector device.

In these, it is preferable that the convex mirror has a base body made of resin and a metal plating applied to the surface thereof.

[0014]

Since the image projected from the projection means is reflected by the convex mirror and projected on the screen, that is, when the image is reflected by the convex mirror, the image is greatly enlarged, so that the distance between the projection means and the screen can be shortened.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described in detail below with reference to the drawings.

First, a first embodiment will be described with reference to FIG.

This embodiment is a rear projector device, in which the projection means 1, the convex mirror 2 and the screen 3 are arranged in one housing with a fixed distance therebetween (the housing is not shown). The projection means 1 is a front projection type projection means, and a projection lens 1a is provided in the front part thereof.
The image emitted from the image emission unit (not shown) is the projection lens 1a.
The angle of view can be expanded to some extent. A liquid crystal projector is used for the image launching unit. Then, the image passing through the projection lens 1a is reflected by the convex mirror 2 and the angle of view is greatly expanded, and is projected onto the screen 3. The screen 3 is a transmissive screen, receives an image from the back surface, and views the image displayed on the screen 3 from the front surface (right side in FIG. 1). The projection means 1, the convex mirror 2 and the screen 3 are
A distance between them is fixed and fixed in the housing, and an image is accurately projected on the screen 3.
Since there is a certain relationship between these, for example,
The curvature of the convex mirror 2 is such that when the size of the screen 3, the curvature of the projection lens 1a of the projection unit, the distance between the projection unit 1 and the convex mirror 2 and the distance between the convex mirror 2 and the screen 3 are determined, Calculate based on the value. The convex mirror 2 is formed by molding the substrate by injection molding of resin and then plating the convex side surface with metal, and therefore can be manufactured at extremely low cost.

When a front projection type image is emitted from the projection means 1, the image is inverted by being reflected by the convex mirror 2 and the inverted image is projected on the screen 3 from the rear side, so that the image is finally seen from the front side of the screen. And the image does not flip,
You can get the correct image.

The present embodiment is constructed in this way, and in order to obtain a screen image of the same size as compared with the case of reflecting by a plane mirror, the distance between the convex mirror 2 and the screen 3 and the projection means 1 and the convex mirror. The distance between the rear projector device and the rear projector device can be greatly reduced, and the rear projector device can be extremely miniaturized.

Next, a second embodiment of the present invention will be described with reference to FIG.

A first projection lens 22 and a second projection lens 23 of the projection means are provided in the housing 21, and an image emitted from an image emission section (not shown) of the projection means is the first projection lens. Through the projection lens 22 and the second projection lens 23,
An image is projected on a front projection type screen (not shown). The second projection lens 23 serves as a window to the outside of the image emitted from the image emission unit. Next, between the first projection lens 22 and the second projection lens 23, the convex mirror 24 can be rotated by the rotating portion 24a between the position where the image from the projection means is reflected and the position where it is not reflected. It is attached to. When the image from the projection means is reflected by the convex mirror 24, a monitor screen 25 is provided on the optical path integrally with the housing 21 with a slight upward angle.

The projector device 26 of this embodiment having such a configuration can be used as a normal front projection type projector device when the convex mirror 24 is tilted, and when the convex mirror 24 is raised, the projector screen 26 is displayed on the monitor screen 25. It can be projected from the back and used as a monitor device for images. Since a convex mirror is used for reflection, a large screen image can be obtained with a small convex mirror.

Next, a third embodiment of the present invention will be described with reference to FIG.

In this embodiment, a handheld type front projection type projector device 31 is provided with an accessory 32 in which a convex mirror (not shown) and a screen 32b are attached to one housing 32a at a predetermined distance on the optical path position thereof. It is detachably attached. It can be used as a normal front projection type projector device without the accessory 32 attached, and can be used as a rear type simple projector device with the accessory 32 attached. Since the convex mirror is used, the accessory 32 can be downsized.

Next, a fourth embodiment of the present invention will be described with reference to FIG.

In this embodiment, a front projection type projector device is constructed by using a convex mirror. The projector device 41 has an image inverting function, and in the case of the present embodiment, the projector device 41 is used as a rear type projector device. Then, the image short-distance enlarging device 42 in which the convex mirror portion 42a is formed and the mounting portion 42b of the projector device 41 is provided is prepared. The screen 43 is a front projection screen. Screen 4
3, the image short-distance enlarging device 42 is arranged at a predetermined position, and the projector device 41 is placed on the placing portion 42b of the image short-distance enlarging device 42. When the image is shot, the inverted image from the projector device 41 is
Since it is further inverted by the convex mirror portion 42a, an image that is not inverted is eventually projected on the screen 43.

INDUSTRIAL APPLICABILITY The present invention can be widely used from large projection TVs to accessories for handy projectors.

[0028]

As described above, according to the present invention, since the image is reflected by using the convex mirror, the image can be greatly enlarged in a short distance and the projector device can be downsized. Further, since the convex mirror can be manufactured lighter and cheaper than the conversion lens, the projector device can be lightened and the cost can be reduced.

Further, by utilizing the principle of enlarging an image in a short distance by using a convex mirror, an accessory in which a convex mirror and a screen are attached to one housing is prepared and attached to the optical path position of the projector device. By providing a rotatable convex mirror and a screen in the projector device to configure the monitor device, it is possible to give the projector device various functions in a small installation space.

[Brief description of drawings]

FIG. 1 is a conceptual explanatory diagram of a rear projector device of the present invention.

FIG. 2 is an explanatory diagram of a front projection type projector configured to obtain a monitor image by using a principle of enlarging an image projected from a projection unit using a convex mirror in a short distance, and FIG. Is an external perspective view, and FIG. 1B is a longitudinal sectional view in the longitudinal direction of FIG.

FIG. 3 is an external perspective view showing a state in which an accessory in which a convex mirror and a screen are arranged in one housing of the present invention is attached to a front projection type projector.

FIG. 4 is an explanatory diagram of a front projection type projector device of the present invention.

FIG. 5 is a conceptual explanatory diagram of a conventional rear projector device.

[Explanation of symbols]

 1 Projection Means 2, 24, 42a Convex Mirror 3, 25, 32b, 43 Screen 21, 32a Housing 23 Window

Claims (5)

[Claims] 1. A projector device comprising: a projection means for projecting an image, a convex mirror for reflecting the image from the projection means, and a screen for receiving the image reflected by the convex mirror. 2. The projection means, the convex mirror, and the screen according to claim 1, wherein the projection means, the convex mirror, and the screen are arranged in one housing with a distance therebetween, and the projection means is a front projection type projection means. The rear projector device, wherein the screen receives an image reflected by the convex mirror from a back surface of the screen. 3. The convex mirror according to claim 2, wherein the convex mirror is rotatable in the housing between a position where an image from the projection means is reflected and a position where the image is not reflected.
When the convex mirror is attached to the housing and is rotated to a position where the image from the projecting means is not reflected, the image is projected from the projecting means to the outside of the image on the optical path position of the image from the projecting means. A rear projector device having a window portion. 4. A rear projector device in which a convex mirror and a screen are arranged in one housing with a distance defined therebetween, and the housing is attached to a front projection type projector at the optical path position thereof. A projector device accessory characterized by being converted into. 5. A projector device or an accessory for a projector device according to claim 1, wherein the convex mirror has a base body made of resin and metal plating applied to the surface of the base body.