Real object projector

Abstract

A real object projector having a base, a control circuit installed in the base, and an image receiving apparatus installed on the base. The base is combined with a light source module, and between the light source module and the base are different movable connection relationships according to different designs. The light source module can have a transparent film clip with an identifying mark, and different transparent film clips have different marks. When projecting with the real object projector the steps are, firstly moving the image receiving apparatus to a suitable position according to the mark on the transparent film clip, then focusing the image receiving apparatus according to the transparent film clip, and finally pressing an image receiving key to automatically identify the kind of transparent film clip and magnify the projection image with the control circuit.

Description

BACKGROUND OF INVENTION

1. Field of the Invention

The invention relates to a real object projector, and more particularly, to a real object projector which is combined with a movable light source module and can project transparent films directly.

2. Description of the Prior Art

Projectors or projection tools are commonly used for displaying visual aids during presentations or conferences

FIG. 1 shows a conventional projector. An image apparatus 12 is installed on a base 10 , and the image apparatus 12 includes an arm 14 and a lens 16 . When projecting an object 18 , the object 18 is placed under the lens 16 , and the lens 16 focuses on the object 18 . A user can adjust the magnification of the image and adjust the focus with the lens 16 according to his requirements.

However, when a user needs to project a transparent film, the projector fails to project the transparent film, since a bottom light source is needed. An extra light source module 20 is required for the projector to project the transparent film 22 , as FIG. 2 shows. Lacking a light source module 20 prevents the projection of the transparent film 22 .

The method of projecting a transparent film is by placing the transparent film 22 on top of the light source module 20 , and under the lens 16 and focusing the lens 16 on the transparent film 22 . Then the user adjusts the projected image size and focus according to the size of the transparent film. When there is more than one size of transparent film 22 , users need to continuously adjust the projected image size and focus according to the different transparent films 22 . This is inconvenient and results in a poor quality of presentation.

Therefore, there is need for an improved real object projector to project kinds of transparent films.

SUMMARY OF INVENTION

It is therefore an objective of the present invention to provide a real object projector to solve the above-mentioned problems. A light source module is installed on a base of the real object projector to project a transparent film. The projection method can optimally magnify images in accordance with various sizes of transparent films.

According to the claimed invention, a light source module is connected to a base of a real object projector, and the light source module and the base have a connecting relationship. The base filter comprises a control circuit and an image receiving apparatus. The image receiving apparatus receives images on the transparent film that is placed on the light source module. The transparent film can further comprise an identification mark on the transparent film clip, and different types or sizes of transparent films have different identifying marks.

The projection method using the real object projector comprises: automatically or manually moving the image receiving apparatus to a suitable position in accordance with the mark on the transparent film clip; then automatically or manually focusing the image receiving apparatus according to the transparent film clip; and pressing an image receiving key to magnify the projected image via a control circuit; or automatically identifying the kind or type of transparent film and magnifying the projected image.

These and other objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiments that are illustrated in the various figures and drawings.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a diagram of a projector according to the prior art;

FIG. 2 is a diagram of projecting a transparent film using a projector according to prior art;

FIG. 3 is a diagram illustrating projecting a real object using a real object projector according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating projecting a transparent film using a real object projector according to an embodiment of the present invention;

FIG. 5 and FIG. 6 are diagrams of a real object projector according to embodiments of the present invention;

FIG. 7 is a diagram of a transparent film clip according to an embodiment of the present invention;

FIG. 8 is a flow chart illustrating using a real object projector to project a transparent film according to an embodiment of the present invention;

FIG. 9 , FIG. 11 and FIG. 12 are flow charts illustrating using a real object projector according to embodiments of the present invention; and

FIG. 10 is a diagram illustrating using a real object projector to project a transparent film according to an embodiment of the present invention.

DETAILED DESCRIPTION

FIG. 3 and FIG. 4 are diagrams illustrating a real object projector according to embodiments of the present invention. The real object projector comprises a base 30 in which a control circuit is installed for receiving and transferring the image data, and identifying and magnifying it. An image receiving apparatus 32 is connected to the base 30 . The image receiving apparatus 32 comprises an arm 34 connected to the base 30 and a lens module 36 installed on the arm 34 . The arm 34 can be rotated in a limited angle or range with a fulcrum connecting the arm 34 and the base 30 . The lens module 36 is used to capture an image. A light source module 38 is connected to the base 30 by an axle 40 . The light source module 38 can be rotated in a limited angle with the axle 40 acting as a fulcrum. A damper can be further installed on the axle 40 for buffering the rotation of the light source module 38 . Furthermore, the rotation of the light source module 38 can be operated manually or automatically with a combination of a motor, a gear wheel, a rack, a belt and so on. Further, as FIG. 5 and FIG. 6 show, the light source module 38 can be designed to be stored in the base 30 and be taken out from the base 30 by pulling or rotating. The pull or rotation operation can be manually operated or automatically operated by a combination of a motor, a gear wheel, a rack, a belt and so on.

Referring to the FIG. 4 and FIG. 7 , a transparent film 42 can be placed on the light source module 38 for projection, and can be installed in a transparent film clip 44 having a mark 46 and then be placed on the light source module 38 for projection. The transparent film clip 44 is variously installed in accordance with transparent films 42 of different sizes, and the marks 46 on different transparent film clips 44 are unique. The mark 46 is a positioning or locating mark and is also an identification mark for identifying the transparent film 42 . The mark 46 can be at least one transparent opening, and the opening of each of the transparent film clip 44 has a different shape and number.

FIG. 8 shows a projection method according to an embodiment of the present invention. Firstly, in step S 10 , the image receiving apparatus is manually or automatically moved to a suitable position in accordance with the mark. In step S 12 , the image receiving apparatus is manually or automatically focused corresponding to the transparent film clip. In step S 14 , pressing the image receiving key located on the real object projector or on a computer which is connected to the real object projector. Finally, in step S 16 , digitally magnifying the projection image of the transparent film with the control circuit corresponding to the type of transparent film clip. In above-mentioned step S 14 , the image receiving key is selected from an image receiving key which assigns the size of the transparent film and an image receiving key which does not assign the size of the transparent film. If the image receiving key is selected from the later, between steps S 14 and S 16 , the control circuit will automatically identify kinds of transparent film according to the mark on the transparent film clip. Step S 14 can be further arranged before step S 10 , and the method is performed in the sequence of S 14 , S 10 , S 12 , and S 16 . This means pressing the image receiving key and automatically moving the image receiving apparatus to a suitable position, then automatically focusing and identifying the transparent film, and automatically magnifying the projection image or projected image of the transparent film. Step S 12 can be further arranged after step S 16 , and the method is performed in the sequence of S 10 , S 14 , S 16 , and S 12 . This means manually moving the image receiving apparatus to a suitable position and pressing the image receiving key which assigns the size of the image, and automatically magnifying and manually focusing the projection image or projected image of the transparent film. Furthermore, the sequence of steps S 12 and S 14 can be exchanged, and the method is performed in the sequence of S 10 , S 14 , S 12 , and S 16 . This means manually moving the image receiving apparatus to a suitable position and pressing the image receiving key, then automatically focusing and identifying the kind of transparent film, and automatically magnifying the projection image of the transparent film.

Referring to FIG. 9 , which is a diagram illustrating a projection method according to an embodiment of present invention. In step S 20 , the image receiving apparatus is manually moved to a suitable position in accordance with the mark on the transparent film clip. In step S 22 , automatically focusing the image receiving apparatus. Finally, in steps S 24 and S 26 , automatically identifying the kind of transparent film and digitally magnifying the projection image of the transparent film with the control circuit.

FIG. 10 is a diagram illustrating a projection method according to an embodiment of present invention. In this method, utilizing a change of distance of the image receiving apparatus 32 and the transparent film 42 to magnifying the received image. Referring to FIG. 11 , in step S 30 , firstly pressing the image receiving key, on the real object projector or on a computer which is connected to the real object projector. In step S 32 , automatically moving the image receiving apparatus to a suitable distance for maximizing an image. Finally, in step S 34 , manually or automatically focusing the image receiving apparatus according to the transparent film clip. In the above-mentioned step S 30 , the image receiving key is selected from an image receiving key which assigns the size of the transparent film and an image receiving key which does not assign the size of the transparent film. If the image receiving key is selected from the later, three steps are added between steps S 30 and S 32 . The three steps comprise: (a) automatically moving the image receiving apparatus to a suitable position in accordance with the mark; (b) automatically focusing the image receiving apparatus; and (c) automatically identifying the type of the transparent film clip with the control circuit.

Besides the above-mentioned methods according to an embodiment of present invention, the projection method can be further aimed to kinds of transparent film. Moving the image receiving apparatus to a suitable position for obtaining a sufficient magnifying power, and automatically zooming and focusing the image receiving apparatus to magnify the projected image. Referring to FIG. 12 , in step S 40 , firstly pressing the image receiving key on the real object projector or a key on a computer which is connected to the real object projector. In step S 42 , automatically moving the image receiving apparatus to a suitable position in accordance with the mark on the transparent film clip. In step S 44 , automatically focusing the image receiving apparatus according to the transparent film clip. In step S 46 , automatically identifying the kind or type of transparent film clip with the control circuit. Then in step S 48 , automatically moving the image receiving apparatus to a suitable position for obtaining a sufficient magnifying power depending on the type of transparent film clip. Finally, in step S 50 , automatically zooming and focusing the image receiving apparatus to magnify a projection or projected image.

Those skilled in the art will readily observe that numerous modifications and alterations of the device may be made while retaining the teachings of the invention. Accordingly, the above disclosure should be construed as limited only by the metes and bounds of the appended claims.

Claims

1. A real object projector, comprising:a base; an image receiving apparatus connected to the base; and a light source module placed on the base; wherein the light source module is movably connected to the base, and at least one transparent film is placed on the light source module and the light source module provides a light source for the image receiving apparatus to receive an image of the transparent film.

2. The real object projector of claim 1, wherein the image receiving apparatus comprises an arm and a lens module, a first terminal of the arm is connected to the base and a lens module is attached to a second terminal of the arm, and the arm rotates in a limited angle with a fulcrum connecting the arm and the base.

3. The real object projector of claim 1 wherein the light source module is connected to the base by an axle, and the light source module rotates in a limited angle by the axle, and a damper is provided for buffering when the light source module rotates.

4. The real object projector of claim 3 wherein the light source module is rotated by a method selected from a manual operation and an automatic operation that is combined with a motor, a gear wheel, a rack and a belt.

5. The real object projector of claim 1 wherein the light source module is stored in the base and is taken out from the base for use.

6. The real object projector of claim 5 wherein the light source module is stored and taken out by a method selected from a manual operation and an automatic operation that is combined with a motor, a gear wheel, a rack and a belt.

7. The real object projector of claim 1 wherein the light source module further comprises a transparent board for holding the transparent film.

8. The real object projector of claim 1 wherein the light source module further comprises a transparent film clip for holding the transparent film, and the transparent film clip holds transparent films of different sizes.

9. The real object projector of claim 8 wherein the transparent film clip further comprises at least one mark, and the mark of each transparent film clip is unique, and the mark is a locating mark and an identification mark for identifying the transparent film clip.

10. The real object projector of claim 9 wherein the mark is at least one opening, and the opening of each transparent film clip has a different shape and quantity.

11. The real object projector of claim 1 further comprising a computer connected to the real object projector for controlling operation of the real object projector.