GB2361598A - Printing apparatus for electric images - Google Patents

Abstract

The invention provides a printing apparatus for electric images which provides optical means defining an optical pathway between an image generating means and image receiving means. The apparatus includes controlling means (30) to provide information on the electric image, image generating means (32) to receive the electric image information and to generate image light, and optical means (31) to provide an optical pathway to receiving means. The preferred embodiment provides a first optical pathway between the image generating means (32) and a display means (36) for viewing of the image and a second optical pathway between the image generating means and an imaging position using film (33) to produce a print of the image. The invention overcomes the requirement for a stepping motor to complete the imaging and exposing process and means that the printer is not limited to film of a particular size.

Description

2361598 PRINTING APPARATUS FOR ELECTRIC IMAGES

Field of the Invention

The present invention relates generally to a printing apparatus, and more particularly to a printing apparatus not only for electric image system but also for an electric camera system.

Background of the Invention

Typically, a conventional printing apparatus complete im6ging and exposing process by using a stepping motor. One disadvantage of the prior arts is that the instant film size is limited to the conventional printing apparatus.

Furthermore, the need for precision design of the stepping motor increases the difficulty of manufacture.

Referring now to Fig.1, a schematic diagram of the conventional printing apparatus with linear LCD shutter is illustrated. To achieve the purpose of moving the instant film to image, a stepping motor is used. A conventional printing apparatus with a linear LCD shutter includes an optical device 11, a linear LCD shutter 12, an instant film 13 and a stepping motor 14. Wherein the optical device 11 include a light source such as LED 111, a concave reflector 112, a lens 113 and a plate reflector 114. The optical device 11 is employed to direct and change the optical path on instant film 13. The concave reflector 112 for receiving the light from the LED 111 is used to collimate and direct the light I to the lens 113. The lens 113 for receiving the light from theconcave reflector 112 is used to collimate and direct the light to plate reflector 114. The plate reflector 114 for receiving the light from the lens 113 is used to direct the light to the linear LCID shutter 12. The linear LCID shutter 12 is used to control the amount of the input light to image on the instant film 13 The instant film 13 controlled by the stepping motor 14 can sense the image light from the linear LCID shutter 12 and be exposed line-by-line. The stepping motor 14 is used as the driving apparatus for moving and positioning the instant film 13, and is designed to drive in a step-by-step way so that the instant film 13 can be imaged line-by-line. The imaging process is completed with the moving of the instant film 13 from one end to another end.

The disadvantage of the conventional printing apparatus is that the size of the instant film is limited to the contact areas between the linear LCID shutter and the instant film. On the other way, in order to drive the stepping motor step-by-step to locate exactly, the higher precision of a stepping motor is needed, the more difficulty of a printing apparatus to design and control. Based on the several disadvantages discussed above, the printing apparatus with linear LCID shutter is not practical.

Conventional printing technique with linear color filter is illustrated in Fig.2. The printing apparatus with linear color filter includes a print header 21, an instant film 23, a stepping motor 24 and a roller 25. Wherein the print header 21 includes a fluorescent lamp 211, a linear color filter 210, an optical device 213, a reflector 212 and a reflector 214. The print header 21 is adjacent 2 to the instant film 23 and controlled by the stepping motor 24. The fluorescent lamp 211 is used as the light source. The linear color filter 210 receives the light from the fluorescent lamp 211 and controls how much quantity the light will pass through it. The reflector 212 receives the light from the linear color filter 210 and reflects it to the optical device 213. The optical device 213 that receives the light from the reflector 212 is employed to collimate the light to the reflector 214. The reflector 214 receives the light from the optical device 213 and reflects the light to the instant film 23 directly for imaging. The stepping motor 24 is employed to move the print header 21 step-by-step for imaging line-by-line. After completing the printing process, the instant film 23 is sent out by a roller 25. Accordingly, the apparatus needs a higher precision stepping motor, and the size of the instant film 23 is limited.

Summary of the Invention

It is a principal object of the present invention to provide an improved printing apparatus to solve the disadvantages of the prior arts. The present invention is not only used for electric images, but also for an optical projection system by replacing the photo sensing apparatus properly.

Another object of the invention is to provide an optical means, which comprises a lens at least. By adjusting the relative positions of the image-generating means, optical means and photo sensing means, the size of photo sensing means will not be limited to the image-generating means, so the 3 problem of the instant film limited to the size of the LCID can be solved.

Still another object of the present invention is to provide a simple printing apparatus based on the optical principle without the precision stepping motor, and then the reliability of the imaging can be raised and is higher than the prior techniques.

Still another object of the present invention is to provide a displaying means that includes a screen or a tunable lens. The displaying means is used to observe before imaging and then the accuracy of the imaging can be raised.

To accomplish the above objects, the present invention provides a printing apparatus for electric images. The printing apparatus comprises controlling means, image-generating means, optical means, displaying means and photo sensing means. According to the present invention, through a first optical path, the displaying means receives the image light for observe previously before imaging; through a second optical path, the photo sensing means which receives the image light is employed to sense and image. Without the stepping motor, the reliability and accuracy of the imaging are increased.

In one embodiment of the present invention, the optical means includes combination of at least one lens set to focus the image light and irradiate directly on the photo sensing means. Secondly, move the photo sensing means out of the optical path in order to direct the image light to irradiate on 4 the displaying means to observe by human eye clearly. In another embodiment of the present invention, the optical means includes at least one lens and a reflector to direct the image light through a first optical path by the reflector to the displaying means in order to observe. When the reflector is transferred to another position, the image light will focus on the photo sensing means through a second optical path directly. Besides, the displaying means includes an adjustable lens or a screen in order to observe by human eye easily. In still another embodiment of the present invention, the optical means can be the combination of at least one lens and a spectroscope, the spectroscope will split part of the image light to the first optical path and irradiate on the displaying means, the rest part of the image light will direct to the second optical path and irradiate on the photo sensing means. The displaying means of the previously described embodiment can be replaced by another optical means. This optical means may include at least one adjustable lens to focus the image light and project the magnifying image on an external screen to act as an optical projection system.

Brief description of the Drawings

The forgoing aspects and many of the attendant advantages of this invention will become more readily appreciated and better understood by referencing the following detailed description, when taken in conjunction with the accompanying drawings wherein:

Fig. I is a schematic diagram of the conventional printing apparatus with linear LCID shutter; Fig. 2 is a schematic diagram of the conventional printing apparatus with linear color filter; Fig. 3-1 to 3-3 are schematic diagrams of the printing apparatus for electric images in accordance with the first embodiment of the present invention; Fig. 4-1 and 4-2 are schematic diagrams of the printing apparatus for electric images showing the different optical paths to observe the image or imaging according to the second embodiment of the present invention; Fig. 5-1 and 5-2 are schematic diagrams of the printing apparatus for electric images in accordance with the third embodiment of the present invention-, Fig. 6-1 and 6-2 are schematic diagrams of the printing apparatus for electric images in accordance with the fourth embodiment of the present invention, Detailed description of the Preferred Embodiments

For the need to overcome the prior art disadvantages, the size of the instant film is limited to the size of the image-generating means and the design 6 is more complex because the precision of the stepping motor. The present invention proposes an improved printing apparatus with an optical means, a displaying means and a photo sensing means. According to the embodiment of the invention, the printing apparatus provides a optical path to display on the displaying means so as to observe before imaging, and a optical path to the photo sensing means so as to sense and image.

Referring to Fig. 3-1 to 3-3, the figures shows the printing apparatus in accordance with the first embodiment of the present invention. The apparatus comprises: (1) the controlling means 30, which can provide the information of electric images for observing or imaging. (2) the image-generating means 32, which is connected to the controlling means 30 and receives the information of electric images, and is used to generate and display image light of electric images. The image-generating means 32 can be any type of the flat panel display such as CRT, LCD, FED, PDP, EL or OEL etc(3) the optical means 31, which is on the optical path of the image-generating means 32 to receive the image light. There is at least one lens in the optical means 31 such as lens 310 in the figure. (4) the movable photo sensing means 33, when the movable photo sensing means 33 is located on the output optical path of the optical means 31, the image light is received and the image is developed on the photo sensing means 33. Nevertheless, when the movable photo sensing means 33 is removed from the optical path of the optical means 31, the image light will incident on the displaying means. In the present invention, the photo sensing means 33 is an instant film.

In Fig. 3-1, the printing apparatus further comprises a displaying means 7 36, a adjustable lens 361 within the displaying means 36 is used to receive and display the image light for observation by human eye 37. In Fig. 3-2, the adjustable lens 361 is replaced by a screen 362 in the displaying means 36. By properly placing the screen 362 of the displaying means 36, the image light from the optical means 31 can image on the screen 362 to observe by human eye 37 clearly. Nevertheless, in Fig. 3-3, the displaying means 36 is replaced by optical means 38, which comprises at least a adjustable lens 381. The adjustable lens 381 is used to focus and magnify the image light on the external screen 39, which act as an optical projection system.

Referring now to Fig. 4-1 and 4-2, schematic diagrams of the printing apparatus in accordance with the second embodiment of the present invention are illustrated. The printing apparatus also comprises a controlling means 30 to provide electric images, an image-generating means 32 to produce an image light, an optical means 31, a displaying means 36, and a photo sensing means 33.

According to the second embodiment of the present invention, the optical means 31 includes a lens 310 and a reflector 311, wherein the lens 310 receives the image light from the image-generating means 32, focusing the image light and directed to the reflector 311. The reflector 311 receives the image light from the lens 310 and is used to direct the image light to different means by changing the position of the reflector 311. For example, in Fig. 4-1, the reflector 311 is leaned and the image light is directed to displaying means 36 through the first optical path A. Nevertheless, in Fig. 4-2, the reflector 311 is 8 flattened and shifted to another position in order to cause the focusing image light irradiate on the photo sensing means 33 through the second optical path B. That is, the displaying means 36 adjacent to the optical means 31 can receive the image light through the first optical path A and is used to reveal the image. Besides, the displaying means 36 includes an adjustable lens 361, which enables one to adjust the lens 361 and observe by human eye 37 clearly. Alternatively, the photo sensing means 33 adjacent to the other side of the optical means 31 can receive the image light through the second optical path B and develop the image.

Referring to Fig. 5-1 and 5-2, the figures show the third embodiment of the present invention. In these figures, the optical means 31 also includes a lens 310 and a reflector 311. The lens 310 receives the image light from the image-generating means 32, focusing the image light and directed to the reflector 311. The reflector 311 receives the image light from the lens 310 and is used to direct the image light to different means by changing the position of the reflector 311.

In Fig. 5-1, the image light is directed to displaying means 36 through the first optical path A by use of reflector 311, which a screen 362 is included in the displaying means 36 to generate the image and observe by human eye 37 clearly. However, the focusing image light from the optical means 31 can directly irradiate on the photo sensing means 33 and develop the image through the second optical path B as described previously. Nevertheless, in Fig.

5-2, the displaying means 36 is replaced by optical means 38, which comprises at least an adjustable lens 381. The adjustable lens 381 is used to focus and 9 magnify the image light on the external screen 39.

Referring to Fig. 6-1 and 6-2, the figures show the fourth embodiment of the invention. The optical means 31 in this figure includes a lens 310 and a spectroscope 312, wherein the spectroscope 312 is used to split the image light from the image-generating means 32 into two parts. Through the first optical path A in Fig. 6-1, one part of the image light is directed to the displaying means 36. Nevertheless, through the second optical path B, the other part of the image light is directed to the photo sensing means 33 simultaneously. Likewise, in Fig. 6-2, the displaying means 36 is replaced by optical means 38, which comprises at least an adjustable lens 381. The adjustable lens 381 is used to focus and magnify the image light on the external screen 39.

The order, action, distances and relative position among the optical device 31, which discussed above depends on the practical designed product.

The disclosed description of the present invention does not limit the application.

Referrin g to Fig. 1, since the linear LCID shutter 12 is closed to the instant film 13, the width of the instant film 13 is limited to the length of the linear LCD shutter 12. However, the problem of the prior technique can be solved according to the embodiment of the present invention. Referring to Fig.3-1 and 3-2, the size of the instant film is not limited by adjusting the suitable position of the image-generating means 32, optical means 31 and photo sensing means 33.

Referring to Fig. I and Fig. 2, since the stepping motor is employed to control the relative motion between the printer header and the instant film, the stepping motor with higher precision is needed. The higher precision of the stepping motor, the more difficulty for designing the whole system. Nevertheless, the problem discussed above is solved by using the simple optical theory of the present invention. Besides, since the image can be checked by eyesight, accuracy of the imaging can be increased easily.

As is understood by a person skilled in the art, the foregoing description of the preferred embodiment of the present invention is an illustration of the present invention rather then a limitation thereon. It is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims. The scope of the claims should be accorded to the broadest interpretation so as to encompass all such modifications illustrated and described, it will be appreciated that various changes can be made therein without departing from the sprit and scope of the invention.

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Claims (10)

What is claimed is:

1. A printing apparatus for an electric image system, comprising:

controlling means for providing information of an electric image; image-generating means for receiving said electric image and generating an image light of said electric image; optical means for receiving said image light and providing an optical path to a receiving means.

2. The printing apparatus of claim 1, wherein said image-generating means is a flat panel display.

3. The printing apparatus of claim 1, wherein said optical means includes a lens and a reflector, said reflector is used to direct said image light through a 1 -5 first optical path to a displaying means, or direct said image light through a second optical path to a photo sensing means.

4. The printing apparatus of claim 1, wherein said optical means includes a lens and a spectroscope, said spectroscope is used to direct one part of said image light to a displaying means through a first optical path and direct another part of said image light to a photo sensing means for sensing and imaging through a second optical path.

5. The printing apparatus of claim 1, wherein said optical means includes a lens to direct said image light on a photo sensing means, or direct said image 12 light on a displaying means by removing said photo sensing means.

6. The printing apparatus of claim 3, 4, 5, wherein said displaying means is a adjustable lens to receive said image light for displaying so as to observe 5 clearly.

7. The printing apparatus of claim 3, 4, 5, wherein said displaying means is a screen to receive said image light for displaying so as to observe clearly.

8. The printing apparatus of claim 3, 4, 5, wherein said photo sensing means is an instant film.

9. The printing apparatus of claim 1, wherein said receiving means is a combination of a lens and a external screen.

10. Printing apparatus constructed and arranged to operate substantially as hereinbefore described with reference to and as illustrated in Figures 3 to 6 of the accompanying drawings.

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10. A printing apparatus for an electric image system, comprising:

controlling means for providing information of an electric image; image-generating means for receiving said electric image and generating an image light of said electric image; optical means for receiving said image light and providing a first optical path and a second optical path in order to direct said image light to a receiving means; displaying means for receiving said image light from said first optical path for displaying and observe through a first detective device; photo sensing means for receiving said image light from said second optical path for imaging through a second detective device.

IIII.The printing apparatus of claim 10, wherein said image-generating means is a flat panel display.

12. The printing apparatus of claim 10, wherein said optical means includes a lens and a reflector.

13. The printing apparatus of claim 12, wherein said optical means is used to direct said image light to said displaying means through said first optical path by changing said reflector to a first position.

14. The printing apparatus of claim 12, wherein said optical means is used to direct said image light to said photo sensing means for imaging through said second optical path by changing said reflector to a second position.

15. The printing apparatus of claim 10, wherein said optical means includes a lens and a spectroscope.

16. The printing apparatus of claim 15, wherein said spectroscope is used to direct one part of said image light to said displaying means through said first optical path and direct another part of said image light to said photo sensing means for sensing and imaging through said second optical path.

14 17. The printing apparatus of claim 10, wherein said displaying means is a adjustable lens to receive said image light for displaying so as to observe clearly.

18. The printing apparatus of claim 10, wherein said displaying means is a screen to receive said image light for displaying so as to observe clearly.

19. The printing apparatus of claim 10, wherein said first detective device is a human eye.

20. The printing apparatus of claim 10, wherein said second detective device is an instant film.

21. Printing apparatus constructed and arranged to operate substantially as hereinbefore described with reference to and as illustrated in Figures 3 to 6 of the accompanying drawings.

lit Amendments to the claims have been filed as follows CLAIMS 1 A printing apparatus for an electric image system, comprising:

controlling means for providing information of an electric image; image-generating means for receiving said electric image and generating an image light of said electric image; optical means for receiving said image light and directing said image light to a first optical path and a second optical path separately or simultaneously; displaying means for receiving said image light from said first optical path for displaying and observing by a user; photo sensing means for receiving said image light from said second optical path for imaging.

2. The printing apparatus of claim 1, wherein said image-generating means is a flat panel display.

3. The printing apparatus of claim 1, wherein said optical means includes a lens and a reflector.

4. The printing apparatus of claim 3, wherein said optical means is used to direct said image light to said displaying means through said first optical path by changing said reflector to a first position.

5. The printing apparatus of claim 3, wherein said optical means is used to direct said image light to said photo sensing means for imaging through said second optical path by changing said reflector to a second position.

6. The printing apparatus of claim 1, wherein said optical means includes a lens and a spectroscope.

12 7. The printing apparatus of claim 6, wherein said spectroscope is used to direct one part of said image light to said displaying means through said first optical path and direct another part of said image light to said photo sensing means for sensing and imaging through said second optical path. 5 8. The printing apparatus of claim 1, wherein said displaying means is an adjustable lens to receive said image light for displaying so as to observe by human eyes.

9. The printing apparatus of claim 1, wherein said displaying means is a screen to receive said image light for displaying so as to observe by human eyes.