SE455662B - IMAGE SENDER - Google Patents

Description

455 662 ._ An accompanying embodiment of the invention is shown in the accompanying drawings. ningen. Fig. 1 then shows. in a simplified perspective view one transmitter; Fig. 2 shows the transmitter's scanning device in one first example and Fig. 3 in a second example, both in enlarged scale; and Fig. 4 schematically shows the beam path in the image transmitter.

The invention is described with reference to an image transmitter which is adapted for sending color images.

According to Fig. 1, the image transmitter comprises on and in a housing In a lighting device 2, a picture holder 3, a mirror 5 a lens 6, a scanning device 7 with a picture window 8 and a row scanner 9 and a motor 10, a frame beam 11, on which the mirror 5 and the lens 6 and the scanning device 7 are attached they together with a hinge 12 pivoting by means of hinges 13.

On the outside of the housing, in addition to the lighting device 2, a one is arranged projection window 14, a keyboard 15, an electronics unit 16 and an electronic monitor 17.

The lighting device 2 is foldable and below it there is a circular opening 18 in which a circular socket 20 on the image holder 3, see Fig. 2, can be slid down. The film holder 3 also has a picture window 21, which, when the film holder with its socket located in the opening 18 is located in the beam path from the lighting device 2, when it is located in the lowered position. The beam path is passed further down to the mirror 5 for deflection by the same through the lens 6 up to the scanning device 7, however, as shown in Fig. 1, the aisle can be diverted to the projection window 14 by folding up mirroring 12.

When using the image transmitter, an image that is inserted in the image holder 3, a luminous flux is projected from the lighting device 2 via the mirror 5 and the lens 6 in the scanning the display window 8 of the device 7, where it is scanned by the the separation determined the number of times by means of the line scanner 9 for formation of an electrical signal. This signal can be sent to a receiver or otherwise used for image reproduction production purposes. 455 662 The scanning device '7 shown in Fig. 1 is shown in larger scale and in more detail of Fig. 2. The figure then shows a first, simpler embodiment.

The said line scanner 9 consists of an elongate body, which is movable along guides 20 by means of the said the motor 10. The motor 10 as well as the guides 20 are suspended in one stand 21 with an opening 22 in which the row scanner 9 can move and which essentially represents the image plane. The image, which scanned consists of a projection within the aperture 22 of the the film image 4 in the image holder 3. The projection takes place below lighting from the lighting device 2 along a beam path via the mirror 5 and through the lens 6, as previously stated.

The image is thus projected with the focal plane located in the aperture 22 and placed at the level of a row scanning element on the row the scanner 9. This line scan element consists of a line of light-sensitive elements 23, which by electronic control can brought to emit electrical signals successively along the line of elements, so that a line of the image is scanned. As time goes on the line scanner moves on the guides 20 the line is scanned after line of the image until it is completely scanned. This gives to results in a modulated electrical signal, which represents the all pixels, the resolution of which is determined by the the play and the division of the light-sensitive elements along the the scanner 9 and its travel speed relative to the scan rate along the line scanner, thus the line density.

The light-sensitive elements 23 are constituted by photosensors, which emits an electric current under the influence of a luminous flux whose intensity is in proportion to the intensity of the lighting. Through their structure, these light-sensitive elements have a front surface with high reflection, thus giving the front surface 25 of the line scanner the tendency to reflect from the lens incident light.

This light would, if the front surface 25 were directly opposite the object, reflect the light to the front surface of the lens and from a secondary reflex back to the light-sensitive element the ghost image could arise during registration.

This is eliminated according to the invention by 9 with its front surface 25 is set at an oblique angle to 455 662 the projection plane of the image. In an apparatus of the type shown in Fig. 1 shown type, an angle of about 100 has been found to be suitable.

When sending color images, you must use a color filter separate the image in different colors and in turn scan the same color for color. In order not to distort color perception when viewing the image in the image window 14 via the mirror 12, it is preferred to place the color filters adjacent to the scanning device. According to the invention, the color filters are of a narrow disc 34, which are attached in front of the line scanner nern 9.

The color filter discs 34 therefore come when they in turn order is fixed on the line scanner, to follow it during the search. Each color filter disc only needs to have the same width, as the light-sensitive element 23 of the line scanner, thus in principle only one line width. However, for management reasons it is appropriate that the disc has a slightly larger width, which facilitates handling and the precision of the deposit does not need be so big. The length must of course be equal to the length in the row of light-sensitive elements.

The required color filters can be combined in one switching device. One possibility is to perform a color filter disc with several areas each with one of the da the colors. By sliding the disc in different positions, they can be different the areas are placed in front of the row of light-sensitive elements.

According to Fig. 3, a scanning device 7 for coloring image transmission (the same terms as in Figs. 1 and 2 were used in Fig. 3 for common parts) the line scanner 9, which is movable along its guides 20. However, there is a second guide device 30 in front of the line scanner 9, thus on the side from which the bundle from the projection device is incident. The guide device 30 supports by means of a slide 31 a plate 32, which stands parallel with the line scanner's 9 light-sensitive elements. The plate 32 supports inserted into openings 33 through the same a number of color filters 34.

Seven color filters are shown here. To obtain the desired color separation ration is a minimum of three. In this case, the device has been made more universal in that three filters are arranged for separation tion of positive images and three for negative images plus one 455 662 aperture 33 is reserved for the formation of a black and white signal.

This is intended for black and white images and for four-color printing black prints.

The device further comprises a drive device for the slide 31, so that it can be moved back and forth along the guide device 30. The latter suitably comprises a screw, 35, which engages with a nut thread (not shown) on the slide 31 and driven by a second motor 36, which is part of the drive device ningen.

The drive devices for moving the line scanner 9 along the guides 20 and partly the color separation slide 31 with the filters 34 along the guide device 30 are arranged for a specific, coordinated drive. This is achieved through the motors 10 and 36 rotation control. As you know, there are electric today motors, often of the stepper motors type, which can be operated in rotation patterns, usually under the control of a computer armor. Such a device is present in the present scanning device. and must at least in the embodiment now described be set up for coordinated control of the two vaginal devices na. How this can be done is included in the professional's area of knowledge and need not be further described here.

Fig. 4 shows schematically what corresponds to a top view of the inner parts of the image transmitter shown in Fig. 1, namely the lens 6 and the scanning device 7. This is illustrated in Fig. 4, the scanning device in its simpler condition according to fig. 2. 38 denotes the beam path through the lens 6 towards the scanning As can be understood from the figure, there will be reflections back to the lens if the light hits reflective surfaces, which are parallel to the image plane or surfaces which occupy a re angle in relation to this plane. The light which is reflected against the front surface of the lens will in turn be thrown bake against the scanning device in a secondary reflex. It is this, which gives rise to said ghost image, is especially the risk for ghost image large, when the contrasts are large between different lots, whereby lots with high brightness can give clear ghost images in dark areas. 455 662 How such ghost images are avoided by the invention appears of Fig. 4. This is done by the front surface 25 of the line scanner 9, which previously mentioned is skewed in such a way that the reflex, denoted by the dashed lines 39 in Fig. 4 are discarded sideways at such an angle that no reflex can ever hit the lens. When filters are used, the holder 32 can also be arranged with the portions holding the filter plates in zigzag shape which is clearly shown in Fig. 3. Each filter disc is cured through oblique.

The invention thus means that the surfaces which are placed each other in the beam path and which are reflective are placed so skewed in relation to each other, that no reflexes can thrown back and forth between them. Then the best location for the projection lens is opposite the image plane and with the optical axis along a normal to the plane, it is inevitable that the front surface of the tire will be such a reflective surface. Against- set to this surface is the scanning device, which is to touch in the image plane. There are others on the scanning device reflective surfaces, which are impossible or difficult to avoid. Säle- is a line scanner reflecting in the field of light sensitivity league elements. The invention can of course, as has been seen, be applied. also suitable for such reflective surfaces as color filters.

Claims (3)

455 662 PATENT REQUIREMENTS An image transmitter device of the type having a projection objective (6) from which the image to be transmitted directly or via a mirror system is projected onto a scanning device (7) which is arranged to scan the projected image to produce an electrical transmission signal, which is modulated in step with the scanning and in accordance with the brightness of the image in different portions, characterized in that such elements (9) in the scanning device, which have surfaces (25) which are prone to reflect, are placed obliquely in relation to the image plane of the projected image, so that light reflections from said surfaces (25) do not reach the front surface of the lens and thus cannot be reflected back in it but are thrown next to it. Device according to claim 1, characterized in that the scanning device (7) comprises a row scanner (9) of the type which has a reflective front surface (25) on its photosensitive elements (23). Device according to Claim 1 or 2, characterized in that one or more color filters (34) are placed between the scanning device (7) and the lens (6) for color separation of the image in connection with the transmission, wherein the front the surface of this filter or filters is arranged obliquely in relation to the image plane of the projected image.