DE2727344C3 - Method and device for converting image patterns into electrical signals - Google Patents

Description

The invention relates to a method and a device according to the preambles of the claims 1 and 2.

One known practice uses a known light vidicon camera to convert image patterns on original documents in electrical signals. With such vidicon cameras, the reproduced image is negative and is made positive by a further procedural step if the resulting electrical signal to reproduce the ο Image patterns on photographic paper or on one that reproduces by means of electrical discharge Paper SHOULD be used Of course, the electrical signal can also be entered directly by reversing it create a positive image. However, this leads to the

ίο a tendency to cause changes in the reflection of the original document and the corresponding voltage level, which is expressed in a low quality of the reproduced image. It is also known to use a pyro-vidicon camera for this purpose. A pyro-vidicon camera typically has a pyroelectric focus part in which the image patterns are focused on the pyroelectric focus part in order to generate different-valued charges thereon depending on the brightness of the projected image patterns so that high-grade charges are held on its light areas and that low-valued charges are held on its dark areas and that then the pyrodectric focus part is scanned so that the different-valued charges are discharged to generate an electrical signal corresponding to the original image patterns. But there are also disadvantages with a pyro-vidicon camera.
The object of the present invention is to provide a method, as already mentioned at the beginning, by means of which it is possible to capture the image pattern of an original containing essentially no thermal information by means of a pyro-vidicon camera and to convert corresponding electrical signals in the image pattern, and a device to carry out this procedure.

This object is achieved by a method or a device as already mentioned at the beginning solved, the or those indicated by the characterizing part of claim 1 and claim 2, respectively Features is marked.

Advantageous further developments result from the subordinate test.
In particular, repeated negative-positive conversions and blurring in the quality of the reproduced image are preferably avoided in the invention.

Exemplary embodiments of the invention are described in more detail below with reference to the drawing. In this shows

F i g. 1 shows a schematic representation of a pyro-vidicon camera as used in the present invention;
F i g. 2 shows a schematic, perspective view of a first embodiment of a device for converting image patterns into electrical signals; and

F i g. 3 shows a schematic sectional illustration of another embodiment of a device for implementation of image patterns into electrical signals.

According to FIG. 1, a pyro-vidicon camera used in the present invention has a pyroelectric one Focus part 3 on which an image pattern of an original document 1 through an infrared lens 2 is focused. The pyroelectric focus part 3 has a pyroelectric sheet 4, which consists of a pyroelectric Material is made, and an electrode 5 attached to one side of the pyroelectric sheet 4

The pyroelectric material can either be prepared by poling TGS (triglycine sulfate), lithium niobate (LaNbO ₃ ), SBN [SrJrBA (I-XjNb ₂ O ₆ ] or other

; inorganic materials or by polarizing a macromolecular material, which has a large polarity, e.g. B. polyvinylidene fluoride or polyvinyl fluoride.

The pyroelectric focus part 3 preferably has an electrode which has a blackened surface possesses, or a transparent electrode, which on a blackened or reddened pyroelectric

- Sheet is attached to the highest possible infrared radiation absorbing Generate energy. When there are temperature differences between the surface of the original document and the pyroelectric focus part 3 causes the image patterns to be projected onto the focus part 3 thereon electrical polarizations, which in accordance with the temperature distributions of the thermal image can be distributed on the original document 1.

In front of or behind the infrared lens 2 is an interrupter 6 for interrupting the projection of the Image pattern is provided on the focus part 3, so that the temperature differences of the thermal image image corresponding to the original document 1 chopped on the surface of the pyroelectric Focus part 3 opposite the electrode 5 appears

An electrode 8 is arranged within a vacuum tube 7 in such a way that it is attached to the pyroelectric focus part 3 is opposite so that an electron beam on the pyroelectric focus part surface scan them can to thereby generate an electrical signal which corresponds to the image pattern of the original document.

According to FIG. 2 is a first embodiment of a device for converting image patterns into electrical signals shown, which a heating unit, such. B. an infrared lamp 13 and one Pyro-vidicon camera 14, for alternating heating and photography of an image pattern on one Has original document which is arranged stationary. The infrared lamp 13 and the pyro-vidicon camera 14 are supported by a stand 9, which consists of a support 10 and arms 11 and 12, the are horizontally rotatably attached to the support 10 and at the free ends of the infrared lamp 13 and the Pyro-vidicon camera 14 are attached. The support 10 is attached to a table 15 on which a Original document 16 is stationary so that the image patterns face up. 5 "

When the infrared lamp 13 is placed directly above the original document 16 to heat the same then its light areas reflect the heat, while the dark areas, for example consist of letters and figures that absorb heat, making a thermal image conform with the configuration of the image pattern on the original document 16 is generated. Instead of the infrared lamp 13 any other heat source can be used, such as. B. an electric heater or a heating plate which are arranged spatially separated from the original document 16, or a Heating plate or a heating roller which is brought into direct contact with the original document 16 will.

A pyro-vidicon camera can detect a temperature difference of less than a hundredth of I ⁰ C, while a temperature difference of the order of a few ⁰ C to a few tens of "C between the areas with dark letters and figures and the white background areas of the original image pattern by heating the Surface of the original image pattern can be generated for a few seconds. Furthermore, the time required for heating the image pattern can be reduced by a highly sensitive pyro-vidicon camera of the heat source and based on the sensitivity of the pyro-vidicon camera being used, the heating time will normally be kept on the order of one second to a few tens of seconds, preferably trying to keep the temperature of the original document to be kept relatively low.

When the heating of the image pattern on the original document 16 has the desired amount of heat has reached, then the infrared lamp 13 is removed and the pyro-vidicon camera 14 is placed directly over the original document 16 to view the Photograph image pattern generated thermal image. In the to F i g. 1 uses the pyro-vidicon camera converts the thermal image into an electrical signal corresponding to the original image pattern obtained from a connection 29 of the vidicon camera 14 can be tapped although a temperature rise on the white Areas of the original document will cause a pyroelectric current flow, this can simply can be eliminated by using a semiconductor circuit which has a correspondingly adapted Has threshold to cut this pyroelectric current flow. According to FIG. 3 is another Embodiment of a device for converting an image pattern into an electrical signal is shown. The original document bearing an image pattern is heated by a heating room 18 with an infrared lamp 13 'in a photography room 19 with a pyro-vidicon camera 14 'passed through a belt conveyor 26, so that the original document 16 'is successively subjected to a heating function and then a photographing function can be. The heating room 18 is through walls 21 and 20 and the photographing room 19 through walls 22 and 20 limited. The original document is transported through slots 23, 24 and 25, which in the lower portions of the respective walls 21, 20 and 22 are formed. A dosage frame (douser) with a central slot 28 through which the infrared lamp 13 'illuminates the original document 16' is shown in FIG attached to the lower area of the boiler room! 8.

Instead of the belt conveyor 26, a roller conveyor can also be used to transport the original document are used, in such a case the arrangement should be chosen so that only the Corners of the original document and does not touch the image pattern on the original document will. In addition, a heated roller conveyor can be used that is in contact with the image pattern on the original document for the simultaneous heating and further conveyance of the image pattern of the Original document can serve. This can even lead to the need for an infrared lamp becomes dispensable.

The pyro-vidicon camera can be constructed so that its shutter releases when the original document just under the pyro-vidicon camera

moved to make it easier to photograph the entire area of the original document. At a Another arrangement of the metering frame with the center slot is designed so that the closure of the Pyro-Vidicon camera triggers every time the original document travels a certain distance which is equal to the width of the slit so that a sequential photograph of the thermal image is possible if this slides under the slot, lü

Although the present invention and its details have been described in terms of the preferred embodiments is limited, changes and modifications can be made within the scope of this invention be, where z. B. the dosing frame 27 can be omitted and a heating plate instead or an electric heater is provided instead of the metering frame 27 and the infrared lamp can be. If desired, the chambers 18 and 19 can have air-cooled or water-cooled lines or recesses are provided so that, for example, the side walls of the chambers 18 and 19 Do not exceed predetermined temperatures.

Thus, in summary, it can be stated that the present invention provides a method and a device can be created with which electrical signals corresponding to the information which are contained on an original document, wherein heating devices the original document heat to create a thermal image corresponding to the degree of lightness of the on the original document located image pattern to then generate the thermal image by using a Pyro-Vidicon camera and convert it into an electrical signal according to the original image pattern to implement.

1 sheet of drawings

Claims (10)

Patent claims: 1. A method for generating electrical signals that represent a thermal image of a Corresponding to the template applied image pattern, by means of a pyro-vidicon camera, characterized in that that the template (1) containing essentially no thermal information for Generation of the thermal image is heated before the photographing process. 2. Apparatus for performing the method according to claim 1, characterized in that a Device (13) for heating, and the pyro-vidicon camera (14) above the template (16) as above are slidably arranged that the device (13) for heating the template (16) or the pyro-vidicon camera (14) for recording the thermal Image can be moved into the area above the template (Ib) 3. Device according to claim 2, characterized in that that the device (13) is attached to a first arm (11) that the pyro-vidicon camera (14) is attached to a second arm (12) that the first arm (11) and the second arm (12) are rotatably arranged on a stand (9), and that the Stand (9) is attached to a table (15) on which the template (16) is located (FIG. 2). 4. Apparatus according to claim 2, characterized in that above a conveyor (26) for moving the template (16 ') a heating room (18) with the heating device (13') and an adjacent photography room (19) with the pyro-vidicon camera (14 ') are arranged, and that the conveyor (26) is movable so that the template (16 ') located thereon from the The boiler room (18) can be transported to the photographing room (19) (FIG. 3). 5. Device according to one of claims 2 to 4, characterized in that the device (13, 13 ') an infrared lamp is provided for heating. 6. Device according to one of claims 2 to 4, characterized in that the device (13, 13 ') an electrical heating device is provided for heating. 7. Device according to one of claims 2 to 4, characterized in that the device (13, 13 ') a heating plate is provided for heating. 8. Device according to one of claims 2 to 4, characterized in that the device (13, 13 ') a rotating heating drum is provided for heating. 9. Device according to one of claims 4 to 8, characterized in that as a conveying device (26) a belt conveyor is provided. 10. Device according to one of claims 4 to 8, characterized in that a roller conveyor is provided as the conveying device (26).