FI90147B - FOER FARING FOR EXPLANATION OF EXPOSED VIDEO PLATE WITH TANDROENTGENFOTOGRAFERING - Google Patents

Description

FIELD OF THE INVENTION an information-providing arm-10 female reading step using setpoints determined based on the pre-reading.

The purpose of the pre-reading is to determine the radiation dose received by the image plate in the exposure phase, on the basis of which the optical gain of the reading amplifier is adjusted to the actual reading phase. The aim is to find a gain level that makes the best possible use of the conversion range of the analog-to-digital converter used in the reading. The gain can be adjusted correctly if the signal strength of the parts of the image that have received the most X-rays is known. In a normal dental image, these points are between the teeth, which appear black in the image. The dentition with tooth gaps usually hits the center of the image, but where exactly the tooth gaps are located cannot be predicted.

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The areas with the most X-rays can be searched by adjusting the gain during image reading. In this case, however, the gain may change in the middle of the image, in which case the reading result is not optimal. Since some of the latent image on the image plate only disappears when the image is read, it also does not make sense to read the image a second time with the gain that could be set based on the first reading.

U.S. Pat. No. 4,527,060 discloses a pre-reading procedure which uses a mechanism to attenuate the intensity of the laser beam used for reading and / or increase the laser spot, thereby reducing the intensity of the radiation on the image plate to a level at which the 2 90147 latent image on the plate is substantially maintained. This attenuated laser dot performs a pre-reading of the image and is used to set the necessary reading amplifier parameters for the actual full-power image reading. According to the patent, the pre-reading 5 is applied to the entire image surface or at least to those areas of the image surface which have relevant information. The laser dot attenuated in this way is used in both cases.

The object of the present invention is to provide a novel reading procedure suitable for dental X-ray imaging, in which the image can be pre-read without attenuating the laser beam used and thus without the accessories required by the measure. The invention is characterized in that the pre-reading takes place from the edge area of 15 images, which has a mainly jawbone or the like, and the actual reading from the central area of the image, which contains the desired information about the image, such as dentition and tooth spacing.

The invention is based on the fact that regardless of how well the described dentition with the tooth spacing has hit the central area of the image, there is always a jawbone or other non-dark area in the edge area of a normal dental image, which can be used as a basis for adjusting the actual reading.

25 Pre-reading without attenuation of the laser beam destroys the latent image on the image plate, but this is irrelevant, since the edge areas of the image are usually of no interest for the desired information in the description. The actual reading is limited to the central area of the 30 images, which remained intact during the pre-reading, from which the dentition with its tooth spacing is visible.

According to the invention, the adjustment of the gain can take place on the basis of the prevailing darkness corresponding to the jawbones of the edge areas of the image determined in the pre-reading. The maximum darkness corresponding to the tooth pitches of the image obtained in the actual reading step is adjusted to be substantially darker, e.g. about three times, so that the tooth gaps appear black in the obtained passage 3 9 n 1 4 7. On the other hand, the degree of darkness of the image is also correct in the case that for some reason the image does not show tooth gaps.

5 In the case where the pre-read edge areas of the image have substantial differences in darkness due to teeth and tooth gaps that hit the edge of the image at some point, the darkness of the image directly corresponding to the pre-read tooth gaps can be used as the basis for confirmation.

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The image reading according to the invention is preferably carried out in such a way that the pre-reading takes place during the mutual linear movement of the image plate and the reading device and the actual reading during the mutual linear movement of the image plate and the reading device in the opposite direction to the pre-reading. The same reading device can thus be used both in the pre-reading phase and in the actual reading phase.

If the image plate is enclosed in a protective case after exposure, the reading can advantageously take place by pulling the image plate out of the protective case and pre-reading at the reading station outside the protective cover, after which the actual reading is performed at the same reading position when the image plate returns to the protective case. The device described in FI patent-25 application 903796, which according to the application, reads the exposed image on the slide while pulling the disc out of the RIM cassette and, after reading, erases the disc from the information while returning the disc to the cassette. However, according to the present invention, the device 30 is operated in such a way that the image is pre-read in connection with the ejection of the disc and the actual reading in connection with the return movement of the disc. The plate can then make a new reciprocating motion outside the cassette for emptying with a strong beam of light directed at the surface of the plate.

According to the invention, the reading of the image can advantageously take place in such a way that the areas of the image which border the other side and the opposite ends of the image are read in the pre-reading step, and the rest of the image is read in the actual reading step. The reading device can be formed, for example, by a scanner with a rotating mirror, which guides the laser beam 5 to be read back and forth across an image plate in smooth linear motion, said reading steps only requiring adjustment of the scanner's transverse movement focus and extent at different reading stages.

The invention will now be described in more detail by way of example with reference to the accompanying drawings, in which Figures 1a-1a show stepwise pre-reading of an image when the image plate is pulled out of the housing and actual reading of the image as the image returns to the housing.

Fig. 1a shows an image plate 1 exposed in dental X-ray imaging, which is placed in the cover 2 after the exposure. The protection cover can be an R1M cassette according to FI application 903796 and the image plate can be said. a pull-out sliding plate according to the application, although the present invention is by no means limited to these applications alone.

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The pre-reading of the image exposed to the image plate 1 takes place when the plate is pulled out of the protective cover 2 according to Fig. Ib. The image beam 1 is made in a uniform linear motion and is subjected to a laser beam 4 erasing the surface of the plate in a transverse direction from the front 30 at the reading station 3. The laser beam 4 is guided to read the image plate 1 width. Figure 1e shows the step at which the pre-reading has been completed.

The pre-reading thus covers the edge areas 5 of the plate 1, which border in a narrow zone a second side 6 of the plate and the opposite ends 7 of the plate. On the other hand, the central area 8 of the plate has remained intact during the pre-reading.

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The actual reading of the image at the setpoints determined on the basis of the pre-reading takes place using the same reading station 3 and laser beam 4 with the image plate 1 returning to the protective cover 2. The reading is now focused only on the central area 8 of the image plate 1 not touched during the pre-reading. Fig. 1a shows the step in which the actual reading has been completed, after which the plate can be returned to the protective cover 2 (Fig. 1a).

After the reading steps, the image plate 1 can perform a new reciprocating movement outside the protective cover 2, in connection with which the plate is emptied of information by means of an emptying light directed at its surface. After emptying, the picture-15 vy is ready for a new use.

The apparatus shown in Figures 2a-2c, with which the reading and emptying steps of the image plate 1 described above can be performed, comprises a body 9, an image space receiving space 10 in the cover 2, a space closing cover 11 and a stepper motor (not shown) about its own axis on a rotating shaft rod 12, the movement of the traction device 13 reciprocating can be effected by means of bearings 25 (not shown) placed at an angle of inclination against the shaft rod 12. The apparatus is further provided with a reading station 3 for pre-reading and the actual reading of the image on the image plate 1 pulled out of the protective case 2, and with an emptying station 14 for the next emptying of the plate.

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In Fig. 2a the protective cover 2 with its image plates is inserted into the opening in the body 9 of the device so that the cover extends to the shoulder 15 with magnet in the reciprocating drive device 13. In Fig. 2b the laterally moving cover 11 is moved to the protective cover 2 so that the protective cover with its image plates remains entirely inside the lid. The spring-loaded pin 16 of the cover 11 is then formed at the opening 17 formed in the frame and the end of the rod 18 belonging to the traction device 13 therein, and the cover prevents external light from entering the space under the cover and the plate reading and emptying stations 3 behind it. 14.

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As the traction device 13 moves from the starting position according to Fig. 2b, the rod 18 belonging to the traction device is withdrawn from the opening 17 in the body and the pin 16 belonging to the cover 11 is pushed into said opening by pressing the spring, locking the cover 10 in place. The magnet belonging to the pulling device 13 pulls the image plate 1 out of the protective cover 2, and the plate is pre-read by means of a laser beam 4 at the reading station 3 as described above. In Fig. 2c, the traction device 13 and the image plate 1 have reached the end of their trajectory, where the plate 1 is completely outside the protective cover 2, and then returns to the position according to Fig. 2b, during which the image plate 1 is actually read at the reading station 3.

After the reading steps, the image plate 1 makes a new reciprocating movement pulled by the traction device 13, during which the plate is emptied of information from its surface with light conducted at the emptying station 14. After emptying, the image plate 1 returns to the protective cover 2, the cover 11 is opened (Fig. 2a) and the protective cover 25 with the image plates is removed from the apparatus ready for the next exposure.

It will be clear to a person skilled in the art that the various embodiments of the invention are not limited to the above examples but may vary within the scope of the appended claims.

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Claims (8)

A method for reading an image plate (1) exposed to dental X-ray photography by means of a beam (4) directed onto the surface of the plate, which method comprises a preliminary reading stage and a subsequent actual reading stage which provides the desired information and in which is used because of the preliminary reading set values, characterized in that the actual reading takes place in the edge area of the image (5) where there is essentially a jawbone or the corresponding, and the actual reading takes place in the central area of the image (8). which contains the information desired in the image, such as the tooth measure with its tooth space. 3Ό Method according to claim 1, characterized in that the preliminary reading takes place during the linear movement of the image plate (1) and the reading device (3) and the actual reading takes place under the mutual image of the image plate and the reading device, relative to the linear movement opposite to the preliminary reading. Method according to claim 2, characterized in that the image plate (1) is withdrawn from a protective housing (2) and its pre-liminal reading is performed in conjunction with the extraction at a reading station (3) located outside the protective housing and that the actual reading is performed at the same reading station (3) when the image plate is returned to the protective housing. 5 Method according to claim 2 or 3, characterized in that in the preliminary reading stage the areas (5) of the image (1) which edge one side of the image (6) and opposite end faces (7) are read and that the other image (8) is read in the actual reading stage. Method according to any of claims 2-4, characterized in that, after the reading stages, the image plate (1) is emptied of information by a discharge light directed at the surface of the plate set in linear motion. Method according to claims 3 and 5, characterized in that, after the reading stages, the image plate (1) is again pulled out of the protective housing (2) and is emptied of the information at a discharge station (14) located outside the protective housing. Method according to any of the preceding claims, characterized in that in the actual reading stage the maximum darkness of the image corresponding to the tooth spaces is adjusted significantly darker than the predominant darkness determined in the preliminary reading corresponding to the jawbone, preferably about triple the darkness. 30 Method according to any of claims 1-6, characterized in that in the event of significant darkness differences within the preliminary loaded edge areas (5) of the image, the greatest darkness corresponding to the tooth spaces is selected, and the greatest darkness of the image in the actual reading stage is governed by this .