JPH0693077B2 - Radiation image information reader - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a radiation image information reading apparatus used in a radiation image information recording / reproducing system, and more particularly to radiation that combines a reading unit and an erasing unit integrally. The present invention relates to an image information reading device.

(Prior Art) When a certain kind of phosphor is irradiated with radiation (X-ray, α-ray, β-ray, γ-ray, electron beam, ultraviolet ray, etc.), a part of this radiation energy is accumulated in the phosphor, It is known that when a phosphor is irradiated with excitation light such as visible light, the phosphor exhibits stimulated emission depending on the stored energy, and a phosphor having such a property is a stimulable phosphor (luminescent material). Exhaustible phosphor).

Using this stimulable phosphor, the radiation image information of a subject such as a human body is once recorded on a sheet-shaped stimulable phosphor, and the stimulable phosphor sheet is scanned with excitation light such as laser light to stimulate the irradiation. Generates emitted light, photoelectrically reads the obtained stimulated emission light to obtain an image signal, and based on this image signal, outputs a radiation image of the subject as a visible image on a recording material such as a photographic photosensitive material or a CRT. The applicant has already proposed a radiation image information recording / reproducing system for this. (JP-A-55-12
No. 429, No. 56-11395, No. 55-163472, No. 56-104645
No. 55-116340, etc. ) The stimulable phosphor sheet in the above system stores and records radiation image information, and temporarily holds the recorded image information until it is read by the excitation light scanning, and thus the reading of the image information is completed. After that, it is desirable to erase the image information remaining on the stimulable phosphor sheet and reuse the stimulable phosphor sheet.

Based on such a request, a radiation image having a reading unit for reading the image information recorded on the stimulable phosphor sheet and an erasing unit for erasing the image information remaining on the stimulable phosphor sheet. Information readers have been proposed.

In the radiation image information reading apparatus, a cassette containing a stimulable phosphor sheet that has been photographed by an external imaging device is loaded in a cassette holding unit, and the stimulable phosphor sheet is taken out of the cassette and read by the reading unit. The image information is read by sending the image information to the storage medium, and the image information remaining in the image storage phosphor sheet is further erased by the erasing section after the reading is completed. The erasable stimulable phosphor sheet is in a state in which it can be taken out of the reading device and recorded with image information again. It is general that the entire tray in which the stimulable phosphor sheet is accumulated is taken out of the apparatus. Since the accumulative phosphor sheets accumulated in the accumulating tray need to be accommodated in the cassette as described above when performing a new photographing, they are loaded one by one into the cassette before photographing. There is a need. Therefore, it takes a lot of time until the stimulable phosphor sheet that is ready to be photographed is stored in the cassette and photographing is performed, so that the stimulable phosphor sheet cannot be efficiently recycled and reused. There is. Also, this loading is performed by a dedicated loader or by manual work. However, when a dedicated loader is used, the cost of the entire system increases, and when manual loading is performed, the stimulable phosphor is used. Since the sheet is directly touched, there is a disadvantage that it is not preferable in handling the stimulable phosphor sheet.
In addition, the stimulable phosphor sheet is circulated in the reading device, the stimulable phosphor sheet that has been photographed is taken out from the cassette, read and erased, and then the stimulable phosphor sheet is carried into the cassette again. Although it is possible to store the stimulable phosphor sheet in such a reading device, while the stimulable phosphor sheet is re-stored in the cassette after reading and erasing one stimulable phosphor sheet, the reading device erases the device. Since it is monopolized, it is necessary to wait for the next treatment of the stimulable phosphor sheet during this treatment, and there is a problem that the time loss is large and the treatment capacity of the apparatus is significantly reduced.

Therefore, the applicant has a stacker between the erasing section and the cassette holding section, which accommodates a plurality of erased stimulable phosphor sheets and can carry out the accommodated stimulable phosphor sheets one by one. After the taken stimulable phosphor sheet is taken out of the cassette, the erased stimulable phosphor sheet is sent from the stacker to the cassette, and a new erased stimulable phosphor sheet is transferred to the cassette in a short time. We previously proposed a device that can be carried in (Japanese Patent Application No. 60-232029, etc.). According to such a device, it is not necessary to load the stimulable phosphor sheet outside the device, and the inconvenience that one stimulable phosphor sheet occupies the device does not occur, and an efficient stimulable phosphor sheet is obtained. The cyclic reuse of is realized.

(Problems to be Solved by the Invention) By the way, since the cassette holding section described above is loaded with a cassette containing stimulable phosphor sheets of different types such as size and sensitivity, the susceptibility of these cassettes to the storage is improved. After the phosphor sheet is taken out, it is necessary to select, from the stacker, a stimulable phosphor sheet of the same size and kind as the stimulable phosphor sheet taken out from the cassette and take it out and send it to the cassette. The size and product type of the stimulable phosphor sheet taken out from the cassette can be determined by reading a bar code normally provided on the back surface of the stimulable phosphor sheet. However, in the conventionally known device, the barcode reader is provided in the reading unit, and after taking out the stimulable phosphor sheet from the cassette as described above, the erased stimulable phosphor sheet is removed from the stacker. If a bar code reader is provided in the reading unit in the device for storing in the take-out cassette, the size and type of the stimulable phosphor sheet cannot be discriminated until the stimulable phosphor sheet taken out from the cassette is sent to the reading unit. However, there is an inconvenience that it takes a long time to send the desired stimulable phosphor sheet into the cassette.

The present invention has been made in view of the above problems, and is provided with the above-mentioned stacker, the size of the stimulable phosphor sheet taken out from the cassette, the discrimination of the type is performed early, and the stimulable phosphor from the cassette It is an object of the present invention to provide a radiation image information reading device capable of shortening the time from when a sheet is taken out to when a new stimulable phosphor sheet is carried in.

(Means for Solving Problems) The radiation image information reading apparatus of the present invention receives the above-mentioned cassette holding section, reading section, erasing section, stacker, and stimulable phosphor sheet conveyed from the cassette holding section. And then carry it into the stacker and then to the stacker,
The sheet storage means receives the stimulable phosphor sheet carried out from the stacker and carries it into the cassette in the cassette holding unit, and the cassette holding unit takes out the stimulable phosphor sheet when taking out the stimulable phosphor sheet from the cassette. It is characterized in that it has an identification information reading means for reading the identification information, and the stimulable phosphor sheet is selected and carried out from the stacker according to the read identification information. Here, when taking out the stimulable phosphor sheet from the cassette, the cassette containing the photographed stimulable phosphor sheet is loaded into the cassette holding unit, and then the stimulable phosphor sheet is passed to the sheet conveying means. It means that a series of operations up to are performed, and does not necessarily have to be the same as the operation itself of taking out the stimulable phosphor sheet from the cassette.

(Operation) In this device, since the reading means of the identification information of the stimulable phosphor sheet such as a bar code is provided in the cassette holding portion, the identifiable information of the stimulable phosphor sheet is stored in the cassette. Since it is read when it is taken out from the stacker, it is possible to take out the desired stimulable phosphor sheet from the stacker immediately after the stimulable phosphor sheet is taken out from the cassette and carry this stimulable phosphor sheet into the cassette. it can. Therefore, the time for the cassette to wait in the cassette holding portion until a new stimulable phosphor sheet is carried in can be shortened to efficiently circulate and reuse the stimulable phosphor sheet.

Embodiments Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a schematic side view showing the outline of a radiation image information reading apparatus according to an embodiment of the present invention.

The apparatus shown in the figure is a cassette holding unit 10 that detachably holds a cassette 2 that can store a stimulable phosphor sheet 1, a reading unit 20 that reads image information stored and recorded in the stimulable phosphor sheet, and a reading unit after completion of reading. The cassette 2 is provided with an erasing unit 30 for erasing the image information remaining on the stimulable phosphor sheet, and the cassette 2 imaged on the stimulable phosphor sheet 1 held inside in an external photographing device (not shown). It is loaded in the cassette holder 10. The cassette 2 has a light-shielding property in order to prevent the stimulable phosphor sheet from being exposed to external light when irradiating the stimulable phosphor sheet with radiation to record (shoot) image information. From the front side of the apparatus, the apparatus is loaded in the apparatus in a direction perpendicular to the paper surface of FIG. The cassette 2 has a lid portion 2a that can be opened and closed, and the lid portion 2a is closed when it is loaded into the cassette holding portion. However, when loading of the cassette 2 is completed, suction in the cassette holding portion 10 is performed. It is opened as shown by the opening means 11 such as a board to expose the stimulable phosphor sheet 1 inside. When the cassette 2 is opened, the suction plate 12 which is a means for taking out the stimulable phosphor sheet enters the position shown by the broken line in the figure, and the suction plate moves to the position shown by the practice in the figure to remove the stimulable phosphor sheet. Remove from cassette 2. The stimulable phosphor sheet 1 is held in the cassette 2 so that the front side surface on which the stimulable phosphor layer is formed faces downward. As shown in FIG. 2, the back surface 1A of the stimulable phosphor sheet 1 is also used.
A bar code 3 indicating information such as the size and sensitivity of the stimulable phosphor sheet is written on the cassette storage section 10, and the cassette holder 10 is provided with a bar code reader 13. This barcode reader 13 is a stimulable phosphor sheet 1
Prior to being taken out from the cassette 2, the bar code 3 is read by moving from the position shown by the broken line in FIG. 1 to the position shown by the solid line in the direction of arrow B to enter the cassette 2. The lid 2a of the cassette 2 is formed with a window 4 for exposing the bar code 3 of the stimulable phosphor sheet to the outside, and the bar code reader 13 is provided in the window 4 before the lid 2a is opened. The bar code 3 may be read by entering.

The present apparatus receives the stimulable phosphor sheet 1 taken out from the cassette 2 as described above, and conveys it to the reading section 20 and the erasing section 30 in this order, which is a sheet conveyance including an endless belt, rollers, guide plates, and the like. Means 50 are provided, and the stimulable phosphor sheet 1 taken out by the suction plate 12 is transferred to the sheet conveying means 50, and the sheet conveying means 50 is provided.
Is sent in the direction of arrow A ₁ . Further, in the apparatus of this embodiment, one stimulable phosphor sheet 1 is contained in a plurality of sheet accommodating portions 113 formed by a plurality of partition plates 111 parallel to each other and a bottom plate 112 provided at the lower end of the partition plates. House each one,
First to carry out the stored stimulable phosphor sheets 1 one by one
A stacker 100 is provided. This first stacker 1
00 are those having the same structure as the second stacker 200 to be described later, the stimulable phosphor sheet 1 is movable stacker 10 in the direction of arrow C to be sent to the arrow A ₁ direction, as described above
The sheets are sequentially loaded into each of the 0 sheet storage units 113. Further, when the stimulable phosphor sheet is unloaded from the stacker 100, the stacker 100 moves in the direction of arrow C, and a predetermined sheet storage portion 113 holding the sheet to be unloaded is provided below the stacker 100. Conveying rollers 51A, 51 of the sheet conveying means 50
The bottom plate of the sheet accommodating portion 113 is opened by rotating the bottom plate above B, and the stimulable phosphor sheet 1 is delivered to the transport rollers 51A and 51B. The stimulable phosphor sheet 1 is further conveyed by the sheet conveying means 50 in the direction of arrow A ₂ and carried into the reading section 20.

The reading unit 20 scans the stimulable phosphor sheet 1 on which image information is accumulated and recorded with excitation light 21 such as a laser beam, and photostimulates the stimulated emission light emitted from the stimulable phosphor sheet 1 by the scanning. The photoelectric reading means 22 such as pliers photoelectrically reads and obtains an electric image signal for outputting a visible image. In the figure, 23 is an excitation light source, 24 is an optical deflector such as a galvanometer mirror, 26 is photostimulable light emitted from the stimulable phosphor sheet 1, and is a light guide 22a of photoelectric reading means (the light guide 22a is photostimulable light emission). It is a reflection mirror that reflects the light toward the photodetector 22b such as a photomultiplier while totally reflecting the light).

The stimulable phosphor sheet 1 carried into the reading section 20 is conveyed in the direction of the arrow A ₃ by the sheet conveying means 50, and the entire surface of the stimulable phosphor sheet is two-dimensionally excited by the excitation light 21 which is deflected substantially perpendicularly to the conveying direction. Scanning is performed to generate stimulated emission light, and the stimulated emission light is detected by the photodetector 22b through the light guide 22a to read image information.

Incidentally, in reading the radiation image information, reading for obtaining the image signal for visible image output described above (main reading)
Prior to the above, pre-reading is performed to read out the outline of the radiation image information stored and recorded in advance in the stimulable phosphor sheet 1, and the reading conditions and the like at the time of performing the main reading based on the image information obtained by the pre-reading. There is known a method of determining and performing the main reading according to the reading conditions.

As a method of performing such pre-reading, for example, the stimulable phosphor sheet 1 is scanned with excitation light having an energy lower than that of the excitation light used for the main reading, and stimulated emission light emitted by this scanning is emitted. Similarly, there is a method of reading by photoelectric reading means (see, for example, JP-A-58-67240).

The reading unit in the present invention may be a unit that performs both main reading and pre-reading, in addition to the above-described part that performs only main reading. For example, the stimulable phosphor sheet 1 is conveyed in the direction of arrow A ₃ for pre-reading first, and then the stimulable phosphor sheet is switched back in the direction of arrow A ₄ by switchback, returned to the reading start position, and again indicated by arrow A. _It may be conveyed in _three directions for the main reading. The optical members arranged in the reading unit are not limited to the above-mentioned ones, and may be, for example, photoelectric reading units that are long along the main scanning line as described in JP-A-62-16666. Arrange the photo multiplier of
The stimulated emission light may be detected.

The reading of the image information by the reading unit 20 takes a relatively long time, but since the first stacker 100 is provided in the illustrated apparatus as described above, it is possible to read one sheet. The sheets 1 that have been photographed can be sequentially stored in the stacker 100 while the sheet 1 is being photographed, and the sheets 1 can be processed very efficiently. It should be noted that the cassette 2 containing the new stimulable phosphor sheet is loaded into the cassette holder 10 after the reading of one stimulable phosphor sheet is always completed in the reading unit 20,
If it is not necessary to wait before the stimulable phosphor sheet taken out from the cassette 2 is sent to the reading unit 20, the first stacker 100 is not necessarily provided.

As described above, the stimulable phosphor sheet 1 whose image information has been read in the reading section 20 is conveyed by the sheet conveying means 50 in the directions of arrows A ₅ and A _{6 and then} toward the erasing section 30.

The erasing section 30 is for erasing the radiation image information remaining on the stimulable phosphor sheet 1 after the above-mentioned reading is completed (releasing the radiation energy remaining in the stimulable phosphor). That is, a part of the radiation image information accumulated and recorded in the stimulable phosphor sheet 1 still remains in the stimulable phosphor sheet after reading, and this radiation image information is reused in order to reuse the stimulable phosphor sheet 1. The erasing unit 30 erases the residual image information. Any erasing method in the erasing unit 30 may be used. Erasing unit 30 in this embodiment
Is provided with a plurality of erasing light sources 31, such as fluorescent lamps, tungsten lamps, sodium lamps, xenon lamps, iodine lamps, etc., and the stimulable phosphor sheet 1 is conveyed in the direction of arrow A ₇ while these erasing light sources 31 are being conveyed. The residual radiation energy on the stimulable phosphor sheet is released by the irradiation of the light.

The stimulable phosphor sheet 1 that has been erased in the erasing section 30 is conveyed in the direction of arrow A ₈ and then further arrowed A ₉ , A _10.
Be transported to. When the stimulable phosphor sheet 1 is conveyed in the direction of arrow A ₁₀ and reaches the position shown by the broken line in the figure, the stimulable phosphor sheet 1 is fed back in the direction of arrow A ₁₁ by switchback. The stimulable phosphor sheet 1 sent back is further indicated by arrow A.
_The sheet is conveyed in ₁₂ directions and is loaded into the second stacker 200 provided in the conveying direction. The second stacker 200 has the same structure as the first stacker 100 described above,
The plurality of partition plates 211 and the bottom plate 212 form the sheet storage portion 213.
The stacker main body 210 formed with is moved in the direction of arrow E to accommodate the stimulable phosphor sheet 1 in any one of the sheet accommodation portions 213. That is, the stacker 20
0 indicates the plurality of partition plates 211 and the bottom plate as shown in FIG.
212 is integrally movable in the direction of arrow E. This movement is performed by moving wheels 220 attached to the lower end of stacker 200 on rails 230 by a driving means such as a motor (not shown) as an example. Done.
By moving the stacker 200 in the direction of the arrow E, a predetermined sheet storage portion 213 is positioned below the transport rollers 52A and 52B that carry the stimulable phosphor sheet 1 into the stacker 200. The sheet is conveyed into the predetermined sheet storage portion 213 by the above-mentioned conveying rollers 52A and 52B. When the loading of the stimulable phosphor sheet 1 is completed, the stacker 200 further moves in the direction of arrow E to prepare for the loading of the stimulable phosphor sheet into the next sheet storage portion 213. Further, when the stimulable phosphor sheet 1 is unloaded from the stacker 200, the stacker 200 moves in the direction of arrow E, and a predetermined sheet storage portion 213 holding the unloaded stimulable phosphor sheet 1 is placed in the stacker. It is positioned above the conveying rollers 53A and 53B provided below, and the bottom plate 212 is rotated as shown in FIG. 4 to drop the stimulable phosphor sheet 1 from inside the sheet accommodating portion 213,
The transporting rollers 53A and 53B hold the tip of the stimulable phosphor sheet 1 that falls, and carry out the stimulable phosphor sheet 1 out of the stacker 200.

The second stacker 200 previously stores accumulative phosphor sheets of various sizes and varieties, and the sizes and kinds of stimulable phosphor sheets accommodated in the respective sheet accommodating portions 213 are: It is stored in the control unit 60 provided above the reading unit 20. In order to store various stimulable phosphor sheets in the stacker 200 in advance, the stacker 200 is not removed from the stacker 200 for a while after the start of use of the apparatus.
The stimulable phosphor sheets 1 may be collected in 200, or various unused stimulable phosphor sheets may be stored in the stacker 200 in advance before the use of the apparatus. The above-mentioned stimulable phosphor sheet 1 is taken out from the stacker 200 immediately after the barcode 3 of the stimulable phosphor sheet 1 taken out from the cassette 2 is read by the barcode reader 13 in the cassette holding portion 10. Done. That is, the barcode is
It also carries information such as the size and product type of the stimulable phosphor sheet, and the read barcode is the control unit.
Sent to 60. The control unit 60 controls the stimulable phosphor sheet from the sheet accommodating unit 213 that accommodates the stimulable phosphor sheet of the same product type, based on the product type such as size and sensitivity of the stimulable phosphor sheet indicated by the transmitted barcode. The stacker 200 is controlled to carry out the body sheet. The stacker 200 is moved by the above-mentioned control so that the predetermined sheet storage portion 213 is set to the take-out position, and the stimulable phosphor sheet 1 carried out from the stacker 200 is conveyed in the direction of arrow A ₁₃ by the sheet conveying means 50, and the cassette is fed. It is sent to the holding unit 10. Further, the stimulable phosphor sheet 1 may be stored in the stacker 200 for a long time, and the elapsed time after the erasing by the erasing section 30 may be long.
In the auxiliary erasing unit 70 provided in the middle of the
It is designed to receive light from. That is, the stimulable phosphor sheet 1 is mixed in a small amount in the stimulable phosphor after a certain time has passed even after the erasing is performed.
Radiation energy is accumulated by radiation emitted from radioisotopes such as ²²⁶ Ra and ⁴⁰ K, and environmental radiation such as cosmic rays and X-rays from other X-ray sources. May result in noise. In order to prevent the generation of this noise, the stimulable phosphor sheet 1
Is passed through the auxiliary erasing unit 70, and the stimulable phosphor sheet 1 is erased (so-called secondary erasing) in which the radiation energy accumulated in the sheet is released during the standby time in the stacker 200. The stimulable phosphor sheet 1 that has passed through the auxiliary erasing section 70 is further conveyed in the direction of arrow A ₁₄ by the sheet conveying means 50, and is carried into the cassette 2 by the suction plate 12 described above.

As described above, according to the apparatus of this embodiment, by providing the second stacker between the erasing unit and the cassette holding unit, it is possible to successively load the erased sheets into the cassette in the cassette holding unit. In addition, since the barcode reader is provided in the cassette holder, the size and type of the stimulable phosphor sheet to be taken out from the second stacker can be detected when the stimulable phosphor sheet is taken out from the cassette. . Therefore, the next stimulable phosphor sheet can be carried into the empty cassette in a short time, and the waiting time of the cassette in the cassette holding portion can be shortened.

The identification information written on the stimulable phosphor sheet does not necessarily have to be a bar code, but any information such as a magnetic card piece may be used as long as it indicates information such as the size of the stimulable phosphor sheet and the product type such as sensitivity. Means can be used. Further, it goes without saying that the identification information reading means may be appropriately selected according to the type of identification information. Further, the identification information reading means may be fixed at a position where the stimulable phosphor sheet taken out from the cassette passes before being passed to the sheet conveying means. Further, the identification information may be written on the back surface of the stimulable phosphor sheet, or may be written on the front surface when there is a blank portion or the like on the front surface. For size information, the size of the cassette may be detected instead of the barcode. Further, in the above embodiment, the case where the stimulable phosphor sheet of the same size and type as the extracted stimulable phosphor sheet is carried into the cassette from which the stimulable phosphor sheet has been taken out will be described as an example. However, the size of the stimulable phosphor sheet that is newly loaded into the cassette must be the same as the preceding stimulable phosphor sheet, but there is a range of tolerance for product types. Or, it is possible to change the kind in order. Further, the structure of the stacker in the apparatus of the present invention is not limited to that of the above-described embodiment, and for example, a plurality of stimulable phosphor sheets can be stored while standing upright obliquely or horizontally. But it doesn't matter.

(Effect of the Invention) As described in detail above, the radiation image information reading apparatus of the present invention is provided with the stacker capable of accommodating a plurality of erased stimulable phosphor sheets, so that the stimulable fluorescence from the cassette is stored. After the body sheet is taken out, it is possible to carry out the stimulable phosphor sheet from the stacker and send it to an empty cassette, so that it is not necessary to rotate the stimulable phosphor sheet outside the device and one sheet of storage is performed. There is no inconvenience that the fluorescent phosphor sheet occupies the device. At the same time, in this device, the reading means for the identification information written on the stimulable phosphor sheet is provided in the cassette holding portion, so that the predetermined stimulable fluorescence from the stacker is immediately after the stimulable phosphor sheet is taken out from the cassette. Since the body sheet can be carried out, the waiting time of the cassette in the cassette holding section is shortened, and the stimulable phosphor sheet can be circulated and reused very efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic side view of a radiation image information reading apparatus according to an embodiment of the present invention, FIG. 2 is a perspective view of a cassette and a stimulable phosphor sheet, and FIG. 3 is FIG. FIG. 4 is a cross-sectional view showing the structure of the stacker in the apparatus shown in FIG. 4, and FIG. 4 is a schematic view for explaining the removal of the stimulable phosphor sheet from the stacker. 1 ... Accumulable phosphor sheet, 2 ... Cassette 3 ... Bar code, 10 ... Cassette holding section 12 ... Suction plate 13 ... Bar code reader, 20 ... Reading section 30 ... Erase section, 50 ... ... Sheet conveying means 60 ... Control unit, 100 ... First stacker 200 ... Second stacker

Claims (2)

[Claims] 1. A cassette which detachably holds a cassette capable of accommodating a stimulable phosphor sheet to which identification information regarding size, sensitivity, etc. is attached, and has a take-out means for taking out the stimulable phosphor sheet from the cassette. Holding unit, a reading unit for reading the radiation image information accumulated and recorded on the stimulable phosphor sheet, an erasing unit for erasing the radiation image information remaining on the stimulable phosphor sheet after the reading, the accumulation It is possible to accommodate a plurality of stimulable phosphor sheets, accommodate the stimulable phosphor sheets that have been erased in the erasing section, and carry out the accommodated stimulable phosphor sheets one by one. The stacker and the stimulable phosphor sheet conveyed from the cassette holding unit are received, conveyed to the reading unit and the erasing unit, and then conveyed to the stacker. In addition, the sheet storage means receives the stimulable phosphor sheet carried out from the stacker and carries it into the cassette held in the cassette holding part, wherein the cassette holding part is the stimulable phosphor from the cassette. It has an identification information reading means for reading the identification information of the stimulable phosphor sheet when the sheet is taken out, and the stimulable phosphor sheet is selected and carried out from the stacker according to the read identification information. Radiation image information reading device. 2. The radiation image information reading apparatus according to claim 1, wherein the identification information is carried by a bar code, and the identification information reading means is a bar code reader.