JP2010057525A - Radiographic imaging system and cassette for radiographic imaging - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily execute information transmission to a cassette at a low cost in a radiographic imaging system using the cassette provided with a display device. <P>SOLUTION: In the radiographic imaging system 101 using the cassette 8 provided with the display device 81, unidirectional radio communication is utilized as an information transmission means to the cassette 8. Also, self-identification information is imparted to the cassette 8, and order information of imaging information or the like is associated with the self-identification information (specified identification information) of the cassette 8 whose use is specified and is transmitted. Then, the cassette 8 which receives the transmitted order information discriminates two pieces of the identification information and thus stores only the required order information in a storage device. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a radiographic imaging system and a radiographic imaging cassette, and more particularly to a radiographic imaging system and a radiographic imaging cassette that link a patient and radiographic information by transmitting information to the cassette. It is about.

  In order to digitize and store and transmit radiographic images generated in hospitals or the like, radiographic image reading apparatuses that output radiographic image reports as digital data have come to be widely used. As a radiation image reading apparatus that outputs such digital data, a radiation image reading apparatus that uses a stimulable phosphor sheet that records radiation image information is well known.

  The photostimulable phosphor sheet was detected at the same time as detecting a part of the radiation (X-ray, α-ray, β-ray, γ-ray, electron beam external line, ultraviolet ray, etc.) energy including biological tissue information transmitted through the subject. Radiation energy can be stored inside the photostimulable phosphor sheet. The radiation energy accumulated in the photostimulable phosphor sheet is extracted as photostimulated light according to the accumulated radiation energy by being excited by a laser beam having a predetermined wavelength. After that, this stimulating light is detected, converted into an electrical signal using a photoelectric conversion element such as a photomultiplier, then AD converted, subjected to signal processing such as unevenness correction, and the radiation image information is converted into digital data. Output to the host computer.

  Generally, photostimulable phosphor sheets are usually prepared in different sizes and sensitivities depending on the imaging conditions such as the imaging region, age, and imaging purpose of the patient. Photographing is performed by selecting a photostimulable phosphor sheet suitable for the photographing conditions. Therefore, when a radiographic image is captured using the photostimulable phosphor sheet, the operator can record the radiographic image recorded on the photostimulable phosphor sheet with the reading sensitivity and the reading resolution according to the captured site and method. It is necessary to read information.

  On the other hand, the photostimulable phosphor sheet is used by being housed in a portable thin box-like casing called a cassette. With such a usage pattern, the operator can easily carry the photostimulable phosphor sheet with the cassette, so that the radiographic image can be taken in the same manner as a conventionally used screen / film cassette. Can do. The cassette is used for taking a radiographic image in a state in which the photostimulable phosphor sheet is accommodated, for example, so that radiation is irradiated through the patient's body.

However, when the photostimulable phosphor sheet is stored in this cassette, since the photostimulable phosphor sheet cannot be confirmed from the appearance of the cassette, the operator who performed the imaging uses which cassette to determine which part. You must remember how you photographed. Then, according to this storage, the patient and the cassette are linked and the radiation image information reading process is performed. In this case, if the worker's memory is incorrect, incorrect association and reading processing will be performed. For this reason, as a method for solving this problem in Patent Document 1, it is proposed to provide a display device for displaying photographing information on a cassette. And since the invention shown by patent document 1 is equipped with the transmission / reception apparatus, it is thought that it has a two-way radio | wireless communication means. That is, the invention disclosed in Patent Document 1 not only transmits imaging information from the writing device to the cassette of Patent Document 1, but also transmits a confirmation signal that information has been reliably transmitted from the cassette to the writing device. Further, it is considered that identification information for identifying the cassette is transmitted from the cassette to the writing device.
JP 2004-191855 A

  However, the above two-way communication not only requires both transmission and reception devices, but also requires complicated control and a high ability of the CPU that controls the control. There is a problem of inviting.

  The present invention has been made in view of the above problems, and an object thereof is to provide a radiographic imaging system and a radiographic imaging cassette capable of easily and inexpensively transmitting information to the cassette. It is.

In order to solve the above problems, a radiographic imaging system according to the present invention provides:
An ordering server that manages order information related to radiographic imaging, a radiography operation terminal that performs operations related to radiographic imaging, a radiographic image reader that performs image reading processing of the radiographic image taken, an ordering server, an imaging operation terminal, and a radiographic image In a radiographic imaging system comprising a network line for connecting a reading device and a cassette used for radiographic imaging,
Obtaining order information from the ordering server via the network line, and having a transmission unit that transmits the order information by unidirectional wireless communication,
The cassette is received by the display device that displays the order information, the storage device that stores the order information and self-identification information unique to the cassette, the receiving unit that receives the order information transmitted by the transmitting unit, and the receiving unit. An information processing unit that processes the order information, and a cassette control unit that controls the display device, the storage device, the reception unit, and the information processing unit,
The information processing unit extracts, from the order information received by the receiving unit, the specified identification information that is the self-identification information of the cassette specified to be used by the order, determines the specified identification information and the self-identification information, and the determination result When the two pieces of identification information match, the order information is output to the cassette control unit.

  Here, “order information” means information related to radiographic imaging that is registered in an ordering server by a doctor or the like. For example, patient information such as order number, patient name and age, imaging information such as imaging region and imaging method, reading information such as sensitivity and resolution during reading processing, cassette identification information such as cassette identification information and size used Information etc. are included.

  The “self-identification information” means identification information unique to the cassette owned by the cassette in its own storage device.

  “Specified identification information” means self-identification information of a cassette whose use is specified by order information.

  Furthermore, in the radiographic imaging system according to the present invention, the transmission unit and the reception unit preferably transmit / receive order information by infrared communication, or preferably transmit / receive order information by visible light communication.

Furthermore, the cassette for radiographic imaging according to the present invention is:
A radiographic imaging cassette used in the radiographic imaging system described above,
A display device for displaying order information;
A storage device for storing order information and cassette-specific self-identification information;
A receiving unit for receiving the order information transmitted by the transmitting unit;
An information processing unit for processing the order information received by the receiving unit;
A cassette control unit that controls a display device, a storage device, a reception unit, and an information processing unit,
The information processing unit extracts from the order information received by the receiving unit, the specified identification information that is the self-identification information of the cassette designated for use by the order, determines the specified identification information and the self-identification information, and results of the determination When the two pieces of identification information match, the order information is output to the cassette control unit.

  The radiographic imaging system according to the present invention uses unidirectional communication that allows information to be transmitted from the transmitting unit that transmits order information to the cassette by an inexpensive device. Unidirectional wireless communication has no problem such as collision that occurs in bidirectional communication such as RFID, and therefore the information processing method and the communication device itself are simple. For this reason, information transmission to the cassette can be easily realized at low cost.

  Hereinafter, although an embodiment of the present invention is described using a drawing, the present invention is not limited to this.

"Radiation imaging system and radiographic imaging cassette"
<First Embodiment>
A first embodiment of a radiographic imaging system according to the present invention will be described. FIG. 1 is a schematic diagram showing an overall configuration of a radiation image capturing system 101 according to the present embodiment.

  As shown in FIG. 1, a radiographic imaging system 101 according to the present invention includes an ordering server 1 that manages order information related to radiographic imaging, an imaging operation terminal 2 that performs operations related to radiographic imaging, and radiation irradiation that irradiates radiation. Apparatus 3, radiation image reading apparatus 4 that performs image reading processing of a captured radiographic image, ordering server 1, imaging operation terminal 2, radiation irradiation apparatus 3, and radiographic image reading apparatus 4, and radiographic image And a cassette 8 used for photographing. A transmission unit 7 a that transmits and receives information is connected to the photographing operation terminal 2 via a cable 6.

  The ordering server 1 is composed of a computer, and is installed in a radiation room of a hospital, for example. As shown in FIG. 2, the ordering server 1 includes a server control unit 11, an external storage device 12, an input operation unit 13 such as a keyboard and a mouse, a display unit 14 such as a CRT display and a liquid crystal display, and an interface 15. It has been. The server control unit 11 allows the doctor to take a radiographic image of an operator such as a radiologist in a state where the patient information, the imaging information, the reading information, and the cassette status information input from the input operation unit 13 are associated with each other. The order information to be instructed is stored in the external storage device 12. A plurality of order information is listed and stored as an order list, and information specifying the order information, for example, an order number or the like is attached to each order information. In other words, the order information includes an order number, patient information, imaging information, reading information, status information, and the like, as shown in FIG. 3, for example.

  Here, the patient information is information relating to the patient such as the patient's name, age, sex, date of birth, patient ID number for identifying the patient. The imaging information is information relating to imaging conditions such as an imaging region (a part to be imaged on the patient's body), an imaging direction and a method. The read information is information relating to reading conditions such as reading sensitivity and reading resolution of the radiation image reading apparatus according to the imaging information. The status information is information relating to the cassette, such as the cassette size, the number of times of use, and the image erasure status.

  The imaging operation terminal 2 is configured by a computer, and is installed in a radiation room of a hospital, for example. As shown in FIG. 2, the photographing operation terminal 2 is provided with a control unit 21, a memory 22, an input operation unit 23 such as a keyboard and a mouse, a display unit 24 such as a CRT display and a liquid crystal display, and an interface 25. . The control unit 21 receives order information from the ordering server 1 via the interface 25. The control unit 21 stores the received order information in the memory 22, and reads out the order information in accordance with a signal from the input operation unit 23 and displays the order information on the display unit 24. . In addition, the control unit 21 sends designated identification information and information necessary for radiographic imaging such as a patient's name and ID number and radiographic information to the transmission unit 7a via the interface 25 in accordance with a signal from the input operation unit. In contrast, the output is made. In addition, the control unit 21 controls imaging by outputting an imaging instruction to the radiation irradiation device 3 in accordance with a signal from the input operation unit 23.

  For example, as shown in FIGS. 4 and 5, the radiation irradiation apparatus 3 converts the radiation into a radiation source unit 31 having a radiation source and a position for receiving the radiation emitted from the radiation source of the radiation source unit 31 and passing through the subject 35. A panel support unit 32 that supports the panel, an arm support unit 33 that supports the radiation source unit 31 and the panel support unit 32 so as to be opposed to each other, and an arm support unit 33 that is movable in the vertical direction. The support | pillar 34 to be provided is provided.

  As described above, the support column 34 supports the arm support portion 33 movably, and the arm support portion 33 is movable by a predetermined distance in the vertical direction (arrow A direction) as shown in FIG. It is attached to the column 34 in the configuration. Further, the support column 34 is provided with an arm rotation drive unit (not shown) for rotating the arm support unit 33. The arm support unit 33 is rotated by the arm rotation drive unit as shown in FIG. It is rotated in the direction of arrow B around C.

  As described above, the arm support portion 33 supports the radiation source unit 31 and the panel support portion 32 so as to be installed at positions facing each other. As shown in FIG. 5, the radiation source unit 31 is attached to the arm support portion 33 in a configuration that can move in the arrow D direction so that the distance from the panel support portion 32 becomes a desired distance. A mechanism for moving the radiation source unit 31 in the direction of arrow D in FIG. Moreover, the panel support part 32 is attached to the arm support part 33 via the rotating shaft 33a (refer FIG. 4). And the panel support part 32 is attached to the arm support part 33 so that it can rotate to the arrow E direction centering on the rotating shaft 33a, as shown in FIG. A mechanism for rotating the panel support portion 32 is provided in the panel support portion 32.

  The radiation source unit 31 includes the radiation source as described above, and the radiation is emitted from the radiation source toward the panel support portion 32 as shown in FIG.

  The radiation image reading device 4 is provided, for example, on each floor of a radiology department or each ward. As shown in FIG. 2, the radiation image reading device 4 is provided with a control unit 41 and an interface 42. In addition, as shown in FIG. 6, the radiographic image reading device 4 is provided with an insertion port 43 into which a radiographic image cassette 8 is inserted. The reading unit 44 for reading the self-identification information is provided, and the reading unit 44 has a connection terminal (not shown) that can be connected to a connection terminal (not shown) provided in the radiographic imaging cassette 8. Is provided. When the radiographic imaging cassette 8 is inserted and connected to a connection terminal provided in the reading unit 44, the control unit 41 reads the self-identification information stored in the radiographic imaging cassette 8 by the reading unit 44. On the basis of the self-identification information, the order information in the ordering server 1 is searched and read out, and the radiation image reading process is controlled based on the reading information in the order information. Further, the control unit 41 stops the application of the voltage from the power supply 82 provided to the inserted radiographic imaging cassette 8 to the electrodes of the liquid crystal display panel 81 after performing the radiographic image reading process. As a result, the information displayed on the liquid crystal display panel 81 is erased. The control unit 41 transmits an image obtained by the reading process to the ordering server 1.

  The network line 5 is a local area network that connects various apparatuses in a hospital, and a radiographic image read by the radiographic image reading apparatus 4 is transmitted and received between the apparatuses. When the imaging operation terminal 2 is also installed in another hospital or clinic, the network line 5 may have a configuration in which local area networks of each hospital are connected by the Internet or a dedicated line. The network line 5 is preferably an optical network that can realize high-speed image transfer.

  The radiographic imaging cassette 8 is a light shielding box made of a carbon plate or the like whose front surface transmits X-rays, and is configured to store a stimulable phosphor sheet in which a stimulable phosphor is laminated on a sheet-like support. Has been. Alternatively, the radiographic imaging cassette 8 may be an electronic cassette formed by arranging a large number of solid detection elements in a matrix. The radiographic imaging cassette 8 is provided with a liquid crystal display panel 81 as a display device on the back surface thereof, a power source 82 for applying a voltage to the electrodes of the liquid crystal display panel 81, and a receiving unit 83 for unidirectional communication. In addition, a memory 84 that is a storage device, a cassette control unit 85, and an information processing unit 86 are provided. The cassette control unit 85 receives the designation identification information, the shooting information, and the like from the transmission unit 7a by the reception unit 83, and determines the designation identification information as self-identification information by information processing in the information processing unit 86. If the specified identification information matches the self-identification information, the information processing unit 86 extracts the shooting information associated with the specified identification information and sends it to the cassette control unit 85. Thereafter, the cassette control unit 85 stores the photographing information and the like in the memory 84 and displays the information on the liquid crystal display panel 81.

  The information processing process in the information processing unit 86 is performed by a process as shown in FIG. 7, for example. That is, first, the cassette receiving unit 83 receives a unidirectional communication signal from the transmitting unit 7a (ST1). Then, one specified identification information is extracted from one or a plurality of order information included in this signal (ST2), and it is determined whether or not the specified identification information and the self-identification information match. (ST3). If they match, the order information linked to the designated identification information is extracted (ST6), sent to the cassette control unit 85, stored in the memory 84 by the cassette control unit 85 (ST7), and the order information Is displayed on the display device (ST8). On the other hand, if the specified identification information does not match the self-identification information, it is processed for any other specified identification information that has not been determined. If there is any other, the determination in ST3 is performed on the specified identification information.

  The transmission unit 7a receives designation identification information, imaging information, and the like output from the imaging operation terminal 2, and outputs them to the radiographic imaging cassette 8 by infrared communication.

  And the radiographic imaging using the radiographic imaging system 101 which concerns on this embodiment is shown below.

  Based on the doctor's judgment, the cassette designation identification information, patient information, imaging information, and reading information are associated with each other and input to the ordering server 1 as order information and stored (FIG. 3). Here, the designated identification information of the cassette, that is, the cassette for designating the use may be determined by the doctor, or determined on the ordering server 1 side based on the imaging information registered by the doctor and the current usage status of the cassette. May be. When determining on the ordering server 1 side, for example, an imaging region, an imaging method, etc., a cassette usage history, a radiation image erasing status, and the like are used as judgment materials.

  The order list in which the order information input to the ordering server 1 is listed is received by the imaging operation terminal 2 installed in the radiation room, and the order information in the received order list is displayed on the display unit of the imaging operation terminal 2. 24. The radiologist selects one or a plurality of orders to be taken from this order list. By selecting the order, the order information becomes in a state where infrared transmission is possible by the transmission unit 7a. Then, when the infrared communication is possible, the radiologist operates the transmission unit 7a toward the cassette to change the radiographic imaging cassette 8 from the imaging operation terminal 2 to the designated identification information and the patient's name and ID. Numbers and shooting information are output. Furthermore, designated identification information, imaging information, and the like are stored in the memory 84 of the radiographic imaging cassette 8, and the patient's name, ID number, and imaging information are displayed on the liquid crystal display panel 81 of the radiographic imaging cassette 8. . Here, when operating the transmission unit 7a toward the cassette in the present invention, because the specified identification information is also sent together with the imaging information etc., the radiologist is in a place where there are a plurality of cassettes such as a cassette storage shelf. In addition, infrared communication can be performed.

  Thereafter, the radiologist brings the radiographic imaging cassette 8 in which the order information is stored, and takes a radiographic image of the patient in the radiation room where the radiation irradiating apparatus 3 is installed. The radiographer applies the radiographic imaging cassette 8 to the body of the patient to be imaged while confirming the contents displayed on the radiographic imaging cassette 8, and applies the radiographic imaging cassette 8 from above the patient's body. On the other hand, the radiation irradiation apparatus 3 is arranged at a position where radiation can be irradiated. Thereafter, when the radiologist operates the input operation unit 23 of the imaging operation terminal 2, radiation is emitted from the radiation irradiation device 3 and imaging is performed. By such a method, radiographic images are taken in the radiation room.

  The radiographic imaging cassette 8 used for radiography in the radiological room is inserted into the insertion port 43 of the radiographic image reading apparatus 4 one by one by the radiographic image reading apparatus 4 installed in a separate room of the radiology department. Reading processing is performed. When the radiographic imaging cassette 8 is inserted into the insertion port 43 of the radiographic image reading device 4 and connected to the connection terminal provided in the reading unit 44, the designation identification information stored in the radiographic imaging cassette 8 is stored. Read. The order information in the ordering server 1 is retrieved and read based on the specified identification information, and the radiation image reading process is performed based on the read information in the order information.

  In the reading process, when the radiographic imaging cassette 8 is first inserted, the photostimulable phosphor sheet 87 is pulled out from the radiographic imaging cassette 8. Then, the photostimulated luminescence light excited by scanning the laser beam from the excitation light generation unit 46 to the photostimulable phosphor sheet 87 is read by the photoelectric reading unit 47 and subjected to photoelectric conversion. Thereafter, the converted analog electrical signal is converted into a digital signal by the A / D converter 48, whereby the reading process is completed. At this time, the sensitivity of the photoelectric reading unit 47 is controlled according to the reading sensitivity value in the reading information, and the transport speed of the transport mechanism 45 and the sang pitch of the A / D conversion unit 48 are controlled according to the value of the reading resolution.

  After the radiation image reading process is performed, the halogen lamp 49 provided in the radiation image reading device 4 irradiates the stimulable phosphor sheet 87 with the extinction light and releases the remaining radiation energy. Further, the application of voltage to the electrodes of the liquid crystal display panel 81 is stopped, and the information displayed on the liquid crystal display panel 81 is erased. Thereby, the radiographic image cassette 8 is used again for imaging.

  The radiographic image subjected to the reading process is transmitted to the ordering server 1 and displayed on the display unit 14 of the ordering server 1 or output by an image output device (not shown) such as a printer for diagnosis by a doctor. Will be served.

  As described above, the radiographic imaging system according to the present invention uses unidirectional communication that enables information transmission from the transmission unit that transmits order information to the cassette by an inexpensive device. Unidirectional wireless communication has no problem such as collision that occurs in bidirectional communication such as RFID, and therefore the information processing method and the communication device itself are simple. For this reason, information transmission to the cassette can be easily realized at low cost.

  Furthermore, the radiographic imaging system according to the present invention can also provide the following effects. As an information transmission method that does not perform bidirectional communication, for example, there is unidirectional communication such as an infrared remote controller. An infrared remote control device can be configured at a very low cost, so it is very suitable for an application of communication with a cassette. However, when information is transmitted using such a one-way communication, it is impossible to confirm that the information has been reliably transmitted or to identify when a plurality of cassettes has received information. In this case, since the information content is actually displayed on the cassette, the former confirmation can be substituted by visual confirmation. However, the latter identification has no workaround.

  Usually, when radiographic imaging is performed on a patient, a plurality of radiographic images are captured even at one imaging site (for example, imaging of a top view and a side view). Will be handled at the same time. Therefore, in view of such a case, the function of identifying a plurality of cassettes is very important for reducing complexity.

  In the radiographic imaging system according to the present invention, the cassette is provided with a display device for displaying information necessary for radiographic imaging and cassette-specific self-identification information, and when the information is transmitted to the cassette, the order information is included along with the order information. The self-identification information of the cassette associated with the information is also transmitted. As a result, the cassette can correctly extract the order information to be stored from the plurality of transmitted order information by discriminating the designated identification information and the self-identification information. Therefore, it is possible to efficiently transmit a plurality of order information to a plurality of cassettes at the same time, and it is possible to further simplify the operation of transmitting information to the cassettes.

<Second Embodiment>
FIG. 8 is a schematic diagram showing the overall configuration of the radiation image capturing system 102 according to the present embodiment. The radiographic imaging system 102 is different in that the transmission unit in the radiographic imaging system 101 described in the first embodiment transmits information using visible light communication.

  That is, as shown in FIG. 8, the radiographic imaging system 102 according to the present invention irradiates radiation with an ordering server 1 that manages order information relating to radiographic imaging, an imaging operation terminal 2 that performs operations relating to radiographic imaging. A radiation irradiation device 3, a radiation image reading device 4 for performing image reading processing of a captured radiation image, an ordering server 1, an imaging operation terminal 2, a radiation irradiation device 3, and a network line 5 connecting the radiation image reading device 4, And a cassette 8 used for radiographic imaging. A transmission unit 7 b that transmits and receives information is connected to the network line 5 via a cable 6 and a modulator 9. The description of the same elements as those in the first embodiment is omitted unless particularly required.

  The transmission unit 7b is an illumination device for performing visible light communication, and for example, an LED or a fluorescent lamp can be used. Visible light communication modulates an electrical signal according to information to be transmitted, converts it into light by a lighting device, transmits it, converts it into an electrical signal by a photo detector, etc. on the receiving side, demodulates it and restores the original It is a communication technology that extracts information. The modulation of the electrical signal is performed by the modulator 9.

  The receiving unit 83 of the cassette 8 is configured by a photo detector or the like capable of receiving visible light communication.

  And the radiographic imaging using the radiographic imaging system which concerns on this embodiment is shown below.

  The process is the same as in the first embodiment until the order displayed on the display unit 24 of the photographing operation terminal 2 is selected. When a communication operation is started for the selected order, the electrical signal is modulated by the modulator 9 according to the order information of the order. Furthermore, based on this electrical signal, the transmitter 7b transmits the order information by visible light communication. The order information is stored in the memory 84 of the radiographic imaging cassette 8, and the patient's name, ID number, and imaging information are displayed on the liquid crystal display panel 81 of the radiographic imaging cassette 8. After performing the communication operation, the radiologist only has to go to pick up a cassette whose use is designated by the designated identification information. Thereafter, as in the first embodiment, a radiographic image is taken using the cassette, and the radiographic image reading device 4 performs image reading processing.

As described above, the radiographic imaging system according to the present embodiment also uses unidirectional communication that enables information transmission from the transmitting unit that transmits order information to the cassette by an inexpensive device. Further, in the radiographic imaging system according to the present embodiment, the cassette is provided with a display device for displaying information necessary for radiographic imaging and cassette-specific self-identification information. Further, when transmitting information to the cassette, the order information is included. The specified identification information of the cassette associated with the order information is also transmitted. As a result, the cassette can correctly extract the order information to be stored from the plurality of transmitted order information by determining the designated identification information and the self-identification information. Similar effects can be obtained.
Furthermore, since lighting devices are generally installed everywhere, a wireless environment can be constructed simply by adding a communication function to the lighting devices.

<Design changes>
In the case of the second embodiment, since information can be transmitted without knowing where the cassette is, even if the information transmission is successful, there is a possibility that the cassette cannot be found thereafter. In order to avoid this problem, when shooting is not performed for a certain period of time after receiving information, the received information may be deleted and a warning may be issued to the ordering server 1. Further, in combination with the first embodiment, information may be transmitted to the cassette selected by the operator as appropriate.

1 is a schematic configuration diagram showing a configuration of a radiographic image capturing system according to a first embodiment. 1 is a schematic block diagram showing the configuration of a radiographic image capturing system according to a first embodiment. Figure showing an example of an order list Schematic which shows the radiation irradiation apparatus in 1st Embodiment (the 1) Schematic which shows the radiation irradiation apparatus in 1st Embodiment (the 2) Schematic which shows the radiographic image reading apparatus in 1st Embodiment. Flow chart showing the information processing process in the cassette Schematic configuration diagram showing a configuration of a radiographic imaging system according to a second embodiment

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Ordering server 2 Imaging operation terminal 3 Radiation irradiation apparatus 4 Radiation image reading apparatus 5 Network line 6 Cable 7a, b Transmitter 8 Radiation image imaging cassette 9 Modulator 81 Display device 87 Stimulable phosphor sheet 101, 102 Radiation image Shooting system

Claims (4)

An ordering server that manages order information related to radiographic imaging, an imaging operation terminal that performs operations related to radiographic imaging, a radiographic image reading device that performs image reading processing of the radiographic image taken, the ordering server, the imaging operation terminal, and In a radiographic imaging system comprising a network line connecting the radiographic image reader and a cassette used for radiographic imaging,
Obtaining the order information from the ordering server via the network line, and having a transmitter that transmits the order information by unidirectional wireless communication,
The cassette displays the order information, a storage device that stores the order information and the cassette-specific self-identification information, a receiving unit that receives the order information transmitted by the transmitting unit, and An information processing unit that processes the order information received by the receiving unit; and a cassette control unit that controls the display device, the storage device, the receiving unit, and the information processing unit,
The information processing unit extracts, from the order information received by the receiving unit, designated identification information that is self-identification information of a cassette designated for use by an order, and discriminates the designated identification information and the self-identification information In the radiographic imaging system, the order information is output to the cassette control unit when the identification information matches as a result of the discrimination.   The radiographic imaging system according to claim 1, wherein the transmitting unit and the receiving unit transmit and receive the order information by infrared communication.   The radiographic image capturing system according to claim 1, wherein the transmitting unit and the receiving unit transmit and receive the order information by visible light communication. A radiographic imaging cassette used in the radiographic imaging system according to claim 1,
A display device for displaying the order information;
A storage device for storing the order information and the cassette-specific self-identification information;
A receiving unit for receiving the order information transmitted by the transmitting unit;
An information processing unit for processing the order information received by the receiving unit;
A cassette control unit that controls the display device, the storage device, the receiving unit, and the information processing unit;
The information processing unit extracts, from the order information received by the receiving unit, designated identification information that is self-identification information of a cassette designated for use by an order, and discriminates the designated identification information and the self-identification information And a radiographic imaging cassette that outputs the order information to the cassette control unit when the two identification information matches as a result of the discrimination.

Images