JP5778504B2 - Radiation imaging system - Google Patents

Description

  The present invention relates to a radiographic imaging system that captures radiographic images.

A radiographic imaging system includes a radiation generating apparatus that generates radiation, a radiographic imaging apparatus that detects and records radiation transmitted through a subject (hereinafter referred to as an electronic cassette), and imaging control means (hereinafter referred to as a console) that controls these. A radiographic image is taken using
Here, the electronic cassette is portable, and is stored in a storage place after photographing.
Some of such electronic cassettes have a lock function for locking a joint with a connector (Patent Document 1).

  Patent Document 1 discloses a state in which the electronic cassette side connector and the cable side connector are connected, the solenoid provided in the electronic cassette is used to move the movable iron core, the electronic cassette side connector and the cable side connector are locked, and This is a configuration for unlocking. The locking operation is performed by a lock signal from the control unit of the electronic cassette. On the other hand, the lock release is released by pressing a release button provided on the electronic cassette.

  That is, in Patent Document 1, the cable-side connector is locked to the electronic cassette so that the cable-side connector does not come out of the electronic cassette when the electronic cassette is used. The lock can be released simply by pressing the release button provided on the electronic cassette. Even if the connector of Patent Document 1 is used as a connecting portion for connecting to a support column or the like, a third party can easily unlock the lock, and thus the portable range of the electronic cassette cannot be limited.

JP2003-61942A

  In view of the above facts, an object of the present invention is to provide a radiographic imaging system capable of limiting the portable range of an electronic cassette during storage.

The radiographic imaging system according to the first aspect of the present invention is a portable radiographic imaging system that includes a connection portion to which a wired connection member connected to an external power cable is connected, and detects radiation generated by the radiation generator. An apparatus, a storage connection member connected to the connection portion, a lock means provided in the radiographic imaging apparatus for restricting removal of the storage connection member connected to the connection portion, and one end of the storage device A connecting member that is connected to the connecting member, the other end is connected to a fixing portion provided separately from the radiographic imaging device, and restricts a portable range of the storage connecting member; and the radiographic imaging device ; Is provided separately, and is provided in the radiographic imaging apparatus, imaging control means for generating radiation in the radiation generating apparatus and exchanging information with the radiographic imaging apparatus, And a lock release means for releasing a lock state by the lock means with a signal output from the photographing control means .

According to the first aspect of the present invention, the radiographic image capturing system includes the radiographic image capturing apparatus including the lock unit, and the lock unit is configured to be connected when the storage connection member is connected to the connection portion of the radiographic image capturing apparatus. Thus, the storage connection member connected to the connection portion is locked. The locked storage connecting member is connected to the connecting member, and is connected to a fixed portion provided separately from the radiographic image capturing device, so that the transportable range of the radiographic image capturing device is reduced by the length of the connecting member. Can be limited to.
Further, the unlocking means provided in the radiographic imaging apparatus is released by a signal output from the imaging control means provided separately from the radiographic imaging apparatus . As a result, the locked state cannot be released at the position of the radiation image capturing apparatus, and the unlocking of a third party is prevented.

  According to a second aspect of the present invention, in the radiographic image capturing system according to the first aspect, when the storage connection member is connected to the connection portion, the radiographic image capturing apparatus is connected to the radiographic image capturing apparatus. A power supply switching means for switching from the provided internal power supply to the external power supply is provided.

According to the second aspect of the present invention, when the storage connection member is connected to the connection portion of the radiographic imaging apparatus, the internal power source is switched to the external power source by the power source switching means. That is, when the storage connection member is not connected, the internal power supply is supplied, and when the storage connection member is connected, the external power supply is supplied.
As a result, if the storage connecting member is connected to the connecting portion during storage when the external power cable is not connected, the consumption of the internal electronic application can be suppressed.

A seventh aspect of the present invention is the radiographic imaging system according to any one of the first to sixth aspects, wherein the lock means is inserted into a lock portion of a claw member provided in the storage connection member. And a solenoid that moves the lock pin and prevents the lock portion from moving in the removal direction or enables the lock portion to move in the removal direction.

According to a seventh aspect of the present invention, the locking means has a lock pin and a solenoid, and the solenoid moves the lock pin and inserts the lock pin into the lock portion of the claw member provided on the connection member. Further, the solenoid moves the lock pin and releases the lock with the lock portion of the claw member.
Thereby, the connection member can be locked or unlocked by controlling the solenoid.

The invention according to claim 8 is the radiographic imaging system according to claim 7 , wherein the claw member is formed at a pair of arm portions and end portions of the arm portions and protrudes outward from each other. It has the nail | claw part engaged with the engaging part formed in this, It is characterized by the above-mentioned.
Thereby, by moving an arm part, a nail | claw part can be engaged with an engaging part and an engaging member and a radiographic imaging apparatus can be connected.

The invention according to claim 9 is the radiographic imaging system according to claim 8 , wherein the arm is attached to a moving mechanism provided in the connection member for storage, and when the moving mechanism is operated, The arm portions are moved in directions approaching each other.
Thereby, the arm part can be moved by operating the moving mechanism, and the distance between the claw parts can be adjusted. Further, the engagement between the claw portion and the engaging portion can be released.

The invention according to claim 10 is the radiographic imaging system according to any one of claims 1 to 9 , wherein the radiographic imaging device is provided with an alarm generating means, and the alarm generating means An alarm is generated when the storage connecting member is removed from the connecting portion while the locking means is in a locked state.
As a result, it is possible to notify the third party that the lock has been released.

The invention of claim 11 is the radiation image capturing system according to any one of claims 1 to 10, wherein the connecting member is a flexible long member made of steel, to the storage connection member It is characterized by being connected to the formed through hole or notch.
By connecting the connecting member for storage with a steel flexible long material, cutting becomes difficult, and the portable range of the radiographic imaging device can be limited to the length of the steel flexible long material.

A twelfth aspect of the present invention is the radiographic imaging system according to the eleventh aspect , wherein the long flexible steel material is a wire, and a part of the wire is used for storage of a radiographic imaging device. It is characterized by being connected to a column.
Thereby, the portable range of a radiographic imaging device can be restrict | limited to the range of the length of the wire centering on the support | pillar for storage.

The invention described in claim 13 is the radiographic image capturing system according to claim 11 or 12 , wherein the steel flexible elongated material is a wire, and a part of the wire is a part of the radiographic image capturing apparatus. It is characterized by being connected to a storage column.
Thereby, the portable range of a radiographic imaging device can be restrict | limited to the range of the length of the wire centering on the support | pillar for storage.

The invention according to claim 3, in the radiation image capturing system according to claim 2, wherein the power switching means detects the connection of the storage connection members to the connecting portion, an external power supply line from the internal power supply line to have two inputs and one output of the selector to switch to that feature a.

According to the third aspect of the present invention, the connection of the storage connection member to the connection portion is detected by the 2-input 1-output selector, and the internal power supply line and the external power supply line are switched.
Thus, the connection of the storage connection member can be electrically detected, and the selector can quickly switch between the internal power supply line and the external power supply line.

According to a fourth aspect of the present invention, in the radiographic imaging system according to the third aspect , the power supply switching unit detects continuity between connection terminals of the connection portion, and connects the internal power supply line and the external power supply line. It is characterized by switching.
Thereby, the connection of the connection member can be detected electrically.

According to a fifth aspect of the present invention, in the radiographic image capturing system according to the fourth aspect , the power supply switching unit is configured to connect the conduction between the first connection terminal and the second connection terminal in the connection terminals of the connection unit. The third connection terminal and the fourth connection terminal among the connection terminals of the storage connection member that are detected and connected to the first connection terminal and the second connection terminal are short-circuited inside the storage connection member. It is characterized by being.
Thereby, the connection of the storage connection member can be detected with a simple configuration.

According to a sixth aspect of the present invention, in the radiographic imaging system according to the fifth aspect , the first connection terminal of the connection portion is grounded, and the second connection terminal is connected to a control terminal of the selector. It is characterized by being connected to the base of a transistor.
Thereby, based on the connection of the connecting member for pipes, the internal power tine and the external power line can be switched.

  Since this invention is set as the said structure, the radiographic imaging system which can restrict | limit the portable range of an electronic cassette at the time of storage can be provided.

It is a conceptual diagram which shows the basic composition of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a side view which shows the connection state of the radiographic imaging apparatus and wired connector of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a top view which shows the basic composition of the connection part of the radiographic imaging apparatus and wired connector of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a side view which shows the connection state of the radiographic imaging apparatus and lock connector of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a figure which shows the internal structure of the wired connector and lock connector of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a side view which shows the connection state of the radiographic imaging apparatus of the radiographic imaging system which concerns on the 1st Embodiment of this invention, and a lock connector. It is a conceptual diagram which shows the moving mechanism of the lock arm of the lock connector of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a side view which shows the connection state of the radiographic imaging apparatus of the radiographic imaging system which concerns on the 1st Embodiment of this invention, and a lock connector. It is a circuit diagram which shows the power supply switching circuit provided in the radiographic imaging apparatus of the radiographic imaging system which concerns on the 1st Embodiment of this invention. It is a connection diagram which shows the connection structure at the time of connection of the radiographic imaging apparatus of the radiographic imaging system which concerns on the 1st Embodiment of this invention, and a lock connector. It is a connection diagram which shows the connection structure at the time of connection of the radiographic imaging apparatus of the radiographic imaging system which concerns on the 1st Embodiment of this invention, and a wired connector. It is a side view which shows the connection state of the radiographic imaging apparatus of the radiographic imaging system concerning the 2nd Embodiment of this invention, and a lock connector.

(First embodiment)
As shown in the system conceptual diagram of FIG. 1, the radiographic imaging system 10 according to the first exemplary embodiment sandwiches a radiation generator 60 that generates radiation 61 and a subject 62 between the radiation generator 60. The electronic cassette 12 is disposed and detects the radiation 61 that has passed through the subject 62, and the console 64 controls the electronic cassette 12 and the radiation generator 60.
Information is exchanged between the electronic cassette 12 and the console 64 via a communication cable 43 or a radio signal S, and information is exchanged between the radiation generator 60 and the console 64 via a communication cable 44. Done.

Here, the radiation generator 60 and the console 64 are commercially available devices that are generally used, and a description thereof will be omitted. The electronic cassette 12 and the communication cable 43 are detachably connected using a wired connector 14 described later.
The electronic cassette 12 is portable, and can be carried by hand when the communication cable 43 is removed. At this time, the outer peripheral surface of the electronic cassette 12 is finished flat, and no protruding portion or the like for attaching a fixing wire or the like during storage is formed.

FIG. 2 shows a method for connecting the communication cable 43 to the electronic cassette 12 according to the present embodiment.
The electronic cassette 12 has a flat housing 42 formed in a rectangular shape, and a body-side connecting portion 24 to which the wired connector 14 can be connected is provided on a side surface 42S of the housing 42.
A wired connector 14 having a connector-side connecting portion 22 is attached to the tip of the communication cable 43. The connection part 22 of the wired connector 14 and the connection part 24 of the electronic cassette 12 are connected to each other and can be moved. Here, the communication cable 43 includes an external power cable.
By connecting the connection unit 24 and the connection unit 22, information is exchanged and external power is supplied between the electronic cassette 12 and the console 64 via the communication cable 43.

Next, the electronic cassette 12 will be described.
As shown in the block diagram of FIG. 3, the connection terminal 24 is provided on the side wall 42 </ b> S of the housing 42 of the electronic cassette 12. A wired connector 14 or a lock connector 15 described later is connected to the connection terminal 24.

Inside the housing 42 are a radiation detection means 28 for detecting and recording radiation 61 (FIG. 1), an internal power supply (battery) 30 for supplying power to the radiation detection means 28, and a control unit for controlling the radiation detection means 28. 32, a power supply switching circuit 36 for switching the battery 30 and the external power supply line 34 is housed.
Thereby, when the internal power supply 30 is selected by the power supply switching circuit 36, the control unit 32 controls the radiation detection means 28 by the power from the internal power supply line 35, and the radiation detection means 28 detects the radiation. To do. The detected radiation is image-processed and transmitted to the console 60 (FIG. 1) via communication means (not shown).

  On the other hand, when the external power supply line 34 is selected by the power supply switching circuit 36 (when the wired connector 14 is connected), the control unit 32 controls the radiation detection means 28 by the power from the external power supply line 34. Under control, the radiation detection means 28 detects the radiation 61. The detected radiation 61 is subjected to image processing and transmitted to the console 60 via a communication means (not shown).

Next, the lock connector 15 will be described with reference to FIGS.
As shown in FIG. 3, in the present radiographic imaging system 10, a lock connector 15 is prepared in addition to the wired connector 14. The lock connector 15 has a connection part 23 on the lock connector side configured to be connectable to the connection part 24 of the electronic cassette 12. Further, the communication cable 43 is not connected to the lock connector 15.
The lock connector 15 is used, for example, when the electronic cassette 12 is stored, and is connected to the connection unit 24 after the wired connector 14 is removed.

The lock connector 15 includes a housing 16 that can be held and operated by hand, and a connection terminal is provided inside the housing 16. The casing 16 is formed in a box shape having a closed side wall and is gripped by the side wall. Openings 16H are provided at two corners of the casing 16, and an operation unit 66 is projected from the opening 16H.

  By connecting the lock connector 15 to the connection portion 24 of the electronic cassette 12, the power supply switching circuit 36 cuts off the power supply from the internal power supply 30 to the radiation detection means 28 and the like. The lock connector 15 according to the present embodiment has substantially the same specifications as the wired connector 14 such as shape and dimensions, and has a sealing property when connected to the electronic cassette 12. Has been.

A connection portion 23 on the lock connector side is provided on a side surface 16S of the housing 16 of the lock connector 15, and a connection terminal described later is attached to the connection portion 23. When the connection part 23 and the connection part 24 of the electronic cassette 12 are connected, the connection terminal provided in the connection part 24 and the connection terminal of the lock connector 15 are conducted.

Next, the internal configuration of the wired connector 14 and the lock connector 15 will be described.
FIG. 5A shows the internal configuration of the wired connector 14, and FIG. 5B shows the internal configuration of the lock connector 15.
As shown in FIG. 5A, a communication cable 43 is connected to the wired connector 14, and a connection portion 22 is provided on the side surface of the wired connector 14. The connection portion 22 is provided with connection terminals 14A1, 14A2, and 14A3. An external power supply line 34 is connected to the connection terminal 14A1. The connection terminals 14A2 and 14A3 are short-circuited inside the wired connector 14. The communication cable 43 includes information lines for transmitting and receiving control signals, image data, and the like to and from the console 64, which are connected to connection terminals, but are not shown.

As shown in FIG. 5B, the communication cable 43 is not connected to the lock connector 15. A connection portion 23 is provided on the side surface of the lock connector 15. The connection portion 23 is provided with connection terminals 15B1, 15B2, and 15B3. The external power supply line is not connected to the connection terminal 15B1. The connection terminals 15B2 and 15B3 are short-circuited inside the lock connector 15.
In addition, lock arms 50 are provided inside the lock connector 15 on both sides of the connection portion 23.

Next, a lock function for locking the lock connector 15 to the electronic cassette 12 will be described.
As shown in FIG. 6, the lock connector 15 has a pair of lock arms 50. The lock arm 50 is provided on the outside of the connection portion 23 and has an arm shape. The arm portion has a longitudinal direction parallel to the connection terminals 15B1 to 15B3, and a claw portion 52 is formed at the tip of the arm portion. The claw portions 52 are provided outward from each other, and a through hole 54 is formed in an arm portion of the claw portion 52 on the housing 16 side. The housing 16 is provided with a through hole 90.

The lock arm 50 is attached to a moving mechanism 68 shown in FIG. 7, for example, and is housed so as to be movable in a direction parallel to the connection terminals 15B1 to 15B3 (direction of the arrow P2). That is, an operation portion 66 is provided at a corner portion of the casing 16, and when the operation portion 66 is pushed in the direction in which the operation portion 66 is pushed (the direction of the arrow P1), the L-shaped member 70 rotates around the fulcrum 71 (rotation direction R1 ). Since the end portion of the L-shaped member 70 is joined to the rotation node a1, the end portion of the L-shaped member 70 moves the rotation node a1 in the direction of the arrow P3. Since the rotation node a2 is attached to the housing 16 and does not move, the rotation node a3 is moved in the direction of the arrow P2. A lock arm 50 is attached to the rotation node a3.
As a result, the lock arm 50 moves in the direction of the arrow P2. A spring 69 is provided between the rotation node a2 and the rotation node a3. When the hand is released from the operation unit 66, the lock arm 50 returns to the position before the movement.

Connection terminals 15C1 to 15C3 are provided at the joint 24 of the electronic cassette 12. Connection terminals 15B1 to 15B3 are provided on the joint portion 23 of the lock connector 15 at positions facing the connection terminals 15C1 to 15C3.
A lock arm receiver 80 is provided at a position facing the lock arm 50. The side wall of the lock arm receiver 80 is provided with a claw receiving portion 80S that stores the claw portion 52 when the lock arm 50 is inserted.
A solenoid 56 is attached above the claw receiving portion 80S (the inlet side of the lock arm receiver 80). The solenoid 56 can move the pin 58 in the axial direction. The solenoid 56 is connected to the control unit 32 by a cord 57, and the movement of the pin 58 is controlled by the solenoid 56.

Next, joining of the lock connector 15 and the electronic cassette 12 will be described.
As shown in FIG. 8A, the operation portion 66 of the lock connector 15 is pushed in the direction of the arrow P1, the lock arm 50 is moved in the direction of the arrow P2, and the distance of the lock arm 50 is reduced. Next, the lock connector 15 is moved in the direction of arrow D, and the lock connector 15 is joined to the joining portion 24 of the electronic cassette 12.

  At this time, as shown in FIG. 8B, the lock arm 50 is inserted into the lock arm receiver 80, and the claw portion 52 of the lock arm 50 is locked to the claw receiver 80S. Further, the connection terminal 15B is inserted into the connection terminal 15C and becomes conductive.

Thereafter, the solenoid 56 is controlled from the console 64 to move the pin 58 in the axial direction. At this time, the pin 58 is inserted into the through hole 54. As a result, the movement of the lock arm 50 in the direction of exiting (direction orthogonal to the pin 58) is restricted.
Although the internal power supply 30 of the electronic cassette 12 is cut off, the control circuit of the solenoid 56 and the wireless receiving circuit are always energized, and their functions are ensured.

Next, as shown in FIG. 8C, the fixing portion 88 and the lock connector 15 are connected by the wire 86 in a state where the lock connector 15 is locked to the electronic cassette 12.
The wire 86 is attached using the through hole 90 of the lock connector 15. The fixing portion 88 is, for example, a support carriage for the electronic cassette 12 or a support provided at a storage corner.
Thereby, the electronic cassette 12 is connected to the fixing portion 88, and the portable range of the electronic cassette 12 is limited to the length of the wire 86. That is, it is possible to prevent a third party from taking away the electronic cassette 12 from the storage location during storage.

  When releasing the lock function, a wireless communication function with the console 64 is used. That is, the solenoid 56 is controlled from the console 64, the pin 58 is moved, and is extracted from the through hole 54. Thereafter, the operation unit is pushed in the direction of the arrow P1, and the lock arm 50 is moved in the direction of the arrow P2. Thereby, the nail | claw part 52 comes off from the nail | claw receiving part 80S. In this state, the lock connector 15 may be extracted from the electronic cassette 12. The person who can operate the console 64 is limited, and the unlocking of a third party can be prevented. Furthermore, encryption may be used for the unlocking operation from the console 64.

Although not shown, a buzzer is provided in the electronic cassette 12 and, in a locked state, before issuing a lock release signal from the control unit 32, a first short-circuiting terminal 15C2 and a second short-circuiting terminal 15C3 described later. When the short circuit is released, it is determined that the unlocking operation by the third party has been performed, and the control unit 32 issues a buzzer sound signal.
As a result, it is possible to notify the third party that the lock has been released.
A pressure sensor is provided at the position of the pin 58 and the output is input to the control unit 32. In the locked state, when a force greater than the setting is applied to the pin 58, it may be determined that the unlocking operation by the third party is being performed, and the control unit 32 may issue a buzzer sound signal.
Accordingly, it is possible to notify the surroundings that the lock is released at the unlocking stage.

Next, the power switching function by the lock connector 15 will be described.
As shown in FIG. 9, the electronic cassette 12 is provided with a power supply switching circuit 36. The power supply switching circuit 36 includes a two-input one-output selector 72, a transistor 74, and two pull-up resistors 76 and 78. One input terminal of the selector 72 is a power output of the internal power supply 30. Connected to the terminal. In the selector 72 according to the present embodiment, when the control terminal is at a low level, one input terminal is connected to the output terminal, and the control terminal is set to a high level. The other input terminal is connected to the output terminal. However, the logic of the selector 72 may be reversed.

  On the other hand, when the wired connector 14 or the lock connector 15 is connected to the connection portion 24 on the main body side, the power input terminal that is in contact with the external power supply terminal 14A1 of the wired connector 14 or the external power supply terminal 15B1 of the lock connector 15 15C1 is provided, and the other input terminal of the selector 72 is connected to the power input terminal 15C1.

Similarly, when the wired connector 14 or the lock connector 15 is connected, the connection unit 24 includes a short-circuit first terminal 14A3 and a short-circuit first terminal 15C3 that comes into contact with the short-circuit third terminal 15B3. Yes. Further, the connection unit 24 includes a short-circuit second terminal 15C2 that comes into contact with the short-circuit second terminal 14A2 and the short-circuit fourth terminal 15B2 when the wired connector 14 or the lock connector 15 is connected. .
The first short-circuit terminal 15C2 is connected to the base of the transistor 74, and is pulled up to a predetermined voltage that can turn on the transistor 74 via the pull-up resistor 76. .

  On the other hand, the collector of the transistor 74 is connected to the control terminal of the selector 72 and pulled to a predetermined voltage that can turn on the control terminal of the selector 72 via the pull-up resistor 78 (high level).・ It is up. Note that the emitter of the transistor 74 is grounded.

  The second short-circuit terminal 15C3 is grounded, and the output terminal of the selector 72 is connected to an input terminal of a DC / DC converter (not shown) interposed between each power supply destination. In the power supply switching circuit 36 according to the present embodiment, the pull-up voltage from the internal power supply 30 is constantly applied to the pull-up resistor 76 and the pull-up resistor 78.

Next, the operation of the electronic cassette 32 when the lock connector 15 is connected to the electronic cassette 12 (when the electronic cassette 12 is stored) will be described with reference to FIG.
As shown in the figure, at this time, the power input terminal 14A1 provided in the connection portion 24 is in an open state.
On the other hand, the first shorting terminal 15C2 and the second shorting terminal 15C3 provided in the connecting portion 24 are short-circuited via the first shorting terminal 15B2 and the second shorting terminal 15B3 provided in the lock connector 15. The As a result, the transistor 74 is turned off, the control terminal of the selector 72 is set to the high level via the pull-up resistor 78, and the other input terminal of the selector 72 is connected to the output terminal.

  With the above operation, power supply from the built-in power supply 30 is cut off, and power is not supplied to each power supply destination of the electronic cassette 32.

  As described above, according to the present embodiment, the connection member (here, the lock connector 15) is the connection terminal (here, the connection) for connecting the wired connector of the radiographic imaging device (here, the electronic cassette 12). When connected to the unit 24), the power supply from the built-in power supply (here, the built-in power supply 30) in the radiographic imaging apparatus is cut off. As a result, the power consumption of the built-in power supply 30 can be suppressed only by a simple operation of attaching the connection member without accompanying a complicated operation.

  In addition, according to the present embodiment, the lock connector 15 is a wired connector provided on a cable (here, the cable main body 43) that connects the radiographic imaging device and an external device (here, the console 90). Therefore, the connecting member of the present invention can be easily manufactured.

Next, a state in which the wired connector 14 is connected to the electronic cassette 12 (when the electronic cassette 12 is used) is shown using FIG.
As shown in the figure, the power output terminal 14A1 provided on the wired connector 14 is brought into contact with the power input terminal 15C1 provided on the connection portion 24 of the electronic cassette 12.

  On the other hand, the short-circuit first terminal 15C2 and the short-circuit second terminal 15C3 provided in the connection portion 24 are short-circuited via the short-circuit third terminal 14A2 and the short-circuit second terminal 14A3 provided in the wired connector 14. The As a result, the transistor 74 is turned off, the control terminal of the selector 72 is set to the high level via the pull-up resistor 78, and the other input terminal of the selector 72 is connected to the output terminal.

While the power supply from the internal power supply 30 is cut off by the above operation, the power from the external power cable 26 input via the communication cable 43 is supplied to each power supply destination of the electronic cassette 12 from the DC-DC. It is supplied via a converter or the like.
Thereby, the radiographic image can be taken with external power.

When both the wired connector 14 and the lock connector 15 are removed from the connection portion 24 of the electronic cassette 12 (when the internal power supply 30 is used), the state shown in FIG.
That is, the power input terminal 15C1 provided in the connection portion 24 of the electronic cassette 12 is opened. At the same time, the first short circuit terminal 15C2 and the second short circuit terminal 15C3 are also opened. As a result, the transistor 74 is turned on, the control terminal of the selector 72 is set to the low level, and the one input terminal of the selector 72 is connected to the output terminal (the state shown in FIG. 7).
With the above operation, power from the internal power supply 30 is supplied to each power supply destination of the electronic cassette 12 via the DC-DC converter or the like.

(Second Embodiment)
As shown in FIG. 12, the radiographic imaging system 96 according to the second embodiment has the through hole 90 of the lock connector 15 described in the first embodiment formed in the side portion 94S of the lock connector 94. The cut-out portion 92 is used. The following description will focus on the differences.

As shown in FIG. 12A, the lock connector 94 according to the second embodiment is formed by providing a notch 92 at an end 94S on the connection part 23 side. That is, since the notch 92 has an open end on the connecting portion 23 side, when the lock connector 94 is connected to the electronic cassette 12, the open end is closed by the side wall 94 </ b> S of the electronic cassette 12. The connecting hole is formed.
The connection method and locking method between the lock connector 94 and the electronic cassette 12 are the same as those in the first embodiment, and a description thereof will be omitted.

As shown in FIG. 12B, the electronic cassette 12 is connected with a wire 86 in a state where the lock connector 94 is locked. Alternatively, the lock connector 94 is attached to the electronic cassette 12 with the wire 86 attached.
One end of the wire 86 is attached using the notch 92 of the lock connector 94, and the other end is attached to the fixing portion 88.

As a result, the electronic cassette 94 is connected to the fixing portion 88, and the portable range of the electronic cassette 12 is limited to the length of the wire 86. That is, it is possible to prevent a third party from taking away the electronic cassette 12 during storage.
In addition, the notch part 92 can be used as a strong attachment part by forming near the center of the lock connector 94.

10 Radiation imaging system 12 Electronic cassette (Radiation imaging device)
14 Wired connector (wired connection member)
15 Cock connector (connecting member)
DESCRIPTION OF SYMBOLS 22 Connection part by the side of a wired connector 23 Connection part by the side of a cock connector 24 Connection part by the side of a main body 30 Internal power supply 32 Control part 34 External power supply line 36 Power supply switching circuit (switching means)
50 Lock arm (claw member)
52 Claw (Claw member)
54 Through hole (lock part)
56 Solenoid (locking means)
58 pin (locking means)
64 Console 68 Moving mechanism 72 Selector 74 Transistor 80 Lock arm receiving portion (engaging portion)

Claims (13)

A portable radiographic imaging device that includes a connection portion to which a wired connection member connected to an external power cable is connected, and that detects radiation generated by the radiation generation device ;
A connection member for storage connected to the connection part;
A locking means provided in the radiographic image capturing device for restricting removal of the storage connection member connected to the connection portion;
One end is connected to the storage connection member, the other end is connected to a fixed portion provided separately from the radiographic imaging device, and a connection member that limits the portable range of the storage connection member;
An imaging control unit that is provided separately from the radiographic image capturing device , generates radiation to the radiation generating device, and exchanges information with the radiographic image capturing device ;
A lock releasing means provided in the radiographic image capturing apparatus, for releasing a locked state by the locking means by a signal output from the imaging control means ;
A radiographic imaging system comprising:   The radiographic imaging apparatus is provided with power switching means for switching from an internal power supply provided in the radiographic imaging apparatus to an external power supply when the storage connection member is connected to the connection portion. The radiographic imaging system according to 1.   The radiographic image according to claim 2, wherein the power supply switching unit includes a 2-input 1-output selector that detects connection of the storage connection member to the connection portion and switches from an internal power supply line to an external power supply line. Shooting system.   The radiographic imaging system according to claim 3, wherein the power supply switching unit detects continuity between connection terminals of the connection unit and switches between the internal power supply line and the external power supply line.   The power supply switching means detects the continuity at a first connection terminal and a second connection terminal among the connection terminals of the connection part, and is connected to the first connection terminal and the second connection terminal. The radiographic imaging system according to claim 4, wherein a third connection terminal and a fourth connection terminal among the connection terminals of the connection member are short-circuited inside the storage connection member.   The radiographic imaging system according to claim 5, wherein the first connection terminal of the connection portion is grounded, and the second connection terminal is connected to a base of a transistor connected to a control terminal of the selector. The lock means includes a lock pin inserted into a lock portion of a claw member provided in the storage connection member;
A state in which the lock pin is moved and a state in which the lock portion is prevented from moving in the removal direction, or a state in which the movement in the removal direction is enabled;
The radiographic imaging system of any one of Claims 1-6 which has these.   The claw member includes a pair of arm portions, and a claw portion that is formed at an end portion of the arm portion and protrudes outward from each other and engages with an engagement portion formed in the connection portion. Item 8. The radiographic imaging system according to Item 7.   The radiographic imaging system according to claim 8, wherein the arm is attached to a moving mechanism provided in the storage connection member, and moves the arm in a direction approaching each other when the moving mechanism is operated. .   The radiographic imaging device is provided with an alarm generation unit, and the alarm generation unit issues an alarm when the storage connection member is removed from the connection portion while the lock unit is in a locked state. 10. The radiographic imaging system according to any one of items 9.   The radiation according to any one of claims 1 to 10, wherein the connection member is a flexible steel long material, and is connected to a through hole or a notch formed in the connection member for storage. Image shooting system.   The radiographic imaging system according to claim 11, wherein both ends of the steel flexible long material are closed in a loop shape. The radiographic imaging system according to claim 11 or 12, wherein the steel flexible elongated material is a wire, and a part of the wire is connected to a storage column of the radiographic imaging apparatus.

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