JP4743436B2 - Ceiling traveling X-ray tube suspension - Google Patents

Description

  The present invention relates to an overhead traveling X-ray tube suspension.

  As shown in FIG. 1, a conventional overhead traveling X-ray tube suspender has a fixed rail 1 for moving in a longitudinal direction (X direction, arrow a direction in FIG. 1) fixed to the ceiling, and slides on the fixed rail 1. A movable rail 2 for movement in the short direction (Y direction, arrow b direction in FIG. 1) attached so as to be movable, and attached to the movable rail 2 so as to be slidable and movable in the XY direction within a horizontal plane. The carriage unit 3 is provided.

  Further, a support column 4 that can be expanded and contracted in the vertical direction is provided at a lower portion of the carriage unit 3, and an attachment block 5 is attached to the lower end of the support column 4. The mounting block 5 is suspended from the carriage portion 3 by a plurality of wires accommodated in the support column 4 and is movable in the vertical direction (the direction of arrow c in FIG. 1). The X-ray tube device 6 is rotatably mounted around the horizontal axis (in the direction of arrow e in FIG. 1) and around the vertical axis (in the direction of arrow d in FIG. 1). Further, although not shown in the drawing, the carriage unit 3 is connected to the upper end side of a plurality of wires and balances the weight suspended by the wires. A brake mechanism (usually composed of an electromagnetic brake) that locks the vertical movement of the tube device 6 is provided.

  As for the movement in the XY direction on the ceiling horizontal plane of the X-ray tube apparatus 6 and the rotation around the horizontal axis and the vertical axis, as in the case of the above-described movement in the vertical direction, the brakes for the driving mechanisms related to the operations are respectively provided. A mechanism (usually composed of an electromagnetic brake) is provided, and their operation is normally locked.

The mounting block 5 is also provided with a movement of the X-ray tube device 6 in the X-Y direction in the horizontal plane, or a vertical movement, a rotation around the horizontal axis or a rotation around the vertical axis, or two of these operations. An operation handle 7 for performing a combined operation composed of the above combinations by manual operation and an operation panel 8 provided with operation switches and a display are provided.
As shown in FIG. 2, the operation panel 8 includes a lock release switch 12 for moving the carriage unit 3 in the longitudinal direction and a short direction, and a lock release switch 11 for moving the X-ray tube device 6 in the vertical direction. And an operation switch such as a lock release switch 9 for rotation about the horizontal axis of the X-ray tube apparatus 1 and a lock release switch 10 for rotation about the vertical axis, and a horizontal rotation angle, long and short of the tube of the X-ray tube apparatus 6 A display 13 for displaying data necessary for imaging by the X-ray tube device 6 such as a direction SID (Source-Image Distance) value is provided.

  Then, the operator holds the operation handle 7 and selectively operates the operation switch provided on the operation panel 8 to release the lock, and the X-ray tube device 6 is manually operated within the ceiling horizontal plane. Move in the Y direction, move up and down, rotate around the horizontal and vertical axes, then fix at the desired imaging position at the desired angle, and take an X-ray image of the subject's imaging region (See Patent Documents 1 and 2).

  By the way, unlike other medical equipment with high automaticity, a medical imaging apparatus such as an overhead traveling X-ray tube suspension is designed to be manually operated. As for the photographing apparatus, there is a situation that a wide variety of photographing must be efficiently performed every day. For this reason, it is a principle that manual operation is possible as long as no serious troubles that impede shooting occur.

  And in the conventional overhead traveling X-ray tube suspension, the X-ray tube device is suspended by a plurality of wires in consideration of safety, and even if a wire breakage occurs, Although it is possible to prevent the accidental fall of the X-ray tube device, leaving the wire in a broken state for a long time is a problem because it may adversely affect the remaining wires. Replace the wires quickly. There is a need. Therefore, in the conventional overhead traveling X-ray tube suspension, when a wire breakage occurs during manual operation, a warning is displayed on the display 13 of the operation panel 8 to warn the operator, The vertical movement of the X-ray tube device is locked.

  However, in this conventional method, when a wire breakage occurs, a warning display is continuously made over almost the entire surface of the display 13 of the operation panel 8 in order to inform the operator of the wire breakage. If the X-ray tube device is operated manually even after the occurrence of the error (operations other than vertical movement are not locked), the data necessary for imaging is not displayed on the display, and imaging is almost impossible. There was a problem that it would be in a bad state. In addition, only a vertical movement of the X-ray tube apparatus by manual operation, or a combined operation including a vertical movement of the X-ray tube apparatus (for example, a combination of a longitudinal movement, a lateral movement, and a vertical movement) In general, the X-ray tube apparatus is moved at a relatively high speed, and the X-ray tube apparatus and the mounting block are considerably heavy and have a large inertia. If this occurs, sudden braking will be applied, and an unpleasant loud sound may be generated from the brake mechanism, or the operator may fall down and lead to an accident.

JP 2005-65942 A JP 2005-270145 A

  Therefore, the problem of the present invention is that when a wire breakage occurs during manual operation of the X-ray tube device, the operator is accurately informed of the occurrence of the wire breakage, and at the same time the vertical direction of the X-ray tube device is The movement can be locked smoothly, and the X-ray tube apparatus can be operated while confirming necessary data even after the occurrence of wire breakage so that imaging can be continued.

  In order to solve the above-described problems, the first invention includes a rail provided on a ceiling, a carriage unit attached to the rail and movable in a horizontal plane, and a plurality of wires suspended from the carriage unit. A mounting block that is movable in the vertical direction, an X-ray tube device that is rotatably mounted on the mounting block around a horizontal axis and a vertical axis, and a horizontal plane of the X-ray tube device that is mounted on the mounting block. An operation handle for manually performing a combined operation consisting of a combination of two or more of movements in the movement, movement in the vertical direction, rotation around the horizontal axis or rotation around the vertical axis, or a combination of two or more thereof. The balance machine is arranged at the top and is connected to the upper ends of the plurality of wires and balances the weight suspended by the wires. And a brake mechanism that is disposed in the carriage portion and is normally operated to lock the movement of the X-ray tube device in the vertical direction by stopping the operation of the balance mechanism, and is provided in the mounting block. An operation switch for releasing the lock by the brake mechanism while moving the X-ray tube device in the vertical direction by the manual operation, a warning means for warning an operator when a wire breakage occurs, and the wire breakage And a control unit that is provided in the mounting block and controls the operation of the warning unit and the operation switch, and the control unit receives the operation switch and inputs the X by manual operation. Disconnection detection from the sensor during a combined operation including only the vertical movement of the tube apparatus or the vertical movement. When receiving a signal, the warning means is actuated, and an operation command is given to the brake mechanism after completion of only the movement in the vertical direction or after completion of the combined operation. Is configured.

  In order to solve the above-mentioned problems, the second invention includes a rail provided on the ceiling, a carriage portion attached to the rail and movable in a horizontal plane, and a plurality of wires suspended on the carriage portion. A mounting block that is movable in the vertical direction, an X-ray tube device that is rotatably attached to the mounting block around a horizontal axis and a vertical axis, and an X-ray tube device that is attached to the mounting block. An operation handle for performing manual operation of movement in a horizontal plane, or movement in the vertical direction, rotation around a horizontal axis or rotation around a vertical axis, or a combination of two or more of these movements; The rose is disposed on the carriage portion and connected to the upper ends of the plurality of wires to balance the weight suspended by the wires. A mounting mechanism, and a brake mechanism that is disposed on the carriage unit and operates to lock the movement of the X-ray tube device in the vertical direction by stopping the operation of the balance mechanism at all times. An operation switch for releasing the lock by the brake mechanism while moving the X-ray tube device in the vertical direction by the manual operation, warning means for warning an operator when a wire breakage occurs, and the wire A sensor for detecting disconnection of the sensor, and a control unit that is provided in the mounting block and controls the operation of the warning means and the operation switch, and the control unit is manually operated when the operation switch is input. Disconnection from the sensor while the X-ray tube apparatus is performing only a vertical movement or a combined operation including the vertical movement. When receiving the output signal, the warning means is activated, and an operation command is given to the brake mechanism after completion of only the vertical movement or after completion of the combined operation, but the operation switch is input to perform manual operation. When the disconnection detection signal is received from the sensor during the operation other than the vertical movement of the X-ray tube apparatus or the combined movement not including the vertical movement, the warning means is activated. At the same time, an overhead traveling X-ray tube suspender is provided, which is characterized in that an operation command is given to the brake mechanism.

In the configuration of the first and second aspects of the invention, the warning means includes a display provided on the mounting block and displaying data necessary for imaging by the X-ray tube device, and the warning operation is performed when the wire breakage occurs. Sometimes the display of data necessary for imaging is switched to a warning display, but if the X-ray tube device is operated manually after the wire breakage occurs, the warning display is captured during the operation. This is preferably done by switching to the display of the data required for
Moreover, it is preferable that the said control part invalidates the input of the said operation switch, after giving the operation command to the said brake mechanism at the time of the said wire breakage | break.

  According to the present invention, when wire breakage occurs during manual operation of the X-ray tube apparatus, a warning of wire breakage is issued to the operator, but the manual operation is related to the vertical movement. When the operation is completed, the vertical movement of the X-ray tube device is not locked until the operation is completed, so that sudden braking is not applied during the operation, an unpleasant loud sound is generated from the brake mechanism, or the operator There is no risk of falling. On the other hand, when the manual operation is irrelevant to the vertical movement, the vertical movement is locked simultaneously with the wire breakage warning.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 1 is a perspective view showing an external shape of an overhead traveling X-ray tube suspension according to an embodiment of the present invention.
The overhead traveling X-ray tube suspension of the present invention has the same external shape as that of the conventional example. As shown in FIG. 1, the longitudinal direction (X direction, arrow a in FIG. 1) fixed to the ceiling. Direction) fixed rail 1 for movement, moving rail 2 for movement in the short direction (Y direction, arrow b direction in FIG. 1) attached to the fixed rail 1 for sliding movement, and sliding movement for the moving rail 2 And a carriage unit 3 that is movable in the XY direction within a horizontal plane. The sliding movement of the moving rail 2 in the X direction along the fixed rail 1 is normally locked by an X-direction moving brake mechanism (not shown), and the Y direction along the moving rail 2 of the carriage unit 3. Is normally locked by a Y-direction moving brake mechanism (not shown). These brake mechanisms are composed of electromagnetic brakes, similar to a brake mechanism that locks the movement of the X-ray tube device in the vertical direction, which will be described later.

  A column 4 that can be expanded and contracted in the vertical direction is provided at the lower part of the carriage unit 3, and a mounting block 5 is mounted on the lower end of the column 4. The mounting block 5 is suspended from the carriage unit 3 by a plurality of wires accommodated in the support column 4, in this embodiment by two wires, and is movable in the vertical direction (the direction of arrow c in FIG. 1). An X-ray tube device 6 is rotatably attached to the mounting block 5 around a horizontal axis (in the direction of arrow e in FIG. 1) and around a vertical axis (in the direction of arrow d in FIG. 1). In this case, the rotation of the X-ray tube device 6 about the horizontal axis and the vertical axis is also always locked by a brake mechanism (not shown). This brake mechanism is also an electromagnetic brake, as is the case with a brake mechanism that locks the movement of the X-ray tube device in the vertical direction, which will be described later.

  The carriage unit 3 is connected to the upper end side of the two wires and balances with the weight suspended by the wires, and the upper and lower sides of the X-ray tube device 6 are normally controlled by stopping the operation of the balance mechanism. And a brake mechanism that operates to lock the movement in the direction.

  FIG. 3 shows the structure of the balance mechanism and the brake mechanism, and the control system when wire breakage occurs. In this embodiment, two wires are used, and a balance mechanism and a brake mechanism having the same structure are provided independently for each of the wires. Therefore, in FIG. 3, a part of the structure of the balance mechanism for one wire and the brake mechanism are omitted.

Referring to FIG. 3, the balance mechanism includes a pair of horizontal rotating shafts 25 and 26 that are rotatably supported around an axis. Four pulleys 17a to 17d and 18a to 18d are fixed to the rotary shafts 25 and 26 at intervals in the axial direction, respectively. The rotating shaft 25 is movable in parallel with the rotating shaft 26 so as to approach or move away from the rotating shaft 26 and is biased in a direction away from the rotating shaft 26 by a spring (not shown). The wire 20 is supported at one end by the wire support member 15a, and further wound around the pulley 18b via the pulleys 16a, 17a, 18a, and 17b, and then hooked on the hook 19 of the mounting block 5, After being wound around 18c, the other end is supported by a wire support member 15b via pulleys 17c, 18d, 17d, and 16b, and the mounting block 5 is suspended and supported by the wire 20.
In this case, the spring generates a biasing force that balances the weight suspended by the wire 20, whereby the mounting block 5 and the X-ray tube device 6 can be suspended and supported in a weightless state.

  The brake mechanism includes a rotating drum 22 that is attached to one end of the rotating shaft 26 and can rotate integrally therewith. A brake member 21 is disposed opposite to the rotating drum 22, and a braking position that is pressed by the rotating drum 22 to stop its rotation by switching the operation of the solenoid 23 and a non-braking position that is separated from the rotating drum 22. It can take two positions. In this case, when the solenoid 23 is in the “ON” state, the brake member 21 takes the non-braking position and enters the brake release state. When the solenoid 23 is in the “OFF” state, the brake member 21 takes the braking position and enters the brake operating state. Become.

  The overhead traveling mounting block 5 also has a movement in the XY direction in the horizontal plane of the X-ray tube device 6, or a vertical movement, or a rotation around a horizontal axis or a rotation around a vertical axis, or their An operation handle 7 and an operation panel 8 are provided for performing a composite operation consisting of a combination of two or more operations by manual operation.

  FIG. 2 is a plan view showing the operation handle and the operation panel. Referring to FIG. 2, operation panel 8 includes a lock release switch 12 for moving the X-ray tube device 6 in the longitudinal direction and a short-side direction, and a lock release switch for moving the X-ray tube device 6 in the vertical direction. 11, and operation switches such as a lock release switch 9 for rotating around the horizontal axis of the X-ray tube apparatus 1 and a lock release switch 10 for rotating around the vertical axis. These operation switches 9 to 12 are switches (momentary switches) that are kept in the “ON” state only while the switches are being pressed, and are always in the “OFF” state. When each of the operation switches 9 to 12 is in the “ON” state, the solenoid of the brake mechanism corresponding to the operation switch is in the “ON” state and the brake is released.

The operation panel 8 is also provided with a display 13 for displaying data necessary for imaging by the X-ray tube device 6 such as the tube angle of the X-ray tube device 6 and the SID values in the long and short directions. . In this embodiment, the display 13 consists of an array of four 7-segment LED displays. For example, when the operation switches 9 and 10 are in the “ON” state, the rotation angle is displayed on the display 13, and when the operation switch 11 is in the “ON” state, the SID value is displayed.
According to the present invention, warning means for warning the operator when wire breakage occurs is also provided. In this embodiment, the warning means comprises a display 13. The warning operation of the display device 13 will be described later.

  According to the present invention, as shown in FIG. 3, the carriage unit 3 is provided with the sensor 24 for detecting the disconnection of the wire 20, and the mounting block 5 is based on the disconnection detection signal from the sensor 24. A control unit 14 that issues a warning of occurrence of wire breakage and controls the operation of the operation switch is provided. The sensor 24 is composed of, for example, a microswitch, and is placed in a state where the microswitch is always pressed against the wire 20 (“ON” state). When the wire breakage occurs, the tension disappears and the microswitch The occurrence of the wire breakage is detected by detecting that is in the “OFF” state.

  The control unit 14 detects that at least the operation switch 11 is in the “ON” state when the X-ray tube device 6 is manually operated to perform a combined operation including only the vertical movement or the vertical movement. In the meantime, when a disconnection detection signal is received from the sensor 24, the display 13 is activated to warn the operator of the occurrence of wire disconnection, and after completion of only the vertical movement or after completion of the combined operation. When it is detected that all the operation switches 9 to 12 are in the “OFF” state, the vertical movement of the X-ray tube device 6 is locked by giving an operation command to the brake mechanism. The operation command is sent to the brake mechanism independently of the input of the operation switch (up / down movement unlocking switch) 11 (the solenoid 23 is forcibly set regardless of the state of the operation switch 11). In this case, the controller 14 may be configured to invalidate the input of the operation switch 11 after sending the operation command to the brake mechanism.

  The warning operation of the display unit 13 is performed by switching the display of data necessary for photographing to a warning display when a wire break occurs. By the way, it is only the movement in the vertical direction that is locked due to the wire breakage, and X-ray imaging can be performed only by the operation other than the movement in the vertical direction of the X-ray tube device 6 even after the wire breakage occurs. There is. In such a case, while the operation of the X-ray tube apparatus 6 is performed manually, the display unit 13 operates to switch the display of warning to the display of data necessary for imaging.

In this embodiment, the warning means is constituted by the display device 13, but an alarm device or a warning buzzer by voice can be used instead of the display device 13 as the warning means. In this case, the display 13 can display data necessary for photographing as usual.
In this embodiment, the display unit 13 is composed of four 7-segment LED displays. However, the display unit 13 is not limited to this. For example, the display unit 13 may be a large LCD having a larger display area. . In this case, it is possible to simultaneously display data necessary for photographing on the LCD and a warning that emphasizes the operator.

  In addition, the control unit 14 further performs an operation other than the vertical movement of the X-ray tube device 6 or a combined operation that does not include the vertical movement, and at least one operation switch other than the operation switch 11 is provided. When a disconnection detection signal is received from the sensor 24 while detecting that it is in the “ON” state, the warning means is activated to warn the operator of the occurrence of wire disconnection, and at the same time, the brake mechanism is instructed to operate. The movement of the X-ray tube device 6 in the vertical direction may be locked.

  Further, for example, a balance mechanism as shown in FIG. 4 may be used instead of the above-described balance mechanism. In this case as well, the same balance mechanism is arranged independently for each of the two wires, as in the above-described embodiment. In the embodiment of FIG. 4, the balance mechanism includes a pair of rotating arms 31 having one end attached to the carriage unit 3 and capable of rotating around the shaft 30, and a moving pulley 32 attached to the other end of the rotating arm 31. And a pair of first constant pulleys 33a, second constant pulleys 33b, and third constant pulleys 33c attached to the carriage unit 3. The balance spring 34 is attached to the spring mounting member 35, one end of the balance spring 34 is fixed to the fixing portion 40 at one end of the spring mounting member 35, and the other end of the spring mounting member 35 is attached to the carriage unit 3. The shaft 37 can be rotated. The working end of the balance spring 34 is attached to the rotary arm 31 via the retainer 36 and the spring connecting portion 38 so as to be rotatable around the spring connecting portion 38.

  Both ends of the wire 39 are supported by the fixed portions of the rotary arm 31, and are hung on the movable pulley 32 and the first to third constant pulleys 33 a to 33 c. Connected. Thus, the weight of the mounting block 5 and the X-ray tube device rotates the rotary arm 31 in the direction in which the movable pulley 32 is pulled up, while the elastic force and the own weight of the balance spring 34 both cause the rotary arm 31 to move. 32 is rotated in the direction to be pulled down, and acts to raise the mounting block 5 and the X-ray tube apparatus. At this time, the component of the force that the elastic force of the balance spring 34 acts on the rotary arm 31 and the component of the force that the weight of the balance spring 34 and the rotary arm 31 act on the rotary arm 31 are balanced with each other. . When the mounting block 5 and the X-ray tube device move downward, the spring mounting member 35 rotates about the shaft 37 in conjunction with the rotation of the rotary arm 31 in the direction in which the movable pulley 32 is pulled up, and the spring The retainer 36 moves in a direction in which the balance spring 34 is compressed via the connecting portion 38. At this time, the compressed balance spring 34 elastically urges the rotating arm 31 to rotate the moving pulley 32 in a direction in which the rotating pulley 32 is pulled down, and thus in a direction in which the mounting block 5 and the X-ray tube device are pulled up, It acts to balance the weight of the mounting block 5 and the X-ray tube apparatus. Thereby, the mounting block 5 and the X-ray tube apparatus 6 can be suspended and supported in a weightless state.

  Although not shown, in this embodiment, a brake mechanism similar to the embodiment of FIG. 3 is provided on one end side of the shaft 30 of the rotary arm 31. That is, a rotary drum is provided at one end of the shaft 30, a brake member is disposed opposite to the rotary drum, a braking position that is pressed against the rotary drum to stop its rotation by switching the operation of the solenoid, and from the rotary drum Two positions, a non-braking position that is separated, can be taken. When the solenoid is in the “ON” state, the brake member takes the non-braking position and enters the brake release state. When the solenoid is in the “OFF” state, the brake member takes the braking position and enters the brake operating state.

  Further, in this embodiment, as shown in FIG. 4A, a sensor 24 is provided between the first constant pulley 33a and the second constant pulley 33b in the carriage unit 3 so as to detect the disconnection of the wire 29. The mounting block 5 is provided with a controller that issues a wire breakage warning based on a breakage detection signal from the sensor 24 and controls the operation of the operation switch. The sensor 24 and the control unit have the same configuration as that of the embodiment of FIGS. 1 to 3, and thus function in the same manner as in the embodiment of FIGS.

  According to the overhead traveling X-ray tube suspension according to the present invention, the operator grasps the operation handle 7 and selectively sets the operation switches 9 to 12 in the direction in which the X-ray tube device 6 is to be moved to the “ON” state. The X-ray tube device 6 is moved manually in the XY direction in the ceiling horizontal plane, moved up and down, rotated around the horizontal axis and the vertical axis, and then moved to the desired imaging position. It can be fixed at an angle and X-ray imaging of the imaging region of the subject can be performed.

  When a wire breakage occurs during manual operation of the X-ray tube device 6, the display 13 switches the display of data necessary for imaging to a warning display, and the wire breakage occurs to the operator. It is informed that when the manual operation is related to the vertical movement, the vertical movement of the X-ray tube device 6 is not locked until the operation is completed, so sudden braking is applied during the operation. There is no possibility that an unpleasant loud noise is generated from the brake mechanism or the operator falls. On the other hand, when the wire breakage occurs, if the manual operation is not related to the vertical movement, the vertical movement is locked simultaneously with the display of the wire breakage warning.

  Even after the occurrence of wire breakage, X-ray imaging may be possible only with an operation other than the vertical movement of the X-ray tube device 6. In such a case, while the operation of the X-ray tube apparatus 6 is performed by manual operation, the warning display on the display unit 13 is switched to the display of data necessary for imaging. In this way, even in the case of a hospital where there are many imaging cases on a daily basis, even if a wire breakage occurs, an X-ray that can be executed by a combination of possible operations of the X-ray tube device 6 until the wire replacement work is performed. Imaging can be performed continuously, and it is possible to prevent the patient from being left unexposed or transferring the patient to another facility for X-ray imaging as much as possible.

1 is a perspective view showing an external shape of an overhead traveling X-ray tube suspension according to an embodiment of the present invention. FIG. 2 is a plan view showing an operation handle and an operation panel of the overhead traveling X-ray tube suspension of FIG. 1. It is a figure which shows the control system at the time of the balance mechanism and brake mechanism of the overhead traveling X-ray tube suspension of FIG. It is a figure which shows another Example of a balance mechanism, (A) is a top view, (B) is a side view.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Fixed rail 2 Moving rail 3 Carriage part 4 Strut 5 Mounting block 6 X-ray tube apparatus 7 Operation handle 8 Operation panel 9-12 Operation switch 13 Display 14 Control part 24 Sensor

Claims (4)

Rails on the ceiling,
A carriage unit attached to the rail and movable in a horizontal plane;
A mounting block that is suspended by a plurality of wires on the carriage portion and is movable in the vertical direction;
An X-ray tube device rotatably attached to the mounting block about a horizontal axis and a vertical axis;
A composite that is mounted on the mounting block and includes movement in the horizontal plane of the X-ray tube apparatus, vertical movement, rotation about a horizontal axis or rotation about a vertical axis, or a combination of two or more of these operations. An operation handle for performing the operation manually,
A balance mechanism that is disposed on the carriage portion and connected to an upper end side of the plurality of wires and balances with a weight suspended by the wires;
A brake mechanism that is disposed on the carriage unit and operates to lock the movement of the X-ray tube device in the vertical direction by stopping the operation of the balance mechanism;
An operation switch provided in the mounting block, for releasing the lock by the brake mechanism while moving the X-ray tube device in the vertical direction by the manual operation;
Warning means to warn the operator when wire breakage occurs,
A sensor for detecting disconnection of the wire;
A controller provided in the mounting block, for controlling the operation of the warning means and the operation switch,
The control unit receives a disconnection detection signal from the sensor while an input of the operation switch is performed and a combined operation including only the vertical movement or the vertical movement of the X-ray tube apparatus is performed manually. When received, the overhead traveling X-ray tube suspender is configured to actuate the warning means and give an operation command to the brake mechanism after completion of only the movement in the vertical direction or after completion of the combined operation. Rails on the ceiling,
A carriage unit attached to the rail and movable in a horizontal plane;
A mounting block that is suspended by a plurality of wires on the carriage portion and is movable in the vertical direction;
An X-ray tube device rotatably attached to the mounting block about a horizontal axis and a vertical axis;
A composite that is mounted on the mounting block and includes movement in the horizontal plane of the X-ray tube apparatus, vertical movement, rotation about a horizontal axis or rotation about a vertical axis, or a combination of two or more of these operations. An operation handle for performing the operation manually,
A balance mechanism that is disposed on the carriage portion and connected to an upper end side of the plurality of wires and balances with a weight suspended by the wires;
A brake mechanism that is disposed on the carriage unit and operates to lock the movement of the X-ray tube device in the vertical direction by stopping the operation of the balance mechanism;
An operation switch provided in the mounting block, for releasing the lock by the brake mechanism while moving the X-ray tube device in the vertical direction by the manual operation;
Warning means to warn the operator when wire breakage occurs,
A sensor for detecting disconnection of the wire;
A controller provided in the mounting block, for controlling the operation of the warning means and the operation switch,
The control unit receives a disconnection detection signal from the sensor while an input of the operation switch is performed and a combined operation including only the vertical movement or the vertical movement of the X-ray tube apparatus is performed manually. When received, the warning means is activated, and an operation command is given to the brake mechanism after completion of only the vertical movement or after completion of the combined operation, but the operation switch is input and the X is manually operated. When the disconnection detection signal is received from the sensor during only the operation other than the movement in the vertical direction of the tube apparatus or the combined operation not including the movement in the vertical direction, the warning means is activated, and at the same time An overhead traveling X-ray tube suspender is characterized in that an operation command is given to the brake mechanism.   The warning means is provided on the mounting block and includes a display for displaying data necessary for imaging by the X-ray tube device, and the warning operation warns the display of data necessary for imaging when the wire breakage occurs. However, when the operation of the X-ray tube apparatus is performed manually even after the wire breakage occurs, the warning display is switched to the display of data necessary for imaging during the operation. The overhead traveling X-ray tube suspender according to claim 1, wherein the overhead traveling type X-ray tube suspension is provided.   4. The control unit according to claim 1, wherein the control unit is configured to invalidate an input of the operation switch after giving an operation command to the brake mechanism when the wire breakage occurs. An overhead traveling X-ray tube suspension according to the above.

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