JP2009297324A - Radiotherapy apparatus and gantry angle restriction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To expand a rotatable range when mechanically restricting the rotation of a gantry supporting a radiation irradiation apparatus. <P>SOLUTION: This radiotherapy apparatus is provided with a fixed stopper 51 joined to the gantry 14 and a changeover stopper 53 joined to an O ring 12 rotatably supporting the gantry 14. The changeover stopper 53 is adapted to transfer to a second state when the gantry 14 is rotated in a first state with a gantry normal rotation direction ultimate angle set inverse to the gantry normal rotation direction 58, transfer to the first state when the gantry 14 is rotated in the second state with the gantry normal rotation direction ultimate angle set in the gantry normal rotation direction 58, and collide with the fixed stopper 51 when the gantry rotates in the first state with the gantry normal rotation direction ultimate angle set in the gantry normal rotation direction 58. That is to say, even when the gantry 14 is rotated inversely to the gantry normal rotation direction 58 once or more, the changeover stopper 53 and the fixed stopper 51 do not restrict the rotation. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a radiotherapy apparatus and a gantry angle limiting method, and more particularly to a radiotherapy apparatus and a gantry angle limiting method used when treating a patient by irradiating an affected area with radiation.

  Radiotherapy is known in which a patient is treated by irradiating the affected part (tumor) with therapeutic radiation. The radiotherapy is based on the development of CT technology and the development of radiation therapy planning equipment based on the development of computer technology. It can be carried out. In such radiotherapy, therapeutic radiation is applied to the affected area from different directions. The radiotherapy apparatus that performs the radiotherapy includes a gantry that is rotatably supported and a therapeutic radiation irradiation apparatus that is supported by the gantry. The user drives the therapeutic radiation irradiation apparatus to a predetermined position by rotating the gantry, and irradiates the affected area of the patient with the therapeutic radiation irradiation apparatus using the therapeutic radiation irradiation apparatus.

  The radiotherapy apparatus further includes a cable for transmitting an electrical signal between an apparatus supported by the gantry and an external apparatus. When the radiotherapy device enters a runaway state where the gantry cannot control the rotation of the gantry, the cable breaks due to multiple rotations of the gantry, and the electrical signal can be transmitted. It may disappear. Such a radiotherapy device connects the device supported by the gantry and the external device via a slip ring, so that the electrical signal is continuously transmitted even when the gantry rotates many times. Can be transmitted. However, such a slip ring is not suitable for the radiotherapy apparatus because the electric signal is easily subjected to noise by the rotation of the gantry. For this reason, such a radiotherapy apparatus generally has a stop mechanism that mechanically stops the rotation of the gantry in case of a runaway state in which the slip ring is not applied and the rotation of the gantry cannot be controlled. Is provided.

  Examples of the stop mechanism include those that limit the rotatable angle of the gantry to 0 to 360 ° (± 180 °), and examples include a limit sensor or a mechanical stopper. In such a radiotherapy device, such gantry angle limitations may narrow treatment options. It is desirable that the radiotherapy apparatus mechanically stops the rotation of the gantry and expands the range in which the therapeutic radiation irradiation apparatus is driven in case of a runaway state where the rotation of the gantry cannot be controlled. ing.

  Japanese Utility Model Laid-Open No. 58-108853 discloses a rotation angle limiting mechanism in which the rotation range of the gantry is expanded to increase the treatment function. The rotation angle limiting mechanism is provided on the outer side of the rotating body, and a cam formed by a projecting portion at both ends provided along the outer periphery of the rotating body capable of rotating in the forward and reverse directions and an arc portion in the middle of the projecting section. A block provided at the fixed end, a slave rotary plate that rotates with a rotary shaft that is parallel to the rotary shaft of the rotating body supported by the block, and one of the slave rotary plates that protrudes in the vicinity of the outer periphery of the slave rotary plate. And a plurality of pins provided so as to contact the projecting portion of the cam but not to the arc portion, and to protrude from the back surface of the slave rotary plate provided with these pins. And a stopper that contacts the block by rotation of the plate.

Japanese Utility Model Publication No. 58-108853

The subject of this invention is providing the radiotherapy apparatus which expands the range which can be rotated when rotation of the gantry which supports a radiation irradiation apparatus is limited mechanically.
Another object of the present invention is to provide a radiotherapy apparatus that has a simpler stopper structure that mechanically limits the rotation of a gantry that supports the radiation irradiation apparatus.
Still another object of the present invention is to provide a radiotherapy apparatus and a gantry angle limiting method for preventing breakage of a stopper that mechanically limits rotation of a gantry that supports a radiation irradiation apparatus.

  In the following, means for solving the problems will be described using the reference numerals used in the best modes and embodiments for carrying out the invention in parentheses. This reference numeral is added to clarify the correspondence between the description of the claims and the description of the best mode for carrying out the invention / example, and is described in the claims. It should not be used to interpret the technical scope of the invention.

  A radiotherapy device (3) according to the present invention includes a traveling gantry (14) that supports a radiation irradiating device (16) that emits therapeutic radiation (23), and an O-ring that rotatably supports the traveling gantry (14). 12), a fixed stopper (51) joined to one (14) of the O-ring (12) or the traveling gantry (14), and the other (12) of the O-ring (12) or the traveling gantry (14). And a switching mechanical stopper (53). The switching mechanical stopper (53) is in the first state, and when the traveling gantry (14) rotates the positive limit angle in the gantry rotation forward direction (58) with respect to the O-ring (12), 51), the rotation of the traveling gantry (14) in the positive gantry rotation direction (58) is stopped. The switching mechanical stopper (53) is in the first state, and when the traveling gantry (14) rotates its forward limit angle in a direction (59) opposite to the forward gantry rotation direction (58), 14) Without stopping to rotate in the direction (59) opposite to the forward gantry rotation direction (58), the first state is changed to the second state by contacting the fixed stopper (51). That is, the traveling gantry (14) is opposite to the forward gantry rotation direction (58) from the forward limit angle at which the rotation in the forward gantry rotation direction (58) is restricted by the switching mechanical stopper (53) and the fixed stopper (51). Even if it rotates once in the direction (59), the switching mechanism stopper (53) and the fixed stopper (51) do not restrict the rotation in the direction (59) opposite to the forward gantry rotation direction (58). For this reason, the radiotherapy apparatus (3) can expand the rotatable range when mechanically limiting the rotation of the traveling gantry (14) to more than one rotation, and the radiation irradiation apparatus (16) is driven. Range can be expanded.

  The switching mechanical stopper (53) is in the second state, and when the traveling gantry (14) rotates its forward limit angle in the positive gantry rotation direction (58), the traveling gantry (14) is rotated forward. The rotation from the second state to the first state is made by contacting the fixed stopper (51) without stopping the rotation in the direction (58). That is, the traveling gantry (14) is opposite to the forward gantry rotation direction (58) from the forward limit angle in which the rotation in the forward gantry rotation direction (58) is restricted by the switching mechanical stopper (53) and the fixed stopper (51). After rotating one or more times in the direction (59), it can be rotated one or more times in the positive gantry rotation direction (58). For this reason, the radiotherapy apparatus (3) can expand the rotatable range when mechanically limiting the rotation of the traveling gantry (14) to more than one rotation, and the radiation irradiation apparatus (16) is driven. Range can be expanded.

  The switching mechanical stopper (53) includes a stopper main body (71) and a stopper (73). The stopper body (71) is rotatably supported by the other (12). Here, when the switching mechanical stopper (53) is in the second state, the stopper main body (71) is rotated in the stopper rotation positive direction (83) to change from the second state to the first state. When in the first state, the stopper main body (71) rotates in the direction opposite to the stopper rotation forward direction (83), thereby transitioning from the first state to the second state. The stopper (73) contacts the stopper main body (71) so that the stopper main body (71) does not rotate in the positive stopper rotation direction (83) when the switching mechanical stopper (53) is in the first state. The stopper (73) prevents the stopper main body (71) from rotating in the opposite direction to the stopper rotation forward direction (83) when the switching mechanical stopper (53) is in the second state. When the traveling gantry (14) rotates its positive limit angle in the gantry rotation positive direction (58), the stopper main body (71) collides with the fixed stopper (51) so as to move in the stopper rotation positive direction (83). Rotate. The stopper main body (71) rotates when the traveling gantry (14) collides with the fixed stopper (51) when its forward limit angle rotates in the direction (59) opposite to the gantry rotation forward direction (58). It rotates in the opposite direction of the forward direction (83). That is, when the switching mechanical stopper (53) is in the first state, the stopper main body (71) rotates in the direction opposite to the stopper rotation forward direction (83), thereby transitioning to the second state. When in the state, the stopper main body (71) is shifted to the first state by rotating in the stopper rotation positive direction (83). At this time, the stopper main body (71) is fixed when the traveling gantry (14) rotates in the positive gantry rotation positive direction (58) when the switching mechanical stopper (53) is in the first state. The rotation of the traveling gantry (14) in the positive gantry rotation direction (58) is stopped without rotating in the positive stopper rotation direction (83) due to the collision with the stopper (51).

  The switching mechanical stopper (53) further includes an elastic body (74). The elastic body (74) applies an elastic force to the stopper body (71) so that the stopper body (71) rotates in the stopper rotation forward direction (83) when the switching mechanical stopper (53) is in the first state. Then, when the switching mechanical stopper (53) is in the second state, an elastic force is applied to the stopper main body (71) so that the stopper main body (71) rotates in a direction opposite to the stopper rotation forward direction (83). At this time, the stopper main body (71) is prevented from stopping in a halfway state between the first state and the second state, and the switching mechanical stopper (53) is prevented from malfunctioning.

  The radiotherapy apparatus (3) according to the present invention further includes another switching mechanical stopper (54) joined to the other (12). The other switching mechanism stopper (54) is in the third state, and when the traveling gantry (14) rotates its negative direction limit angle in the gantry rotation positive direction (58), the traveling gantry (14) rotates the gantry. The third state is changed to the fourth state by contacting the fixed stopper (51) without stopping the rotation in the forward direction (58). The other switching mechanical stopper (54) is in its fourth state and travels when the traveling gantry (14) rotates its negative limit angle in the opposite direction (59) of the gantry rotation forward direction (58). Without stopping the rotation of the gantry (14) in the direction (59) opposite to the forward gantry rotation direction (58), the state changes from the fourth state to the third state by contacting the fixed stopper (51). The other switching mechanical stopper (54) is in the third state, and when the traveling gantry (14) rotates the negative limit angle in the opposite direction (59) to the forward gantry rotation direction (58), the fixed stopper Contact with (51) stops the traveling gantry (14) from rotating in the direction (59) opposite to the forward gantry rotation direction (58). That is, the traveling gantry (14) has a gantry from the negative limit angle in which the rotation in the direction (59) opposite to the gantry rotation forward direction (58) is restricted by the fixed stopper (51) and the other switching mechanical stopper (54). Even if one rotation is made in the positive rotation direction (58), rotation in the positive gantry rotation direction (58) is not limited by the other switching mechanical stopper (54) and the fixed stopper (51). At this time, the range in which the radiation irradiation device (16) is driven is determined by the position where the switching mechanism stopper (53) and the other switching mechanism stopper (54) are arranged. Therefore, in the radiotherapy device (3), the switching mechanism stopper (53) and the other switching mechanism stopper (54) are appropriately arranged, so that the range in which the radiation irradiation device (16) is driven becomes a desired range. Can be designed.

  The radiotherapy apparatus (3) according to the present invention includes an O-ring (12) or a traveling gantry (14) and another fixed stopper (61) joined to one of the O-ring (12) or the traveling gantry (14). ) And another switching mechanical stopper (64) joined to the other (12). The other switching mechanical stopper (64) is in the third state, and when the traveling gantry (14) rotates its negative direction limit angle in the gantry rotation positive direction (58), the traveling gantry (14) rotates the gantry. The third state is changed to the fourth state by contacting the other fixed stopper (61) without stopping the rotation in the forward direction (58). The other switching mechanical stopper (64) is in its fourth state and travels when the traveling gantry (14) rotates its negative limit angle in the opposite direction (59) of the gantry rotation forward direction (58). Without stopping the rotation of the gantry (14) in the direction (59) opposite to the forward direction of the gantry rotation (58), transition from the fourth state to the third state by contacting the other fixed stopper (61) To do. The other switching mechanical stopper (64) is in its third state, and when the traveling gantry (14) rotates the negative limit angle in the opposite direction (59) of the gantry rotation forward direction (58), Contact with the fixed stopper (61) stops the traveling gantry (14) from rotating in the direction (59) opposite to the forward gantry rotation direction (58). That is, the traveling gantry (14) has a negative limit angle at which rotation in the opposite direction (59) of the gantry rotation forward direction (58) is restricted by the other fixed stopper (61) and the other switching mechanical stopper (64). 1 rotation in the positive gantry rotation direction (58), the rotation in the positive gantry rotation direction (58) is not restricted by the other switching mechanism stopper (64) and the other fixed stopper (61). At this time, the range in which the radiation irradiation device (16) is driven depends on the positions where the fixed stopper (51), the switching mechanical stopper (53), the other fixed stopper (61), and the other switching mechanical stopper (64) are arranged. decide. For this reason, the radiotherapy apparatus (3) is configured so that the fixed stopper (51), the switching mechanism stopper (53), the other fixed stopper (61), and the other switching mechanism stopper (64) are appropriately disposed, so that the radiation irradiation is performed. The range in which the device (16) is driven can be designed to a desired range.

  The radiotherapy apparatus (3) according to the present invention includes a stopper switching sensor (55) for detecting the state of the switching mechanical stopper (53) and an extreme sensor (for detecting whether the angle of the traveling gantry (14) is within a predetermined range ( 57). At this time, the radiotherapy apparatus (3) can detect the timing immediately before the rotation is limited by the switching mechanical stopper (53) and the fixed stopper (51) based on the measured state and the angle. it can.

  The radiotherapy apparatus (3) according to the present invention further includes a dog (52) that contacts the limit sensor (57) when the angle of the traveling gantry (14) is within the predetermined range. The dog (52) is preferably joined to one (14) so as not to contact the switching mechanical stopper (53).

  The radiotherapy device (3) according to the present invention has a traveling gantry (14) with respect to the O-ring (12) when the angle is within a predetermined range and the measured state is in the first state. The brake is further provided. The radiotherapy device (3) can prevent the fixed stopper and the switching mechanical stopper from colliding with each other.

  The brake includes a driving device that drives the traveling gantry (14) with respect to the O-ring (12), an angle within the predetermined range, and a measured state in the first state. A control device (5) is provided for controlling the driving device so that the traveling gantry (14) stops with respect to the O-ring (12). That is, the drive device that drives the traveling gantry (14) with respect to the O-ring (12) brakes the traveling gantry (14) against the O-ring (12) so that the fixed stopper and the switching mechanical stopper do not collide strongly. It is preferable to use also as a brake.

  The radiotherapy apparatus (3) according to the present invention further comprises another fixed stopper (61) joined to one (14) thereof and another switching mechanical stopper (63) joined to the other (12). Yes. The other switching mechanical stopper (63) is in the first state, and when the traveling gantry (14) rotates the forward limit angle in the direction (59) opposite to the forward gantry rotation direction (58), the first Transition from the state to the second state. When in the second state, the traveling gantry (14) transitions from the second state to the first state when the forward limit angle rotates in the positive gantry rotation direction (58). In the first state, when the traveling gantry (14) rotates its positive limit angle in the gantry rotation positive direction (58), it collides with another fixed stopper (61), and the traveling gantry (14 ) Stops rotating in the positive gantry rotation direction (58).

  One of the fixed stopper (51) to be joined is preferably a traveling gantry (14), and the other to which the switching mechanical stopper (53) is joined is preferably an O-ring (12).

The gantry angle limiting method according to the present invention is executed using the radiotherapy apparatus (3). The radiotherapy device (3) includes a traveling gantry (14) that supports a radiation irradiation device (16) that emits therapeutic radiation (23), and an O-ring (12) that rotatably supports the traveling gantry (14). A fixed stopper (51) joined to one (14) of the O-ring (12) or the traveling gantry (14), and a switching mechanical stopper joined to the other (12) of the O-ring (12) or the traveling gantry (14). (53), a stopper switching sensor (55), a limit sensor (57), and a brake. The switching mechanical stopper (53) is in the first state, and when the traveling gantry (14) rotates the positive limit angle in the gantry rotation forward direction (58) with respect to the O-ring (12), 51), the rotation of the traveling gantry (14) in the positive gantry rotation direction (58) is stopped. The switching mechanical stopper (53) is in the first state, and when the traveling gantry (14) rotates its forward limit angle in a direction (59) opposite to the forward gantry rotation direction (58), 14) Without stopping to rotate in the direction (59) opposite to the forward gantry rotation direction (58), the first state is changed to the second state by contacting the fixed stopper (51). The switching mechanical stopper (53) is in the second state, and when the traveling gantry (14) rotates its forward limit angle in the positive gantry rotation direction (58), the traveling gantry (14) is rotated forward. The rotation from the second state to the first state is made by contacting the fixed stopper (51) without stopping the rotation in the direction (58).
That is, the traveling gantry (14) is opposite to the forward gantry rotation direction (58) from the forward limit angle in which the rotation in the forward gantry rotation direction (58) is restricted by the switching mechanical stopper (53) and the fixed stopper (51). After rotating one or more times in the direction (59), it can be rotated one or more times in the positive gantry rotation direction (58). For this reason, the radiotherapy apparatus (3) can expand the rotatable range when mechanically limiting the rotation of the traveling gantry (14) to more than one rotation, and the radiation irradiation apparatus (16) is driven. Range can be expanded. According to the gantry angle limiting method of the present invention, the step of detecting the state of the switching mechanical stopper (53) using the stopper switching sensor (55) and the angle of the traveling gantry (14) using the limit sensor (57) are within a predetermined range. And when the angle is within a predetermined range and the measured state is in the first state, the brake is used to drive the O-ring (12). Braking the gantry (14). According to such a gantry angle limiting method, the timing immediately before the rotation is limited by the switching mechanical stopper (53) and the fixed stopper (51) can be detected, and the traveling gantry (14) is braked at that timing. Thus, the fixed stopper (51) and the switching mechanical stopper (53) can be prevented from colliding with each other.

  The radiotherapy apparatus according to the present invention restricts rotation in the opposite direction of the gantry rotation forward direction from the limit angle in which the rotation in the gantry rotation forward direction is limited even if it rotates once in the opposite direction of the gantry rotation forward direction. Not. For this reason, the radiotherapy apparatus according to the present invention can expand the rotatable range when mechanically limiting the rotation of the gantry to one rotation or more, and can expand the range in which the radiation irradiation apparatus is driven. it can.

  An embodiment of a radiotherapy apparatus according to the present invention will be described with reference to the drawings. The radiotherapy device 3 includes a control device 5 as shown in FIG. The control device 5 is a computer exemplified by a personal computer. The control device 5 is connected to the radiotherapy device 3 so that information can be transmitted in both directions.

  FIG. 2 shows the radiation therapy apparatus 3. The radiotherapy device 3 includes a turning drive device 11, an O-ring 12, a traveling gantry 14, a swing mechanism 15, and a therapeutic radiation irradiation device 16. The turning drive device 11 supports the O-ring 12 on the base so as to be rotatable around the rotation shaft 17, and is controlled by the control device 5 to rotate the O-ring 12 around the rotation shaft 17. The rotating shaft 17 is parallel to the vertical direction. The O-ring 12 is formed in a ring shape with the rotation shaft 18 as a center, and supports the traveling gantry 14 so as to be rotatable about the rotation shaft 18. The rotating shaft 18 is perpendicular to the vertical direction and passes through an isocenter 19 included in the rotating shaft 17. The rotating shaft 18 is further fixed to the O-ring 12, that is, rotates around the rotating shaft 17 together with the O-ring 12. The traveling gantry 14 is formed in a ring shape centered on the rotation shaft 18, and is disposed so as to be concentric with the ring of the O-ring 12. The radiation therapy apparatus 3 further includes a travel drive device (not shown). The travel drive device is controlled by the control device 5 to rotate the travel gantry 14 around the rotation shaft 18.

  The swing mechanism 15 is fixed to the inside of the ring of the traveling gantry 14 and supports the therapeutic radiation irradiation device 16 on the traveling gantry 14 so that the therapeutic radiation irradiation device 16 is disposed inside the traveling gantry 14. Yes. The head swing mechanism 15 has a pan axis 21 and a tilt axis 22. The tilt shaft 22 is fixed to the traveling gantry 14 and is parallel to the rotation axis 18 without intersecting the rotation axis 18. The pan axis 21 is orthogonal to the tilt axis 22. The head swing mechanism 15 is controlled by the control device 5 to rotate the therapeutic radiation irradiation device 16 about the pan axis 21 and rotate the therapeutic radiation irradiation device 16 about the tilt axis 22.

  The therapeutic radiation irradiation device 16 is controlled by the control device 5 to emit the therapeutic radiation 23. The therapeutic radiation 23 is radiated substantially along a straight line passing through an intersection where the pan axis 21 and the tilt axis 22 intersect. The therapeutic radiation 23 is formed to have a uniform intensity distribution. The therapeutic radiation irradiation device 16 includes an MLC (multi-leaf collimator) 20. The MLC 20 is controlled by the control device 5 and changes the shape of the irradiation field when the patient is irradiated with the therapeutic radiation 23 by shielding a part of the therapeutic radiation 23.

  The therapeutic radiation 23 is once adjusted so that the therapeutic radiation irradiation device 16 is directed to the isocenter 19 by the swing mechanism 15 by the therapeutic radiation irradiation device 16 being supported by the traveling gantry 14 in this manner. Even if the O-ring 12 is rotated by the turning drive device 11 or the traveling gantry 14 is rotated by the traveling drive device, the O-ring 12 always passes through the isocenter 19 at all times. In other words, the therapeutic radiation 23 can be irradiated from any direction toward the isocenter 19 by running and turning.

  The radiotherapy apparatus 3 further includes a plurality of imager systems. That is, the radiotherapy apparatus 3 includes diagnostic X-ray sources 24 and 25 and sensor arrays 32 and 33. The diagnostic X-ray source 24 is supported by the traveling gantry 14. The diagnostic X-ray source 24 is disposed inside the ring of the traveling gantry 14, and an angle formed by a line segment connecting the diagnostic X-ray source 24 from the isocenter 19 and a line segment connecting the therapeutic radiation irradiation device 16 from the isocenter 19. Is arranged at a position that makes an acute angle. The diagnostic X-ray source 24 is controlled by the control device 5 and emits diagnostic X-rays 35 toward the isocenter 19. The diagnostic X-ray 35 is a conical cone beam which is emitted from one point of the diagnostic X-ray source 24 and has the one point as a vertex. The diagnostic X-ray source 25 is supported by the traveling gantry 14. The diagnostic X-ray source 25 is disposed inside the ring of the traveling gantry 14, and an angle formed by a line segment connecting the diagnostic X-ray source 25 from the isocenter 19 and a line segment connecting the therapeutic radiation irradiation device 16 from the isocenter 19. Is arranged at a position that makes an acute angle. The diagnostic X-ray source 25 is controlled by the control device 5 and emits diagnostic X-rays 36 toward the isocenter 19. The diagnostic X-ray 36 is a cone-shaped cone beam emitted from one point of the diagnostic X-ray source 25 and having the one point as a vertex.

  The sensor array 32 is supported by the traveling gantry 14. The sensor array 32 receives the diagnostic X-ray 35 emitted from the diagnostic X-ray source 24 and transmitted through the subject around the isocenter 19 and generates a transmission image of the subject. The sensor array 33 is supported by the traveling gantry 14. The sensor array 33 receives the diagnostic X-ray 36 emitted from the diagnostic X-ray source 25 and transmitted through the subject around the isocenter 19 and generates a transmission image of the subject. Examples of the sensor arrays 32 and 33 include FPD (Flat Panel Detector) and X-ray II (Image Intensifier).

  According to such an imager system, a transmission image centered on the isocenter 19 can be generated based on the image signals obtained by the sensor arrays 32 and 33.

  The radiation therapy apparatus 3 further includes a sensor array 31. The sensor array 31 is arranged so that a line segment connecting the sensor array 31 and the therapeutic radiation irradiation device 16 passes through the isocenter 19 and is fixed inside the ring of the traveling gantry 14. The sensor array 31 receives the therapeutic radiation 23 emitted from the therapeutic radiation irradiation device 16 and transmitted through the subject around the isocenter 19, and generates a transmission image of the subject. Examples of the sensor array 31 include FPD and X-ray II.

  The radiation therapy apparatus 3 further includes a couch 41 and a couch driving device 42. The couch 41 is used when a patient 43 to be treated by the radiation therapy system 1 lies down. The couch 41 includes a fixture not shown. The fixture secures the patient to the couch 41 so that the patient does not move. The couch driving device 42 supports the couch 41 on the base and moves the couch 41 under the control of the control device 5.

  The radiotherapy apparatus 3 further includes a gantry angle limiting device. As shown in FIG. 3, the gantry angle limiting device includes a fixed stopper 51, a forward limit sensor dog 52, a switching mechanism stopper 53, a switching mechanism stopper 54, a stopper switching sensor 55, a stopper switching sensor 56, and a forward limit. Sensor 57. The fixed stopper 51 is joined to a part of the traveling gantry 14. The forward direction limit sensor dog 52 is joined to the fixed stopper 51 of the traveling gantry 14 in the vicinity of the gantry rotation positive direction side. The switching mechanical stopper 53 is attached to the O-ring 12 so that the traveling gantry 14 is disposed in the vicinity of the fixed stopper 51 when the traveling gantry 14 rotates in the gantry rotation positive direction 58 from the initial state to the positive limit angle (for example, +190 degrees). Has been placed. The initial state shows a state in which the therapeutic radiation irradiation device 16 is disposed vertically above the isocenter 19. The switching mechanical stopper 54 is arranged in the vicinity of the fixed stopper 51 when the traveling gantry 14 rotates in the gantry rotation negative direction 59 from the initial state to the negative limit angle (for example, -190 degrees). Is arranged. The stopper switching sensor 55 is disposed in the vicinity of the switching mechanical stopper 53 in the O-ring 12 and is connected to the control device 5 through a cable (not shown) so as to transmit information. The stopper switching sensor 55 detects the state of the switching mechanical stopper 53 and outputs the detection result to the control device 5 via the cable. The stopper switching sensor 56 is disposed in the vicinity of the switching mechanical stopper 54 in the O-ring 12 and is connected to the control device 5 through a cable (not shown) so as to transmit information. The stopper switching sensor 56 detects the state of the switching mechanical stopper 54 and outputs the detection result to the control device 5 via the cable. The forward limit sensor 57 is arranged in the vicinity of the forward limit sensor dog 52 when the traveling gantry 14 is rotated in the forward gantry rotation forward direction 58 by a substantially forward limit angle from the initial state. Is arranged. The forward limit sensor 57 is further connected to the control device 5 via a cable (not shown) so that information can be transmitted. The forward limit sensor 57 detects whether or not the traveling gantry 14 is disposed in the forward limit region by detecting whether or not the forward limit sensor dog 52 is disposed in the vicinity, and via the cable. The detection result is output to the control device 5. The positive limit region indicates a region from the positive limit angle to an angle obtained by rotating the traveling gantry 14 by a predetermined angle (for example, 2 degrees) in the gantry rotation negative direction 59, for example, +190 degrees to +188 degrees (− The range of 170 degrees to -172 degrees is shown. The fixed stopper 51, the positive direction limit sensor dog 52, the switching mechanism stopper 53, the switching mechanism stopper 54, the stopper switching sensor 55, the stopper switching sensor 56, and the forward direction limit sensor 57 are arranged on the same side of the O-ring 12 or the traveling gantry 14. Has been.

  When the stopper switching sensor 55, the stopper switching sensor 56, and the positive direction limit sensor 57 are joined to the O-ring 12, the stopper switching sensor 55, the stopper switching sensor 56, and the positive direction limit sensor 57 are connected to the traveling gantry 14. Compared to being joined to the cable, the cable connected to the control device 5 can be designed to be shorter, which is preferable. If the length of the cable is not fixed, the stopper switching sensor 55, the stopper switching sensor 56, and the forward limit sensor 57 are arranged in the traveling gantry 14, and the fixed stopper 51 and the forward limit sensor dog 52 are arranged. Can also be placed on the O-ring 12.

  As shown in FIG. 4, the gantry angle limiting device further includes a fixed stopper 61, a negative direction limit sensor dog 62, a switching mechanical stopper 63, a switching mechanical stopper 64, a stopper switching sensor 65, a stopper switching sensor 66, and a negative. A direction limit sensor 67 is provided. The fixed stopper 61 and the negative direction limit sensor dog 62 are disposed on a surface opposite to the surface on which the fixed stopper 51 and the positive direction limit sensor dog 52 of the traveling gantry 14 are disposed. The switching mechanism stopper 63, the switching mechanism stopper 64, the stopper switching sensor 65, the stopper switching sensor 66, and the negative direction limit sensor 67 are an O-ring switching mechanism stopper 53, a switching mechanism stopper 54, a stopper switching sensor 55, a stopper switching sensor 56, and a positive direction limit. The sensor 57 is disposed on the surface opposite to the surface on which the sensor 57 is disposed. The fixed stopper 61 is joined to a part of the traveling gantry 14. The negative direction limit sensor dog 62 is joined in the vicinity of the fixed stopper 61 of the traveling gantry 14 on the gantry rotation negative direction side. The switching mechanical stopper 63 is disposed on the O-ring 12 so as to be disposed in the vicinity of the fixed stopper 61 when the traveling gantry 14 rotates in the positive gantry rotation direction 58 from the initial state by a positive limit angle. The switching mechanical stopper 64 is disposed on the O-ring 12 so as to be disposed in the vicinity of the fixed stopper 61 when the traveling gantry 14 rotates in the gantry rotation negative direction 59 by a negative limit angle from the initial state. The stopper switching sensor 65 is disposed in the vicinity of the switching mechanical stopper 63 in the O-ring 12, detects the state of the switching mechanical stopper 63, and outputs the detection result to the control device 5. The stopper switching sensor 66 is disposed in the vicinity of the switching mechanical stopper 64 in the O-ring 12, detects the state of the switching mechanical stopper 64, and outputs the detection result to the control device 5. The negative direction limit sensor 67 is arranged in the vicinity of the negative direction limit sensor dog 62 when the traveling gantry 14 rotates in the gantry rotation negative direction 59 from the initial state by approximately the negative direction limit angle. Is arranged. The negative direction limit sensor 67 detects whether or not the traveling gantry 14 is disposed in the negative direction limit region by detecting whether or not the negative direction limit sensor dog 62 is disposed in the vicinity. Output to the control device 5. The negative limit region indicates a region from the negative limit angle to an angle obtained by rotating the traveling gantry 14 by a predetermined angle (for example, 2 degrees) in the gantry rotation positive direction 58, for example, −190 degrees to −188 degrees. A range of (+170 degrees to +172 degrees) is shown.

  FIG. 5 shows a positive direction limit sensor dog 52 and a positive direction limit sensor 57. The forward limit sensor dog 52 is joined to the traveling gantry 14. The forward limit sensor 57 is joined to the O-ring 12. The forward direction limit sensor dog 52 and the forward direction limit sensor 57 are arranged so as to contact each other when the traveling gantry 14 is located in the forward direction limit region. When the forward limit sensor 57 comes into contact with the forward limit sensor dog 52, the forward limit sensor 57 outputs to the control device 5 that the traveling gantry 14 is located in the forward limit region.

  FIG. 5 further shows a switching mechanical stopper 53. The switching mechanical stopper 53 includes a switching mechanical stopper main body 71, a bearing 72, a stopper 73, and a spring 74. The switching mechanical stopper main body 71 is formed with collision surfaces 75, 76, 78 and 79. The bearing 72 supports the switching mechanical stopper main body 71 on the O-ring 12 so as to be rotatable about the rotary shaft 80. The rotating shaft 80 is formed to be parallel to the rotating shaft 18.

  The stopper 73 is joined to the O-ring 12. The stopper 73 collides with the collision surface 76 of the switching mechanical stopper main body 71 when the switching mechanical stopper main body 71 rotates in the positive rotation direction 83 around the rotation shaft 80, and the switching mechanical stopper main body 71 can rotate. Restricted. The stopper 73 further collides with the collision surface 75 of the switching mechanical stopper main body 71 when the switching mechanical stopper main body 71 rotates around the rotation shaft 80 in the direction opposite to the stopper rotation forward direction 83, and the switching mechanical stopper main body 71 rotates. It limits the range that is possible. The stopper 73 includes two rubber plates 84 made of rubber. One of the rubber plates 84 is joined to a portion of the stopper 73 that collides with the collision surface 75. The other one of the rubber plates 84 is joined to a portion of the stopper 73 that collides with the collision surface 76. The rubber plate 84 can reduce the sound that the switching mechanical stopper main body 71 rotates and collides with the stopper 73, and can avoid unnecessary care for the patient. The rubber plate 84 can also be formed of another soundproofing material that reduces the sound of the switching mechanical stopper main body 71 colliding with the stopper 73. As the soundproofing material, a sponge is exemplified.

  The spring 74 is formed of an elastic body, and both ends are joined to a part of the switching mechanical stopper main body 71 and a part of the O-ring 12. For example, the spring 74 intersects the rotating shaft 80 so that the both ends are joined so that both the collision surface 75 and the collision surface 76 of the switching mechanical stopper main body 71 are not in contact with the stopper 73. Thus, it arrange | positions so that it may extend most when the switching mechanical stopper main body 71 rotates. At this time, the spring 74 is applied to the switching mechanical stopper main body 71 so that the switching mechanical stopper main body 71 rotates in the direction opposite to the stopper rotation forward direction 83 when the collision surface 75 of the switching mechanical stopper main body 71 is in contact with the stopper 73. Apply elastic force. Further, the spring 74 applies an elastic force to the switching mechanism stopper main body 71 so that the switching mechanism stopper main body 71 rotates in the positive stopper rotation direction 83 when the collision surface 76 is in contact with the stopper 73. The spring 74 further applies an elastic force to the switching mechanical stopper main body 71 so that the switching mechanical stopper main body 71 rotates when both the collision surface 75 and the collision surface 76 are not in contact with the stopper 73.

  The switching mechanism stopper 53 transitions between a plurality of states as the switching mechanism stopper main body 71 rotates around the rotation shaft 80. The plurality of states include a first state and a second state. The first state shows a state where the collision surface 76 of the switching mechanical stopper main body 71 is in contact with the stopper 73. The second state shows a state in which the collision surface 75 of the switching mechanical stopper main body 71 is in contact with the stopper 73. When the switching mechanism stopper 53 is in the first state, the switching mechanism stopper main body 71 cannot rotate in the stopper rotation forward direction 83 and can rotate in the direction opposite to the stopper rotation forward direction 83. The switching mechanism stopper main body 71 can rotate in the stopper rotation forward direction 83 and cannot rotate in the direction opposite to the stopper rotation forward direction 83 when the switching mechanism stopper 53 is in the second state.

  FIG. 5 further shows a stopper switching sensor 55. The stopper switching sensor 55 is formed so that it does not contact the switching mechanism stopper main body 71 when the switching mechanism stopper 53 is in the first state, and a part of the switching mechanism stopper main body 71 contacts when the switching mechanism stopper 53 is in the second state. Has been. The stopper switching sensor 55 outputs to the control device 5 whether the switching mechanical stopper 53 is in the first state or the second state based on whether the switching mechanical stopper main body 71 is in contact.

  FIG. 5 further shows a fixed stopper 51. The fixed stopper 51 has a collision surface 81 and a collision surface 82. The collision surface 81 and the collision surface 82 are formed at positions that collide with a part of the switching mechanism stopper main body 71 of the switching mechanism stopper 53 when the traveling gantry 14 rotates with respect to the O-ring 12.

  FIG. 6 shows the switching mechanical stopper main body 71. The switching mechanical stopper main body 71 is formed with notches 85 and 86. The notch 85 is formed in a portion where the collision surface 75 and the collision surface 78 are formed. The notch 85 is further formed in a region through which the forward limit sensor dog 52 passes when the traveling gantry 14 rotates with respect to the O-ring 12 when the switching mechanical stopper 53 is in the first state. The notch 86 is formed in a portion where the collision surface 76 and the collision surface 79 are formed. Further, the notch 86 is formed in a region through which the forward limit sensor dog 52 passes when the traveling gantry 14 rotates with respect to the O-ring 12 when the switching mechanical stopper 53 is in the second state. That is, the positive direction limit sensor dog 52 is arranged at two positions different from the position where the fixed stopper 51 is arranged in the direction parallel to the rotation shaft 18. For this reason, the switching mechanical stopper main body 71 comes into contact with the fixed stopper 51 without contacting with the forward limit sensor dog 52 when the traveling gantry 14 rotates with respect to the O-ring 12 due to the notches 85 and 86.

  The forward limit sensor 57 is disposed at two positions different from the positions at which the switching mechanical stopper 53 and the switching mechanical stopper 54 are disposed in the direction parallel to the rotation shaft 18, and is disposed at a position that coincides with the forward limit sensor dog 52. ing. For this reason, when the traveling gantry 14 rotates with respect to the O-ring 12, the positive limit sensor 57 does not contact the fixed stopper 51 but contacts the positive limit sensor dog 52.

  FIG. 7 shows a state in which the traveling gantry 14 is positioned at the forward limit angle when the switching mechanical stopper 53 is in the first state. At this time, in the fixed stopper 51, the collision surface 81 collides with the collision surface 75 of the switching mechanical stopper main body 71. When the traveling gantry 14 rotates in the positive gantry rotation direction 58, the fixed stopper 51 pushes the collision surface 75 of the switching mechanical stopper main body 71 to rotate the switching mechanical stopper main body 71 in the positive stopper rotation direction 83. Apply to. At this time, the switching mechanical stopper main body 71 cannot be rotated in the stopper rotation positive direction 83 by the stopper 73. Therefore, at this time, the traveling gantry 14 cannot rotate in the gantry rotation positive direction 58.

  FIG. 8 shows a state when the traveling gantry 14 rotates in the gantry rotation negative direction 59 opposite to the gantry rotation forward direction 58 to the vicinity of the positive limit angle when the switching mechanical stopper 53 is in the first state. . At this time, in the fixed stopper 51, the collision surface 82 collides with the collision surface 78 of the switching mechanical stopper main body 71. When the traveling gantry 14 rotates in the negative gantry rotation direction 59, the fixed stopper 51 switches the force that pushes the collision surface 78 of the switching mechanical stopper main body 71 to rotate the switching mechanical stopper main body 71 in the direction opposite to the positive stopper rotation direction 83. Applied to the mechanical stopper body 71. At this time, the switching mechanism stopper main body 71 can rotate in the direction opposite to the stopper rotation forward direction 83.

  FIG. 9 shows a state when the traveling gantry 14 is rotated by a predetermined angle in the gantry rotation negative direction 59 from the state of FIG. When the traveling gantry 14 rotates in the negative gantry rotation direction 59, the fixed stopper 51 pushes the collision surface 78 of the switching mechanical stopper main body 71 to rotate the switching mechanical stopper main body 71 in the direction opposite to the positive stopper rotation direction 83. That is, the traveling gantry 14 can rotate in the gantry rotation negative direction 59 to the position of the positive limit angle when the switching mechanical stopper 53 is in the first state.

  The spring 74 changes the elastic force that rotates the switching mechanism stopper body 71 in the stopper rotation positive direction 83 during the period from the state of FIG. 8 where the collision surface 76 is in contact with the stopper 73 to the state of FIG. 9. 71 is applied. The spring 74 further switches the elastic force that rotates the switching mechanism stopper body 71 in the opposite direction of the stopper rotation forward direction 83 when the switching mechanism stopper body 71 is slightly rotated in the opposite direction of the stopper rotation forward direction 83 from the state of FIG. Applied to the mechanical stopper body 71. That is, the spring 74 applies an elastic force to the switching mechanism stopper main body 71 so that one of the collision surface 75 or the collision surface 76 contacts the stopper 73, and the switching mechanism stopper 53 is halfway between the first state and the second state. Prevents stopping in an odd state.

  When the traveling gantry 14 further rotates in the gantry rotation negative direction 59 from the state of FIG. 9, the switching mechanism stopper 53 rotates in the direction opposite to the stopper rotation positive direction 83, as shown in FIG. 10. In addition, the collision surface 75 comes into contact with the stopper 73 and transitions from the first state to the second state.

  As shown in FIG. 10, the fixed stopper 51 is the case where the switching mechanism stopper 53 is in the second state, and when the traveling gantry 14 rotates in the gantry rotation positive direction 58, the collision surface 81 is switched to the switching mechanism stopper main body 71. It collides with the collision surface 79. When the traveling gantry 14 rotates in the positive gantry rotation direction 58, the fixed stopper 51 pushes the collision surface 79 of the switching mechanical stopper main body 71 to rotate the switching mechanical stopper main body 71 in the positive stopper rotation direction 83. Apply to. At this time, the switching mechanical stopper main body 71 can rotate in the stopper rotation positive direction 83. Therefore, when the traveling gantry 14 rotates in the gantry rotation forward direction 58, the switching mechanism stopper 53 rotates in the stopper rotation forward direction 83, and the switching mechanism stopper 53 enters the first state via the state shown in FIG. Become. That is, the traveling gantry 14 can rotate in the gantry rotation positive direction 58 when the switching mechanical stopper 53 is in the second state.

  The switching mechanical stopper 54 is formed in the same manner as the switching mechanical stopper 53. That is, the switching mechanism stopper 54 includes a switching mechanism stopper body, a bearing, a stopper, and a spring. The bearing supports the switching mechanical stopper main body on the O-ring 12 in a rotatable manner. The stopper is joined to the O-ring 12. The stopper collides with the switching mechanism stopper body when the switching mechanism stopper body rotates around the rotation axis, and limits the range in which the switching mechanism stopper body can rotate. The switching mechanical stopper 54 transitions between the third state and the fourth state when the switching mechanical stopper main body rotates about the rotation axis. The spring further rotates the switching mechanism stopper body when the switching mechanism stopper body is not in contact with the stopper, that is, the switching mechanism stopper 54 is in one of the third state and the fourth state. In addition, an elastic force is applied to the switching mechanical stopper body.

  The switching mechanical stopper 54 is in the third state, and transitions from the third state to the fourth state when the traveling gantry 14 rotates the negative limit angle in the gantry rotation positive direction 58. The switching mechanical stopper 54 further transitions from the fourth state to the third state when the traveling gantry 14 rotates the negative direction limit angle in the gantry rotation negative direction 59 in the fourth state. The switching mechanical stopper 54 further prevents the traveling gantry 14 from rotating when the traveling gantry 14 rotates in the negative gantry rotation negative direction 59 in the third state.

  The stopper switching sensor 56 does not contact the switching mechanism stopper body of the switching mechanism stopper 54 when the switching mechanism stopper 54 is in the third state, and is a part of the switching mechanism stopper body of the switching mechanism stopper 54 when the switching mechanism stopper 54 is in the fourth state. Are formed so as to contact each other. The stopper switching sensor 56 outputs to the control device 5 whether the switching mechanism stopper 54 is in the third state or the fourth state based on whether the switching mechanism stopper body of the switching mechanism stopper 54 is in contact.

  The fixed stopper 61 is formed in the same manner as the fixed stopper 51. The switching mechanism stopper 63 is formed in the same manner as the switching mechanism stopper 53 and operates in the same manner as the switching mechanism stopper 53. That is, the switching mechanism stopper 63 includes a switching mechanism stopper body, a bearing, a stopper, and a spring. The bearing supports the switching mechanical stopper main body on the O-ring 12 in a rotatable manner. The stopper is joined to the O-ring 12. The stopper collides with the switching mechanism stopper body when the switching mechanism stopper body rotates around the rotation axis, and limits the range in which the switching mechanism stopper body can rotate. The switching mechanical stopper 63 transitions between the first state and the second state when the switching mechanical stopper main body rotates about its rotation axis. The spring further rotates the switching mechanism stopper body when the switching mechanism stopper body is not in contact with the stopper, that is, the switching mechanism stopper 63 is in one of the first state and the second state. In addition, an elastic force is applied to the switching mechanical stopper body.

  The switching mechanical stopper 63 is in the first state, and transitions from the first state to the second state when the traveling gantry 14 rotates the positive limit angle in the gantry rotation negative direction 59. The switching mechanical stopper 63 further transitions from the second state to the first state when the traveling gantry 14 rotates the positive limit angle in the positive gantry rotation direction 58 in the second state. Further, the switching mechanical stopper 63 prevents the traveling gantry 14 from rotating when the traveling gantry 14 rotates in the forward gantry rotation forward direction 58 in the first state.

  The stopper switching sensor 65 does not contact the switching mechanism stopper body of the switching mechanism stopper 63 when the switching mechanism stopper 63 is in the first state, and is a part of the switching mechanism stopper body of the switching mechanism stopper 63 when the switching mechanism stopper 63 is in the second state. Are formed so as to contact each other. The stopper switching sensor 65 outputs to the control device 5 whether the switching mechanism stopper 63 is in the first state or the second state based on whether the switching mechanism stopper body of the switching mechanism stopper 63 is in contact.

  The switching mechanism stopper 64 is formed in the same manner as the switching mechanism stopper 53 and operates in the same manner as the switching mechanism stopper 54. That is, the switching mechanism stopper 64 includes a switching mechanism stopper body, a bearing, a stopper, and a spring. The bearing supports the switching mechanical stopper main body on the O-ring 12 in a rotatable manner. The stopper is joined to the O-ring 12. The stopper collides with the switching mechanism stopper body when the switching mechanism stopper body rotates around the rotation axis, and limits the range in which the switching mechanism stopper body can rotate. The switching mechanical stopper 64 transitions between the third state and the fourth state when the switching mechanical stopper main body rotates about its rotation axis. The spring further rotates the switching mechanism stopper body when the switching mechanism stopper body is not in contact with the stopper, that is, the switching mechanism stopper 64 is in one of the third state and the fourth state. In addition, an elastic force is applied to the switching mechanical stopper body.

  The switching mechanical stopper 64 is in the third state, and transitions from the third state to the fourth state when the traveling gantry 14 rotates the negative direction limit angle in the gantry rotation positive direction 58. The switching mechanism stopper 64 further transitions from the fourth state to the third state when the traveling gantry 14 rotates the negative direction limit angle in the gantry rotation negative direction 59 in the fourth state. The switching mechanical stopper 64 further prevents the traveling gantry 14 from rotating when the traveling gantry 14 rotates in the negative gantry rotation negative direction 59 in the third state.

  The stopper switching sensor 66 does not contact the switching mechanism stopper body of the switching mechanism stopper 64 when the switching mechanism stopper 64 is in the third state, and is a part of the switching mechanism stopper body of the switching mechanism stopper 64 when the switching mechanism stopper 64 is in the fourth state. Are formed so as to contact each other. The stopper switching sensor 66 outputs to the control device 5 whether the switching mechanism stopper 64 is in the third state or the fourth state based on whether the switching mechanism stopper body of the switching mechanism stopper 64 is in contact.

  The negative direction limit sensor dog 62 is formed in the same manner as the positive direction limit sensor dog 52, and the negative direction limit sensor 67 is formed in the same manner as the positive direction limit sensor 57. That is, the negative direction limit sensor dog 62 and the negative direction limit sensor 67 are disposed so as to contact each other when the traveling gantry 14 is located in the negative direction limit region. When the negative direction limit sensor 67 comes into contact with the negative direction limit sensor dog 62, the negative direction limit sensor 67 outputs to the control device 5 that the traveling gantry 14 is located in the negative direction limit region.

  FIG. 11 shows the operation of the gantry angle limiting device. In the gantry angle limiting device, when the traveling gantry 14 is in the initial state, the switching mechanical stoppers 53 and 63 are in the first state, and the switching mechanical stoppers 54 and 64 are in the third state (state S1). The switching mechanical stoppers 54 and 64 transition from the third state to the fourth state when the traveling gantry 14 rotates in the gantry rotation positive direction 58 and passes through the negative limit angle from the initial state (state S2). The forward limit sensor 57 outputs to the control device 5 that the traveling gantry 14 is positioned in the forward limit region when the traveling gantry 14 further rotates in the forward gantry rotation direction 58 and is positioned in the forward limit region. (State S3). The switching mechanical stoppers 53 and 63 prevent the traveling gantry 14 from rotating in the forward gantry rotation direction 58 when the traveling gantry 14 further rotates in the forward gantry rotation direction 58 and is positioned at the forward limit angle (state S4). The switching mechanical stoppers 54 and 64 transition from the fourth state to the third state when the traveling gantry 14 rotates from the positive limit angle to the gantry rotation negative direction 59 and passes through the negative limit angle.

  FIG. 12 shows the operation of the gantry angle limiting device. In the gantry angle limiting device, when the traveling gantry 14 is in the initial state, the switching mechanical stoppers 53 and 63 are in the first state, and the switching mechanical stoppers 54 and 64 are in the third state (state S5). The switching mechanical stoppers 53 and 63 transition from the first state to the second state when the traveling gantry 14 rotates in the gantry rotation negative direction 59 and passes through the positive limit angle from the initial state (state S6). The negative direction limit sensor 67 outputs to the control device 5 that the traveling gantry 14 is positioned in the negative direction limit region when the traveling gantry 14 further rotates in the gantry rotation negative direction 59 and is positioned in the negative direction limit region. (State S7). The switching mechanical stoppers 54 and 64 prevent the traveling gantry 14 from rotating in the gantry rotation negative direction 59 when the traveling gantry 14 further rotates in the gantry rotation negative direction 59 and is positioned at the negative direction limit angle (state S8). The switching mechanical stoppers 53 and 63 transition from the second state to the first state when the traveling gantry 14 rotates from the negative limit angle to the gantry rotation positive direction 58 and passes through the positive limit angle.

  At this time, when the radiotherapy apparatus 3 falls into a runaway state where the rotation of the traveling gantry 14 cannot be controlled, the fixed stopper 51 collides with the switching mechanical stoppers 53, 54, or the fixing stopper 61 switches the switching mechanical stopper 63. , 64 can be used to brake the rotation. The radiotherapy apparatus 3 further has a rotatable range when mechanically limiting the rotation of the traveling gantry 14 by appropriately arranging the fixed stoppers 51 and 61 and the switching mechanical stoppers 53, 54, 63 and 64. It can be designed in an arbitrary range of 1 rotation or more and less than 2 rotations. The radiotherapy apparatus 3 can further expand the range in which the therapeutic radiation irradiation apparatus 16 is driven by expanding the range in which the traveling gantry 14 can be rotated.

  The radiotherapy apparatus 3 can also delete the fixed stopper 61, the switching mechanical stopper 63, the switching mechanical stopper 64, the stopper switching sensor 65, and the stopper switching sensor 66. At this time, the radiotherapy apparatus 3 restricts the traveling gantry 14 from rotating the forward limit angle in the gantry rotation forward direction 58 by the collision of the fixed stopper 51 with the switching mechanical stopper 53, and the fixed stopper 51 is switched to the switching mechanical stopper. It is possible to restrict the traveling gantry 14 from rotating in the negative direction limit angle 59 in the negative gantry rotation direction 59 by colliding with 54.

  The radiotherapy apparatus 3 can also delete the switching mechanical stopper 54, the stopper switching sensor 56, the switching mechanical stopper 63, and the stopper switching sensor 65. At this time, the radiotherapy apparatus 3 restricts the traveling gantry 14 from rotating the forward limit angle in the gantry rotation forward direction 58 by the fixed stopper 51 colliding with the switching mechanical stopper 53, and the fixed stopper 61 is switched mechanical stopper. It is possible to restrict the traveling gantry 14 from rotating in the negative direction limit angle 59 in the negative direction 59 of the gantry rotation.

  The operations executed by the radiation therapy apparatus 1 include an operation for creating a treatment plan, an operation for setting up, and an operation for performing radiation therapy.

  In the operation of creating the treatment plan, the user first creates an image showing the affected area of the patient and the organs around the affected area based on the three-dimensional data of the affected area of the patient and the surrounding area of the affected area. Generate. The user browses the image using the control device 5 and specifies the position of the affected part. The user further creates a treatment plan based on the image and inputs the treatment plan to the control device 5. The treatment plan shows the irradiation angle at which the affected part of the patient is irradiated with the therapeutic radiation, and the dose and properties of the therapeutic radiation irradiated from each irradiation angle.

  The setup operation is executed immediately before the radiation treatment operation, and includes an operation for driving the couch 41 and an operation for driving the therapeutic radiation irradiation device 16. In the operation of driving the couch 41, the user first fixes the patient to the couch 41 of the radiation therapy apparatus 3 in the same posture as when the three-dimensional data was collected. The user moves the couch 41 so that the affected part of the patient is substantially overlapped with the isocenter 19. The user uses the diagnostic X-ray source of the radiotherapy apparatus 3 and the sensor array to irradiate the patient with the diagnostic X-ray and capture a transmission image of the affected area of the patient. Based on the transmission image, the user moves the couch 41 so that the affected area of the patient is disposed so as to overlap the isocenter 19. The user repeats the capturing of the transmission image and the movement of the couch 41 and arranges the affected part of the patient so that the affected part of the patient accurately overlaps the isocenter 19.

  In the radiation treatment operation, the couch 41, the O-ring 12 and the traveling gantry 14 are driven so that the relative position of the therapeutic radiation irradiation apparatus with respect to the affected part of the patient coincides with the irradiation angle indicated by the treatment plan within an allowable range. Will be executed after. In the radiation treatment operation, the control device 5 irradiates the affected area of the patient with the therapeutic radiation using the therapeutic radiation irradiation device by the dose indicated by the treatment plan. Examples of the radiation treatment operation include respiratory synchronization irradiation (gated irradiation) and moving body tracking irradiation. The respiratory synchronization irradiation is a method of irradiating therapeutic radiation or stopping irradiation based on the observed patient movement. The moving body tracking irradiation is a method of observing the position of an affected part and irradiating the position with therapeutic radiation.

  FIG. 13 shows the stopper switching sensor 55, the stopper switching sensor 56, the positive limit sensor 57, the stopper switching sensor 65, and the stopper switching when the positive limit angle is +190 degrees and the negative limit angle is -190 degrees. The detection results of the sensor 66 and the negative direction limit sensor 67 are shown. The forward limit sensor 57 outputs ON when the traveling gantry 14 is positioned in the range of +188 degrees to +190 degrees and in the range of −170 degrees to −172 degrees. The negative direction limit sensor 67 outputs ON when the traveling gantry 14 is located in a range of −188 degrees to −190 degrees and a range of +170 degrees to +172 degrees.

  The stopper switching sensor 55 outputs ON when the switching mechanical stopper 53 is in the second state. That is, the stopper switching sensor 55 outputs ON when the traveling gantry 14 is located in the range of −170 degrees to −190 degrees. The stopper switching sensor 56 outputs ON when the switching mechanical stopper 54 is in the fourth state. That is, the stopper switching sensor 56 outputs ON when the traveling gantry 14 is located in the range of +170 degrees to +190 degrees. The stopper switching sensor 65 outputs ON when the switching mechanical stopper 63 is in the second state. That is, the stopper switching sensor 65 outputs ON when the traveling gantry 14 is located in the range of −170 degrees to −190 degrees. The stopper switching sensor 66 outputs ON when the switching mechanical stopper 64 is in the fourth state. That is, the stopper switching sensor 66 outputs ON when the traveling gantry 14 is located in the range of +170 degrees to +190 degrees.

  FIG. 14 shows an embodiment of a gantry angle limiting method according to the present invention. This gantry angle limiting method is executed at all times and at least during the radiation treatment operation. The control device 5 periodically collects the detection result of the positive direction limit sensor 57 and the detection result of the negative direction limit sensor 67 (step S11). When the positive direction limit sensor 57 or the negative direction limit sensor 67 outputs ON (step S11, YES), the control device 5 detects the stopper switching sensor 55, the stopper switching sensor 56, the stopper switching sensor 65, and the stopper switching sensor 66. Are collected (step S12). When the forward limit sensor 57 outputs “ON” and the stopper switching sensor 56 and the stopper switching sensor 66 output “ON” (step S12, YES), the controller 5 stops the traveling gantry 14. Then, the travel drive device that drives the travel gantry 14 is controlled (step S13). Further, the control device 5 stops the traveling gantry 14 when the negative direction limit sensor 67 outputs ON and the stopper switching sensor 55 and the stopper switching sensor 65 output ON (step S12, YES). In this manner, the traveling drive device that drives the traveling gantry 14 is controlled (step S13).

  According to such a gantry angle limiting method, the timing immediately before the fixed stopper 51 collides with the switching mechanical stopper 53 can be detected, and the timing immediately before the fixed stopper 61 collides with the switching mechanical stopper 64 can be detected. . In such a gantry angle limiting method, the traveling gantry 14 is braked at the detected timing to prevent the fixed stopper 51 from colliding with the switching mechanism stopper 53, and the fixed stopper 61 is intensely applied to the switching mechanism stopper 64. Can be prevented and damage to the gantry angle limiting device can be prevented. Further, when the fixed stopper 51 collides with the switching mechanical stopper 53 or when the fixed stopper 61 collides with the switching mechanical stopper 64, the radiotherapy apparatus 3 reduces the fear of the patient 43 without making a loud noise. be able to.

  In the gantry angle limiting method, the power source of the motor of the travel drive device that drives the travel gantry 14 in step S13 can be turned off at the detected timing. According to such a gantry angle limiting method, when the traveling drive device for driving the traveling gantry 14 falls into a runaway state where the rotation of the traveling gantry 14 cannot be controlled, Similarly, the gantry angle limiting device can be prevented from being damaged, and the fear of the patient 43 can be reduced.

  The forward limit sensor 57 can be replaced with another sensor that can detect whether or not the traveling gantry 14 is disposed in the forward limit region. Examples of the sensor include an angle meter and an encoder that measure the rotation angle of the traveling gantry 14. The goniometer measures the rotation angle of the traveling gantry 14. The encoder is attached to a motor applied to a traveling drive device that drives the traveling gantry 14, and measures the rotation angle of the rotation shaft of the motor. The radiotherapy apparatus to which such a sensor is applied can detect the timing immediately before the fixed stopper 51 collides with the switching mechanical stopper 53 in the same manner as the radiotherapy apparatus 3 in the above-described embodiment. The timing immediately before the stopper 61 collides with the switching mechanical stopper 64 can be detected. Further, the negative direction limit sensor 67 can be replaced with another sensor that can detect whether or not the traveling gantry 14 is disposed in the negative direction limit region in the same manner as the positive direction limit sensor 57.

  The control device 5 can also brake the rotation of the traveling gantry 14 using a braking device different from the traveling drive device that drives the traveling gantry 14. As the braking device, a mechanical brake is exemplified. The brake includes a brake drum and a brake shoe. The brake drum is fixed to the traveling gantry 14. The brake shoe is fixed to the O-ring 12, controlled by the control device 5, is brought into contact with the brake drum, and brakes the rotation of the traveling gantry 14 by the frictional force between the brake drum and the brake shoe. The radiotherapy apparatus to which such a braking device is applied can prevent the gantry angle limiting device from being damaged in the same manner as the radiotherapy apparatus 3 in the above-described embodiment, thereby reducing fear of the patient 43. can do. The radiotherapy device to which such a braking device is applied further damages the gantry angle limiting device even when the traveling drive device that drives the traveling gantry 14 falls into a runaway state in which the rotation of the traveling gantry 14 cannot be controlled. The fear of the patient 43 can be reduced.

  In addition, the radiotherapy apparatus 3 can also replace the braking device with another apparatus. An example of such a device is an alarm device that can notify or detect the timing immediately before the fixed stopper 51 collides with the switching mechanical stopper 53 and notifies the timing immediately before the fixed stopper 61 collides with the switching mechanical stopper 64. Is done. According to such a radiotherapy apparatus, the patient 43 can know in advance that the fixed stopper 51 collides with the switching mechanical stopper 53 or that the fixed stopper 61 collides with the switching mechanical stopper 64, and travels. It is possible to reduce fear when the gantry 14 stops suddenly or makes a loud noise.

  Furthermore, the control apparatus 5 can also be installed separately from the control apparatus used in the radiation treatment operation.

FIG. 1 is a block diagram showing a radiotherapy apparatus according to the present invention. FIG. 2 is a perspective view showing a radiotherapy apparatus according to the present invention. FIG. 3 is a plan view showing the gantry angle limiting device. FIG. 4 is a plan view showing the gantry angle limiting device. FIG. 5 is a plan view showing one state of the gantry angle limiting device. FIG. 6 is a perspective view showing the switching mechanical stopper main body. FIG. 7 is a plan view showing another state of the gantry angle limiting device. FIG. 8 is a plan view showing still another state of the gantry angle limiting device. FIG. 9 is a plan view showing still another state of the gantry angle limiting device. FIG. 10 is a plan view showing still another state of the gantry angle limiting device. FIG. 11 is a conceptual diagram showing the operation of the gantry angle limiting device. FIG. 12 is a conceptual diagram showing the operation of the gantry angle limiting device. FIG. 13 is a graph showing the detection result of the sensor and showing the state of the gantry angle limiting device. FIG. 14 is a flowchart showing a gantry angle limiting method according to the present invention.

Explanation of symbols

3: Radiation therapy device 5: Control device 11: Turning drive device 12: O-ring 14: Traveling gantry 15: Swing mechanism 16: Radiation irradiation device for treatment 17: Rotating shaft 18: Rotating shaft 19: Isocenter 21: Pan shaft 22 : Tilt axis 23: Radiation for treatment 24: X-ray source for diagnosis 25: X-ray source for diagnosis 31: Sensor array 32: Sensor array 33: Sensor array 35: X-ray for diagnosis 36: X-ray for diagnosis 41: Couch 42 : Couch drive device 43: Patient 51: Fixed stopper 52: Dog for positive limit sensor 53: Switching mechanism stopper 54: Switching mechanism stopper 55: Stopper switching sensor 56: Stopper switching sensor 57: Positive direction limit sensor 58: Positive direction 59: Negative Direction 61: Fixed stopper 62: Dog for negative direction limit sensor 63: Switching mechanism stopper 64: Switching mechanism Upper 65: Stopper switching sensor 66: Stopper switching sensor 67: Negative direction limit sensor 71: Switching mechanical stopper body 72: Bearing 73: Stopper 74: Spring 75, 76, 78, 79: Colliding surface 80: Rotating shaft 81: Colliding surface 82: Colliding surface 83: Positive direction of stopper rotation 84: Rubber plate 85, 86: Notch

Claims (11)

A traveling gantry that supports a radiation irradiator that emits therapeutic radiation;
An O-ring that rotatably supports the traveling gantry;
A fixed stopper joined to one of the O-ring or the traveling gantry;
A switching mechanical stopper joined to the other of the O-ring or the traveling gantry,
The switching mechanical stopper is
In the first state, when the traveling gantry rotates in the positive gantry rotation positive direction with respect to the O-ring, the traveling gantry comes into contact with the fixed stopper so that the traveling gantry rotates in the positive gantry rotation direction. Stop rotating and
In the first state, when the traveling gantry rotates the forward limit angle in the opposite direction to the forward gantry rotation direction, the traveling gantry is rotated in the opposite direction to the forward gantry rotation direction. A radiotherapy apparatus that transitions from the first state to the second state by contacting the fixed stopper without stopping. In claim 1,
The switching mechanical stopper is
In the second state, when the traveling gantry rotates the positive limit angle in the positive direction of the gantry rotation, the rotation of the traveling gantry in the positive direction of the gantry rotation is stopped without stopping. A radiotherapy apparatus that transitions from the second state to the first state by contacting a stopper. In claim 2,
The switching mechanical stopper is
The stopper main body that is rotatably supported by the other, wherein the switching mechanical stopper rotates from the second state to the first state when the stopper main body rotates in the positive direction of the stopper rotation when in the second state. Transition to the state, when the stopper body is in the first state, the stopper body rotates in the direction opposite to the stopper rotation forward direction to transition from the first state to the second state,
A stopper that contacts the stopper main body so that the stopper main body does not rotate in the positive direction of rotation of the stopper when the switching mechanical stopper is in the first state;
The stopper prevents the stopper body from rotating in the opposite direction of the stopper rotation forward direction when the switching mechanical stopper is in the second state,
The stopper body is
When the traveling gantry rotates the positive limit angle in the positive gantry rotation direction in the second state with the switching mechanical stopper in the second state, it rotates in the positive rotation direction of the stopper by colliding with the fixed stopper,
When the switching mechanical stopper is in the first state and the traveling gantry rotates the forward limit angle in the opposite direction to the forward gantry rotation direction, it collides with the fixed stopper so as to be in the opposite direction of the forward rotation direction of the stopper. A rotating radiotherapy device. In claim 3,
The switching mechanism stopper further includes an elastic body that applies an elastic force to the stopper body so that the stopper body rotates in the stopper rotation positive direction when the switching mechanism stopper is in the first state,
The radiation therapy apparatus, wherein the elastic body applies an elastic force to the stopper main body so that the stopper main body rotates in a direction opposite to the forward rotation direction of the stopper when the switching mechanical stopper is in the second state. In any one of Claims 1-4,
Further comprising another switching mechanical stopper joined to the other,
The other switching mechanism stopper is
In the third state, when the traveling gantry rotates the negative limit angle in the positive direction of the gantry rotation, the rotation of the traveling gantry in the positive direction of the gantry rotation is not stopped. Transition from the third state to the fourth state by contact,
In the fourth state, when the traveling gantry rotates the negative limit angle in the direction opposite to the gantry rotation forward direction, the traveling gantry is rotated in the direction opposite to the gantry rotation forward direction. Without stopping, by transitioning from the fourth state to the third state by contacting the fixed stopper,
In the third state, when the traveling gantry rotates the negative limit angle in the direction opposite to the positive direction of the gantry rotation, the traveling gantry comes into contact with the fixed stopper so that the traveling gantry rotates in the positive direction of the gantry. Radiation therapy device that stops rotating in the opposite direction. In any one of Claims 1-4,
Another fixed stopper joined to one of the O-ring or the traveling gantry;
And further comprising another switching mechanism stopper joined to the other of the O-ring or the traveling gantry,
The other switching mechanism stopper is
In the third state, when the traveling gantry rotates the negative limit angle in the positive gantry rotation direction, the rotation of the traveling gantry in the positive gantry rotation direction is not stopped. Transition from the third state to the fourth state by contacting the fixed stopper,
In the fourth state, when the traveling gantry rotates the negative limit angle in the direction opposite to the gantry rotation forward direction, the traveling gantry is rotated in the direction opposite to the gantry rotation forward direction. Without stopping, transition from the fourth state to the third state by contacting the other fixed stopper,
In the third state, the traveling gantry rotates the gantry by contacting the other fixed stopper when the traveling gantry rotates the negative limit angle in the direction opposite to the positive direction of the gantry rotation. A radiotherapy device that stops rotating in the opposite direction of the positive direction. In any one of Claims 1-4,
A stopper switching sensor for detecting the state of the switching mechanical stopper;
A radiotherapy apparatus further comprising: an extreme sensor that detects whether or not the angle of the traveling gantry is within a predetermined range. In claim 7,
A dog that contacts the limit sensor when the angle of the traveling gantry is within the predetermined range;
The said dog is joined to said one so that it may not contact the said switching mechanical stopper. Radiation therapy apparatus. In either claim 7 or claim 8,
A radiation therapy apparatus further comprising a brake that brakes the traveling gantry against the O-ring when the traveling gantry angle is within the predetermined range and the state of the switching mechanical stopper is in the first state. . In claim 9,
The brake is
A driving device for driving the traveling gantry with respect to the O-ring;
When the angle of the traveling gantry is within the predetermined range and the state of the switching mechanical stopper is in the first state, the driving device is controlled so that the traveling gantry stops with respect to the O-ring. A radiotherapy apparatus comprising a control device. A traveling gantry that supports a radiation irradiator that emits therapeutic radiation;
An O-ring that rotatably supports the traveling gantry;
A fixed stopper joined to one of the O-ring or the traveling gantry;
A switching mechanical stopper joined to the other of the O-ring or the traveling gantry;
A stopper switching sensor;
An extreme sensor,
With brakes,
The switching mechanical stopper is
In the first state, when the traveling gantry rotates in the positive gantry rotation positive direction with respect to the O-ring, the traveling gantry comes into contact with the fixed stopper so that the traveling gantry rotates in the positive gantry rotation direction. Stop rotating and
In the first state, when the traveling gantry rotates the forward limit angle in the opposite direction to the forward gantry rotation direction, the traveling gantry is rotated in the opposite direction to the forward gantry rotation direction. Without stopping, transition from the first state to the second state by contacting the fixed stopper,
In the second state, when the traveling gantry rotates the positive limit angle in the positive direction of the gantry rotation, the rotation of the traveling gantry in the positive direction of the gantry rotation is stopped without stopping. A gantry angle limiting method that is performed using a radiation therapy apparatus that transitions from the second state to the first state by contacting a stopper,
Detecting the state of the switching mechanical stopper using the stopper switching sensor;
Detecting whether the angle of the traveling gantry is within a predetermined range using the limit sensor;
Braking the traveling gantry against the O-ring using the brake when the angle of the traveling gantry is within the predetermined range and the state of the switching mechanical stopper is in the first state; Gantry angle limiting method provided.

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