An N-M tomography system comprising: a carrier for the subject of an examination procedure; a plurality of detector heads; a carrier for the detector heads; and a detector positioning arrangement operable to position the detector heads during performance of a scan without interference or collision between adjacent detector heads to establish a variable bore size and configuration for the examination. Additionally, collimated detectors providing variable spatial resolution for SPECT imaging and which can also be used for PET imaging, whereby one set of detectors can be selectably used for either modality, or for both simultaneously.

An X-ray diagnostic device has an attachment-and-detachment detection element that detects an attachment-and-detachment of the attachment-and-detachment member, a rotation detection element that detects the rotation of the motor, a torque adjustment element that adjusts the torque of the motor, and a torque detection element that detects the torque when the rotation of the motor suspends; wherein when attachment-and-detachment is detected, the brake is released; when the brake is released, the rotation of the motor due to an out of balance condition between the up-and-down moving element and the counterweight is detected and the motor torques is adjusted so as to suspend the detected rotation of the motor; the torque when the rotation of the motor suspends is continuously provided, so that the balance between the up-and-down moving element and the counterweight can be kept positioned.

The present application discloses a method for detecting an abnormity in an optical path or measuring and adjusting of a dynamic balance of a gantry in a CT system, comprising performing, by a gantry controlled by a controller, a test scan along an optical path of the CT system, the optical path being a path along which rays pass from a ray source to a detector. The method further comprises obtaining, by a processor, data relating to the test scan, and based on the data relating to the test scan. The method further comprises determining, by the processor, a status characteristic index of the optical path or an amount of dynamic imbalance of the gantry. The method further comprises analyzing, by the processor, a result of the status characteristic index; determining, by the processor, whether the optical path is abnormal, or determining whether a dynamic balance of the gantry satisfies a requirement based on a result of the analysis of the amount of dynamic imbalance.

An articulated arm to suspend an X-ray head from a support section in a radiographic imaging apparatus comprising two pairs of linkages separated and joined to an intermediate linkage wherein the proximal end of the first pair of linkages is connected to the support section and the distal end of the second pair of linkages is connected to the X-ray head, and further wherein the linkages in the first pair of linkages are parallel and rotatable about the connection to the support section, the linkages in the second pair of linkages are parallel and rotatable about the intermediate linkage, and whereby a rotational orientation of a mounting for the X-ray head about an axis which is parallel to the axes about which the first pair of linkages are rotatable remains constant when the first pair of linkages is rotated relative to the support section and/or the second pair of linkages is rotated relative to the intermediate linkage.

A device may include a base, a transmission assembly, and a response assembly. The transmission assembly may be configured to move a component of a medical device. The transmission assembly may include a cable and a wheel connected to the base. An end of the cable may be connecting to a part of the component of the medical device. The response assembly may be connected to the transmission assembly. The response assembly may be configured to generate a response in response to a break of the cable.

A telescopic column for an X-ray imaging apparatus includes a main column, a sub-column liftably arranged on one side of the main column, and a weight compensator arranged on an opposite side of the main column to compensate for a weight of the sub-column, wherein the weight compensator includes a cam formed such that a radius of winding of a wire therearoud changes according to a lifting height of the sub-column, and an elastic member configured to extend and contract according to rotation of the cam to provide elastic force to compensate for the weight of the sub-column.

An X-ray photography device capable of readily photographing by switching to various photography modes such as a standing mode, a table mode and the like with one X-ray photography device is disclosed. To this end, the X-ray photographing device comprises: a base frame; a support frame pivotably coupled to one side of the base frame through a hinge shaft and on one side of which an X-ray detector for detecting X-rays irradiated from an X-ray generation device is slidably provided; and an actuator of which one end is rotatably fixed to the base frame and of which the other end is rotatably fixed to the support frame spaced at a predetermined distance from the hinge shaft, and which pivots the support frame around the hinge shaft within a predetermined angle range while moving a driving shaft therein forward and backward by pneumatic or hydraulic pressure supplied from the outside.

An X-ray diagnostic device has an attachment-and-detachment detection element that detects an attachment-and-detachment of the attachment-and-detachment member, a rotation detection element that detects the rotation of the motor, a torque adjustment element that adjusts the torque of the motor, and a torque detection element that detects the torque when the rotation of the motor suspends; wherein when attachment-and-detachment is detected, the brake is released; when the brake is released, the rotation of the motor due to an out of balance condition between the up-and-down moving element and the counterweight is detected and the motor torques is adjusted so as to suspend the detected rotation of the motor; the torque when the rotation of the motor suspends is continuously provided, so that the balance between the up-and-down moving element and the counterweight can be kept positioned.

An imaging system constituted of: an imager; an imager translation mechanism arranged to translate the imager along a predetermined translation axis in each of a first direction and a second direction responsive to a provided electrical power, the second direction opposing the first direction, the predetermined translation axis exhibiting an imaging angle with a floor, the first direction being toward the floor along the translation axis, the imaging angle being less than 90 degrees and greater than 0 degrees; a piston translation mechanism; and a piston power mechanism arranged to provide motive power to the piston translation mechanism, wherein the piston translation mechanism is arranged to translate the imager in the second direction responsive to the provided motive power in the absence of the provided electrical power.

The purpose of the present invention is to prevent the risk when the wire-rope that is hanging an X-ray irradiation element including an X-ray tube breaks.

The X-ray imaging apparatus to solve the above problem comprises a wire-ropes 17, 18 that hang and support an X-ray irradiation element 5 and have a different fatigue strength each other, wherein the different between the fatigue progressions of the wire-ropes 17, 18 takes place, the wire-rope 17 or the wire-rope 18 having a weaker fatigue strength breaks first and both wire-ropes 17, 18 never break simultaneously.