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 mobile radiation generator includes an arm part on which an irradiation section is mounted. The height of the irradiation section is changed in a case in which the arm part is rotated. A spring generates negative rotational moment in a negative direction where the irradiation section is displaced upward against positive rotational moment that acts on the arm part in a positive direction due to own weight of the irradiation section and the like. A friction mechanism is built in a pillar. In a case in which the magnitude of the positive rotational moment and the magnitude of the negative rotational moment are different from each other, the friction mechanism generates a frictional force acting in a direction opposite to a direction where the arm part is to be rotated due to a difference between the positive rotational moment and the negative rotational moment and cancelling the difference.

The present disclosure relates to a lifting apparatus. The lifting apparatus may include a base column, a mobile column, a sliding component, a supporting arm, a lifting system, and a move-coordination system. The mobile column connected to the base column may be vertically movable relative to the base column. The lifting system may be configured to cause the movement of the mobile column. The sliding component connected to the mobile column may be vertically movable relative to the mobile column. The mobile column and the sliding component may be connected via the move-coordination system, which enables the sliding component and the mobile column to move simultaneously according to a predetermined relative motion relationship. The supporting arm may be connected to the sliding component.

The present disclosure relates to an X-ray imaging apparatus. The X-ray imaging apparatus includes a first column connected to a main body, a second column connected to the first column and provided to be movable relative to the first column, an arm connected to the second column and slidably provided along the second column, and a weight compensator provided to compensate for the weight of the second column and the arm, wherein the weight compensator, the second column and the arm are connected by a wire, and the second column is provided with an elastic member connected to the arm and providing an elastic force such that the arm is moved by a uniform force regardless of the position of the second column.

A mobile radiography apparatus with a portable transport frame has a sectioned vertical column mounted on the transport frame. The sectioned vertical column defines a vertical axis and has a vertically fixed base section and an upper section that is movable with respect to the base section along the vertical axis. Cable and pulley systems are coupled to the vertical column sections and/or the transport frame. A boom is coupled to the movable section for positioning an x-ray source attached to the boom.

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.

A mobile radiography system with a wheeled transport frame has a vertical column mounted on the transport frame to hold in position an x-ray tube head. One or more pulley systems inside the vertical column and/or the transport frame allow easily manually adjusting a height of the x-ray tube head. The pulley systems may include cables and fixed and movable pulleys.

A source image distance (SID) adjustable X-ray imaging apparatus is provided. The X-ray imaging apparatus may include an arm including a first end and a second end, a first X-ray component arranged at the first end of the arm, and a second X-ray component arranged at the second end of the arm. The first X-ray component and the second X-ray component may be opposite to each other. The first X-ray component may be configured to generate X-rays or receive X-rays. The first end may include a first weight balancing mechanism. When the first X-ray component moves with respect to the first weight balancing mechanism, the SID of the X-ray imaging apparatus may change but the first weight balancing mechanism may maintain a center of gravity of the first end unchanged.

Supporting devices for small and portable X-ray devices are described. In particular, this application describes supporting devices for portable X-ray devices containing a movable base unit with multiple legs with different lengths and heights configured so that the legs have a nestable configuration, an adjustable member extending from the mobile base unit so the adjustable member has an adjustable height, an extension arm connected to the adjustable member so the extension arm collapses toward and extends away from the adjustable member, and a connecting member connecting the extension arm with a portable x-ray device so the connecting member can rotate up to 360 degrees in the x, y, or z direction. The connecting member can also connect the extension arm with a portable x-ray device so the portable x-ray device is removable from the connecting member and capable of being operated independently by hand. Other embodiments are described.

This X-ray apparatus for rounds includes an X-ray generator capable of moving up and down in a vertical direction, a holding frame that holds a compression spring or a tension spring that expands and contracts as the X-ray generator moves up and down such that the compression spring or the tension spring is expandable and contractable, that holds a wire rope that transmits an elastic force of the compression spring or the tension spring to the X-ray generator and a pulley around which the wire rope is wound and which rotates, and that supports the X-ray generator such that the X-ray generator is movable up and down, and a support column that extends in the vertical direction and houses the holding frame such that the holding frame is detachable and upwardly exposable.