Medical imaging devices, systems, and methods thereof. The medical imaging system may include a movable station and a gantry. The movable station includes a gantry mount rotatably attached to the gantry. The gantry includes an outer C-arm slidably mounted to and operable to slide relative to the gantry mount, an inner C-arm slidably coupled to the outer C-arm and, an imaging signal transmitter and sensor attached to the C-arms. The two C-arms work together to provide a full 360 degree rotation of the imaging signal transmitter. The movable station may include a motion control system and an imaging control system. In embodiments, the motion control system includes omni-directional wheels for precision controlled-movement of the movable station.

The present invention relates to a cable tube (10) for furniture (18). The cable tube is composed of the combination of a foldable and extensible helical cylindrical spring (11), whose coils (13) are applied and constrained to a sleeve (12) made of flexible material, said tube (10) being provided at opposite ends with a ballasted base (15) for resting on the floor, and connection means (17) to said furniture (18).

A binding structure of wire routing materials are formed by: elongated wire routing materials; a binding member for binding the wire routing materials; and an engaging member including a movable body portion including an engaging portion for assembly into a vehicle body, and a bound portion to be bound and held together with the wire routing materials by the binding member. The bound portion includes a main portion facing the wire routing materials, and a leg portion extending from the main portion and being in contact with the wire routing materials. The movable body portion includes a sliding portion disposed such that sliding thereof is allowed on the wire routing materials in a gap.

A string of coiled tubing having a power cable therein supports and supplies power to an electrical submersible well pump assembly in a well. The coiled tubing has an upper section and a lower section joining each other, the upper section having a smaller inner diameter than the lower section. The power cable has an upper portion installed in the upper section of the coiled tubing and a lower portion installed in the lower section of the coiled tubing. The power cable has three insulated electrical conductors embedded within an elastomeric jacket. A metal armor strip has turns wrapped helically around the jacket. The armor strip is compressed between the jacket and the coiled tubing both in the upper section and in the lower section of the coiled tubing.

A line guiding apparatus (1) includes a line guiding unit (2) having a direction-changing region (7) and a support unit (8) which has a slide (9) with a support element (10) arranged thereon for the direction-changing region (7), that at the inside bears against the direction-changing region (7) and permits a movement of the line guiding unit (2) about the centre point axis (17) of the direction-changing region (7). To displace a line guiding unit of high flexibility in a stable linear orientation the support unit (8) has a drive device engaging the slide (9) and driving it in the direction of displacement of the line guiding unit (2) and a control device which is operatively connected to the drive device and is not formed by the line guiding unit (2) itself and with which the drive device is controllable in dependence on the state of movement of a movable connecting region (5). (FIG. 1).

A shelf power supply system has a power supply track and a first power taking head and a retractable power supply track, the first power taking head has an external wiring. The retractable power supply track has a first moving part electrically connected to the external wiring and a second moving part being electrically connected with the first moving part and slideable thereon. The second moving part has a terminal. The invention can solve the problems that the wiring is complex and difficult to hide in the power supply system of the low-voltage lamps installed in the shelves and the laminates, suitable for the shelf support arms with different lengths, the size is small, the operation is very convenient, and one track can power multi-layer lamps, avoiding complex winding in the shelf, which is very simple operation and convenient for hidden installation in the shelf.

A connection device for a cable management device and a slide rail assembly is disclosed. The slide rail assembly includes a first rail and a second rail, and the first rail and the second rail are displaceable with respect to each other. The cable management device includes a first arm and a second arm. The first arm and the second arm are movable with respect to each other and respectively coupled to the first rail and the second rail by two connection devices. At least one of the connection devices includes a first fitting, a second fitting and a resilient member. When the first fitting is mounted to the second fitting, a portion of the resilient member is configured to prevent the first and second fittings from being detached from each other.

A connection system for electrically connecting a fixture in a vehicle has at least one cable, and a housing with a cable inlet and a cable outlet, and with a receiving space which is formed in the housing and extends helically along a housing axis with a receiving space cross section from the cable inlet towards the cable outlet. The cable has a cable cross section and runs completely through the receiving space from the cable inlet towards the cable outlet, with cable coils being formed. A radial extent of the cable cross section is smaller than a radial extent of the receiving space cross section. Therefore, different lengths of the at least one cable can be accommodated in the receiving space with different coil diameters being formed.

The invention concerns line guide devices, for example energy guide chains (31, 51), having a movement sensor. An aspect concerns a movement sensor (10; 20) including a bearing having a first component, for example a guide (11; 21) of a linear bearing, and a second component moveable relative thereto, for example a longitudinally displaceable slider (12; 22), and at least one pick-up (13, 14; 23, 24) whose output signal depends on the relative position of both components. The movement sensor (10; 20) can be arranged with the first component at the connecting location to be supplied and with the second component at the moveable end of the line guide device, or vice-versa. A further aspect concerns an apparatus (30; 40) for winding up and unwinding a line guide device. A rotatable drum (32; 42) for winding up and unwinding the line guide device has a drum drive (38; 48). A sensor unit (35; 45) is arranged at the load-side end region (52B) of the line guide device, for detecting a movement parameter. A control unit (36; 46) connected to the sensor unit (35; 45) controls the drum drive. Both aspects are suitable inter alia for shore power supply.

A connection structure connecting a conduit 12 to a protector 30, the conduit 12 having a wire 11 inserted therein and being configured to move in accordance with sliding of a sliding object, and the protector 30 being attached to an end portion of the conduit 12 and being configured to move with the conduit 12, wherein, the protector 30 includes: a latch portion 39 that is joined to the conduit 12 in a latched state; and a sliding portion 15 that can slide in the direction in which the conduit 12 extends, opposes the conduit 12 in a normal position, and restricts release of the latched state of the latch portion 39.