DE8905588U1 - X-ray diagnostic device - Google Patents

Description

89 G 3 2 2 3 EN

/ 1 Siemens AG

X-ray diagnostic device
5

The invention is based on an X-ray diagnostic device, such as that known from the Siemens brochure "ARCOSKOP 100 OP-II". The X-ray diagnostic device according to the brochure has a C-arm, which carries an X-ray emitter and an image intensifier at its ends, opposite each other. The C-arm is mounted on a holder that can be adjusted along its circumference at the lower end of a telescopic column. In addition, it can be pivoted about a vertical axis and about an axis perpendicular to the longitudinal axis of the telescopic column. The upper end ^of the telescopic column is supported by a holder, one end of which is firmly connected to the ceiling of the examination room.

Often, especially in the operating room, there is a desire to be able to move an X-ray diagnostic device with a C-arm, especially the C-arm with the X-ray tube and the image intensifier, out of the operating area as quickly and easily as possible, so that the working area of the operating team is not restricted and the necessary components can be moved back into the examination area just as quickly and easily to take an X-ray image.

The object of the invention is therefore to design an X-ray diagnostic device of the type mentioned at the outset in such a way that it is improved with regard to the above-mentioned needs.

To solve the problem, a device designed according to the invention

Ti 2 Hgr / 10.04.1989
01 01

...... ...... .... 89G32230E

X-ray diagnostic device has a C-arm, which carries an X-ray emitter and an image intensifier at its ends opposite one another, a holder for the C-arm, which is mounted at the lower end of a telescopic column and which can be pivoted about a vertical axis, and a ceiling rail, which supports the upper end of the telescopic column via a holder so that it can be adjusted at least along the ceiling rail, whereby the C-arm is height-adjustable and can be pivoted about an axis that is vertical to the longitudinal axis of the telescopic column.

The advantage of the X-ray diagnostic device designed according to the invention is that the C-arm holder can be swiveled around a vertical axis, as the recording unit as well as the C-arm, X-ray device and image intensifier can be easily swiveled, for example by 180°, and thus out of the work area. The work area is therefore not restricted by the recording unit. If necessary, the recording unit can be quickly swiveled into the work area. If the recording unit is not required for a longer period of time, it can also be moved out of the work area along the ceiling rail. By swiveling or moving the recording unit and the telescopic column out of the work area, for example the operating area, the freedom of movement of the operating lamps and ceiling stands, for example for carrying monitors, is increased and the homogeneous air flow in the operating area is not disturbed by the recording unit and the telescopic column.

Further advantages and details of the invention emerge from the following description of embodiments with reference to the drawings in conjunction with the subclaims.

Figures 1 to 3 show X-ray diagnostic devices designed according to the invention.
35

01 02

...... ... .... 89G3223DE

Figure 1 shows an X-ray diagnostic device according to the invention with a C-arm 1, which has an X-ray emitter 2 and an image intensifier 3 at its ends, lying opposite one another. The C-arm 1 is held by a holder 4 at the lower end of a telescopic column 5. The holder 4 supports the C-arm so that it can be adjusted along its circumference and can be pivoted about an axis 7 that is perpendicular to the longitudinal axis 6 of the telescopic column 5. The upper end of the telescopic column 5 is held adjustably on a ceiling rail 11 by a holder 8 with a swivel joint 9 with a vertical axis of rotation 10. The swivel joint 9 &ugr; _? &igr;-.&idiagr;-> Hin Ualfor.inn &Dgr; Hoc r.Rnnonc 1 iinrl rlami t rlnr &Pgr;-linriRn I can be pivoted out of the work area about the vertical axis of rotation 10, which corresponds, for example, to the longitudinal axis 6. The arrangement of a swivel joint between the holder 4 of the C-arm 1 and the lower end of the telescopic column 5 has the same effect. The recording unit comprising the X-ray emitter 2, image intensifier 3, C-arm 1 and holder 4 of the C-arm 1 can thus be pivoted out of the work area quickly and easily. It therefore does not restrict the work area. If, for example, an X-ray image is required during an operation, the recording unit can be pivoted back into the work area just as quickly and easily. If the recording unit is not required for a longer period of time, it can advantageously be moved completely out of the work area by adjusting it along the ceiling rail 11. The work area is therefore easily accessible. The recording unit and the telescopic column 5 do not restrict the adjustability of the operating lamps and the stands supporting the monitors. The air flow in the work area is not disturbed by the recording unit or the telescopic column 5.

In addition to Figure X, Figure 2 shows an X-ray diagnostic device designed according to the invention with a horizontally aligned beam 12 to which the upper end of the telescopic column 35

01 03

632230E

is mounted. One end of the beam 12 is mounted on the ceiling rail 11 via a swivel joint 13 with a vertical axis of rotation 14. The swivel joint 13 allows the receiving unit and the holder of the telescopic column 5, which according to Figure 2 is formed by the beam 12 and the swivel joint 13, to be pivoted about the vertical axis of rotation 14. In addition, the upper end of the telescopic column 5 can be adjusted along the beam 12, the swivel range of the receiving unit is thus increased by the length of the beam 12. Another swivel joint (not shown) can also be provided at the upper or lower end of the telescopic column 5, as already suggested in the figure description for Figure 1, which further increases the adjustability. Here too, the receiving unit can be adjusted along the ceiling rail 11.

Figure 3 shows a further embodiment of an X-ray diagnostic device according to the invention, in which, in addition to the embodiment according to Figure 2, a further horizontally aligned beam 15 is provided, one end of which is connected to one end of the beam 12 via a swivel joint 16 with a vertical axis of rotation 17, and the other end of which is connected to the ceiling rail 11 via a swivel joint 18 with a vertical axis of rotation 19. The holder of the telescopic column 5 therefore consists of the beams 12 and 15 and the swivel joints 16 and 18. This arrangement further increases the adjustment range of the recording unit. An even larger adjustment range is achieved if a swivel joint with a vertical axis of rotation is also provided at the lower or upper end of the telescopic column 5 for pivoting the recording unit. This embodiment is not shown in Figure 3.

The embodiment according to the invention according to Figure 3 has the largest adjustment range of the recording unit in the recording space. With suitable alignment of the recording unit and HaI-35

01 04

G 3223 OE

By using the brackets 4, 12, 15, the working area is slightly restricted and the air flow in the working area is disturbed as little as possible. By adjusting the support unit along the ceiling rail 11, it can be moved to a location in the operating room with the bracket 4, 12, 15 adjusted accordingly, in which it and the telescopic column 5 do not obstruct or disturb the working area.

0-1

Claims (4)

Protection claims 1. X-ray diagnostic device with a C-arm (1) which carries an X-ray beam (2) and an image intensifier (3) at its ends opposite each other with a holder (4) for the C-arm (1), which is mounted at the lower end of a telescopic column (5) and which can be pivoted about a vertical axis (10, 14, 17, 19), and with a ceiling rail (11) which, via a holder (8; 12,13,15,16), supports the upper end of the telescopic column ( ^r >) so as to be adjustable at least along the ceiling rail (11), wherein the C-arm (1) is height-adjustable and can be pivoted about an axis (7) perpendicular to the longitudinal axis (6) of the telescopic column (5). 2. X-ray diagnostic device according to claim 1, characterized in that the holder of the telescopic column (5) has a horizontally aligned beam (12), that the upper end of the telescopic column (5) is connected to the beam (12), and that one end of the beam (12) is connected to the ceiling rail (11) via a swivel joint (13) with a vertical axis of rotation (14). 3. X-ray diagnostic device according to claim 2, characterized in that the telescopic column (5) is adjustable in the longitudinal direction of the beam (12). 4. X-ray diagnostic device according to claim 2 or 3, characterized in that the holder has an additional horizontally aligned beam (15), that one end of this beam (15) is connected to the swivel joint (16) of the first beam (12), and that the other end of this beam (15) is connected to the ceiling rail (11) via an additional swivel joint (18) with a vertical axis of rotation (19). 02 01