LIFTING COLUMN

Abstract

A lifting column includes at least five column elements which are at least partly nested, and a first and a second drive arrangement. The first drive arrangement is configured to move the three innermost column elements relative to one another. The second drive arrangement is configured to move the three outermost column elements relative to one another.

Claims

1-15. (canceled)

16. A lifting column comprising: at least five column elements being at least partly nested and including three innermost column elements and three outermost column elements; a first drive arrangement configured to move said three innermost column elements relative to one another; and a second drive arrangement configured to move said three outermost column elements relative to one another.

17. The lifting column according to claim 16, wherein said at least five column elements include a middle column element, and said first and second drive arrangements are mechanically coupled together by said middle column element.

18. The lifting column according to claim 16, which further comprises an interior of the lifting column, said interior having two halves, and said first and second drive arrangements being laterally offset relative to one another and each being disposed in a respective one of said halves.

19. The lifting column according to claim 16, wherein each of said drive arrangements includes a respective drive and two respective screw gears actively connected to said respective drive, and each of said screw gears has a respective threaded spindle and a respective spindle nut.

20. The lifting column according to claim 19, wherein each of said drives is configured for driving said threaded spindle of one of said two screw gears actively connected thereto and for driving said spindle nut of another of said two screw gears actively connected thereto.

21. The lifting column according to claim 19, which further comprises gear mechanisms, each of said drives having a respective drive shaft actively connected by a respective one of said gear mechanisms to a respective one of said screw gears of a respective one of said drive arrangements being laterally offset relative to said respective drive shaft.

22. The lifting column according to claim 19, wherein: said three innermost column elements include a middle innermost column element; said three outermost column elements include a middle outermost column element: said drive of said first drive arrangement is fixed to said middle innermost column element; and said drive of said second drive arrangement is fixed to said middle outermost column element.

23. The lifting column according to claim 22, wherein: said at least five column elements include a middle column element; one of said threaded spindles and one of said spindle nuts of said first drive arrangement are mounted rotatably on said middle innermost column element, another of said threaded spindles of said first drive arrangement is fixed to said middle column element, and another of said spindle nuts of said first drive arrangement is fixed to said innermost column element; and one of said threaded spindles and one of said spindle nuts of said second drive arrangement are mounted rotatably on said middle outermost column element, another of said threaded spindles of said second drive arrangement is fixed to said outermost column element, and another of said spindle nuts of said second drive arrangement is fixed to said middle column element.

24. The lifting column according to claim 16, wherein each of said first and second drive arrangements includes: a motor; a braking device for limiting a movement speed upon movement of said column elements relative to one another; and a planetary gear mechanism; said motor, said braking device and said planetary gear mechanism being disposed coaxially.

25. The lifting column according to claim 16, which further comprises a line arrangement for supplying power to said first and second drive arrangements, said line arrangement being at least in part disposed laterally between said first and second drive arrangements.

26. The lifting column according to claim 25, which further comprises: a power supply of the lifting column; said line arrangement including: a first line portion running from said power supply to said first drive arrangement and at least in part forming a first line loop in at least one operating state of the lifting column; a second line portion running from said first drive arrangement to said second drive arrangement and at least in part forming a second line loop in at least one operating state of the lifting column; and line sheaths each formed by respective multiple sheath segments connected together in a chain, said first and second line loops each being disposed at least in part in a respective one of said line sheaths.

27. The lifting column according to claim 26, wherein said second line loop is disposed at least in part inside said first line loop, or said first line loop is disposed at least in part inside said second line loop, in at least one operating state of the lifting column.

28. The lifting column according to claim 16, wherein: said at least five column elements include four innermost column elements and four outermost column elements having insides and outsides; a plurality of first slide elements respectively disposed on said outsides of each of said four innermost column elements so as to slide on said inside of a respective neighboring outer column element; and a plurality of second slide elements respectively disposed on said insides of each of said four outermost column elements so as to slide on said outside of a respective neighboring inner column element.

29. The lifting column according to claim 16, wherein said first and second drive arrangements are identical.

30. The lifting column according to claim 16, which further comprises a force sensor for detecting a force exerted on one of said column elements, permitting the lifting column to control at least one of said first or second drive arrangements on a basis of a detected force.

Description

[0041] The drawings show, at least in part schematically:

[0042] FIG. 1 an example of a lifting column in a retracted state;

[0043] FIG. 2 the lifting column from FIG. 1 in an extended state;

[0044] FIG. 3 a cross-section of the lifting column from FIG. 1;

[0045] FIG. 4 an example of a line arrangement;

[0046] FIG. 5 an example of sheath segments connected together as a chain, and

[0047] FIG. 6 an example of an X-ray system.

[0048] FIG. 1 shows an example of a lifting column 1 in a retracted state. The lifting column 1 has five column elements 10, 20, 30, 40, 50 which are at least partly nested, and a first drive arrangement 60 and a second drive arrangement 70. The first drive arrangement 60 is configured to move the three innermost column elements 10, 20, 30—which are sometimes also referred to below as the first, second and third column elements—relative to one another. The second drive arrangement 70 is configured to move the three outermost column elements 30, 40, 50—which are sometimes also referred to below as the third, fourth and fifth column elements—relative to one another.

[0049] To this end, the first drive arrangement 60 preferably comprises a drive 61 and two screw gears 62, 63, each with a threaded spindle 62a, 63a and a spindle nut 62b, 63b. The rotational axes of a drive shaft of the drive 61 and the two screw gears 62, 63 preferably run parallel to one another with a lateral offset. The drive 61 is therefore suitably actively connected via a gear mechanism 64 to screw gears 62, 63, in particular to the threaded spindle 62a of the one screw gear 62 and to the spindle nut 63b of the other screw gear 63.

[0050] The spindle nut 62b of the one screw gear 62 is here preferably fixed on the first, i.e. innermost column element 10. By driving the corresponding threaded spindle 62a, the second column element 20 can be raised or lowered relative to the first column element 10.

[0051] Furthermore, the threaded spindle 63a of the other screw gear 63 is preferably fixed on the third, i.e. the middle column element 30. By driving the corresponding spindle nut 63b, the third column element 30 can be raised or lowered relative to the second column element 20.

[0052] To save installation space, the gear mechanism 64 may comprise a flat gear 64a. In such a flat gear 64a, gearwheels—which are also known as spur gears because of their end position—are arranged intermeshing in one plane and transmit a torque laterally onto the two screw gears 62, 63 of the first drive arrangement 60.

[0053] Alternatively or additionally, the gear mechanism 64 may also comprise a planetary gear mechanism 64b in order to adapt a torque from the drive 61. For space reasons, the planetary gear mechanism 64b is preferably arranged coaxially with the drive 61, i.e. such that the drive shaft of the drive 61 and an input and/or output shaft of the planetary gear mechanism 64b have the same rotational axis.

[0054] Also, optionally, the first drive arrangement 60 may have a braking device 65 which is preferably configured for limiting a movement speed on movement of the column elements 10, 20, 30 relative to one another. For space reasons, the braking device 65 is also arranged preferably coaxially with the drive 61, and in some cases also with the planetary gear mechanism 64b. A particularly compact arrangement may be achieved if the drive 61, planetary gear mechanism 64b and/or braking device 65 are arranged substantially aligned in the longitudinal direction of the lifting column 1.

[0055] Suitably, the second drive arrangement 70 is constructed correspondingly, in particular identically to the first drive arrangement 60. Accordingly, the second drive arrangement 70 may comprise a drive 71, two screw gears 72, 73 each with a threaded spindle 72a, 73a and a spindle nut 72b, 73b, a gear mechanism 74 comprising a flat gear 74a and/or a planetary gear mechanism 74b, and/or a braking device 75. These elements of the second drive arrangement 70 preferably stand in the same active connection to one another as the corresponding elements of the first drive arrangement 60.

[0056] Accordingly, the one threaded spindle 72a of the one screw gear 72 is suitably mounted rotatably on the fourth column element 40 and can be driven by the drive 71. This threaded spindle 72a is preferably actively connected to the one spindle nut 72b fixed on the third (middle) column element 30, so that the fourth column element 40 can be raised or lowered relative to the third column element 30.

[0057] Similarly, the other spindle nut 73b of the other screw gear 73 is suitably rotatably mounted on the column element 40 and can be driven by the drive 71. This spindle nut 73b is preferably actively connected to the other threaded spindle 73a fixed on the fifth (outermost) column element 50, so that the fifth column element 50 can be raised or lowered relative to the fourth column element 40.

[0058] FIG. 2 shows the lifting column 1 from FIG. 1 in an extended state. Because of the coupling of the first and second drive arrangements 60, 70 via the third (middle) column element 30, the travels of the four screw gears 62, 63, 72, 73 are added together so that, even with an axially compact lifting column 1, for example with a height of 600 mm, a greater total extension, e.g. of 2 m or more, can be achieved. The screw gears 62, 63, 72, 73 with the threaded spindles 62a, 63a, 72a, 73a and the spindle nuts 62b, 63b, 72b, 73b can here stabilize the lifting column 1, in particular against both tension and pressure.

[0059] FIG. 2 also shows a plurality of first slide elements 4 which are arranged on the outsides 11, 21, 31, 41 of the first, second, third and fourth (the four innermost) column elements 10, 20, 30, 40, so as to slide on a respective opposite inside of the second, third, fourth or fifth (the four outermost) column elements 20, 30, 40, 50. Similarly, a plurality of second slide elements 5 is shown, which are arranged on the insides 22, 32, 42, 52 of the four outermost column elements 20, 30, 40, 50 so as to slide on the respective opposite outsides 11, 21, 31, 41 of the four innermost column elements 10, 20, 30, 40. The provision of slide elements 4, 5 is sufficient to allow the extension or retraction of the lifting column 1 by means of the four screw gears 62, 63, 72, 73. A greater reduction in friction between the column elements 10, 20, 30, 40, 50, for example by means of corresponding rollers as used in conventional lifting columns, is not necessary.

[0060] FIG. 3 illustrates a cross-section of the lifting column 1 from FIG. 1, which clearly shows the arrangement of the two drive arrangements 60, 70 in an interior 2 of the lifting column 1, i.e. inside the nested column elements 10, 20, 30, 40, 50. For efficient use of space, the drive arrangements 60, 70 may be arranged laterally offset to one another in a respective half 2a, 2b of the interior 2. Suitably, the drive 61, 71 of the respective drive arrangement 60, 70 is here arranged laterally between the corresponding screw gears 62, 63, 72, 73.

[0061] Preferably, a gap 3 is formed between the drive arrangements 60, 70. A line arrangement for supplying power to the first and second drive arrangements 60, 70 may be arranged in this gap 3, as shown in connection with FIG. 4.

[0062] FIG. 4 shows an example of a line arrangement 80 of a lifting column 1. The line arrangement 80 has a first line portion 81, a second line portion 82 and optionally a line guide 85. The first line portion 81 suitably runs between a power supply 90 of the lifting column 1, e.g. a power pack, and a first drive arrangement 60 which is configured to move the three innermost column elements 10, 20, 30 relative to one another. The second line portion 82 suitably runs between the first drive arrangement 60 and a second drive arrangement 70 which is configured to move the three outermost column elements 30, 40, 50.

[0063] The line portions 81, 82 are suitably configured such that, at least in part, they form a first lower line loop 83 and a second upper line loop 84 in at least one operating state of the lifting column 1, e.g. in the retracted state shown. This means that the line portions 81, 82 hang down at least in part, whereby the line portions 81, 82 can follow on extension of the lifting column 1.

[0064] To this end, the line guide 85 of the first line portion 81 may run along an inside of the first (innermost) column element 10, in particular up to an upper end of the column element 10.

[0065] As shown in FIG. 4, the second line portion 82 runs at least partly inside the first lower line loop 83 in at least one operating state. In particular, the second upper line loop 84 is at least partly arranged inside the lower line loop 83. The line portions 81, 82 may be at least partly, in particular in the region of the line loop 83, 84, arranged in a line sheath as shown in FIG. 5.

[0066] FIG. 5 shows an example of the sheath segments 86 which are connected together in a chain to form a line sheath 87 for receiving line portions, e.g. one or more cables. The sheath segments 86 (of which, for reasons of clarity, only one carries a reference sign) are suitably connected together at pivot axes 88 (of which again, for reasons of clarity, only one carries a reference sign). The pivot axes 88 run parallel to one another and suitably horizontally. Thus line portions arranged inside the line sleeve 87 may form loops. A lateral movement, i.e. transversely to the figure plane, can thus however be suppressed. To this extent, it is preferred to provide a line sheath 87 for the line portions running in the gap shown in FIG. 3, in order to prevent the line portions from catching in the drive arrangements.

[0067] FIG. 6 shows an example of an X-ray system 100 with an X-ray source 110, an X-ray detector 120 and a lifting column 1. Here, the X-ray detector 120 is integrated in a patient table 130 which is mounted so as to be adjustable in height by means of the lifting column 1.

[0068] Alternatively or additionally to the arrangement shown in FIG. 6, the X-ray source 110 may also be mounted movably by means of the lifting column 1. To this extent, in general terms, the lifting column 1 may serve as a stand, namely in particular as a floor stand or ceiling-mounted unit.

LIST OF REFERENCE SIGNS

[0069] 1 Lifting column [0070] 2 Interior [0071] 2a, 2b Half [0072] 3 Gap [0073] 4 First slide element [0074] 5 Second slide element [0075] 10 First (innermost) column element [0076] 20 Second column element [0077] 30 Third (middle) column element [0078] 40 Fourth column element [0079] 50 Fifth (outermost) column element [0080] 11, 21, 31, 41 Outside [0081] 22, 32, 42, 52 Inside [0082] 60 First drive arrangement [0083] 70 Second drive arrangement [0084] 61, 71 Drive [0085] 62, 63, 72, 73 Screw gear [0086] 62a, 63a, 72a, 73a Threaded spindle [0087] 62b, 63b, 72b, 73b Spindle nut [0088] 64, 74 Gear mechanism [0089] 64a, 74a Flat gear [0090] 64b, 74b Planetary gear mechanism [0091] 65, 75 Braking device [0092] 80 Line arrangement [0093] 81 First line portion [0094] 82 Second line portion [0095] 83 First line loop [0096] 84 Second line loop [0097] 85 Line guide [0098] 86 Sheath segment [0099] 87 Line sheath [0100] 88 Pivot axis [0101] 90 Power supply [0102] 100 X-ray system [0103] 110 X-ray source [0104] 120 X-ray detector [0105] 130 Patient table