DE951661C - Electromedical device - Google Patents

Description

Electromedical device For facilities where loads are longitudinally a prescribed path, e.g. B. a perpendicular line to move are used you usually lead members, z. B. guide rails, link-like linear guides etc. to guide the load. For example, when it comes to X-ray machines, these Device parts, such as X-ray tubes, image layer carriers, etc., are arranged to be adjustable, Column stands, ceiling rails, etc. used, along which the mostly on a wagon or slide attached support arms for the device parts are moved. Apart from that of the sometimes very considerable structural effort involved in the structural design the equipment is required, it is often with regard to the space available desirable to do without such guide members. For these purposes it is known to use support devices to hold the load, consisting of a majority of formed by parallelogram linkages with two pairs of parallel rods each Support arms, the last of which carries the load, exist. Have such devices the disadvantage that, on the one hand, they involve a relatively large structural effort make necessary and on the other hand only relatively limited possibilities of movement allow for the load.

These drawbacks are common to the subject of the invention Device in which the load to be moved, e.g. B. the X-ray tube of an X-ray gengeräbes, is arranged on a pivotable lever-like carrier (load lever), thereby eliminating that according to the invention of the load lever as a Sahluß member a majority of one behind the other switched, each aws a single lever existing lifting levers with the help assigned by the individual carrying handles and these are each self-locking against their carrier supporting drivable pivoting deviceJen in the sense of achieving a desired Trajectory for the load is controllable.

A preferred trajectory along the z. B. a device part to be moved in an X-ray machine is often a vertical straight line. In one such a case is, according to a further invention, the load lever with its axis of rotation a pivotable support member at a distance about a fixed axis in a plumb line the effective length of the load lever stored from this axis and h, in view of his Rotational movement relative to the support member likewise in a perpendicular plane in such opposite directions controllable so that its angle of rotation is essentially equal to twice the pivot angle of the supporting organ.

As a swivel drive for the support lever, controllable motorized Drive devices may be provided, each over with the relevant lever connected drive links, e.g. B. gear, are in drive connection. Will For example, worm gear used, the worm can each with a on the drive member arranged teeth are in engagement, wherein the worm drive for the load lever mounted on the support member is arranged on the support member.

A particularly advantageous pivoting device results according to Another invention in that, for example, on the fixed pivot axis of the Support member a separate from the latter fixed drive member, for. B. wheel od. Like., Is provided that via rolling members with the drive member of the load lever is in drive connection. Are the drive members as disks or wheels, in particular grooved or chain wheels, one of which, as mentioned, fixed on the pivot axis of the support member and the other firmly connected to the load lever is arranged on its axis of rotation, so the two wheels can, for example be coupled by a planetary gear, the axes of rotation on the lever-like Support member are stored. Instead of a planetary gear, flexible drive elements can be used in the form of V-belts, chains and the like, which are designed as an endless belt can be provided.

A particularly useful embodiment of such a pivoting device with rolling members to achieve a straight, especially vertical movement path for the load results according to a further invention in that the drive wheel for the load lever has half the diameter of the stationary wheel and both wheels of a common endless belt, e.g. B. rope, belt, chain or. Like., are entwined.

If the support element is designed as a double-armed lever, it engages the drive device, for example a hydraulic drive motor, if necessary with servo control, can be appropriate at the end of the free lever arm.

For facilities where a weight-free adjustment of the load, d. H. an adjustment can be made by hand when the load weight is compensated So, ltl, there is a force compensation device instead of the motorized drive device provided in which the weight of the load is caused by the counterforce of a compensating spring, which in one point of the support member in a desired, optionally adjustable Distance from the pivot axis engages, thereby exactly in every position of the load lever is compensated that the counterforce by means of a power transmission organ that extends between the point of application of the force and a fixed point of the device, transferred and the balancing spring at least partially outside a through the two indicated points and the fixed pivot point of the supporting organ determined triangle of action is arranged. A compression spring or a tension spring can be provided as a compensating spring be, while the power transmission member is a rigid member, for. B. a rod, or a flexible organ, e.g. B. rope, chain or the like. Can be.

For loads that can be raised and lowered, the device can be used in the Be designed so that in the load application point a arranged on an axis of rotation Carrier connected to a wheel, the wheel preferably being the same Diameter like that of the stationary wheel on the stationary axle is provided is, which by means of a wheel arranged on the load lever axis of rotation of the half Diameter can be controlled via an endless belt in such a way that the carrier is parallel to stitch itself is moved along the guide line. With the wheel-shaped carrier can be a preferably plate-shaped member connected as a support member for example for a cassette that can be raised and lowered in an X-ray machine.

A particularly useful device results from doubling of the lifting system in such a way that the second system is centrally symmetrical to the load application point is arranged, wherein the load lever with its counter member to a single rigid Link is united, at the end point of which the same drive device as between the fixed wheel and the wheel arranged in the fulcrum is provided.

The end link is the link chain combined in this device a wheel arranged in the same way as the fixed wheel of the same Diameter like this. With the last wheel you can turn a horizontal plate be connected, which in turn serve as a support member of a device that can be raised and lowered can. Instead of the motorized drive, it can also be used here in the event that that the load is to be moved by hand, a force balancing device with a balancing spring be provided, which is mounted on the stationary via a force transmission element Support member is hinged.

The essence of the invention is shown below with reference to FIGS. 1, 2, 3 and 4 explained in more detail.

In the embodiment shown in Fig. 1, that is to be moved Weight G attached to load lever I at load application point 2 and at the one hit here Arrangement in the vertical direction according to the arrows 3, 4 movable. The load lever rebpmikt lies in the axis 5 on a support member 6, dlas designed like a lever and in one Point M is mounted on a stationary axis 7 in a bearing block L. On the axis 7 is still a wheel 8, e.g. B. a sprocket, fixedly arranged over a flexible link 9, for example an articulated chain, with one on the axis 5 mounted and with the load lever I firmly connected sprocket I0, its diameter is equal to half the diameter of the wheel 8, is in drive connection. Of the The distance between the load lever axis 5 and the pivot point M of the supporting member is equal to the effective one Length of the load lever I.

If the support member 6 is driven, for example with the help of a motor drive known per se, which is connected to the free lever arm ii by means of a Can attack pin 12, the load application point 2 moves on a perpendicular Straight lines.

The rotary movement of the feeler lever I is controlled by the gear mechanism 8, 9, 10 can be controlled in opposite directions relative to the support member 6 in such a way that its angle of rotation is essentially opposite is equal to the double pivot angle of the support member, d. i.e. that in every position of the load lever the angle (2 a) between the levers I, 6 is doubled is as large as the angle (a) between the support member 6 and the horizontal.

For weight-free adjustment of the load by hand, for example for Adjustment of a cassette in an X-ray machine can take the place of the motorized one Drive for the support member a force balancing device with spring force, such as is assumed in the embodiment of FIG. 1, be provided. With this device is at the end of the lever arm II at the point by means of the pin 12, a rigid force transmission element 13, e.g. B. a rod articulated, with the other end of a spring plate 14 fixed is connected, against which a compression spring 15 is supported, the other end of which is against a spring plate I6 rotatably mounted in a stationary point B. With the spring plate I6 a sleeve-shaped member 17 is firmly connected, in which the rod I3 is guided freely movable.

With the help of the force equalization device, the The load lever achieves an exact balance of forces in that the spring is outside the triangle determined by the points M, A, B, a so-called effect triangle, is arranged. With the help of this triangle, the balance of power is through change the mutual distances between points M, A and B can be set or changed. So can for example the point of application A of the counterforce supplied by the compensating spring can be moved manually or automatically in the direction of the longitudinal axis of the lever I be.

The arrangement shown in Fig. I is advantageous 2 further expanded as a support device. In load application point 2, in Wheel I8, which corresponds in size and shape to the fixed wheel8, rotatable arranged.

On the axis of rotation 5 of the load lever is a wheel 10 according to size and Form corresponding wheel 20 mounted, which is firmly connected to the support arm 6 and is in drive connection with the wheel 18 via a flexible member 19. With the Wheel 18 is a plate-shaped carrier 22 via a support member 21, for example for a cassette in an X-ray machine, firmly connected. The support plate 22 is at Drive of the support member 6 adjusted parallel to itself. Can be manually operated a load arranged on the support plate is displaced with the help of the force equalization device raise and lower weightlessly.

The arrangement shown in the embodiment of FIG the lever system I, 6 can be a particularly useful support for Load configuration by doubling the arrangement, as illustrated in FIG. 3 is. Here two systems S1 and S2 of the type illustrated in Fig. I are with one another connected, which are centrally symmetrical to point 2. Corresponding parts of the two Systems have the same reference characters, the parts of the system S2 with an index are provided. The load lever I is rigid with its counterpart I 'to a single one Lever 23 of double length combined. With the levers 6 and 6 'chain or. Cable pulleys 24, 25 rigidly connected and connected to one another by a cable or chain drive 26 coupled. This has the effect that the two levers 6 and 6 'are always parallel to one another are aligned. Also here is the angle between levers 23, 6 (2a) and 23, 6 '(2 a) always twice as large as the angle between the lever 6 and the horizontal (a) or between the lever 6 'and the horizontal (a). With the wheel 8 'of the system S2 can, for example, be firmly connected to a plate 28 via a support piece 27, which is parallel to itself when driving the support member 6 in the vertical direction shifts. The plate can, for example, in an X-ray machine, e.g. B.

Rotary shift device, be the carrier of a cassette that is perpendicular Direction should be shifted parallel to itself. In the case of the one shown in FIG Embodiment in which schematically illustrates a transverse planigral? H is, is on a device base 29, the new support device 30 with a support fork 3I for a cassette plate 32 together with a patient turntable 33 which having two height-adjustable armrests 34 are arranged. The column stand is displaceable with its foot 38 along a bottom rail 39 and can by means of one at the top Neten link 40 in a dedo splint be led. Instead of the column stand, a support device according to the invention be provided for the height-adjustable X-ray tube.

Claims (19)

PATENT CLAIMS: I. Electromedical device with a swiveling, lever-like carrier (load lever) arranged load, z. B. X-ray tube, characterized in that that the load lever is the final link in a majority of each of a single lever existing support lever with the help of the individual Tragliebeln assigned and these each self-lockingly supporting against their wearer drivable swivel devices in the sense of achieving a desired trajectory is controllable for the load. 2. Apparatus according to claim 1, characterized in that the load lever with its axis of rotation on a fixed axis in a common or parallel movement plane pivotable support member at the distance of the effective load lever length supported by this axis and in terms of its rotational movement relative to the support member is controllable in opposite directions in such a way that its angle of rotation is essentially opposite is equal to twice the pivot angle of the support member. 3. Apparatus according to claim I or 2, characterized in that the support member and the load lever each have a drive member at their pivot points, z. B. gear od. The like. Have and via this member with a preferably motorized Drive device are in drive connection. 4. Apparatus according to claim 3, characterized in that as an adjusting drive a preferably self-locking worm gear is provided for the support member is, the worm with a toothing arranged on the drive member of the support member is engaged. 5. Apparatus according to claim 3, characterized in that as an adjusting drive a worm gear attached to the support member is provided for the load lever is whose worm with a toothing arranged on the drive member of the load lever is engaged. 6. Device according to one of claims r to 3, characterized in that that on the stationary pivot axis of the support member a stationary wheel, in particular grooved or chain wheel, is arranged, which via rolling members, e.g. B. planetary gear, is in drive connection with the drive member of the load lever. 7. Apparatus according to claim 6, characterized in that the drive member of the load lever is mounted on the lifting pivot axis and firmly connected to the lever The wheel, in particular a grooved or chain wheel, is the one with the one on the pivot axis of the support element, which is mounted in a stationary manner, via flexible drive elements in drive connection stands. 8. Apparatus according to claim 7, characterized in that between the wheel (disc) and fixed on the pivot axis of the support member the one arranged on the axis of rotation of the load lever and connected to the load lever Wheel (disc) an endless belt (drive belt, chain or the like.) Provided as a drive element is. 9. Apparatus according to claim 7 or 8, characterized in that when using flexible links (straps, ropes, straps) these to prevent of slipping are firmly anchored in the wheels. IO. Device according to claim 8 or 9, characterized in that the drive wheel arranged on the axis of rotation of the load hoist half the diameter of the wheel fixedly arranged on the pivot axis of the support member and an endless belt provided as a drive element wrapped around both wheels is. II. Device according to one of the preceding claims, characterized characterized in that the support member is designed as a double-armed lever and the drive device is arranged engaging for the support member at the end of the free lever arm. I2. Device according to one of the preceding claims, characterized characterized in that for weight-free adjustment of the load by hand, the motorized Drive device for the support member replaced by a force compensation device is, in which the weight of the load by acting on one point of the support member The counterforce of a compensating spring is thus precisely balanced in every position of the load lever is that one between the point of application of the force and a fixed point of the device extending force transmission member provided and the balancing spring at least partially outside of one through the two mentioned points and the pivot point of the Support organ is arranged specific action triangle. 13. The apparatus according to claim I2, characterized in that as Power transmission organ a rigid member, for. B. one at the end of the free lever arm of the supporting member attacking rod, and as a compensating spring one against the rod end Abstütiende compression spring is provided. 14. Apparatus according to claim 12 or I3, characterized in that that in the load, the point of attack is a disk-shaped one arranged on an axis of rotation Carrier provided and by means of a wheel arranged on the load fog rotating axis, which has half the diameter of the disk-shaped carrier, over an endless one tape is controllable in such a way that the carrier parallel to itself along one, in particular perpendicular straight line is movable. 15. Apparatus according to claim 14, characterized in that with the disk-shaped carrier is a preferably plate-shaped member as a support member is firmly connected for a liftable and lowerable part of an X-ray machine. I6. Device according to one of Claims I to 11, characterized by doubling the arrangement in such a way that the two of the support member and load lever existing systems (S1, S2) with respect to a point of symmetry (2) are centrally symmetrical, the load lever with its counterpart to a rigid Link of twice the effective length of the simple lifting lever is combined. 17. The device according to claim I6, with a force compensation device according to one of claims I2 or I3, characterized in that the force transmission member stationarily mounted at the end of the free lever arm designed as a two-armed lever Support organ is hinged. I8. Device according to one of Claims 16 or 17, characterized in that that with the disk-shaped carrier forming the last link of the link chain a horizontally extending support member, e.g. a table top or the like is that is vertically adjustable parallel to itself. 19. The device according to claim I8, characterized in that the vertically adjustable support member as a carrier for a device part, z. B. Cassette, used in an X-ray machine. Documents considered: French patent specification No. 552 o83; British Patent No. 427,474.