DE19838326A1 - Telescopic lifting mechanism for altering height of hospital or nursing bed - Google Patents

Abstract

The mechanism has an extra chain attached to the outer cylinder (2) at one end, and to the inner cylinder (4) at the opposite end, passing around one or more guide rolls at an angle of 180 deg . Moving the spindle causes the chain to apply a traction force to the inner cylinder, whilst at the same time this spindle movement also exerts a force on an intermediate cylinder (3). The mechanism comprises a telescopic column with a concentric arrangement of outer, intermediate and inner cylinders, the inner cylinder being movable in an axial direction out of the column. A lifting spindle (5) is provided for raising the intermediate and inner cylinders out of the outer cylinder. A chain (6) attached to the bottom region of the inner cylinder at one end, and to the outer cylinder (2) at the opposite end, extends around one or more guide rolls (7).

Description

The present invention relates to a lifting device preferably for the height adjustment of a sick or Care beds comprising a telescopic lifting column with a outer lift cylinder, one concentric in this arranged extendable middle lifting cylinder and one in this, in turn, held concentrically and axially extendable inner lifting cylinder, with a lifting drive for moving out the middle and the inner lifting cylinder out of the outer lift cylinder and with a tension member attached to it one end in the lower part on the inner one Lift cylinder fixed and that at its other end on the outer lifting cylinder is set and that at least a deflection roller is deflected so that when the Lift drive the inner lifting cylinder each double Stroke covered like the linear actuator.

Lifting devices preferably for the height adjustment of a Sick or nursing beds of the type mentioned are out known in the art. For example, the DE 195 28 179 A1 describes such a lifting device, in which if the linear actuator covers a shorter stroke for the telescopic lifting column has a larger stroke overall can achieve, for example, twice the stroke the one that the linear actuator travels. This well-known However, the lifting device has the disadvantage that the lifting drive via a pallet truck, which comprises a cross member, on the attacks the inner lifting cylinder. At the start of the boot process So initially only the inner lifting cylinder was raised. This inner lift cylinder is above extension and limit stops coupled to the middle lifting cylinder so that the middle Lift cylinder is only taken when the position is reached at which the respective stops lie together. Because the construction of a pallet truck a crossbar is also used to operate a relatively large one Cross section for the inner lifting cylinder and the telescopic lifting column assembly required in total. To do that known bedside from the raised position again To shut down, one must engage the lifting spindle  Coupling nut to be disengaged. In the disengaged Condition, the bed can then be lowered by hand, whereby to achieve a gentle shutdown of the bed additionally a damping element in the form of a Gas pressure spring is provided.

The object of the present invention is a Lifting device preferably for the height adjustment of a Hospital or nursing beds of the type mentioned at the beginning to improve constructively, so that in particular that Lowering the telescopic lifting column over the same Lift drive is possible, the telescopic Lifting column arrangement is preferably designed so that it has a smaller cross-section.

An object of the invention provides the solution to this problem Lifting device preferably for the height adjustment of a Hospital or nursing beds of the type mentioned at the beginning the characteristic features of the main claim. According to the invention it is provided that at least one further Tension member is present, which at one end on the outer lift cylinder set and at the other end the inner lifting cylinder is fixed and that over at least one deflection roller or the like through approximately 180 ° is deflected so that when the lifting drive moves downward the inner lifting cylinder a tensile force on the tension member is exercised, while the downward movement of the Lift drive exerts a force on the middle lifting cylinder.

In the solution according to the invention, the lifting drive therefore intervenes in the downward movement and in the upward movement of the telescopic lifting column arrangement on the middle Lifting cylinder. Lowering the hospital or nursing bed by hand is therefore not necessary any more than one Disengaging the linear actuator for this purpose. On the The middle lifting cylinder becomes the lifting drive right from the start the height adjustment with extended, using the first The tension member continues to extend when the inner lifting cylinder is raised  the middle lifting cylinder is pulled out, so that the inner lift cylinder in each stroke position preferably about double stroke distance as that of the stroke drive driven medium lift cylinders. Even lowering the lifting device according to the invention does not take place without power, but again via the one on the middle lifting cylinder attacking lifting drive, with the additional tension member at the downward movement in turn on the inner lifting cylinder is attacked and this is then pulled down with and is retracted into the middle lifting cylinder, whereby the latter in turn retracted into the outer lifting cylinder becomes. Lowering the telescopic column assembly in principle takes place in one according to the invention Sequence of movements analogous to starting up.

Both the first tension member and the further tension member deflected only via a pulley. The deflection roller for the first tension member can according to one preferred structural design dimensioned so be that they are in the cross section of the inner lifting cylinder Can be accommodated so that the lifting column arrangement overall can be built with a relatively small cross section. The individual lifting cylinders preferably have a round one Cross-section. The second pulley, which is for the further Tension member is required, for example, in comparison overall relatively small to the lifting column arrangement Have diameter so that they have a compact design without further can be accommodated in the lifting column arrangement. Preferably, you bring the pulley for the second Tension member off-center near the circumferential area of the middle Lift cylinder preferably in its lower end or under this one.

The first tension member is preferably a chain or the like, which can slide over the guide roller. The second tension member is preferably a cable or the like. The lifting drive is preferably a lifting spindle, which attacks the middle lifting cylinder. Preferably  a spindle nut assigned to this lifting spindle, which in lower end area attached to the middle lifting cylinder is.

According to a preferred development of the invention further provided that the first tension member in the lower End area at an attachment point on the inner Lift cylinder is attached, this first tension member over guided a deflection roller and is deflected there by about 180 ° and preferably at its other end this first tension member attached to a rod that is connected to the outer Lift cylinder is firmly connected. The pulley for the first The tension member is preferably on the central lifting cylinder fastened and drives with the middle lifting cylinder high. The pulley over that second tension member is guided, is preferably also on attached to the middle lifting cylinder. This pulley for the second tension member is preferably in the lower end region attached to the middle lifting cylinder.

The subclaims relate to preferred further developments of Task solution according to the invention. Other advantages of Invention result from the following Detailed description.  

In the following, the present invention is based on a Embodiment with reference to the accompanying Drawings described in more detail. Show

Figure 1 is a vertical section through a lifting column according to the invention for a hospital or nursing bed.

Figure 2 shows a cross section through the lifting column along the line II-II of Fig. 1.

Figure 3a is a simplified schematic longitudinal section through a lifting column according to the invention in a bottom stroke position.

Figure 3b shows a diagrammatically simplified view of a lifting column according to the invention similarly as in Figure 3a, but in an intermediate position..;

Fig. 3c shows a corresponding schematic simplified sectional view of a lifting column similarly as in Fig. 3a and 3b, but in an upper lifting position.

First, reference is made to FIGS. 1 and 2. The lifting column according to the invention is telescopic and is preferably used for a hospital or nursing bed for its height adjustment. However, the application is not necessarily limited to this application.

As can be seen, a telescopic lifting column according to the invention comprises an outer lifting cylinder 2 concentrically held in the latter and axially displaceable from the position shown in FIG. 1 upward extendable central lifting cylinder 3 and a further concentrically held in the central lifting cylinder 3 and in this axially displaceable guided inner lifting cylinder 4 , which in turn can be extended out of the middle lifting cylinder from the position shown in FIG. 1, so that there is a telescopic arrangement with the 3 lifting cylinders, namely the outer lifting cylinder 2 , the middle lifting cylinder 3 and the inner lifting cylinder 4 .

The lifting drive, which is provided to move the middle lifting cylinder 3 out of the outer lifting cylinder 2 , is formed via a lifting spindle 5 arranged centrally in the exemplary embodiment and driven, for example, by an electric motor 14 which can be seen in FIG. 2. This lifting spindle engages the central lifting cylinder 3 in the lower region, cooperates with a spindle nut and moves the central lifting cylinder 3 upward into a position when it rotates in a drive direction, as can be seen, for example, in FIG. 3b.

In order to also extend the inner lifting cylinder 4 when the middle lifting cylinder 3 is moved out of the outer lifting cylinder 2 by actuating the spindle drive of the lifting spindle 5 , a tension member in the form of a chain 6 is provided, which on the one hand in the lower area on the inner lifting cylinder 4 Is fastened on the inside, specifically at the fastening point 9 , which can be seen in FIG. 1 and also in FIG. 3b. Starting from there, this chain 6 is guided over a deflection roller 7 located higher up and deflected there by 180 ° and is then fixed at its other lower end to the fastening point 8 , which can be seen in FIG. 3b and also in FIG. 1 in such a way that this other lower end of the chain 6 is fixed on the outer lifting cylinder 2, for example via a rod 15 and a screw bolt 16 in the lower end region. As a result, this end of the chain 6 is held by means of the rod 15 when the middle lifting cylinder 3 is moved upwards when the lifting spindle 5 is actuated. The other end of the chain 6 , which is fixed at the fastening point 9 on the inner lifting cylinder 4 , is moved out with this inner lifting cylinder 4 . Since at the same time with the middle lifting cylinder 3 , the deflection roller 7 is moved upwards from the lifting spindle 5 , the chain 6 held at its other end at the attachment point 8 slides over the deflection roller 7 and pulls, since the total length of the chain 6 is fixed, that at the fastening point 9 on the inner lifting cylinder 4, the end fixed upwards, as a result of which the inner lifting cylinder 4 is moved out of the middle lifting cylinder 3 , as can also be seen in FIG. 3b. It can be seen that, starting from the starting position according to FIG. 3a, the middle lifting cylinder 3 has covered a certain stroke distance with respect to the outer lifting cylinder 2 and that at the same time the inner lifting cylinder 4 has moved out of the middle lifting cylinder 3 by the corresponding stroke distance. If one now compares further with the representation according to FIG. 3c, then one recognizes that then the middle lifting cylinder 3 has almost reached its maximum lifting position, since the spindle nut is at the upper end of the lifting spindle 5 and then the chain 6 is almost completely over the deflecting roller 7 has slid so that the end of the chain 6 , which is fixed at the fastening point 9 and is connected to the inner lifting cylinder 4 , has come close to the deflecting roller 7 , in which position the inner lifting cylinder 4 also has a corresponding lifting path compared to that middle lifting cylinder 3 has covered. In this way, when the lifting spindle 5 is actuated in relation to the upper end of the inner lifting cylinder 4 , in principle approximately twice the lifting path is achieved in comparison with the single lifting path which the middle lifting cylinder 3 covers in relation to the outer lifting cylinder 2 .

It Referring again to Figs. 1 and 2. The kinematics described above is effective in extending the lifting cylinders 3 and 4 on the outer lifting cylinder 2, that is, when the lifting spindle 5 the central lifting cylinder 3 and the inner lifting cylinder 4 moves upwards , The chain 6 guided over the deflection roller 7 is effective as a tension member. In order to exert sufficient pulling force when moving down the telescopic lifting column arrangement, for example from the upper lifting position according to FIG. 3c or the middle lifting position according to FIG. 3b, which moves the inner lifting cylinder 4 downwards in synchronism, a further tension member, for example deflection roller 10 , is guided and is deflected there by 180 °, as can be seen from FIG. 3b in connection with FIG. 2. The position of this second lower deflection roller 10 is, as can be seen in FIG. 2, off-center in the outer area and in such a way that the deflection roller 10 lies behind the lifting spindle 5 in the central vertical section according to FIG. 1, so that it cannot be seen there . Furthermore, the lower deflection roller 10 is located below the lower end of the middle lifting cylinder 3 , as can be seen in FIG. 3b. This cable 11 , which is guided over this lower deflection roller 10 , is now fastened at one end to the fastening point 12 , which can be seen in FIG. 3b, in the upper region on the outer lifting cylinder 2 . At its other end, the cable 11 is attached to the inner lifting cylinder 4 after deflection on the deflection roller 10 by 180 ° at the upper end in the inner region at the fastening point 13 which can be seen in FIG. 3b. If the middle lifting cylinder 3 is now shut down with the reverse rotation of the lifting spindle 5 , then the deflection roller 10 moves downwards and since the length of the cable 11 is fixed and this is fixed at one end at the top to the outer lifting cylinder 2 , the cable pulls 11 at the attachment point 13, the inner lifting cylinder 4 corresponding to the stroke of the middle lifting cylinder 3 down. The movement of the deflection roller 10 with the central lifting cylinder 3 when the telescopic lifting column arrangement is being lowered can be seen by comparing FIGS . 3c and 3b. In Fig. 2, it can be seen how the deflection roller 10 is located, namely in the interior of the outer lifting cylinder 2 off-center about the edge area and that below the central lifting cylinder 3, therefore, the deflection roller 10 is shown in Fig. 2 indicated by broken lines. As the drawings Fig. 1 and 2 show, the guide roller 10 may be slightly smaller than the deflection roller 7, which is centrally located and approximately fills the cross section of the innermost lifting cylinder 4 in the embodiment, as can be seen from Fig. 1. However, these are only constructive details, which a person skilled in the art can of course also solve differently without impairing the basic functioning of the lifting column arrangement according to the invention.

Claims (11)

1. Lifting device preferably for the height adjustment of a hospital or nursing bed comprising a telescopic lifting column with an outer lifting cylinder, an extendable middle lifting cylinder arranged concentrically therein and an inner lifting cylinder which is in turn concentrically held and axially extendable, with a lifting drive for extending the middle one and the inner lifting cylinder from the outer lifting cylinder and with a tension member which is fixed at one end in the lower region to the inner lifting cylinder and which is fixed at its other end to the outer lifting cylinder and which is deflected via at least one deflection roller, so that at Actuation of the lifting drive of the inner lifting cylinder covers twice the stroke, as the lifting drive, characterized in that at least one further tension member ( 11 ) is provided, which is fixed at one end to the outer lifting cylinder ( 2 ) and which at its other Ren end is fixed to the inner lifting cylinder ( 4 ) and which is deflected by at least one deflection roller ( 10 ) or the like by about 180 °, so that when the lifting drive ( 5 ) moves down to the inner lifting cylinder ( 4 ) via the tension member ( 1 ) a tensile force is exerted, with a force simultaneously exerting a force on the central lifting cylinder ( 3 ) during the downward movement of the lifting drive ( 5 ). 2. Lifting device preferably for a hospital or nursing bed according to claim 1, characterized in that the deflection roller ( 10 ) over which the tension member ( 11 ) is guided, is attached to the lifting cylinder ( 3 ). 3. Lifting device preferably for a hospital or nursing bed according to one of claims 1 or 2, characterized in that the deflection roller ( 10 ) for the tension member ( 11 ) in the lower end region is attached to the central lifting cylinder ( 3 ). 4. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 3, characterized in that the tension member ( 11 ) is a cable or the like. 5. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 4, characterized in that the lifting drive ( 5 ) is a lifting spindle which acts on the central lifting cylinder ( 3 ). 6. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 5, characterized in that the lifting device ( 5 ) is a lifting spindle and this lifting spindle is assigned a spindle nut ( 5 a) which is in the lower end region on the central lifting cylinder ( 3 ) is attached. 7. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 6, characterized in that a first tension member ( 6 ) in the lower end region at an attachment point ( 9 ) on the inner lifting cylinder ( 4 ) is fastened, this first Tension member ( 6 ) guided over a deflection roller ( 7 ) and deflected there by approximately 180 ° and at its other end this first tension member ( 6 ) is preferably fixed to a rod ( 15 ) which is fixedly connected to the outer lifting cylinder ( 2 ) is. 8. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 7, characterized in that the deflection roller ( 7 ) for the first tension member ( 6 ) is attached to the central lifting cylinder ( 3 ) and already at the beginning of the lifting movement the middle lifting cylinder ( 3 ). 9. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 8, characterized in that the first tension member ( 6 ) is a chain or the like. 10. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 9, characterized in that the deflecting roller ( 7 ) for the first tension member ( 6 ) approximately in the center of the inner lifting cylinder ( 4 ) and approximately above the axis of the lifting spindle ( 5 ) is arranged. 11. Lifting device preferably for a hospital or nursing bed according to one of claims 1 to 10, characterized in that the deflection roller ( 10 ) for the second tension member ( 11 ) is arranged off-center near the peripheral region of the central lifting cylinder ( 3 ).