Abstract
A configuration for moving a bed, in particular a care bed, sick bed, or intensive-care bed, from a horizontal position into an inclined position with respect to the longitudinal sides of the bed. A receiving device for receiving the bed and a stand device for ensuring a stable stand of the configuration are operatively connected via an adjusting mechanism which inclines the receiving device relative to the stand device. The verticalization process is decoupled from the respective existing bed and thus allows a large degree of flexibility for care personnel during a routine therapy session, allowing a safe and comfortable therapy for a patient confined to a bed. The configuration according to the invention is suitable for both a new installation as well as for retrofitting medical and/or care device equipment and advantageously saves on the otherwise necessary expenditures on beds with their own verticalization mechanism.
Claims
1. A configuration for moving a bed from a horizontal position into a tilted position with respect to longitudinal sides of the bed, the configuration comprising: a receiving device for receiving the bed by engaging the bed, said receiving device configured for lifting the bed from the floor during conversion of the bed from the horizontal position into the titled position with respect to the longitudinal sides; a stand device configured to provide for a stable stand of the configuration, at last one adjustment mechanism operatively connecting said receiving device with said stand device and configured to tilt said receiving device with respect to said stand device.
2. The configuration according to claim 1, wherein at least one of said receiving device or said stand device is formed, at least in sections, along both longitudinal sides of the bed.
3. The configuration according to claim 2, wherein said at least one of said receiving device or said stand device is formed to straddle the bed in a U-shape.
4. The configuration according to claim 1, further comprising a stabilizing mechanism to hold and/or stabilize the patient.
5. The configuration according to claim 1, wherein said adjustment mechanism comprises at least one sensor for detecting a tilting angle (α) and/or a tilting speed between said receiving device and said stand device.
6. The configuration according to claim 1, further comprising at least one control device for interaction with said adjustment mechanism for setting control parameters of said adjustment mechanism.
7. The configuration according to claim 6, wherein said at least one control device is configured to setting a tilting angle (α) between said receiving device and said stand device and/or a tilting speed.
8. The configuration according to claim 1, wherein said adjustment mechanism comprises at least one drive for moving said receiving device with respect to said stand device.
9. The configuration according to claim 8, wherein said at least one drive for moving said receiving device with respect to said stand device is a drive selected from the group consisting of a pneumatic drive, a hydraulic drive, and an electromechanical drive.
10. The configuration according to claim 1, wherein: said stand device includes: load rollers and/or castors for moving the configuration in any direction parallel to a floor; and support elements for the stable support of the configuration on the floor; or fastening means for fastening the configuration to the floor and/or to a wall.
11. The configuration according to claim 1, further comprising a rehabilitation mechanism for interaction with a bedridden patient, said rehabilitation mechanism including at least one of a support plate, a foot module, or a knee module.
12. The configuration according to claim 11, wherein said support plate and/or a foot module arranged thereon are mounted to the bed for movement into an operative connection with the feet and/or the soles of a bedridden patient.
13. The configuration according to claim 11, wherein said support plate is mounted for insertion or for movement relative to the longitudinal sides of the bed.
14. The configuration according to claim 13, wherein said rehabilitation mechanism further comprises at least one horizontal displacement device for moving the support plate.
15. The configuration according to claim 14, wherein said at least one horizontal displacement device is at least one guide rail or a spindle drive.
16. The configuration according to claim 14, wherein said rehabilitation mechanism comprises at least one weight sensor and/or one motor to ensure a controlled displacement movement of said support plate.
17. The configuration according to claim 14, further comprising at least one interface for connection of said rehabilitation mechanism to a control device.
18. The configuration according to claim 16, wherein a control device for controlling an interaction of said rehabilitation mechanism and said adjustment mechanism is operatively connected to said weight sensor and/or to said motor.
19. The configuration according to claim 11, further comprising a transport means for transporting and for attaching and/or operatively connecting said rehabilitation mechanism to the bed.
20. The configuration according to claim 1, wherein said receiving device is configured to support a bed selected from the group consisting of a treatment bed, a patient bed, a hospital bed, and an intensive-care bed.
Description
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING
(1) The drawing shows schematically:
(2) FIG. 1 a mobile embodiment of a device for converting a bed, in particular a treatment bed, patient bed, hospital bed or intensive-care bed, from a horizontal position into a tilted position with respect to its longitudinal sides, having a rehabilitation mechanism with a foot and knee module with a tilting angle between a receiving mechanism and a standing mechanism of 0°<α<90° as a perspective side view;
(3) FIG. 2 the device from FIG. 1 at a tilting angle of α=0° and also a bed, in this case a standard hospital bed, during movement of the device up to the bed;
(4) FIG. 3 a bedridden patient stabilized in the bed by means of a stabilizing mechanism with the device moved up to it at a tilting angle of α=0°;
(5) FIG. 4 the device from FIG. 1 with the bed at a tilting angle of 0°<α<90° as a perspective side view;
(6) FIG. 5 an embodiment of the device in which the rehabilitation mechanism is configured as a support plate without a foot and knee module with the bed held as in FIG. 3;
(7) FIG. 6 the embodiment of the device from FIG. 5 at a tilting angle of 0°<α<90°;
(8) FIG. 7 the permanently installed part of a stationary embodiment of the device for converting a bed, in particular a treatment bed, patient bed, hospital bed or intensive-care bed, from a horizontal position into a tilted position with respect to its longitudinal sides at a tilting angle of α=0° as a perspective side view;
(9) FIG. 8 the permanently installed part of a stationary embodiment of the device from FIG. 7 with the bed held, and also a transport means, in this case a trolley, along with the transported rehabilitation mechanism with the support plate, foot and knee module prior to attachment to the bed;
(10) FIG. 9 an enlarged view of the transport means in the form of a trolley from FIG. 8 along with the rehabilitation mechanism transported therewith with the support plate, foot and knee module;
(11) FIG. 10 a side view of a stationary embodiment of the device with the bed held and the rehabilitation mechanism moved up to it before the rehabilitation mechanism is connected to a control device via at least one interface;
(12) FIG. 11 a bedridden patient stabilized by means of a stabilization mechanism in the bed from FIG. 10, held by a stationary embodiment of the device following connection of the rehabilitation mechanism to the device and removal of the transport means at a tilting angle of α=0°;
(13) FIG. 12 the device from FIG. 11 with the bed at a tilting angle of 0°<α<90° as a perspective side view;
(14) FIG. 13 an embodiment of the device from FIG. 11, in which the rehabilitation mechanism is designed as a support plate without a foot and knee module, with the bed held; and
(15) FIG. 14 the embodiment of the device from FIG. 13 at a tilting angle of 0°<α<90°.
DESCRIPTION OF THE INVENTION
(16) In the following description of preferred embodiments of the present invention, the same reference numbers are used to denote identical or comparable components.
(17) FIG. 1 shows a mobile embodiment of a device 1 for converting a bed 10 (not shown here), in particular a treatment bed, patient bed, hospital bed or intensive-care bed, from a horizontal position into a tilted position relative to its longitudinal sides 12, comprising a rehabilitation mechanism 30 with a foot module 40 and a knee module 50 with a tilting angle α between a receiving device 2 and a stand device 3 of 0°<α<90° as a perspective side view. The device 1 depicted according to the invention has a receiving device 2 for receiving the bed 10 and a stand device 3 for guaranteeing a stable stand of the device 1, wherein according to the invention load rollers 301 and/or casters 302 are preferably provided on the stand device 3 for moving the device 1 in any directions parallel to the floor and support elements 303 for the stable supporting of the device 1 on the floor, in particular during the administering of movement therapy or physiotherapy. The receiving device 2 and the stand device 3 are, moreover, operatively connected to one another according to the invention via at least one adjustment mechanism 70, wherein the adjustment mechanism 70 can tilt the receiving device 2 in respect of the stand device 3. According to the invention, the adjustment mechanism 70 preferably also comprises at least one sensor 71 for detecting the tilting angle α and/or the tilting speed between the receiving device 2 and the stand device 3. Moreover, the adjustment mechanism 70 preferably has at least one drive 72, in particular a pneumatic, hydraulic and/or preferably electromechanical drive 72, for moving the receiving device 2 in relation to the stand device 3. It has proved successful in this case for at least one control device 5 to be provided for interaction with the adjustment mechanism 70, in particular for setting control parameters, such as, in particular, the tilting angle α between the receiving device 2 and the stand device 3 and/or the tilting speed.
(18) FIG. 2 shows the device 1 from FIG. 1 at a tilting angle α of α=0°, and also a bed 10, in this case a standard hospital bed by way of example, when moving the device 1 up to the bed 10. It is possible to see that the receiving device 2 and/or the stand device 3, preferably both as depicted here, can be configured at least sectionally along both longitudinal sides 12 of the bed 10, preferably in a substantially U-shaped manner, which advantageously allows the bed 10 to be moved up and received via the bottom end of the bed. In particular, the transverse side limit 15 of the bed 10 at the bottom end shown in FIG. 2 may be removed before the device 1 is moved up, so that the rehabilitation mechanism 30 of the device 1 is not obstructed. Movement up to the bed 10 may advantageously be facilitated by the load rollers 301 and casters 302 provided on the stand device 3, wherein during this any support elements 303 (see FIG. 3) are arranged for the stable supporting of the device 1 on the floor in a position without contact with the floor on the stand device 3.
(19) FIG. 3 then shows a bedridden patient 90 stabilized by means of a stabilizing mechanism 80 on a mattress 20 in the bed 10 with the device 1 moved up at a tilting angle α of α=0°. The situation depicted is immediately before treatment begins, so before the bed 10 is converted from a horizontal position into a tilted position in relation to its longitudinal sides 12. As can be seen, the supporting elements 303 are extended and can make contact with the floor, in order to support the device 1 in a stable manner on the floor. The bed 10 may preferably be received by means of fixing blocks 201 which particularly interact with the bed frame 11 through the receiving device 2, preferably completely. The bedridden patient 90 is held by means of a stabilization mechanism 80, in this case for example by means of a weight-relieving means 81 fastened via a support 202 to the transverse side limit 15 of the bed 10 at the head end, and is operatively connected to a foot module 40 of a rehabilitation mechanism 30 via the soles 95 of their feet 94. As an alternative to this, the stabilization mechanism 80 may also be created by at least one, preferably by multiple holding straps running crosswise (not shown here) for holding and/or stabilizing the patient 90. It can be seen in addition from FIG. 3 that the operative connection between the feet 94 and/or the soles 95 of the bedridden patent 90 and the support plate 32 and/or a foot module 40 arranged thereon, can preferably be produced by the displacement of the support plate 32 with respect to the longitudinal sides 12 of the bed 10. For this purpose, the rehabilitation mechanism 30 preferably has at least one horizontal displacement means, in particular at least one or preferably, as depicted, two guide rails 45 for moving the support plate 32. Alternatively, the support plate 32 can also be moved with respect to the longitudinal sides 12 of the bed 10, in particular via a spindle drive arranged on the support plate 32. The displacement movement of the support plate 32 may, on the one hand, be realized manually and/or by a motor 46 preferably arranged on the rehabilitation mechanism 30, wherein it has proved successful for the rehabilitation mechanism 30 to comprise a weight sensor 44 in order to guarantee a controlled displacement movement of the support plate 32. In the mobile embodiment shown in FIG. 3, the device 1 according to the invention preferably has, in addition, at least one interface 203 (cannot be seen here) for connecting the rehabilitation mechanism 30 to the control device 5, which can provide a permanent connection, particularly in the mobile embodiment. Consequently, the control device 5 is operatively connected in order to control the interaction of the rehabilitation mechanism 30 and the adjustment mechanism 70 in a preferred embodiment to the weight sensor 44 and/or to the motor 46, preferably to both.
(20) FIG. 4 shows the device 1 from FIG. 1 with the bed 10 at a tilting angle α of 0°<α<90° as a perspective side view. Unlike in FIG. 3, the support plate 32 in this case along with the rehabilitation mechanism 30 is arranged in the closest position in respect of the patient 90 (no longer shown here). The displacement of the support plate 32 takes place in particular by means of two guide rails 45 and can, in the case depicted here, facilitate the treatment of patients 90 with a comparatively short height. In addition, the rehabilitation mechanism 30 can in this way be advantageously moved up to the patient 90, which prevents the patient 90 from slipping towards the bottom of the bed when a bed 10 is being converted from a horizontal position into a tilted position (0°<α<90°) with respect to its longitudinal sides 12. In this position with a tilting angle α of 0°<α<90° between the receiving device 2 and the stand device 3 in which the bed 10 is completely received and is not in contact with the floor with any of its casters 16, at least part of the weight force of the patient's own body weight acts on the bedridden patient 90. A tilted position of this kind may advantageously improve the effectiveness of a bout of physiotherapy, in particular by means of the rehabilitation mechanism with a foot module 40 and/or a knee module 50, as already disclosed in the applicant's earlier patent DE 10 2015 117 596 B3. In relation to the method of operation of a rehabilitation mechanism 30, in particular with a carrier plate 32, a foot module 40 and/or a knee module 50, reference is made in full to the cited patent DE 10 2015 117 596 B3.
(21) FIG. 5 and FIG. 6 show a further embodiment of the device 1 in which the rehabilitation mechanism 30 is designed as a support plate 32 without a foot module 40 and a knee module 50, with the bed 10 held as in FIG. 3 at a tilting angle α of α=0° (FIG. 5), and also at a tilting angle α of 0°<α<90°, in particular, as can be seen here, at a tilting angle 45°<α<90° (FIG. 6). In this embodiment, the bedridden patient 90 can stand on the support plate 32, held and/or stabilized by the stabilization mechanism 80 configured here as a weight-relieving means 81 and exposed to at least part of the weight force of their own body weight and, in particular, do exercises independently or supported by care staff.
(22) FIG. 7 shows by way of example the permanently installed part of a stationary embodiment of the device 1 for converting a bed 10, in particular a treatment bed, patient bed, hospital bed or intensive-care bed, from a horizontal position into a tilted positon in relation to its longitudinal sides 12 at a tilting angle α of α=0° as a perspective side view. As opposed to the mobile embodiment, depicted by way of example in FIG. 1 to FIG. 6, the stand device 3 in the stationary variant of the invention has fastening means 304 which allow the device 1 to be fastened to a floor and/or wall section. As fastening means 304, screws in particular can be used for mechanical fastening and/or a counterweight arranged on the stand device 3 for lowering the focal point and increasing the dead weight of the device 1. In the embodiment shown in FIG. 7, the support 202 for the weight-relieving means 81 is arranged on the receiving device 2, for example. Moreover, the interface 203 for connecting the rehabilitation mechanism 30 to the control device 5 can be seen in FIG. 7, which interface can preferably be of detachable design in the stationary embodiment of the invention. Unlike in the mobile embodiment of the device 1, the rehabilitation mechanism 30 is, moreover, preferably separately configured according to the invention and is preferably transported to the bed 10 following the introduction of the bed 10 into the fixed part of the device 1 by way of a transport means 4 and then coupled to said bed.
(23) FIG. 8 shows a preferred embodiment of the invention according to the invention with the fixed part of a stationary embodiment of the device 1 from FIG. 7 with the bed 10 held, and also a transport means 4, in this case a trolley, together with the transported rehabilitation mechanism 30 with support plate 32, foot module 40 and knee module 50 prior to attachment to the bed 10.
(24) FIG. 9 shows an enlarged view of the transport means 4 from FIG. 8 configured as a trolley, along with the rehabilitation mechanism 30 transported therewith with the support plate 32, foot module 40 and knee module 50. As shown, the trolley has rollers 401 for locomotion and also at least one vertical rail 402 for achieving vertical movement of the rehabilitation mechanism 30.
(25) FIG. 10 shows a side view of a stationary embodiment of the device 1 with the bed 10 held and the rehabilitation mechanism 30 moved up to it before the connection of the rehabilitation mechanism 30 to the control device 5 via at least one interface 203. It can be seen that the rehabilitation mechanism 30 is still attached to the transport means 4 and is located in a higher vertical position on the vertical rail 402 of the transport means 4.
(26) FIG. 11 then shows a bedridden patient 90 stabilized by means of a stabilization mechanism 80 on a mattress 20 in the bed 10 from FIG. 10, held by a stationary embodiment of the device 1 following connection of the rehabilitation mechanism 30 to the device 1 and removal of the transport means 4 at a tilting angle α of α=0°. The rehabilitation mechanism 30 is lowered and connected via the interface 203 to the control device 5. As in FIG. 3, the patient 90 is already operatively connected to a foot module 40 of a rehabilitation mechanism 30 via the soles 95 of their feet 94 and can be treated following the setting of a tilting angle α of 0°<α<90°, as shown in FIG. 12, in a similar manner to FIG. 4.
(27) FIGS. 13 and 14 finally show an embodiment of the device 1 from FIG. 11, in which the rehabilitation mechanism 30 is configured as a support plate 32 without a foot module 40 or a knee module 50 with the bed 10 held at a tilting angle α of α=0° (FIG. 13), and also at a tilting angle α of 0°<α<90°, in particular, as can be seen here, at a tilting angle 45°<α<90° (FIG. 14).
(28) The present invention provides both a mobile and a stationary device 1 for converting a bed 10, in particular a treatment bed, patient bed, hospital bed or intensive-care bed, from a horizontal position into a tilted, preferably verticalized, position in relation to its longitudinal side 12. During this, it advantageously uncouples the verticalization process from the bed 10 concerned in each case and in this way allows great flexibility for the care staff in their daily treatment routine in a care home and/or hospital, particularly due to its multi-functionality, and therefore safe and comfortable treatment for a bedridden patient 90.
(29) The device 1 according to the invention is suitable both for new installation and also for retrofitting to the hardware in hospitals and/or care homes and advantageously saves the investment otherwise necessary in beds with their own verticalization mechanism 70. In particular, due to the flexibility of the invention, irrespective of whether it is designed as a mobile or as a stationary device 1, a smaller number of devices 1 according to the invention is required compared with the number of beds 10 with their own verticalization mechanism 70 which would otherwise have to be purchased, which results in additional cost savings.
LIST OF REFERENCE NUMBERS
(30) 1 Device 2 Receiving device 201 Fixing block 202 Support for weight-bearing means 203 Interface 3 Stand device 301 Load rollers 302 Casters 303 Support element 304 Fastening means 4 Transport means (in particular a trolley) 401 Running rollers 402 Vertical rail 5 Control device 10 Bed, in particular: treatment bed, patient bed, hospital bed or intensive-care bed 11 Bed frame 12 Longitudinal side 13 Transverse side 14 Longitudinal side limit 15 Transverse side limit 16 Casters 20 Mattress 30 Rehabilitation mechanism 32 Carrier plate for rehabilitation mechanism 30 that can be fixed to the bed 11 40 Foot module 44 Weight sensor 45 Horizontal rail 46 Motor 50 Knee module 70 Adjustment mechanism 71 Sensor for detecting the tilting angle α 72 Drive 80 Stabilization mechanism 81 Weight-relieving means 82 Holding strip 90 Patient 94 Foot 95 Sole α Tilting angle
