This application claims the benefit of priority under 35 U.S.C. § 119 of German Patent Application DE 10 2007 043 232.3 filed Sep. 13, 2007, the entire contents of which are incorporated herein by reference.
The present invention pertains to a medical workstation for patients with a bed for positioning the patient in the lying position; with a plurality of mobile work units connected to the bed; with a control unit, which is arranged at the bed and which can be connected via a first supply cable to a stationary media port for gas and/or energy and/or data, on the one hand, and, on the other hand, via a second supply cable to a corresponding mobile media port for supplying a work unit designed, e.g., as a ventilation unit (also known as a respiration unit).
A medical workstation for patients, in which a plurality of mobile work units permanently connected to a patient bed are arranged at a patient bed, is known from US 2006/0107463 A1. The mobile work units are designed, for example, as an operating/display unit or as a ventilation unit. To reduce the necessary amount of work in connection with the preparation and transportation of the patient bed with a patient in it, a control unit is arranged at the bed, and the control unit can be connected via a first supply cable to a stationary media port, on the one hand, and, on the other hand, via a second supply cable to a mobile media port, so that supply for the mobile work unit is always guaranteed.
The object of the present invention is to perfect a medical workstation for patients such that the amount of work needed for transporting a bed with a patient in it is further reduced.
According to the invention, a medical workstation for patients is provided with a bed for positioning the patient in the lying position, with a plurality of mobile work units connected to the bed and with a control unit, which is arranged at the bed and which can be connected via a first supply cable to a stationary media port, on the one hand, and via a second supply cable to a mobile media port for supplying a work unit, on the other hand. The control unit is designed as a distribution unit, to which a plurality of the mobile work units are connected via connection cables.
The special advantage of the present invention is that by providing a distribution unit, a plurality of mobile work units can remain in the operating state during transportation. The mobile work units may be positioned directly at the bed or at a mobile cart. Only a system cable of a stationary operating unit must be disconnected from the distribution unit for transportation. Due to the fact that the necessary mobile work units are already in the operating state, due to coupling to the distribution unit for transporting the bed, the times needed for preparation for transportation can be reduced. Interruption-free therapy is achieved during the entire transportation time and the set-up times are minimized.
According to a preferred embodiment of the present invention, the mobile work units are each connected to the distribution unit via a system cable by a plug-type connection. The system cable contains an energy supply line, on the one hand, and a data line for bidirectional data exchange, on the other hand. Operation of the mobile work units can be advantageously guaranteed hereby in a site-independent manner. On the other hand, data exchange with corresponding stationary work units is guaranteed at the beginning or at the end of the transportation time.
According to a variant of the present invention, the distribution unit has an interface, so that another distribution unit can be coupled. Additional mobile work units can be advantageously connected as a result.
According to a variant of the present invention, a central operating/display unit is provided as the only stationary work unit. Only the system cable leading from the central operating/display unit to the distribution unit needs to be disconnected for transporting the bed. The preparations for transport can be further minimized as a result.
An exemplary embodiment of the present invention will be explained in more detail below on the basis of the drawings. The various features of novelty which characterize the invention are pointed out with particularity in the claims annexed to and forming a part of this disclosure. For a better understanding of the invention, its operating advantages and specific objects attained by its uses, reference is made to the accompanying drawings and descriptive matter in which preferred embodiments of the invention are illustrated.
In the drawings:
The only drawing is a schematic block diagram of a medical workstation for patients according to the invention.
Referring to the drawings in particular, a medical workstation 1 for patients comprises essentially a bed 2 for positioning a patient 3 in the lying position, a plurality of mobile work units 4, 4′ connected to the bed 2, and at least one stationary work unit 5 connected to the bed 2.
The mobile work units 4′ may be designed, for example, as a ventilation unit 6 and as a supply unit 7, which are arranged on a common cart 8. An additional distribution unit 10 and a monitor 11 may be arranged on a separate additional cart 9, the supply unit 10 being used to supply the ventilation unit 6 with gas and electricity during transportation. Other mobile work units 4, for example, relatively small portable monitors 12, a patient monitoring unit 13 and a ventilation unit 14, may be fastened immediately and directly to the bed 2.
The above-mentioned mobile work units 4, 4′ are thus located in an area close to the patient. The bed 2 of patient 3 may be designed, for example, as a patient bed or as a thermotherapy bed or as an operating table or other patient conveying devices.
A distribution unit 19, which preferably forms a common assembly unit with a carrier means for the monitor 12 directly assigned to the bed 2, is provided for operating the mobile work units 4, 4′ as well as at least the stationary work unit 5, which may be designed as a central operating/display unit 16 and/or as a ventilation unit 17 and/or as a gravitational infusion unit 18.
The mobile work units 4, 4′ directly assigned to the bed 2 are connected to the distribution unit 19 via a connection cable 20 each. The connection cable 20 may be designed as a system cable, which contains the energy supply line, on the one hand, and a data line for bidirectional data exchange, on the other hand. The distribution unit 19 is coupled with the stationary work units 5 via a system cable 21, so that data exchange is guaranteed between the mobile work units 4, 4′, on the one hand, and the stationary work unit 5, on the other hand.
In order to also enable the mobile work units 4′, which are not coupled directly with the bed 2 and are arranged on the carts 8, 9, to exchange data, cart 8 has a distributor 22, via which the monitor 11 is coupled with the distribution unit 19.
The distribution unit 19 has a modular design, and another distribution unit 24 can be coupled via an interface 23. Additional mobile work units can be connected in this manner.
The central operating/display unit 16 is preferably connected to a data network 15. An exchange of patient data can thus take place independently from the location of the patient bed 2.
The distribution unit 19 has a plurality of slots, so that plugs of the mobile work units 4, 4′ can be connected in a confusion-proof manner. The mobile work units 4, 4′ are operated via the supply unit 10 during transportation of the bed 2. After disconnecting the system cable 21, the supply of the mobile work units 4, 4′ is changed automatically over to the supply unit 10. Recharging of batteries of the supply unit 10 does not take place during transportation.
While specific embodiments of the invention have been shown and described in detail to illustrate the application of the principles of the invention, it will be understood that the invention may be embodied otherwise without departing from such principles.
Number | Date | Country | Kind |
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10 2007 043 232.3 | Sep 2007 | DE | national |