 Indicating device |
| OF PREFERRED EMBODIMENTS The inhalation device shown in FIGS. 1 and 2 comprises a tubular housing 1... |
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| Intelligent inhaler providing feedback to both patient and medical professional |
| The overall process of the present intelligent inhaler system is shown in FIG. 6A which provides ... |
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| System for remote data collecting, method implemented in this system and data collector device |
| The aim of the invention is to overcome these drawbacks by proposing a system for remote data ... |
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| Lockout device for controlled release of drug from patient-activateddispenser |
| The present invention relates to a package containing medicine, the package being constructed so ... |
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| Compact blood culture apparatus |
| The present invention comprises a compact blood culture apparatus for detecting biologically active ... |
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| Automatic identification system for objects or persons by remote interrogation |
| The object of the invention is to make it possible to detect and recognize in a quasi-simultaneous ... |
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| Equipment and process for supplying doses of at least one gas to the respiratory tracts of a user |
| We claim: 1. A system for supplying to a respiratory tract of a user a plurality of discrete puffs ... |
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| Device for associating test tube samples with electronic labels for storage of identifying data |
| FIG. 1 shows an exemplary embodiment of a test tube 1 having a cap 2 of that kind used for blood ... |
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| Method and apparatus using a device description for a conventional device |
| This invention provides a method of accounting for and incorporating data pertaining to ... |
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| Electronic medication chronolog device |
| An object of the present invention is an improved accessory chronolog which will mount "piggyback" ... |
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Mounting device for hospital equipment, medical support service unit therefor and service mobile
| Details |
Inventors: Nilsson, Agne;
Assignee: Johnson Medical Development PTE Ltd. (SI)
Primary Examiner: Ramirez; Ramon O.
Assistant Examiner: Le; Tan
Attorney, Agent or Firm: Ladas & Parry
Supportive structure to be attached to a ceiling of a hospital room for supporting hospital equipment. The supporting structure comprises beams attached to the ceiling and forming a rectangular space. Inside the space, there are non-interchangeable gas connectors attached to a gas supply of the hospital and a gas-tight electric box comprising terminals connected to the electric supply of the hospital. The equipment is mounted on support plates, which in turn are supported by support profiles attached to beams. The equipment is connected to the non-interchangeable gas connectors inside the space. Gas-tight hoses are provided between the electric box and the equipment for enclosing the electric wires between the terminals of the electric box and the equipment. In this way separate gas-tight passages are provided for the electric wires, avoiding hazard risks. The support plates support medical support service units for intensive care rooms forming a support structure for equipment necessary close to the bed in an intensive care room, such as a monitor (90), suction units (97), blood pressure monitors. The service unit is a rectangular frame (85, 86, 87, 88) supported by a pivotable arm (82, 83, 80) and a bearing (84), in order to extend essentially vertically from the arm and downwards to adjacent the floor. The rectangular space is sufficiently open for allowing sight through the frame for supervision of the patient. The space outside the vertical beams is free for service staff to work. The service unit can also be supported by a stand including wheels. |
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DETAILED DESCRIPTION OF THE INVENTION FIG.
1 is a perspective view of the supportive structure comprising steel girders making up the installation.
The supportive structure comprises a rectangular framework of rigid square steel girders.
In the drawings there are shown two longitudinal girders 1, 2, each for example 3600 mm long, interconnected by two transversal girders 3, 4 each for example 600 mm long.
Several vertical L-beams 5-12 are welded to the square girders at suitable locations as shown on the drawings.
Further horizontal L-beams 13-17 interconnect the vertical L-beams to form a supportive structure as shown on the drawing.
Each vertical L-beam is intended to be connected to mounting members 18, one of which is shown on the drawing above L-beam 6.
It is to be understood that such mounting members are positioned above each of the vertical L-beams.
The mounting member comprises a vertical, hollow, square beam 19 attached to a support plate 20.
The support plate 20 is attached to the ceiling of the operating room by several screws 21, schematically shown on the drawing.
The square beem 19 of the mounting member 18 has an inner dimension suitable for entering the vertical L-beam inside it.
As an example, the square beem can have an external size of 50.
times.
50 mm, and a wall thickness of about 2 mm, and thus the inside dimension is about 46.
times.
46 mm.
The L-beam can have a corresponding dimension so that it fits inside the square beam, such as a width of 45 mm.
When mounting the supporting structure in an operating room, the mounting members are attached to the ceiling in appropriate locations.
The vertical L-beams 5-12 are introduced into the square beams until the supportive structure is horizontal, and then the L-beams 5-12 are welded to the square beams.
In this way it is possible to obtain a horizontal supportive structure also when the ceiling is not completely horizontal or is uneven.
As mentioned above, the supportive structure comprises four girders, such as square girders of steel and having a dimension of 50
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Communications 
