SU342389A1 - Compression oxygen chamber - Google Patents

Description

(54) OXYGEN COMPRESSION CAMERA The invention relates to the field of medicine and relates to devices used for treatment with oxygen under pressure, for example, in cases of poisoning, general and tissue hypoxia, etc. Oxygen compression chambers containing the chamber itself with a cylindrical body are known. a system for supplying oxygen, injectors for generating gas circulation, a piping system with safety valves and test equipment and a device for administering liquid medical preparations without disrupting the tightness of the chamber. However, such devices do not provide the necessary amenities in the work. The purpose of the invention is to create an oxygen compression chamber that can be quickly brought into working and transport position and is easy to place the patient in it. This goal is achieved by the fact that the chamber itself is made in the form of head and foot rigid hemispheres, interconnected by removable stretchers with tubular bars and an elastic hermetic shell, one end of which is rigidly connected to the foot hemisphere, and the other - with a ring of a sealed connector, mounted on head hemisphere. In addition, in order to exclude additional ventilation lines and control the gas circulation, in the proposed oxygen compression chamber injectors can be installed in the foot section of hollow stretcher rods, in the head part of which ventilation holes are located, and the suction and discharge lines of one injector are connected by pipelines with working cavity of the flowmeter and membrane alarm device. On the foot hemisphere, it is advisable to mount the control panel, as well as an oxygen supply system with an oxygen cylinder, a reducer, a safety valve and a piping system with cranes, and on each hemisphere to arrange slots for fastening removable handles and legs with rollers. The drug container is recommended to be connected to the oxygen supply line through a pipeline with a retaining valve, and the vessel should be closed with a thick-walled rubber stopper that maintains tightness after an injection syringe is pierced with a needle.

view; in fig. 2 is a partial section A-A of FIG. one; in fig. 3 shows the node I in FIG. one; in fig. 4 is a schematic diagram of the control of the proposed camera.

The oxygen compression chamber contains the camera itself, made of two rigid hemispheres 1 and 2, respectively, a head and a foot, interconnected by a stretcher 3 and an elastic hermetic cover 4. A transparent porthole 5 is mounted in the hemisphere 1. A removable protective curtain is mounted on the window. 6. On both sides of the hemisphere 1 are symmetrically welded nozzles 7, which are sockets for mounting removable handles 8 and connecting fittings 9 of the stretcher 3 outside. In the lower part of this hemisphere there are sockets 10 for fixing atsii removable legs 11 with roller.mi. On the inner side of the hemisphere, a perforated pipe 12 is welded to the arcuate floor, the ends of which are inserted into the cavity of the socket of the pipe 7. A flange 13 is welded on the perimeter of the hemisphere (see Fig. 3), in the socket of which a rubber sealing ring 14 is located. channel 15. Adjacent to the flange is a rigid ring 16, on which there is an annular protrusion 17. In addition, the ring 16 has a cylindrical seat for hermetically affixing thereto a cylindrical elastic shell 4. Snar and this is the power jacket shell 18, provided with koltsevy.mi power elements 19 and silovy.mi longitudinal elements 20. On the inner side of the ring 16 (both sides symmetrically) are two guiding slotted sleeve 21 (see. FIG. 2). On the inner surface of each sleeve are placed balls 22, which are fixed in certain positions by separators 23 in the form of split sleeves of smaller size.

Pozna hemisphere 2 flanged

24 to which the ring is hermetically pressed

25. On the ring there is a cylindrical seat for tightly attaching a cylindrical elastic shell 4 thereto. On the hemisphere 2 there are two slots for fixing the legs 26 with rollers and knobs 27. There is an injector 29 on the inner side of each jack 28 a fitting 30 for connecting a lock joint 31 thereto. The hemisphere 2 is additionally connected to the hemisphere 1 with a nylon tape 32.

On the ring 16, folding threaded connections 33 are mounted. On the foot hemisphere 2, an oxygen control chamber of the oxygen compression chamber is mounted, as well as an oxygen supply system with an oxygen cylinder 34 (see Fig. 4). At the cylinder inlet there is a filling station 35 with a pressure gauge. Exiting the cylinder overlaps

valve 36, after which the gear 37 and the safety valve 38 are located. Next, the oxygen two-position valves 39, 40 and 41 are parallel.

The outlet from the valve 39 is connected to the emergency injector 42. The exit from the valve 40 through the calibrated orifice (nozzle) 43 is connected to the discharge line of the standard injector 29. The working nozzle of this injector is connected directly with the low pressure cavity of the pressure regulator 37. ) 44 is connected by pipeline with a check valve 45 having a calibrated orifice 46. A cylindrical glass bulb

5 47 is connected to valve 45. At the outlet of this flask, a retaining ball valve 48 is connected, connected by pipe to tee 49, in which the free fitting is plugged with a thick rubber gasket 50. The gasket can easily be pierced with the needle of the syringe 51, and (after repeated piercing) it is replaced. The exit from the tee 49 is connected by a thin pipe to the cannula 52, which is mixed inside the chamber. The discharge line of the injector 29 is connected by pipeline with a rotameter 53 low flow. A nozzle 54 is located at the entrance to the rotameter. In addition, the pressure line of the injector 29 is connected by pipeline to the working cavity of the membrane mechanism 55, on the membrane 56 of which there is a permanent magnet 57 interconnected through the wall of the housing with electro-cocking 58. 53 combined into one pipeline, the entrance w, i into the cavity of a c. In addition, there are taps on this pipeline connecting the cavity of the chamber with a pressure gauge 59 and a variometer 60. On the flexible sheath 4 there is a safety valve 61 and a speed regulator 62 of the pressure change in its own

the camera.

Claims (4)

1. Oxygen compression chamber containing the chamber itself with a cylindrical body, a system for supplying oxygen, injectors for creating gas circulation, a piping system with safety valves and test equipment and a device for administering liquid medical preparations to the patient without breaking the chamber tightness, characterized the fact that, in order to quickly bring it to the working and transport position and facilitate the placement of the patient in it, the chamber itself is designed as a head and rigid hemispheres, connected between themselves with removable stretchers with tubular rods and elastic hermetic sheath, one end of which is rigidly connected to the foot hemisphere and the other to the ring of the hermetic connector fixed on the head hemisphere. 2. The camera according to claim 1, characterized in that, in order to exclude additional ventilation lines and control the circulation of gas, the injectors are installed in the foot part of the hollow rods of the stretcher, in the head part of which there are ventilation openings, the lines of one injector are connected by pipelines with the working cavities of the rotameter and the membrane signaling device. 3. The camera according to claim 1, characterized in that, in order to facilitate transportation together with the patient inside it, a control panel 96 is mounted on the foot hemisphere, as well as an oxygen supply system-C oxygen cylinder, gearbox, safety valve and a piping system with cranes, and on each hemisphere there are slots for fastening removable handles and legs with rollers. 4. The chamber according to claim 1, characterized in that, in order to facilitate the introduction of drugs to the patient inside the chamber, the drug container is connected to the oxygen supply line through a pipeline with a retaining valve, and the vessel valve is closed with a thick-walled rubber stopper preserving hermeticity after puncture with a needle of an injection syringe. SO p. I /. 51 Wrigle