RU2214207C1 - Medical hypobaric vacuum environmental test chamber - Google Patents

Abstract

FIELD: medical equipment, applicable for treatment of patients by the method of hypobaric hypoxia. SUBSTANCE: the chamber body is made of a metal framework and two transparent shells of a hemispheric shape, installed on its end faces. The metal framework represents a welded structure made of ring frames and two horizontal-upper and lower panels. Rectangular-shaped openings are formed on the lateral sides of the body. Two openings adjoining the hemispheres from the opposite lateral sides are sealed by transparent covers. The covers can move along the side surface of the body and be positioned in the openings at sealing loss of sealing. EFFECT: enhanced compactness, reliability, convenience in servicing and operation. 4 dwg

Description

 The invention relates to the field of medical equipment, and in particular to devices providing the treatment of certain allergic diseases (bronchial asthma, polynosis, etc.) using the method of hypobaric hyposia.

 Various types of hypobarocameras are known [1, 2], in which during a treatment session the air pressure is reduced to 450-500 mm RT. Art. Patients are kept in the medical salon at this pressure for the necessary time, then the pressure rises to atmospheric level, the patients leave the salon. Structurally, these pressure chambers are made in the form of cylindrical sealed containers made of metal shells with portholes and hermetically sealed lids for patient inlet and outlet.

 The closest analogue to the claimed design of the pressure chamber is the pressure chamber according to the patent of the Russian Federation 2032394, A 61 G 10/02, BIPM 10, 1995

 The well-known hypobaric chamber includes a horizontal cylindrical body, devices for protecting patients from unacceptable pressure drops, means for regulating environmental parameters, a system for diagnosing and monitoring the condition of patients, and a vacuum pump. The change in pressure in the treatment compartment is achieved by adjusting the performance of the pumping action of the pump with a constant flow of ventilation air. To provide visual communication between the operator and medical personnel with patients, cool-looking portholes with flat glass are used, and end caps with chairs fixed to them are used to accommodate patients; covers on wheeled trolleys are moved away from the cylindrical body mounted on the base frame.

The disadvantages of this design include:
- a pressure chamber with open or retracted covers requires a significant area for placement;
- the possibilities of visual contact between patients and staff are limited, which makes it difficult to monitor their condition, and also reduces claustrophobia syndrome to a small extent;
- necessarily interior lighting;
- the flat shape of the viewing windows of the windows excludes the possibility of a significant increase in their size - with large sizes of the viewing opening, an unconstructively large thickness of the transparent element is required;
- moving covers with patients on the chairs fixed in them requires considerable efforts of the operator.

 The present invention solves the problem of creating a compact, easy to maintain and operate hypobarocamera, free of these disadvantages.

 To achieve the specified technical result in a pressure chamber of a medical hypobaric, including a sealed horizontal cylindrical body, protection devices against unacceptable pressure drops, means for regulating environmental parameters, a diagnostic and monitoring system for patients, a vacuum pump, the body is made of a metal frame and two transparent hemispheres mounted on its opposite ends, the metal frame consists of ring frames, the lower and upper longitudinal panels that form rectangular openings on the sides, and two openings adjacent to hemispheres from opposite side surfaces are sealed with convex transparent covers that can move along the side surface of the housing along the rails, as well as radial positioning during sealing - depressurization, the mechanism of lateral movement and positioning is carried out from the vacuum pump out through the rods of the power cylinders; the remaining openings are made in the form of stationary sealed convex portholes.

 Thanks to the implementation of the greater part of the chamber of the pressure chamber made of transparent material, a good spatial overview is provided, the conditions for the highest possible visual contact between patients and staff are created, and the effect of claustrophobia in patients is reduced.

 The proposed design of the hypobarocamera is as compact as possible, which allows it to be used in small rooms of medical and preventive institutions.

 In addition, the management of movement and positioning during sealing - depressurization of covers from the pneumatic vacuum system increases the safety and reliability of the installation, eliminates the need for significant physical effort of the operator when performing patient input-output operations.

 The invention is illustrated by drawings, in which Fig. 1 shows a general diagram of the pressure chamber housing, Figs. 2 and 3 show the positions of the main parts of the housing at successive stages of its operation, and Fig. 4 shows a diagram of the drive for lateral movement of covers from a vacuum pump.

 The pressure chamber housing consists of a metal frame 1 and two end shells 2 of a hemispherical shape. The shell 2 is made of a transparent material, such as organic glass, and hermetically mounted on opposite ends of the frame 1.

 The metal frame 1 represents a welded structure made of ring frames 3 and two longitudinal panels - upper 4 and lower 5. The panels are formed on a cylindrical surface.

 Stationary portholes 6, the transparent elements of which have a convex shape, are installed along the perimeter of the formed side openings of a rectangular shape. Around the perimeter of the two openings 7, which are located on opposite side surfaces of the housing and adjacent to the corresponding hemispherical shells 2, transparent convex covers are installed 8. The covers 8 are able to press against the sealing elements on the seating surfaces of the openings 7, ensuring the tightness of the joints, and can be mixed after pressing along the lateral surface of the camera housing along the guides 9 using the rods 10 of the power cylinders 11 mounted on the sides of the camera housing and involved from the vacuum pump 12 through the valve switch 13 and the vacuum valves 14 and 15. The positioning of the covers 8 on the seating surfaces of the openings 9 when sealing - depressurization can be carried out, for example, through a lever-articulated system, also used from the vacuum pump pump 11 through the additional power rods cylinders (not shown in the drawings) according to a diagram similar to that of the drive for lateral movement of covers 8. The camera body is fixedly mounted on the tubular base 16. It is mounted inside the body 17 seats for the patients.

 A treatment session using a pressure chamber is as follows. When the location of the rods 10 of the power cylinders 11 in the extreme right position, the treatment compartment is depressurized, the covers 8 are pushed back, freeing the entrance openings 7 and providing the possibility of free and convenient placement of patients in chairs 17 (Fig. 2). After placing the patients, the operator turns on the evacuation vacuum pump 12, and the valve switch 13 is activated, as a result, one of the cavities of the power cylinder 11 is evacuated, and the other communicates with the atmosphere, and under the influence of a differential pressure, the pistons with rods 10 of the power cylinders 11 move the covers 8 to position opposite to the input openings 7, then the covers 8 are positioned on the sealing elements of the seating surfaces of the openings 7, ensuring the tightness of the camera compartment (the drive circuit when positioning the covers 8 is similar a drive circuit of lateral movement). Next, the ventilation system of the medical salon (not shown) is turned on. The operator opens the pump evacuation valve on the remote control, and when the required degree of reduction of air pressure in the cabin is reached, a treatment session is started, during which a predetermined degree of depression and a constant flow of ventilation air are maintained (see camera position in Fig. 3). After the treatment session, the air pressure in the cabin rises to atmospheric. Using the vacuum pump 12, the rods of the power cylinders are activated, which activate the system for moving the covers 8 (from the sealing elements (not shown) and along the side surface of the pressure chamber), the doorways 7 are released, the patients leave the seats 17 and leave the treatment room.

Sources of information
1. "The method of adaptation to periodic hypobaric hypoxia in therapy and prevention." Methodical recommendations of the Ministry of Health of the RSFSR. M., 1989

 2. "Treatment of patients with bronchial asthma in a pressure chamber of low pressure (hypobarotherapy)." Methodical recommendations of the Ministry of Health of the USSR. M., 1989

 3. RF patent 2032394, A 61 G 10/02, BI 10, 1995.1

Claims (1)

 Medical hypobaric pressure chamber, including a horizontal cylindrical body, devices for protecting patients from unacceptable pressure drops, means for regulating environmental parameters, a diagnostic and monitoring system for patients, a vacuum pump, characterized in that its body is made in the form of a metal frame and two transparent hemispheres, mounted on its opposite ends, the metal frame consists of ring frames, lower and upper longitudinal panels forming laterally the openings are rectangular in shape, and two openings adjacent to the hemispheres from opposite side surfaces of the housing are sealed with convex transparent covers that can move along the side surface of the housing along the guides, as well as radial positioning during sealing - depressurization, and the lateral movement and positioning mechanism covers is used from a vacuum pump through the rods of the power cylinders, the remaining openings are made in the form of stationary sealants bathrooms convex windows.

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