BG2450U1 - Cryogenic chamber - Google Patents

Abstract

The utility model consists of a pre-chamber (2), made up of walls (3 and 9), to which are mounted an entrance door (1) and a ceiling (9). On the opposite side of the entrance door (1) is attached a cryogenic compartment (6), which consists of a ceiling (27), a floor (26) and a back wall (23). On the side of the back wall (17) of the cryogenic compartment is mounted at least a single reservoir (18), in which a cooling agent (19) is placed. The reservoir (18) is connected to the cryogenic compartment (6) via an external pipeline (20) and an internal pipeline (11), between which are successively mounted valves (21 and 22). The valves are positioned between the back wall (17) of the chamber and the back wall (23) and the back wall of the cryogenic compartment (6). The internal pipeline (11) connects the valves (21 and 22), and the valve (22) with nozzles (14 and 24), which have been mounted in the cryogenic compartment (6). In the space between the back wall (17) of the chamber and the back wall (23) of the cryogenic compartment is mounted a system (16) for operation and control of the temperature and the concentration of oxygen in the compartment (6). The system (16) is connected to the valves (21 and 22) and with data reader (15), which is placed in the cryogenic compartment (6). The system (16) is connected to a sensor screen (13) for controlling the process in the compartment (6) and the patient’s condition.

Description

The utility model is in the field of medicine, rehabilitation devices and sports and rehabilitation activities and refers to a device for performing cryogenic therapy and in particular the whole body of one or more patients, where they are exposed to gases cooled to cryogenic temperature.

BACKGROUND OF THE INVENTION

A cryogenic therapy device [1] is known, comprising a therapeutic chamber and a device for producing cryogenic air, which is supplied to the medical cryogenic chamber. The device has an air compressor, a dryer to remove steam from the compressed air, a heat exchanger and a liquefied gas tank. The device is equipped with measuring elements, control elements and protective elements. The parts of the device that contain cryogenic agents are in a thermally insulated system.

This device has several disadvantages, including a long start-up time and an emergency system.

Technical essence of the utility model

The task of the utility model is to create a cryogenic chamber for performing therapeutic and / or sports-recovery procedures, by exposing the whole body of one or a group of persons to ultra-low temperatures in a controlled and safe environment.

The task is performed with the proposed utility model, in which the cryogenic chamber includes a device for receiving cryogenic air, which is delivered in a cryogenic cabin and a liquefied gas vessel, a pre-chamber formed by walls on which an entrance door and ceiling are mounted. On the opposite side of the front door is attached a cryogenic cabin, which consists of a ceiling, floor and rear wall. On the outside, on the side of the rear wall of the cryogenic chamber, at least one tank is mounted, in which a refrigerant is placed. The tank is connected to the cryogenic cabin via an external pipeline and an internal pipeline. Between the two pipelines are mounted in series two valves positioned between the rear wall of the chamber and the rear wall of the cryogenic cabin. The inner pipe connects the two valves in between

U1 them, and one of them with nozzles that are mounted in the cryogenic cabin. In the space between the rear wall of the chamber and the rear wall of the cryogenic cabin is installed a system for control and monitoring of the temperature and oxygen concentration in the cabin. The system for control and monitoring of the temperature and oxygen concentration in the cabin is connected to the valves and to a sensor, which is positioned in the cryogenic cabin. The system for control and monitoring of the temperature and oxygen concentration in the cabin is connected to a touch screen for control of the process in the cabin and the condition of the patients.

The ceiling of the antechamber can be movable and transparent.

The walls of the antechamber, ceiling, floor and rear wall of the cabin are primarily made of insulating materials.

A ventilation system is mounted on the ceiling of the cryogenic cabin.

Priority, the cryogenic cabin is equipped with an emergency door located parallel to one of the walls of the antechamber.

A baffle may be fitted next to the nozzles in the cryogenic cabin.

The advantages of the utility model are that it allows several people to use the facility at the same time, including those with physical disabilities, using wheelchairs or other mobile devices, exposing their whole body to the cold.

Explanation of the attached figures

Figure 1 shows a view of the utility model.

Figure 2 shows the cryogenic cabin.

Examples of implementation of the utility model

An exemplary embodiment of the utility model, without limiting it, is shown in the figures.

The utility model consists of a pre-chamber 2 formed by heat-insulating walls 3 and 8, on which an entrance door 1 and a movable transparent ceiling 9 are mounted. A cryogenic cabin 6 is attached to the opposite side of the entrance door 1.

The cryogenic cabin 6 consists of a ceiling 27, under 26 and a rear wall 23 made of insulation3

2450 UI materials.

Outside, on the side of the rear wall 17 of the cryogenic chamber is mounted (at least one) tank 18, which houses a refrigerant 19. The tank 18 is connected to the cryogenic cabin 6 through an external pipe 20 and an inner pipe 11. Between the pipelines 20 and 11 valves 21 and 22 are positioned in series, positioned between the rear wall 17 of the chamber and the rear wall 23 of the cryogenic cabin 6. The inner pipe 11 connects the valves 21 and 22. The inner pipe 11 connects the valve 22 with nozzles 14 and 24 mounted in the cryogenic cabin 6 .

In the space between the rear wall 17 of the chamber and the rear wall 23 of the cryogenic cabin 6 is mounted a system 16 for controlling and controlling the temperature and oxygen concentration in the cabin 6. The control and controlling system 16 is connected to the valves 21 and 22 and to a sensor 15, which is positioned in the cryogenic cabin 6. The control and monitoring system 16 is connected to a touch screen 13 for monitoring the process in the cabin 6 and the condition of the patients.

Adjacent to the nozzles 14 and 24 is a partition 25, which divides the cabin 6 into the space in which the patients are and the space in which the process of injection of liquefied gases takes place.

In another embodiment of the utility model, the cryogenic cabin 6 is provided with an emergency door 4 located parallel to the wall 3 of the pre-chamber 2, and a ventilation system 5 is mounted on the ceiling 27.

Using the utility model

The utility model is applied by introducing the patient inside the cabinet for treatment and exposing the body to cold air contained in the cabin space.

The patient is pre-transported to the low temperature space in the antechamber 2 and then introduced into the cryogenic therapy cabin 6, where the temperature is about -60 ° C to -160 ° C for a period of about 0.5 to 5 minutes. The time of exposure to the low temperature and the temperature itself depend on the doctor's recommendations and the therapeutic regimen performed. The patient then leaves the cryogenic cabin 6 and, after passing inside the space containing the deposited low-temperature refrigerant of the pre-chamber 2, is gradually brought to room temperature.

The system 16 ensures proper maintenance of the temperature and oxygen concentration in the cabin 6.

IQ The nozzles 14 and 24 allow the gas to evaporate by injection, which produces a more dynamic air environment in the cabin 6.

The pre-chamber 2 allows the patient to enter the space containing the deposited low-temperature refrigerant.

The emergency door 4 allows for the entry and exit of patients with disabilities using wheelchairs or other mobile devices.

The cooling agent 19 is a mixture of liquefied gases and has the same composition of nitrogen and oxygen as the composition of air, i. approximately 21% oxygen and 79% nitrogen. The concentration of acid25 is not lower than 19% and does not exceed 24%.

It is possible for the cabin 6 to be cooled in its entirety by injecting a refrigerant, preferably in the form of liquid carbon dioxide cooled to about -60 ° C or in the form of liquid nitrogen cooled to about -160 ° C.

It is also possible to place each component of the refrigerant in a separate tank. In this case, the components are mixed in the cabin itself 6.

Claims (6)

Claims A cryogenic chamber comprising a device for receiving cryogenic air, a heat exchanger and a liquefied gas vessel, characterized in that 40 of a pre-chamber (2) formed by walls (3 and 8) on which an entrance door is mounted (1). ) and a ceiling (9), on the opposite side of the entrance door (1) is attached a cryogenic cabin (6), which consists of a ceiling (27), a floor (26) and a rear wall (23); on the outside of the rear wall 45 (17) of the cryogenic chamber is mounted at least one tank (18), which houses a refrigerant (19), the tank (18) is connected to the cryogenic cabin (6) by an external pipeline (20). ) and an inner pipe (11), between which 5Q are mounted in series valves (21 and 22) positioned between the rear wall (17) of the ca4 2450 UI measure and the rear wall (23) of the cryogenic cabin (6), with the inner pipe (11) connecting the valves (21 and 22) and the valve (22) is connected to nozzles (14 and 24) mounted in the cryogenic cabin 6), between which a system (16) for controlling and controlling the temperature and oxygen concentration in the cabin (6), such as the system, is mounted between the rear wall (17) of the chamber and the rear wall (23) of the cryogenic cabin (6). 16) is connected to the valves (21 and 22) and to a sensor (15), which is in the cryogenic cabin (6), where the system (16) is also connected to a touch screen (13) for process control in the cabin (6). ). Cryogenic chamber according to Claim 1, characterized in that the ceiling (9) is movable and transparent. Cryogenic chamber according to Claim 1, characterized in that the walls (3 and 8), the ceiling (27), the floor (26) and the rear wall (23) are made of insulating materials. Cryogenic chamber according to claim 1, characterized in that a ventilation system (5) is mounted on the ceiling (27) of the cryogenic cabin (6). Cryogenic chamber according to claim 1, characterized in that the cryogenic cabin 10 of (6) is provided with an emergency door (4) located parallel to the wall (3) of the pre-chamber (2). Cryogenic chamber according to claim 1, characterized in that a barrier (25) is mounted next to the nozzles (14 and 24).