RU48473U1 - DEVICE FOR CRYOTHERAPY - Google Patents

Abstract

A cryotherapy device comprising a cabin for accommodating a patient with a thermally insulated body and a heat exchanger with a channel for supplying refrigerant in the form of liquid nitrogen, characterized in that the channel is located in the upper part of the cabin, the heat exchanger is installed inside the cabin body and is located at its entire height, the walls of the heat exchanger are painted black, and to protect the person from contact with the walls of the heat exchanger are provided with panels with openings

Description

The utility model relates to medical equipment and can be used for wellness and preventive physiotherapy.

Cryotherapy is a method of treating biological tissues with non-damaging doses of extreme cold and is used to treat and prevent a number of rheumatic diseases, complications of the musculoskeletal system, post-surgical and post-traumatic contractures, as well as in cosmetology.

The action of the method is based on the effect on the thermoregulation system, which causes the intensification of peripheral blood flow and is accompanied by analgesic and anti-inflammatory effects.

A device for local cryotherapy containing a nozzle, a heat exchange unit, a piping system and a control system is known.

See patent RU 2251988 C1, 05.20.2005

The disadvantage of this device is that cryotherapy is carried out on a small area of human tissue. When conducting local cryotherapy, it is not possible to carry out wellness and preventive physiotherapy.

A device for cryotherapy is known, comprising a cabin for accommodating a patient, a heat exchanger, channels for supplying and discharging refrigerant in the form of liquid nitrogen, a fan for creating a gas stream. In the device, heat transfer from a person is carried out by forced convection and heat transfer.

See patent for utility model RU 38591 U1, 07/10/2004

The disadvantage of this device is that the cooling medium in the cabin is air containing a non-breathing concentration of vaporous nitrogen, as well as a high temperature gradient along the height of the cabin due to forced convection, which violates the uniformity of heat transfer from the person and contributes to the violation of the comfort of physiotherapy.

The objective of the proposed utility model is to improve heat transfer processes during the cryotherapy procedure, reduce the temperature gradient along the cabin height, use air suitable for human breathing as a gas medium, and increase the safety of physiotherapy.

The problem is solved due to the fact that in the device for cryotherapy, which includes a cabin for accommodating a patient with a thermally insulated body and a heat exchanger with a channel for supplying refrigerant in the form of liquid nitrogen, the channel is made in the upper part of the cabin, the heat exchanger is installed inside the cabin body and

located along its entire height, while the walls of the heat exchanger are painted black, and to protect the person from contact with the walls of the heat exchanger are equipped with panels with holes.

In figures 1 and 2 schematically shows a device for cryotherapy. The device comprises a cabin for accommodating a patient with a heat-insulating casing 1, a heat exchanger 2 with black walls, located inside the casing along its entire height, plastic panels 3 mounted on the walls of the heat exchanger, to protect a person from contact with his cold walls. The refrigerant in the form of liquid nitrogen enters the heat exchanger through channel 10. After the heat exchanger, the refrigerant is sent to channel 4 of the heat-insulated casing 1. Channel 5 is designed to supply warm air for drying the cabin. Channel 6 is provided for drainage of condensate during drying. The panels 3 have openings 7 for heat exchange between a person and a heat exchanger. The cabin is equipped with a door 8, in which there is a window 9 for observing a person during the procedure.

The operation of the device is as follows:

The person is placed in the cabin of the insulated building 1, the door is closed 8. The heat exchanger is filled with liquid nitrogen through the channel 10, made in the upper part of the cabin to reduce the temperature gradient along the height of the cabin. In the process of moving the refrigerant down, it evaporates, cools the walls of the heat exchanger 2, which cool the air

in the cabin of the heat-insulated body 1. Heat exchange occurs between a person, cold air and the walls of the heat exchanger 2. Due to the coloring of the walls of the heat exchanger 2 in black, there is a more intense absorption of heat by the walls of the heat exchanger 2 due to the radiation of heat from the person through the holes 7 in the panels 3. Thus Thus, in the device, heat exchange is carried out due to natural convection during the movement of cold air inside the cabin, due to heat transfer and due to the radiation of heat by a person and its absorption by black walls eploobmennika 2. During refrigerant procedure moves down within the heat exchanger 2, and then sent to the channel 4 of a thermally insulated housing 1 to reduce the heat leakage into the cabin from the environment and further in the ventilation. In the cabin, a person is exposed to air cooled to a temperature of 120 ° -150 ° C for 2-3 minutes. Natural convection contributes to the uniformity of heat transfer from a person, which creates comfortable conditions for physiotherapy, so a person can transfer the procedure of exposure to cold for a given time. A person evaluates the effects of temperature conditions using skin cold receptors.

The device allows for hardening, analgesic, anti-inflammatory, vasodilating effects and allows the procedure to be carried out without complications.

Claims (1)

A cryotherapy device comprising a cabin for accommodating a patient with a thermally insulated body and a heat exchanger with a channel for supplying refrigerant in the form of liquid nitrogen, characterized in that the channel is made in the upper part of the cabin, the heat exchanger is installed inside the cabin body and is located at its entire height, the walls of the heat exchanger are painted black, and to protect the person from contact with the walls of the heat exchanger are provided with panels with holes.