RU2286123C2 - Halo-camera - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: halo-camera can be used for prophylactics, treatment and rehabilitation of non-specific diseases of lungs and upper respiratory tract. Halo-camera has medicinal department with salt units placed onto walls of department, exhaust fan. Air cleaning filter is provided with unit for forming aerosol composed of crunched salt rock. Unit is placed onto external side of wall being opposite to exhaust fan. The wall is made with opening disposed at top part of camera. Opening is connected by means of goffered branch with unit for forming aerosol, which unit is provided with control board.

EFFECT: optimal combination of medicinal factors; improved efficiency.

2 cl, 3 dwg

Description

The invention relates to medicine and can be used for the prevention, treatment and rehabilitation of non-specific diseases of the lungs and upper respiratory tract.

Known halochamber [by a.s. USSR No. 1225569, class A 61 G 10/02, 1984], containing the outer walls, the inner of the columns, the intermediate and internal chambers, air conditioning and connecting piping. It is equipped with labyrinth partitions in the intermediate chamber, and the intermediate chamber is directly connected to the air conditioner and the inner chamber. Disadvantages - cumbersome design, inactive saturation of the treatment volume with negative air ions.

Known halochamber, adopted as a prototype [RF patent No. 2058768, class. A 61 G 10/02, 1996], comprising a treatment room with external and internal walls and a filter saturator communicated with a blower fan, a diffuser and an exhaust fan located on the opposite wall, while the filter saturator and salt blocks of the walls are made in the form rotary drums with holes in the end walls and filled with crushed salt. The disadvantage is the inoperability of the control and the necessary adjustment of the aerosol parameters in the chamber.

The technical result of the invention is to improve the operational management of the optimally programmed therapeutic constant composition of salt aerosol in time in the chamber volume.

A halochamber containing a treatment room with salt blocks placed on its walls, an exhaust fan, an air purification filter, according to the invention is equipped with a device for generating aerosol from crushed salt rock, placed on the outside of the wall opposite to the exhaust fan, which is made with an opening located in the upper parts of the chamber connected by a corrugated pipe to an aerosol formation device, which is equipped with a control panel.

Figure 1 shows a halochamber in plan; figure 2 is a sectional view along the cross-section 1-1 in figure 1; figure 3 is a view along arrow a in figure 1.

Walls 1 galokamera can be made on the basis of a wooden frame structure. Salt blocks 2 made of natural sylvinite rocks or artificial elements with crystals of potassium salts with a particle size of up to 20 mm are placed in the cells of the frame. An exhaust fan 3 with an adjustable air flow rate is fixed on the front wall. On the wall opposite to the fan 3 there is a bacterial-mechanical cleaning filter 4. On the outside of the same wall there is a shelf 5 (with bracket, for example), on which a device 6 is installed for the formation of aerosol from crushed salt rock. To modify the camera for personal use on the back wall there is one inlet 8 for supplying a therapeutic aerosol into it in the installation and treatment modes with a correspondingly shortened shelf length 5. The device 6 can be installed for the period of the operating mode for group modification coaxially with the inlet openings 7, 8, 9, made in the rear wall of the halochamber above the shelf 5 with the control panel 10, and is connected to the indicated holes by a corrugated pipe, for example, pipe 11. Inoperative (outside feed Aerosol) inlets shutters overlap.

Halocamera works as follows. The exhaust fan 3 is turned on, creating a vacuum in it and, accordingly, providing suction of external air into the chamber through the filter 4. The primary air exchange in the chamber can be carried out with increased air mobility. The fan 3 in the chamber then sets the speed mode ~ 0.01 m / s; the device 6 through the pipe 11 in the chamber is fed with a therapeutic salt aerosol with parameters controlled by the control panel 10; for the individual treatment module, the feed is carried out through the pipe 11 through the inlets 8; for the group treatment module in the installation mode according to the scheme: through the inlet 7, then 9, then 8; for a specific module that is ventilated in the treatment regimen, the settings for the operation parameters of the device 6 are calibrated on the control panel 10, which ensures that the optimal therapeutic content of negative air ions and respirable salt aerosol particles is automatically fed into the halochamber. For both modules, the working supply of the salt aerosol is through the inlet 8. When equipping the halochamber, for example, with three holes located at some distance from the chamber ceiling (for example, h / 6), the supply of salt aerosol to the group module of the halochamber is carried out through the inlet in the installation mode openings in a checkerboard pattern, starting from any nearest wall, then symmetrically to it from the opposite side and ending with the central inlet; the feed time to each hole is set during calibration of the device for the formation of aerosol from crushed salt rock; the aerosol is supplied in the operating (medical) mode through the inlet 8.

After reaching the treatment regime for the corresponding halochamber module due to the operation of the fan 3 and the device 10, the patient (patients) enters the treatment room and treatment is carried out according to the specified technique.

The halochamber is implemented as a modular design intended for individual or group (usually for five patients) treatment (prophylaxis, rehabilitation) of non-specific diseases of the lungs and upper respiratory tract. In both of these cases, the volume of the treatment room is provided for one patient ~ 10 m ³ with the ratio of the geometric parameters of the chamber: l> b at h≈b (where l is the length of the chamber, b is the width, h is the height), for example, l≈1.75 · B (h≈2 m = const), which ensures - for any modification of the chamber - rational aerodynamic conditions for saturating the space with a healing salt aerosol at a standard air mobility (speed) of ~ 0.01 m / s (of the order of ~ 0.1 m / s during the installation of the operating mode in the camera).

The proposed design of the halochamber provides an optimal combination of therapeutic factors throughout its cross section, and not only mainly in the near-wall zones of speleoclimatic chambers. With this saturation of the halochamber with a medical aerosol, periodic replacement of significant volumes of crushed salt rock, in particular filter saturators, which is typical for speleoclimatic chambers and significantly reduces the treatment cycle time and makes the cameras more expensive, is excluded. The number of ventilation equipment is also reduced by using only an exhaust fan. It must be emphasized that the control (verification) of compliance with the actual parameters of the treatment room environment is carried out constantly due to the device for the formation of salt aerosol automatically controlled by the aerosol supply control panel, and not only before starting the halochamber, either after changing its operation mode or after repairing the ventilation equipment.

Claims (2)

1. A halochamber containing a treatment room with salt blocks placed on its walls, an exhaust fan, an air purification filter, a device for generating aerosol from crushed salt rock, placed on the outside of the wall opposite the exhaust fan, and having at least one inlet, characterized in that the specified inlet is connected by a corrugated pipe to the specified device for the formation of aerosol, equipped with a control panel, and is located in the upper part of the treatment room at a distance from the ceiling equal to h / 6, while the geometric parameters of the treatment room are selected from the condition l> b at h≈b, where l is the length, b is the width, h is the height of the treatment room. 2. The halochamber according to claim 1, characterized in that for group treatment it contains several inlets on the above wall, connected by corrugated pipes to the specified device for the formation of aerosol.

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