SU1724236A1 - Aerotherapy appliance - Google Patents

Abstract

The invention relates to medical technology. The purpose of the invention is to increase the effectiveness of treatment by providing optimal pressure of the microspheres on the patient's body. The installation consists of a bath 1 filled with microspheres 4 and a filtering sheet 5 closed on top. In the bath 1 there is a porous diffuse 6, a cylinder 7 with a transparent insert 8, a source 9 of light and a sensitive element 10 of illumination. Compressed air is supplied to the bath by means of a compressor 12, from which through pipe 14 through the flow controller 15 and pipe 16 enters the bath 1 into the cavity under the diffuser 6. The valve 17 of the regulator 15 is mechanically connected to a servo actuator 18, electrically connected to the sensitive element 10 light. 1 il.

Description

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Ј Изобретение Изобретение The invention relates to medical technology, namely, beds for the treatment of fetal patients, in particular burns, and the like.

The purpose of the invention is to increase the effectiveness of treatment by ensuring optimal pressure of the microspheres on the patient's body.

The drawing shows the proposed installation.

The aero-therapeutic installation consists of a bath 1 installed on the floor with the help of racks 2 on rollers 3. Bath 1 is filled with microspheres 4 and closed on top of the filter sheet 5. The bath contains a porous diffuser 6, a cylinder 7 with a transparent insert 8, a light source 9 and a sensing element 10 illumination. The cylinder 7 is fixed on the bath wall with the bracket 1 1. The cylinder 7 with the transparent insert 8, the source 9 and the sensitive element 10 form the density sensor of the fluidized state of the microspheres (fluid medium). Compressed air is supplied to the bath by means of a compressor 12 driven by rotation of the electric motor 13. From compressor 12 through pipe 14 through the flow controller 15 and pipe 16, air enters the bath 1 into the cavity under the diffuser 6. The valve 17 of the regulator 15 is mechanically connected to a servo-drive 18 electrically connected with the sensitive element 10. The servo-drive 18 has a handle 19 for manually adjusting the flow and is equipped with a limb 20 — an indicator of the position of the flap 17 of the adjuster 15.

Aerotherapeutic installation works as follows.

The electric motor 13 is turned on, the compressor 12 supplies air to the bath 1, and the knob 19 sets the unit to the fluidization mode. The patient is laid down. Manual adjustment of the servo determines the optimum mode of operation - fluidization, corresponding to the patient's anthropometric data, his position, comfort, and self-sufficiency. In the future, the mode of operation is maintained automatically due to the presence of a density sensor fluidizing medium.

The density sensor works as follows.

The density, and hence the transparency of the fluid medium, depends on the flow rate (flow rate) of the air flowing out of the porous diffuser 6 and

fluidizing sand.

The transparency of the fluidizing medium in the transparent insert 8 of the cylinder 7 depends on the illumination of the element 10 and the electrical signal coming

to a servomotor 18 associated with the damper 17 of the air flow regulator 15. When changing the position of the patient, there is a change in the free area of the filter sheet 5 and, accordingly, the area of output and its consumption. This changes the mode of fluidization, the density of the medium and its transparency, which is detected by the sensor. In the future, the installation works automatically according to the described principle.

Thus, the presence of a flow regulator and a fluidizing medium density sensor associated with it makes it possible to establish and automatically maintain the optimum operating mode of the plant depending on the patient's anthropometric data, its position and condition.

Claims (1)

1. An aero-therapeutic device containing a microsphere bath, a porous diffuser, a filter sheet, a power unit with a compressor, air ducts and control systems, in order to increase the effectiveness of treatment by ensuring optimal pressure of the microspheres on the patient's body, it is equipped with density stabilization microspheres in the form of a sensor density and servo with air flow regulator, and the sensor is electrically connected to the servo, and the flow regulator - with the output of the compressor. 2, Installation under item 1, from l and so that the density sensor is made in the form of a cylinder with a transparent insert, a light source and a sensitive element of illumination, the sensor is installed in the bath, and the transparent insert of the cylinder is located between the light source and the element of illumination .