RU81887U1 - HUMAN EXHAUST DEVICE - Google Patents

Abstract

1. A device for sampling air exhaled by a person, containing a container of elastic inert material for collecting exhaled air, a connecting pipe connecting the person’s mouth to a container of elastic inert material, a vapor absorber installed in the connecting pipe, a pipe for removing air from the container in the gas analyzer, in which the shut-off element is installed, and a check valve installed at the entrance to the tank, characterized in that the tank of elastic inert material is equipped with a second pat ubkom to bleed air from the container to the analyzer, wherein an additional locking element, the ends of the pipes are connected for output of air from the inlet and the outlet of the gas analyzer through the flow stimulus. ! 2. The device according to claim 1, characterized in that the moisture vapor absorber is made in the form of a glass tube. ! 3. The device according to claim 2, characterized in that the glass tube has a spiral shape.

Description

The utility model relates to devices for taking air exhaled by a person for the purpose of subsequent analysis using a suitable gas analyzer. It can be used, in particular, to detect Helicobacter pylor infection in the patient’s stomach using an ammonia gas analyzer.

A device is known for sampling air exhaled by a person, comprising a container of elastic inert material, a connecting pipe connecting the human mouth to a container of elastic inert material, a vapor absorber installed in the connecting pipe, a pipe for outputting from the container to the gas analyzer in which it is installed controlled shut-off valve (see Japanese patent JP732034, C12M 1/34, A61B 5/08, 1995) A disadvantage of the known device is the design complexity due to the large number of controlled Porn elements and, as a consequence, the high cost of the device.

The closest set of essential features to the proposed device is a device for sampling air exhaled by a person, containing a container of elastic inert material for collecting exhaled air, a connecting tube connecting the patient's mouth with a container of elastic inert material, a vapor absorber installed in the connecting the tube, a pipe for air outlet from the tank to the gas analyzer, in which the shut-off element is installed, and a check valve installed at the inlet e bone (see. US Patent US 4,947,861, A61V 5/097, G01N 33/00, 1990).

The disadvantage of this device, adopted as a prototype, is also the complexity of the design, due to the presence of additional capacity from elastic

inert material, serving as a damper, as well as the fact that sampling from the tank for transferring it to the gas analyzer is carried out using a special design syringe. It also increases the cost of the device.

The objective of the utility model was to develop a device that was simple in design and inexpensive in cost for sampling air exhaled by a person.

This problem is solved by the fact that the proposed device for sampling air exhaled by a person, containing a container of elastic inert material for collecting exhaled air, a connecting pipe connecting the human mouth with a container of elastic inert material, an absorber of moisture vapor connected to the connecting pipe, a pipe for withdrawing air from the tank to the gas analyzer in which the shut-off element is installed, and a check valve installed at the inlet of the tank, in which, according to the utility model, The span of elastic inert material is equipped with a second nozzle for air outlet to the gas analyzer, in which an additional locking element is installed, the ends of the nozzles for air outlet being connected to the gas analyzer inlet through a flow inducer.

Another difference of the device is that the moisture vapor absorber is made in the form of a glass tube.

Another feature of the device is that the glass tube has a spiral shape.

thanks to the above-mentioned features of the device, the utility model ensures the achievement of a technical result, which consists in the fact that the device has a simple and inexpensive design and provides ease of use, as it is easily combined with any known gas analyzer equipped with a flow inducer.

The essence of the utility model is illustrated by the drawing, which shows a schematic diagram of a device for sampling air exhaled by a person, as applied to the task of detecting Helicobacter pylori infection by the ammonia content in exhaled air. The device contains a container 1 of elastic inert material, for example, a fluoroplastic film (metallized polyethylene, etc.), which serves to collect air exhaled by a person. The tank 1 is equipped with a connecting tube 2, connecting its internal volume with the mouth of a person using a mouthpiece. A moisture absorber 4 is connected to the connecting tube 2, which is made in the form of a spiral-shaped glass tube. At the entrance to the tank 1, a check valve 5 is installed, which serves to prevent leakage of the gas sample during the analysis.

The tank 1 is equipped with two nozzles 6 and 7 for connecting it to the gas analyzer through the corresponding locking elements 8 and 9. The gas analyzer 10 is equipped with a flow inducer 11. The locking elements 8 and 9 can be made in the form of electromagnetic valves controlled from a microprocessor unit 12 or a personal computer or in the form of manual locking elements.

The device operates as follows.

At the initial moment of operation of the device, the valves 8 and 9 are closed. The patient using the mouthpiece 3 exhales air into the container 1 from an elastic inert material. Vapors of moisture contained in the exhaled air settle on the inner walls of the glass tube 4, and air containing ammonia or other controlled gas components fills the internal volume of the container 1 from an elastic inert material. At the end of the exhalation procedure, the check valve 5 closes the inner section of the tank 1. At the command of the microprocessor unit 12, valves 8 and 9 open

a flow inducer 11 is turned on, which starts pumping the air collected in the tank 1 through the gas analyzer 10. The signal of the gas analyzer 10 is proportional to the concentration of the gas component of the air being controlled, for example, ammonia enters the microprocessor unit 12 (or a personal computer) where it is processed and presented on the display. According to the testimony of the gas analyzer 10 they judge the presence of an appropriate infection.

Claims (3)

1. A device for sampling air exhaled by a person, containing a container of elastic inert material for collecting exhaled air, a connecting pipe connecting the person’s mouth to a container of elastic inert material, a vapor absorber installed in the connecting pipe, a pipe for removing air from the container in the gas analyzer, in which the shut-off element is installed, and a check valve installed at the entrance to the tank, characterized in that the tank of elastic inert material is equipped with a second pat ubkom to bleed air from the container to the analyzer, wherein an additional locking element, the ends of the pipes are connected for output of air from the inlet and the outlet of the gas analyzer through the flow stimulus. 2. The device according to claim 1, characterized in that the moisture vapor absorber is made in the form of a glass tube. 3. The device according to claim 2, characterized in that the glass tube has a spiral shape.