SU57558A1 - Device for exploring and training the obon - Google Patents

Description

This device belongs to the field of physiology and physical technology and its task is to create the most favorable conditions for the study of a very important sensory organ, namely the sense of smell, in people who need special development of IT.

The instruments known in this field so far have been either very primitive (dipping the filter papers into the solutions of the substances under study) or have been complicated. The most frequently used Zwedemaker device was adapted only to recognize the strength of one odor, but it was unsuitable for exact work. In order to make it possible to quickly and accurately study the sensitivity to several smells at the same time, moreover under the conditions of large groups, in this device, a mercury channel with an adjustable channel through the micrometer screw was used to measure the amount of odorous substances mixed into the air.

The drawing shows a general scheme of the device.

The proposed device for research and training of the olfactory consists of the usual standard blower 1 (used, for example, in testing gas masks), which delivers a continuous stream of clean air through a rubber tube 5, ending with a porcelain tip / 5 with two openings, just against the patient's nostrils . The latter is placed at a considerable distance from the device in chamber 8 (possible in another room). The amount of air blown is measured using an ordinary gas clock. On one board with a blower / mounted electric motor 14 with a capacity of approximately 0.5 liters. the cord from which plugs into a three-phase current outlet 2.

In a known place, the supplied 3 ° tee tube 3 branches out: a three-way valve 4 is connected to one branch, the other goes, as already said, freely into the test subject's chamber 8. From a three-way valve 4, a single tube leads to a Wulfow can with odorous substance 5, another to the same canister with odorous substance 6. The second ends of the tubes from the Wulf cans are returned, feeding the mixture of air with odorous substances through tees 5, 3 to the total air flow, going to the subject.

The following device is intended for the dosage of odor substances allowed into the air stream.

During tube 4 after the three way valve, there are two glass hollow plugs inside (up to 1 cm in diameter). A suspension tube (not shown in the drawing) is attached to a rubber tube filled with mercury in the form of communicating vessels. The other end of the tube is hermetically sealed, and during this tube a micrometer screw 11, 12 is mounted (on each plug), mounted on a stand like a table for a microscope. Rotating the top head of the micrometer screw, you can press with a greater or lesser force on the rubber sleeve filled with mercury and at the same time squeeze a part of the mercury into the cavity of the fork. The meniscus of mercury, rising, forms a slit of various diameters through which the air jet rushes. According to the control experiments of the authors, the amount of the odorous substance passing through the plug under these conditions corresponds exactly to the diameter of the free openings of the tube.

Operation with this device for testing obons is not performed as follows. The subject, the subtlety of which it is desirable to test or develop by systematic training, sits in the chamber and has a tip in the shape of the nostrils. Blower 1 drives a continuous stream of air through the system. The other electric motor, using exhaust device 7, ventilates the room in order to avoid stagnation of odor traces.

At a certain moment, the experimenter, simply turning the three-way crane, switches part of the jet into the “fork – micrometer – Wulfow bank” system and thus captures a certain amount of odorous substance from there, which reaches

no obon of the test subject. The latter, if it smells the smell, reacts to it by changing its breathing (automatically registered by means of respiratory sa 10 on the kymograph tape / 5) and pressing the key 9, thus letting the experimenter know that they have heard the smell.

Rotating the micrometer head, the experimenter can determine the height of the olfactory threshold of humans and animals with an accuracy of 0.01 mm of the linear scale of the micrometer to one or another substance. Having determined the threshold of sensitivity to one substance, he can also determine the threshold to another substance, only giving the crane a different position. It may also experience sensitivity in relation to mixtures of two odorous substances, sending two jets of a turn to the same system of moving air.

The number of particles passing through a micrometer per unit of time is determined by the inclusion of gas clocks, the readings of which serve as the denominator of a fraction. Its numerator is the weight difference of the test substance before and after blowing.

The remaining designations relating to the obtained physiological values, characterizing the accuracy of odor stimulation, namely: reaction rate -7, nature of breathing — 2, time in seconds — 3 and the mark of the beginning and end of odor stimulation — are reproduced on a kymograph tape 13.

The device is intended for research in the perfumery, confectionery, wine industries, security personnel in factories, where there are evaporating gases that are dangerous to health and, finally, to detect the presence of traces of toxic substances in the air, etc.

The subject matter of the invention.

An apparatus for exploring and training the olfactory, consisting of blowing air with impurities

odorous materials and gas watches for recording the amount of injected air, characterized in that for dosage

quantities of odorous substances admixed to air; a mercury valve with adjustable micrometer screw channel is brimed.