RU186691U1 - DEVICE FOR TESTING VIRTUAL VEST - Google Patents

Abstract

The utility model relates to metrology, in particular to devices for testing personal protective equipment against noise. The device for testing anti-noise vests is made in the form of a vest, consisting of separately processed parts of the front and back, connected to the shoulders and waist line by means of a fastener. The contact vibration sensor and the wireless interface transceiver are rigidly embedded in the transmission part, and the vibration-receiving contact pad of the contact vibration sensor is fixed to the wall of the transmission part closest to the human body. The technical result is the ability to assess the effectiveness of protecting the body from airborne acoustic vibration through the use of a special anti-noise vest.

Description

The utility model relates to the field of devices for testing personal protective equipment against noise, namely, testing of means for protecting the body from air vibration caused by high-intensity transport and industrial noise.

One of the potentially dangerous effects of intense broadband noise is airborne acoustic vibration. According to ISO 2041: 1990 “Vibration and shock. Terms and definitions ”,“ ... vibration transmitted through the ground, and re-emitted noise can cause discomfort in people. ” In some cases, special measures should be taken to reduce the excessively high level of acting vibration. Most often, insulators are used for this, installed between the equipment and the floor, as well as vibration isolation of the floor itself, as well as means of vibration protection of the human body, including hands. Anti-noise vests that provide protection against airborne acoustic vibration, including, must be used to ensure the acoustic safety of the aviation engineering personnel, especially for the technical and technical personnel of long-range aviation and the technical and technical personnel providing engine racing.

The prior art vibro-protective vest (patent RU No. 158727), consisting of separately machined parts of the front and back, connected to the shoulders and waistline by means of a fastener, consisting of belt tapes, characterized in that the belt tapes are interconnected by means of fastex , the front part consists of two parts: the upper and lower, between the parts of the front, an insert of 10.0 cm wide mesh is inserted, shifting these parts relative to each other, two reliefs are located on the back part: vertical, exit extending from the shoulder edge and ending with the bottom of the product, and the figured one coming out of the cut of the armhole and ending with the bottom of the product, and on the part of the upper part of the front there are two figured reliefs coming out of the section of the armhole and ending with the bottom of the upper part of the front, along the edge of the back and front parts are laid a single finishing line at a distance of 1.5 cm from the edge, the side sections of the front and the upper section of the lower part of the front are treated with 2.0 cm wide tapered braid. The disadvantage of this technical solution is the inability to evaluate the effects the effectiveness of protecting the body (with the use of a vest) from airborne acoustic vibration.

The technical task of the claimed utility model is to expand the arsenal of tools, methods and technologies for evaluating the effectiveness of protection against airborne acoustic vibration.

The solution to the technical problem is achieved by the fact that the device for testing the anti-noise vests is made in the form of a wire-connected contact sensor of vibrations and a transceiver device of a wireless interface, made with the possibility of hard integration into the front of the noise-proof vest so that the vibration-receiving contact pad of the contact vibration sensor is located on the front wall closest to the human body.

The technical result achieved by the claimed combination of features is to provide the possibility of taking and wirelessly transmitting vibration readings from an anti-noise vest.

The components of the claimed device are known at the filing date of the application and cannot be separately applied to achieve a technical result:

contact vibration sensor can be performed in the embodiment described in the patent for utility model RU No. 94724,

the transmitter and receiver of the wireless interface can be performed in the embodiment described in the patent for utility model RU No. 145416.

The application of the utility model is as follows.

In a vest designed to protect against air vibration caused by high-intensity transport and industrial noise, a wire-mounted contact vibration sensor and a wireless interface transceiver are embedded in such a way that the vibration-receiving contact pad of the contact vibration sensor is mounted on the wall of the transmission part closest to the human body. In this case, interference with the intended use of the vest should not be created.

Before starting the test, the subject is instructed by the specialist conducting the examination (testing), puts on a vest and performs the tasks of professional activity. In the process of fulfilling the tasks of professional activity, at a given frequency, readings are taken from the contact vibration sensor and transmitted to the workplace of the specialist conducting the tests via the transceiver wireless interface for further processing. The test process continues for a predetermined time.

Based on the results of processing the recorded values, a decision is made on the effectiveness of protection against airborne acoustic vibration through the use of test vests.

Thus, the purpose of the claimed utility model is achieved.

The described elements of the claimed device are functionally interconnected and are in constructive unity, and the combination of its essential features is unknown from the prior art. Therefore, the inventive device is a new technical solution.

Claims (1)

A device for testing anti-noise vests, made in the form of a wire-connected contact sensor of vibrations and a transceiver wireless interface, made with the possibility of rigid integration into the front of the noise-proof vest so that the vibration-receiving contact pad of the contact vibration sensor is located on the front wall closest to the human body.