RU183094U1 - Gas analyzer sensor nozzle - Google Patents

Abstract

The utility model relates to the field of protection of technological control and measuring and other equipment from environmental influences, namely, devices for protecting measuring devices such as sensors of gas analyzers from precipitation. The nozzle of the gas analyzer sensor consists of a housing with holes and an installation part provided with an internal thread, through which an insert with holes is installed, forming indirect air channels between the holes in the housing and the installation part, made in the form of a rod on which plates with holes are mounted. The technical result is to provide reliable protection against precipitation and flooding of the sensor of the gas analyzer. 2 ill.

Description

The utility model relates to the field of protection of technological control and measuring and other equipment from environmental influences, namely, devices for protecting measuring devices such as sensors of gas analyzers from precipitation.

Known cover for the tubular casing of the channel sensor (according to patent RU2630604, selected as a prototype), containing a channel in which a board is installed, isolated from moisture and / or fluid. The cover comprises an outer envelope surface surrounding the cover along the perimeter, at least one channel with walls and side walls, containing a guide support, the cover contains an opening in the front surface, and the opening provides an entrance for the circuit board to at least one channel. Its disadvantage is insufficient protection against precipitation.

The technical task of the utility model is to create a nozzle that provides reliable protection against precipitation and flooding of the gas analyzer sensor.

The technical result is achieved in the nozzle of the sensor of the gas analyzer having a housing with holes and with a mounting part, in which an insert with holes is placed, forming indirect air channels between the holes in the housing and the mounting part. The installation part is provided with an internal thread, the insert is installed by means of an internal thread. The insert is made in the form of a rod on which plates with holes are installed, and is equipped with a threaded element. The insert with openings forms labyrinth air channels.

The utility model is illustrated by the drawings:

FIG. 1 - nozzle of the sensor of the gas analyzer in the context;

FIG. 2 is a diagram of a nozzle installation on a sensor.

The nozzle of the gas analyzer sensor (hereinafter referred to as the nozzle) is made of polymer material and has a housing 1 with holes 2 on the lateral cylindrical surface 4 and at the end 3. The housing 1 is made with a mounting part 5 provided with an internal thread 14.

An insert 6 with holes 7 is placed in the housing 1, which forms indirect air channels (there are no direct passage channels or holes) between the holes 2 in the housing 1 and the mounting part 5.

The insert 6 is equipped with a threaded element 10, with which it is installed, by means of an internal thread 14, in the mounting part 5. The insert 6 can be made in the form of a rod 8 with ledges 15, on which plates 9 with holes 7 are mounted, the threaded element 10 is connected to the plate 9.

The insert 6 with openings 7 forms labyrinth air channels, that is, channels in which the air flow, when passing to the sensor located on the installation side, moves with two or more changes in the direction of movement.

The body 1 of the nozzle is installed using a thread on the holder 13 of the sensor. A sintered metal filter 12 is placed between the sensor 11 and the nozzle 12. The indirect air channels formed provide the flow of the analyzed gas to the sensor 11 and prevent precipitation from entering the sensor 11.

When the sensor holder 13 is installed vertically down, when the nozzle body 1 is installed from below, the sensor 11 is protected from flooding: when the water level rises, the volume of air contained in the upper part of the nozzle protects the sensor 11 from contact with the liquid. With high humidity, water vapor condenses on the annular plates 9 and spontaneously leaves the nozzle body under the action of gravity. Since the sensors in the gas analyzer can be designed to measure, including acid-forming gases, minimizing condensed moisture on the surface of the sensor reduces the effect of acids on the sensor housing, which extends its service life compared to the service life of the sensor operated without a nozzle.

Claims (2)

1. The nozzle of the gas analyzer sensor having a housing with holes and with a mounting part provided with an internal thread, by means of which an insert with holes is installed, forming indirect air channels between the holes in the housing and the mounting part, made in the form of a rod on which plates with holes are mounted. 2. The nozzle of the gas analyzer sensor according to claim 1, characterized in that the insert with holes forms labyrinth air channels.

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