RU228185U1 - External support structure for flexible gas analyzer sampling tube - Google Patents

Abstract

The utility model relates to accessories of a gas sampling probe of a gas analyzer and a method of its operation. An external supporting structure for a flexible sampling tube of a gas analyzer is made with the possibility of placing a sampling tube inside it and attaching it to the gas sampling probe. The utility model of an external supporting structure for a flexible sampling tube of a gas analyzer can be used when measuring the content of pollutants in the exhaust gases of motor vehicles during full-scale tests in motion. The technical solution of the external supporting structure for a flexible sampling tube of a gas analyzer proposes the use of design solutions aimed at preventing kinks, twists and kinks of the sampling tube, as well as ensuring the fixation of the utility model itself on the sampling tube and the gas sampling probe. This technical solution will allow a continuous flow of exhaust gas samples into the gas analyzer without the risk of blocking the cross-section of the sampling tube during measurements.

Description

The field of technology to which the utility model relates

The utility model relates to accessories of a gas sampling probe of a gas analyzer and a method of its operation. An external supporting structure for a flexible sampling tube of a gas analyzer is made with the possibility of placing a sampling tube inside it and attaching it to the gas sampling probe. The utility model of an external supporting structure for a flexible sampling tube of a gas analyzer can be used when measuring the content of pollutants in the exhaust gases of motor vehicles during full-scale tests in motion.

Often, when placing a gas sampling probe in the exhaust pipe of a vehicle during full-scale tests in motion, a bend, twist or kinking of the sampling tube is observed at the point where it is connected to the gas sampling probe, which, on the one hand, can prevent a representative sample of exhaust gases from entering the gas analyzer and distort the measurement results, and on the other hand, lead to more rapid wear or failure of the sampling tube.

State of the art

The closest to the claimed utility model are inventions that allow supporting and fixing the flexible contour of various pipes, energy-conducting circuits, etc.

This technical solution is reflected in the patent for the invention of a guide channel for energy-conducting chains (patent RU 97117942 A, application 97117942/28 dated 03.11.1997, published 20.08.1999, Günter Blase); in the patent for the invention of a system for fixing a flexible pipe, in particular a corrugated pipe, on an object (patent RU 2016143097 A, application 2016143097 dated 02.11.2016, published 07.05.2018, bulletin No. 13, Wolfgang Grübl), containing in their design versions a stable profile necessary for placing flexible pipelines and electrical products in them. The said inventions are not used as accessories for a gas sampling probe under conditions of measuring the content of pollutants in the exhaust gases of motor vehicles during full-scale tests in motion.

Similar or related inventions and utility models were not found in the information retrieval system of patent documents of the Russian Federation of the Federal Institute of Industrial Property of the Federal Service for Intellectual Property.

The technical task is to develop a utility model of an external supporting structure that does not allow a flexible sampling tube to bend, twist or break, and also ensures the fixation of the utility model itself on the sampling tube and gas sampling probe.

Description of the utility model

The proposed utility model of an external supporting structure for a flexible sampling tube of a gas analyzer is intended to prevent bending, twisting or kinking of the sampling tube when it is connected to a gas sampling probe located in the exhaust pipe of a motor vehicle.

The technical result of the utility model is to prevent bending, twisting or kinking of the sampling tube, which can lead to distortion of the results of measuring the content of pollutants in the exhaust gases of motor vehicles during full-scale tests in motion, and to ensure a longer service life of the sampling tube of the gas analyzer.

The technical result is achieved due to the contour of the utility model, allowing to fix the flexible sampling tube of the gas analyzer inside, eliminating its bending, twisting and kinking. In this case, the material of the proposed utility model can be steel or polytetrafluoroethylene, which are weakly susceptible to corrosion, high-temperature effects of vehicle exhaust gases and have sufficient strength, durability and are minimally deformed over time. Additionally, the housing of the utility model reduces the temperature effect of vehicle exhaust gases on that part of the sampling tube, which is near the exhaust pipe.

In order to prevent bending, twisting and kinking of the sampling tube, the external supporting structure for the flexible sampling tube of the gas analyzer must be made in the form of a U-shaped tube, at one end of which there is a fixing unit that allows the utility model to be fixed on the sampling tube at the point where it is connected to the outlet fitting of the gas sampling probe.

The outer supporting structure for the flexible sampling tube of the gas analyzer consists of the following units and parts: 1 - U-shaped tube; 2 - fixing unit; 3 - through hole with threaded connection; 4 - screw with knurled head; 5 - fixing round plate; 6 - square groove; 7 - screw with cylindrical head; 8 - blind hole with threaded connection. The U-shaped tube (1) and the fixing unit (2) represent a single structure made of steel or polytetrafluoroethylene. The unity of the design of the utility model can be achieved by using stamping.

The U-tube (1) has a circular cross-section, is hollow with an internal diameter of approximately 20 mm, and contains a flexible sampling tube. The U-tube (1) must be sized to eliminate the risk of its lower part coming into contact with the road surface during measurements.

The fixing unit (2), which has a cylindrical shape, adjoins the U-shaped tube (1), wherein the outer diameter of the fixing unit (2) is somewhat larger in size compared to the outer diameter of the U-shaped tube (1). The inner diameter of the U-shaped tube (1) and the fixing unit (2) are equal in size. The thickness of the side wall of the fixing unit (2) must allow two through holes with threaded connections (3) to be placed in it and with screws with knurled heads (4) and fixing round plates (5) located in them. The through holes with threaded connections (3) are located on two opposite sides of the fixing unit (2).

By means of knurled screws (4) and fixing round plates (5), the utility model is fixed to the surface of the sampling tube and the outlet nozzle of the gas sampling probe connected to it. The shape of the fixing round plates (5) allows minimizing the risk of damage to the sampling tube due to the effect of pressure on its surface at the moment of tightening the knurled screw (4). This type of fastening of the fixing unit (2) to the sampling tube and the outlet nozzle of the gas sampling probe additionally reduces the risk of disconnection of the sampling tube during measurements.

In each of the two locking round plates (5) there is a square groove (6) with a through hole with a threaded connection (3) located in it, into which a screw with a cylindrical head (7) is screwed. Then the screw with a cylindrical head (7) is screwed into a blind hole with a threaded connection (8) in the pressure end of the screw with a knurled head (4). In this way, a connection is achieved between the screw with a knurled head (4) and the locking round plate (5). A part of the locking round plate (5) must have a flat surface where it adjoins the pressure end of the screw with a knurled head (4). The dimensions of the square groove (6) must allow the screw with a cylindrical head (7) to be placed in it, and its depth must correspond to the height of the head of this screw.

Brief description of the drawing

Figure 1 (side view) and Figure 2 (top view) show the general diagram of the proposed external supporting structure for the flexible sampling tube of the gas analyzer, and Figure 3 shows a view of the fixing round plate. The numbers indicate: 1 - U-shaped tube; 2 - fixing unit; 3 - through hole with threaded connection; 4 - screw with knurled head; 5 - fixing round plate; 6 - square groove; 7 - screw with cylindrical head; 8 - blind hole with threaded connection.

Claims (1)

An external supporting structure for a flexible sampling tube of a gas analyzer, consisting of a U-shaped tube, which is designed with the possibility of placing a sampling tube inside it, and a cylindrical fixing unit, wherein on the side surface of the fixing unit on two opposite sides there are two holes with threaded connections and with screws located in them with knurled heads and fixing round plates, allowing the structure to be fixed on the surface of the flexible sampling tube and the outlet fitting of the gas sampling probe connected to it.

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