DE4333803C2 - Device for preventing the penetration of liquid into the measuring cell of a gas analyzer - Google Patents

Description

The invention relates to a device for preventing Penetration of liquid in the measuring cell of a gas analyzer tors according to the preamble of claim 1.

Gas analyzers are often supplied with gases that are moist included. This is e.g. B. the case with car exhaust, whose humidity compared to the combustion low temperature in the extraction system of a Auto exhaust gas meter condensed. To penetrate the To prevent moisture in the gas analyzer, it is out known from DE 91 01 410 U1, the moisture in a ge cooled liquid separator and by means of pump continuously from a pump. But if a lot There is condensate or a lot of liquid with the analysis gas is sucked into the liquid separator this fails and condensate with the sample gas can enter the Enter the analysis chamber and damage the measuring system there.

A Verhin device known from DE 93 02 840 U1 the penetration of liquid into the measuring cell Gas analyzer has a liquid separator in which a lower room with a gas inlet and an upper room with a gas outlet through a gas permeable but liquid restrained filter membrane are separated from each other.

The invention is based on this prior art based on the task of sucking liquid into the To prevent the measuring cell of an analyzer without the measuring gas current during the measurement process by a flow resistance stood to hinder, as it has a filter membrane.  

According to the invention, this object is achieved with those in claim 1 specified measures solved.

The invention is therefore based on the idea of measuring gas line to insert a valve that when liquid is promoted, the sample gas line closes, at through flow of liquid-free gas is open.

Based on the drawing, in which an embodiment of the Invention is illustrated, the following are the Invention as well as further developments and additions described and explained.

A liquid separator FS has a gas inlet GE on, through the moist from a tapping point or with Liquid contaminated gas, drawn in by pumps P1, P2, flows in. The liquid separator FS is in one lower room UR and an upper room OR through a valve divided. In the lower room UR, which can be cooled collect those transported by the inflowing gas Liquid and the liquid condensing from the gas as condensate. Pump P1 continuously pumps the condensate nuously through a liquid outlet FA from the lower room UR. To a gas outlet GA of the top Room OR is connected to a gas pipe through which the pump P2 the measuring gas to the measuring cell of an analyzer A pumps. In this line are also a solenoid valve MV and a flow meter SM switched.

The valve contained in the FS liquid separator is there from a lower and an upper perforated disc LS1, LS2. There is a seal between these disks disc DS that can move freely. It becomes sideways guided by FR guide ribs. In normal operation, if  the pump P2 sucks in liquid-free gas, it rises Sealing washer DS slightly, the gas flows through the holes the disk LS1 around the sealing disk DS and then through the holes in the disc LS2. If too much liquid the lower room UR with liquid filled, this passes through the disc LS1 in the Space between the valve and lifts the sealing washer DS, until it closes the holes in the disk LS2, so that any further flow of the sample gas is prevented. The pump P2 continues to generate a negative pressure in the upper room OR, which connects the sealing washer DS to the upper one perforated disc LS2 sucks. Meanwhile, the pump P1 Pump off the excess liquid in the lower room UR.

The flow meter SM shuts off the sample gas current through the sealing washer DS and enters Signal for actuating the solenoid valve MV, such that the sample gas line z. B. is ventilated with outside air. Pump P2 can be switched off at the same time. Since the Pump P1 continues to work, arises in the lower room UR slight negative pressure compared to pressure in the upper room OR, so that the sealing washer DS is pulled down and does not stick to the upper perforated disc LS2, too because adhesive forces prevent them from being caused solely by the Gravity falls behind.

Claims (3)

1. Device for preventing the penetration of liquid into the measuring cell (A) of a gas analyzer with a liquid keitsabscheider (FS) in a lower room (UR) a gas inlet, in an upper room (OR) a gas outlet (GA) and one has the upper and lower space separating device which prevents the penetration of liquid into the upper space, characterized in that the lower and upper space separating device is a valve which consists of two horizontal, provided with holes, one above the other in There are spaced disks (LS1, LS2), between which there is a loose sealing disk (DS), which rests on the lower perforated disk (LS1) when there is no gas flow, and between the two perforated disks (LS1, LS2) when the gas flow is liquid. is kept in suspense and, in the event of a liquid-laden gas flow, attaches itself to the underside of the upper perforated disc (LS2) and closes its holes. 2. Device according to claim 1, characterized ge indicates that the sealing washer (DS) made of rubber or viton. 3. Device according to one of claims 1 and 2, there characterized in that in the from the gas outlet (GA) to the measuring cell (A) leading line a flow meter (SM) and a valve (MV) attached  are and that when the flow meter (SM) a Strö interruption, the line on the Valve (MV) is vented.