KR960006029Y1 - Water exclusion pot for use in a descharge gas analysis device - Google Patents

Abstract

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Description

Water removal port for exhaust gas analyzer

1 is a perspective view showing an analyzer equipped with the present invention

2 is a perspective view showing the overall configuration of the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

* Explanation of symbols for main parts of the drawings

30: discharge valve 40: port

50: exhaust gas guide

The present invention relates to a water removal port (PORT) for the exhaust gas analyzer. The exhaust gas analyzer checks the vehicle and engine condition by absorbing and analyzing the vehicle or engine exhaust gas. In particular, the exhaust gas analyzer performs a very important function for test analysis in manufacturing a vehicle and an engine.

Vehicle exhaust gas is now an important issue for environmental hygiene due to enormous air pollution, and its countermeasures are urgently needed. More specifically, the exhaust gas refers to a gas that is burned in a cylinder and then discharged to the outside through an exhaust pipe. The components of the exhaust gas are mostly harmless water vapor (H ₂ O, nitrogen (N ₂ ), carbon dioxide gas ( CO ₂ ) and other harmful substances include carbon dioxide (CO), hydrocarbons (HC), nitrogen oxides (NOx), and some lead oxides and carbon particles. Is CO, MC and NOx.

Unlike exhaust gas, there is a blow-by gas, which is a gas that passes through the gap between the piston and the cylinder and into the crankcase. When this gas stays in the crankcase alone, the internal parts of the engine are corroded and the engine oil deteriorates locally. In addition, there is a fuel evaporation gas that is evaporated in a fuel tank or a vaporizer.

Therefore, it is very important that the analyzer for checking the harmful substances in the human body or checking the air pollutants in advance by prior to the above-described emission gas inspection.

The configuration of the analyzer is that the exhaust gas is absorbed by the sample pump inside the analyzer, the exhaust gas flowing along the sample line can be measured through the internal filter of the analyzer can be calculated.

However, when looking at the conventional exhaust gas inlet line, since the exhaust gas is high in temperature and the temperature difference between the air in the atmosphere is high, moisture is generated and air bubbles and moisture are introduced into the analyzer without damaging the internal circuits or filters. And a significant analysis rate resulted in the decrease.

Therefore, the object of the present invention is to improve the function of the analyzer by removing the moisture to enable accurate calculation of pure exhaust gas.

Means for achieving the above invention is provided as follows.

Install a port on one side of the sample line of the exhaust gas, but install a bezel valve on the bottom of the port that can be opened and closed by rubber packing, and a guide tube for another exhaust gas on one side of the upper side to generate various discharges The gas is absorbed into the analyzer by the sample pump. At this time, the water generated by the difference between the atmospheric temperature is gradually accumulated on the inside of the port, and the exhaust gas rises and is located on the top of the port. Moisture, etc., which is introduced into the process according to the process and measured as measured, can be removed by appropriately adjusting the discharge valve. Hereinafter, the most preferred date and time of the present invention based on the accompanying drawings will be described.

In the sample line 20 of the analyzer 10 for exhaust gas analysis, a port 40 having a discharge valve 30 is installed at one side of the sample line 20, but an analyzer is disposed on one side of the upper end of the port 40. It is fixed to the exhaust gas guide pipe (50) connected by (10).

The port 40 is preferably formed of a transparent body so as to know the degree of pooling of water from the outside, and the discharge valve 30 is mainly required to form a rubber packing in order to maintain a long density.

Figure 2 is a perspective view showing the overall configuration of the subject innovation,

Figure 3 is a cross-sectional state of the present invention, as shown in the various gases discharged by driving the exhaust gas pipe of the vehicle and the engine is connected to the analyzer 10 for analyzing and measuring the exhaust gas of the vehicle or engine The inside of the analyzer 10 is introduced by the absorbing power of the sample pump and the introduced gas is introduced into the upper portion along the sample line 20 and analyzed. The generated water and bubbles gradually accumulate to the bottom of the pot 40 by its own load. The exhaust gas, which is the highest gas, is separated from the water and is capable of being introduced into the analyzer 10 by riding the exhaust gas guide pipe 50 on the other side.

The amount of water accumulated in the port 40 can be removed by removing the outside by the opening of the discharge valve 30 in the bottom portion and can be closed to be sucked again.

Therefore, as it is conventionally introduced into the port 40 while being included in the discharge gas to remove the water accumulated in the bottom of the port 40, which is the fixed cause of the analyzer 10 to the discharge valve 30 to always remove the precise analysis value There is a characteristic of making it possible.

Claims (1)

In the sample line 20 of the analyzer (10) for exhaust gas analysis, Port 40 is installed on one side of the sample line 20, the discharge valve 30 is installed. The upper surface of the port 40, the water removal port for the exhaust gas analyzer, characterized in that fixed to the exhaust gas guide pipe 50 connected to the analyzer (10).