KR200226967Y1 - Exhaust gas water separator - Google Patents

Abstract

The present invention allows only dry gas to be sucked into the measuring device by using a specific gravity difference between moisture and gas from the measurement exhaust gas containing moisture, and continuously drains water separated from the exhaust gas, and inside the container. A water separator for preventing residual gas from occurring in a gas, comprising: a small diameter portion having a lower portion, an upper portion thereof being opened, and an inner circumference thereof having a predetermined diameter; and a large diameter portion extending from an upper portion of the small diameter portion. A container having an outer surface formed in a rectangular shape; A connecting member forcibly inserted into the large diameter part to be kept tight and having a gas inlet formed in a sidewall thereof; A cap coupled to an upper surface of the connector and having an outlet formed thereon; A flare nut for sealing the inside of the container by coupling the connecting body and the cap; A screw having a gas outlet hole penetrating the center axis and having a gas guide groove for guiding the gas introduced into the outer periphery thereof and closely inserted into the container; And cooling the gas introduced through the inlet through the gas guide groove of the screw while cooling the gas while flowing downward, thereby separating the water contained in the gas by its own weight and separating the gas from which the water is separated. To be discharged through the ball;

Description

Exhaust gas separator

The present invention relates to a water separator used in the exhaust gas meter, and more specifically, to separate the moisture from the gas collected in order to measure the composition and concentration of the exhaust gas and to allow only dry gas to be sucked into the meter. Relates to a separator.

Exhaust gases emitted into the atmosphere are various sources, for example, gases emitted by fuel combustion in vehicles, ships, and heavy equipment, and gases emitted from chemical plants and incinerators. These exhaust gases are a cause of polluting the atmosphere by the discharge of a mixture of harmful gas and harmless gas.

For example, automobile exhaust gas contains harmful gases such as carbon monoxide (CO), hydrocarbons (HC), nitrogen oxides (NOx), lead oxides, carbon particles, and harmless gases such as water vapor (H ₂ O) and carbon dioxide (CO ₂ ). It is mixed and discharged. Therefore, it is mandatory to purify and discharge gas harmful to human body by harmless gas or to discharge the concentration of harmless gas below environmental standard value.

Exhaust gas measuring devices are used to improve environmental pollution by measuring the concentration and concentration of harmful gases emitted into the atmosphere.

The measuring device is equipped with a filter for separating the water vapor contained in the exhaust gas, which filters the water vapor and fine dust contained in the exhaust gas and then allows only pure exhaust gas to be sucked into the measuring device. Accurate ingredients and concentrations are measured.

In the case where the exhaust gas to be measured is measured in a state in which water vapor is included, the component of the gas may be analyzed, but there is a problem in that the gas is diluted by water vapor and it is difficult to accurately measure the concentration.

Therefore, in the past, various filter devices have been developed and used to separate water vapor from exhaust gas. However, the conventional filter devices do not completely separate water vapor, and some of them are sucked into the measuring device to reduce the measuring force and to separate water vapor. There is a problem in that a water film is formed on the surface of the water vapor filter provided in the filter device to reduce the gas permeability. As a result, a measurement error occurs in measuring harmful gas inhaled by the meter.

It is an object of the present invention to provide an exhaust gas moisture separator which allows only dry gas to be sucked into the measuring device by separating moisture and gas from the moisture-containing exhaust gas by specific gravity difference.

Another object of the present invention is to provide an exhaust gas moisture separator which allows the measurement of the exhaust gas continuously by draining the water separated from the exhaust gas for the sample.

Still another object of the present invention is to provide an exhaust gas moisture separator, in which gas does not remain in the container in the process of separating the moisture contained in the exhaust gas.

Exhaust gas moisture separator of the present invention for achieving this purpose has a small diameter portion having a lower portion, an upper portion thereof and an inner circumference having a predetermined diameter, and a large diameter portion extending from an upper portion of the small diameter portion. A container having an outer surface formed in a rectangular shape; A connecting member forcibly inserted into the large diameter part to be kept tight and having a gas inlet formed in a sidewall thereof; A cap coupled to an upper surface of the connector and having an outlet formed thereon; A flare nut for sealing the inside of the container by coupling the connecting body and the cap; A screw having a gas outlet hole penetrating the center axis and having a gas guide groove for guiding the gas introduced into the outer periphery thereof and closely inserted into the container; And cooling the gas introduced through the inlet through the gas guide groove of the screw while cooling the gas while flowing downward, thereby separating the water contained in the gas by its own weight and separating the gas from which the water is separated. To be discharged through the ball;

In addition, a filter is installed between the container and the cap, and the filter is located between a pair of gaskets, and the gasket is interposed between the container and the cap to seal the container and at the same time separate moisture that cannot be separated from the gas. It is good to make it.

Furthermore, it is preferable to provide a separate cooling means on the side wall of the container, and to cool the gas flowing inside the container by the cooling means.

According to this configuration, the water separator is installed in a vertical state on the gas flow path between the probe and the exhaust gas meter, the water separator in the process of inhaling the exhaust gas to the meter by the suction force of the suction pump installed on the meter side It passes through to separate the moisture contained in the exhaust gas.

Exhaust gas drawn into the water separator consists of a mixed gas containing harmless gas including water vapor and harmful gases including carbon dioxide, and the mixed gas is guided by a gas guide groove formed in a screw inserted into the water separator. It is cooled as it flows downward while flowing between the inner circumference and the gas guide groove, and exhaust gas and water are separated by their own weight during this cooling process, and the separated gas passes through the gas outlet hole penetrating the center axis of the gas guide groove. After passing through the filter in the dry state through the outflow pipe is discharged to the gas measurement sensor, the water is dropped down by its own weight is collected in the bottom of the main body.

Moreover, the steam particles separated from the mixed gas are collected at the bottom of the vessel, and the collected water is drained through the drain hole, and can be used repeatedly when measuring different types of mixed gas.

Figure 1 is a longitudinal cross-sectional view showing a coupling structure of the water separator of the present invention,

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

3 is a view showing an installation example of the water separator of the present invention.

* Description of the symbols for the main parts of the drawings *

1; moisture separator 2; gas detector

3; probe 10; container

20 connector 25 filter

26; gasket 30; cap

40; flare nut 50; screw

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a perspective view showing a water separator according to an embodiment of the present invention, Figure 2 is a longitudinal sectional view showing the internal structure of the water separator of the present invention.

1 to 2, the water separator, which is denoted by reference numeral 1 in its entirety, has a container with an outer surface having a rectangular shape and an inner circumference having a constant diameter, and a connector 20 coupled to the container 10. ) And a cap 30 screwed to the upper portion of the connecting body 20.

The container 10 is a structure in which the upper part is opened and the lower part is closed, and has a small diameter part 11 having a predetermined depth at an inner circumference, and is enlarged while the stepped portion 11a is formed in the circumferential direction on the small diameter part. It has a neck 12. The large diameter portion 12 is coupled to the connecting body 20 by force insertion, the lower portion of the container 10 forms a drain port 13 to discharge the water separated from the exhaust gas. This drain port 13 is sealed by a removable plug 14, and as another example, a drain valve may be coupled to the drain port 13.

The connecting body 20 has a cylindrical shape, and is inserted into and coupled to the large diameter portion 12 of the container 10, and the annular grooves 21 are formed in the circumferential direction at the lower periphery thereof, respectively. By inserting the O-ring 22 into the annular groove 21, when the connecting body 20 is coupled to the large-diameter portion 12, the two members can be hermetically sealed.

In addition, the connection body 20 has an inlet 23 through which exhaust gas is introduced, and a seating groove 24 is formed in the circumferential direction on the flange upper surface. In the seating groove 24, an annular gasket 26 in which the filter 25 is confined is settled, and when the exhaust gas passes through, the filter 25 can filter steam or oil vapor which could not be separated. .

The filter 25 is a disk-shaped sheet material, in which fine pores of approximately 0.35-0.45 mu m are formed, which restricts aeration of water vapor particles and restricts only exhaust gas. In addition, the size and material of the sheet may vary depending on the emission source such as the gas discharged by the combustion of other fuels, the gas discharged from chemical plants, incinerators and the like.

When the gasket 26 is formed in a pair, the gasket 26 includes a first ring 26a having a stepped portion formed on a flange and a second ring 26b fitted to the first ring 26a. 25).

The cap 30 is to seal the upper portion of the connecting body 20 coupled to the container 10, and is connected through a tube 4 and a gas measurement sensor 6, not shown. The cap 30 has a structure that can prevent the remaining of the exhaust gas in a conical shape that narrows in diameter toward the upper portion and widens in the lower portion, and the outlet pipe 31 is integrally formed at the upper portion thereof. The tube 4 is coupled to the outflow pipe 31 so as to be connected to the gas measuring sensor 6 side provided in the gas measuring unit 2. In addition, a gripping groove 32 corresponding to the seating groove 24 is formed at the flange bottom surface of the cap 30 so as to narrow the gasket 26 at both sides.

Cap 30 having such a structure forms a closed space by narrowing the flange and the gasket 26 of the container 10, they are in the flare nut 40 for pressing the cap 30 to the container 10 side By airtight up and down.

The flare nut 40 has a U-shape in which a cap insertion hole 41 is formed on an upper surface thereof, and the flare nut 40 is inserted above the cap 30 while facing the cap 30 and the container 10. When screwed into the outer circumference of the connecting connector 20, the lower surface of the flange of the outer surface of the insertion hole 41 formed in the center of the flare nut 40 compresses the upper surface of the flange of the cap 30, and thus the cap 30 and As the gasket 31 interposed between the containers 10 may be in close contact with each other, the airtight inside the container 10 may be maintained.

Furthermore, the present invention includes a screw 50 installed to guide the flow of gas inside the vessel 10. The screw 50 has a helical gas guide groove 51 is formed in the outer periphery continuously, the gas outlet hole 52 penetrates up and down on the central axis, the outer periphery is in the container 10 Closely inserted into the lead.

The water separator 1 having such a structure inserts the lower portion into the container 10 while the upper portion of the screw 50 is inserted into the connecting body 20, and then connects the connecting body 20 to the container 10. Coupling to the neck (12). After coupling the gasket 26 having the filter 25 to the seating groove 24 formed in the flange of the connecting body 20, the upper surface is covered with the cap 30, and the flare nut 40 is connected to the connecting body 20. When screwed together, the inner space is completely sealed.

In this state, the probe 3 and the gas meter 2 for sampling the gas by coupling the tube 4 to the inlet 23 formed in the connector 20 and the outlet pipe 31 formed in the cap 30, respectively. The gas flow paths can be formed by connecting to the respective ones.

Furthermore, the steam particles separated from the mixed gas can be collected at the bottom of the container and the collected water can be drained through the drain hole, so that it can be used repeatedly when measuring different types of mixed gas without disassembling the water separator (1). Do.

The water separator according to the present invention having such a structure uses a suction pump built into the gas detector 2 in a state where the probe 3 is introduced into the final path exhausted from the internal combustion engine or the factory outlet branch outlet to the atmosphere as shown in FIG. 3. When driven, carbon monoxide (CO), hydrocarbons (HC), and nitrogen oxides (NOx) generated by incomplete combustion are sucked in a mixed gas state in which noxious gas is mixed with carbon dioxide and water vapor particles. 14) is introduced.

At this time, the exhaust gas discharged from the internal combustion engine is discharged in a high temperature state by the heat source generated during combustion. This exhaust gas is partially liquefied during the heat exchange action of water vapor particles contained in the exhaust gas by the temperature difference with the atmosphere while flowing to the water separator 1 through the probe 3, and the partially liquefied water vapor particles together with the gas It is introduced into the water separator 1 through the inlet 23 provided in the connecting body (20).

The exhaust gas introduced into the water separator 1 is moved to the lower portion of the vessel 10 by the gas guide groove 51 of the screw 50 which is closely inserted into the inner circumference of the vessel 10. Water not separated by the cooling device 5 provided on the outer side of the container 10 is separated from the exhaust gas, and the separated water falls to the bottom of the container 10, and the exhaust gas from which the water is separated is screwed ( 50) After flowing along the gas outlet hole 52 formed on the center axis line, the filter 25 finally becomes moisture, and only the dry gas is introduced into the gas measuring sensor 6 (not shown). Only pure gas in the state can be measured, so that the components of the gas and its concentration can be accurately measured.

On the other hand, when the water separated from the mixed gas at the bottom of the container 10 reaches a certain level, the stopper 14 is opened and drained through the water collected in the container 10, thereby repeatedly repeating the water separator 1 for the next measurement gas. Phosphorus use is possible.

When the water separator 1 is repeatedly used as described above, the filtration capacity of the filter 25 is lost. Therefore, the filter 25 is replaced after disassembling the water separator 1 as opposed to the coupling.

The water separator described in the above embodiments has been described in the field of use by limiting the exhaust gas discharged from the internal combustion engine, but the present invention is not limited thereto. Applied in all fields of measuring harmful gases.

As described above, the present invention installs a water separator on the suction path of the sample exhaust gas, and effectively separates the moisture and gas contained in the exhaust gas by using a specific gravity difference so that only the dry exhaust gas can be measured. By not only having excellent water separation ability, but also having a structure capable of draining the separated water continuously, continuous measurement is possible, and furthermore, it can be used for a long time, and thus, a cost reduction due to replacement can be expected.

Claims (5)

A container in which a lower part is sealed, an upper part is opened, and an inner circumference thereof has a small diameter part having a predetermined diameter and a large diameter part extending from the upper part of the small diameter part, and the outer surface of the small diameter part is formed in a square shape; A connecting member forcibly inserted into the large diameter part to be kept tight and having a gas inlet formed in a sidewall thereof; A cap coupled to an upper surface of the connector and having an outlet formed thereon; A flare nut for sealing the inside of the container by coupling the connecting body and the cap; A screw having a gas outlet hole penetrating the center axis and having a gas guide groove for guiding the gas introduced into the outer periphery thereof and closely inserted into the container; And By cooling the gas flowing through the inlet through the gas guide groove of the screw while flowing the gas downward, water contained in the gas is separated by its own weight, and the gas from which the water is separated is separated into the gas outlet hole. Exhaust gas through the water separator. The exhaust gas separator according to claim 1, wherein a filter is installed between the flange of the container and the flange of the cap. 3. The exhaust gas separator as claimed in claim 2 wherein the filter is located between a pair of gaskets, and the gasket is interposed between the vessel and the cap. The exhaust gas water separator according to claim 1, wherein a drain hole is formed on a bottom of the container, and the drain hole is openable. The exhaust gas water separator according to claim 1, further comprising a separate cooling means on the sidewall of the container, and cooling the gas flowing inside the container by the cooling means.