CN217449585U - Gas-water separator - Google Patents

Abstract

The utility model discloses a gas-water separator relates to gas-water separation technical field. The utility model discloses in: inside inner ring plate that is equipped with of gas separation upper cover encloses the back taper separation lid that is equipped with downwardly extending in the inner ring plate, and the lantern ring is kept apart to inner ring plate downside fixedly connected with, keeps apart the lantern ring and encloses the lantern ring inner chamber that forms to be located back taper separation lid below, sets up the air current lift mouth that communicates with lantern ring inner chamber on the conical surface of back taper separation lid, and lantern ring inner chamber is including being located the regional top position hydrops region in air current lift mouth top, keeps apart and forms between lantern ring and the separator tube along wall hydrops ring cavity. The utility model discloses form in the separator tube along wall hydrops ring chamber, lantern ring inner chamber, top position hydrops region, gaseous hydrops, the drip region that rises the chamber, realize diversified, the gas-water separation of multidimension degree, further promoted gas-water separation efficiency of gas-water separator.

Description

Gas-water separator

Technical Field

The utility model relates to a gas-water separation technical field especially relates to a gas-water separator.

Background

The gas-water separator is mainly used for separating gas and liquid in an industrial liquid-containing system, improves the drying degree of steam and reduces the phenomenon that the steam carries water. Commonly used gas-water separators include tubular separators, louvered separators, cyclonic separators, and the like.

In the initial stage of gas-water separation, the liquid content in the gas-water mixture is relatively large, a large amount of liquid is continuously accumulated and falls under the action of the gas-water mixture, and the rising gas also contains some suspended liquid which has relatively small diameter and relatively large interval and cannot be accumulated and fall in time, so that the liquid separation efficiency in the gas-water separator is improved, the liquid content in the gas derived by the gas-water separator is reduced, and the gas-water separator is suitable for being continuously improved in the separation process.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a gas-water separator, form in the separator tube along wall hydrops ring chamber, lantern ring inner chamber, the regional hydrops, the drip region in top position hydrops region, the gaseous ascending chamber, realize diversified, the gas-water separation of multidimension degree, further promoted gas-water separator's gas-water separation efficiency.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model provides a gas-water separator, separator tube include the internal rotation wall, and separator tube upper portion is equipped with the gas-water flush tube with the tangent intercommunication of internal rotation wall, and separator tube upside seal mounting has the gas separation upper cover, and separator tube downside seal mounting has the liquid separation lower cover. Inside inner ring plate that is equipped with of gas separation upper cover encloses the back taper separation lid that is equipped with downwardly extending in the inner ring plate, and the lantern ring is kept apart to inner ring plate downside fixedly connected with, keeps apart the lantern ring and encloses the lantern ring inner chamber that forms to be located back taper separation lid below, sets up the air current lift mouth that communicates with lantern ring inner chamber on the conical surface of back taper separation lid, and lantern ring inner chamber is including being located the regional top position hydrops region in air current lift mouth top, keeps apart and forms between lantern ring and the separator tube along wall hydrops ring cavity.

As the utility model discloses a preferred technical scheme of well gas-water separator: the gas separation upper cover is including being located the regional gaseous ascending chamber in interior crown plate, back taper separation cover top, and the gas separation upper cover disposes the air duct that rises the chamber intercommunication with gas.

As the utility model discloses a preferred technical scheme of well gas-water separator: the airflow ascending port arranged on the inverted cone separating cover is in a rectangular or circular vertical projection cut shape.

As the utility model of the middle air waterA preferred technical scheme of the separator is as follows: the height span range parameter of the inverted cone separating cover is set as [0, H ]]The height span range parameter of the air flow rising opening is

As the utility model discloses well gas-water separator's an preferred technical scheme: the airflow ascending port and the air duct are distributed in a staggered way in the vertical direction.

As the utility model discloses a preferred technical scheme of well gas-water separator: the liquid separation lower cover internally comprises a lower effusion area, and is provided with a liquid guide pipe communicated with the lower effusion area.

As the utility model discloses a preferred technical scheme of well gas-water separator: the liquid separation lower cover is fixedly connected with a group of fixed brackets, and the two fixed brackets are symmetrically positioned at two sides of the liquid guide pipe.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a set up the separation lid of inversion coniform in gas-water separation pipe to the cooperation sets up the isolation lantern ring, forms in the separator tube along wall hydrops ring chamber, lantern ring inner chamber, the regional hydrops in top position hydrops region, gaseous ascending chamber, the drip region, realizes diversified, the gas-water separation of multidimension degree, has further promoted gas-water separation efficiency of gas-water separator.

Drawings

FIG. 1 is a schematic view of the structure of the gas-water separator of the present invention;

FIG. 2 is a bottom side view of the gas-water separator of the present invention;

FIG. 3 is a schematic sectional view of the gas-water separator of the present invention;

FIG. 4 is an enlarged schematic view of the upper cover portion of the gas separation device of FIG. 3;

wherein: 1-separation tube, 101-internal rotation wall surface, 102-gas water flushing tube; 2-gas separation upper cover, 201-inner ring plate, 202-inverted cone separation cover, 203-isolation lantern ring, 204-lantern ring inner cavity, 205-gas flow ascending port, 206-top effusion area, 207-gas ascending cavity, and 208-gas guide pipe; 3-liquid separation lower cover, 301-lower effusion area, 302-liquid guide tube; 4-fixing the bracket; 5-liquid accumulation along the wall.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

The utility model discloses in, mixed gas water gets into separator tube 1 from gas water flush tube 102, and mixed gas water is along separator tube 1's internal rotation wall 101 screw motion. When the gas-water flushing pipe 102 is arranged, the gas-water flushing pipe 102 can be slightly inclined downwards, so that the mixed gas-water can be guided into the separation pipe 1 downwards in an inclined way, and the mixed gas-water has a tendency of downwards spiral motion.

Liquid separation lower cover 3: a large amount of liquid that has spirally descended and dropped along the inner spiral wall surface 101 of the separation tube 1 is collected and discharged from the liquid guide tube 302.

Liquid accumulation annular cavity 5 along the wall: in the process that the mixed gas water rotates downwards along the internal rotation wall surface 101, a large amount of mixed gas water containing fine liquid drops rises along the area close to the internal rotation wall surface 101 and enters the area of the wall-following liquid accumulation annular cavity 5, and the fine liquid is accumulated and drops continuously in the area of the wall-following liquid accumulation annular cavity 5.

Collar inner cavity 204: a large amount of gas rushing into the separation tube 1 continuously rises to enter the lantern ring inner cavity 204, mixed gas water in the lantern ring inner cavity 204 is blocked by the inverted cone separation cover 202, liquid is continuously accumulated in fine liquid in the mixed gas water, the liquid naturally falls, and the gas is upwards discharged from the airflow ascending port 205.

An airway tube 208: the air duct 208 is inserted into the air ascending cavity 207, the air duct 208 and the air flow ascending port 205 are distributed in a staggered manner, after the air flow enters the air flow ascending port 205, the air flow contacts with the inner wall of the upper panel of the air separation upper cover 2, a part of liquefied liquid can still be generated, the liquid drops downwards and enters the inverted cone separation cover 202[ the end point position of the bottom of the conical structure of the inverted cone separation cover 202 can be provided with a fine hole for downwards discharging the liquid ].

Top effusion area 206: the area above the airflow rising port 205 is provided with a large amount of mixed gas and water, and the fine liquid is continuously accumulated and dripped to form a liquid accumulation and dripping area at the periphery of the airflow rising port 205.

In the present invention, the inverted cone separating cover 202 may be an inverted cone structure or a semicircular structure. The airflow ascending port 205 may be a vertically cut shape with a rectangular or circular structure, or may be a slender strip-shaped structure, and if the airflow ascending port is provided with a slender strip-shaped notch structure, a plurality of airflow ascending ports may be uniformly arranged, so that not only effective exhaust but also a large amount of liquid can be blocked.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a gas-water separator, includes separator tube (1), separator tube (1) is including interior spiral wall face (101), separator tube (1) upper portion is equipped with the gas-water wash-in pipe (102) with the tangent intercommunication of interior spiral wall face (101), gas separation upper cover (2) are installed to separator tube (1) upside seal, separator tube (1) downside seal installs liquid separation lower cover (3), its characterized in that:

inside inner ring board (201) that is equipped with of gas separation upper cover (2), enclose in inner ring board (201) and be equipped with downwardly extending's back taper separation lid (202), interior inner ring board (201) downside fixedly connected with keeps apart lantern ring (203), keep apart lantern ring (203) and enclose the lantern ring inner chamber (204) that form and be located back taper separation lid (202) below, set up airflow rising mouth (205) that communicate with lantern ring inner chamber (204) on the conical surface of back taper separation lid (202), lantern ring inner chamber (204) is including the top position hydrops region (206) that are located airflow rising mouth (205) top region, it forms along wall hydrops ring chamber (5) to keep apart between lantern ring (203) and separator tube (1).

2. The gas-water separator of claim 1, wherein:

the gas separation upper cover (2) comprises a gas ascending cavity (207) which is positioned in the upper area of the inner ring plate (201) and the inverted cone separation cover (202), and the gas separation upper cover (2) is provided with a gas guide pipe (208) communicated with the gas ascending cavity (207).

3. The gas-water separator of claim 1, wherein:

the airflow ascending port (205) formed on the inverted cone separating cover (202) is in a rectangular or circular vertical projection cut shape.

4. The gas-water separator of claim 1, wherein:

the height span range parameter of the inverted cone separating cover (202) is set as [0, H]The height span range parameter of the air flow rising opening (205) is

5. The gas-water separator of claim 1, wherein:

the airflow ascending port (205) and the air guide pipe (208) are distributed in a staggered mode in the vertical direction.

6. The gas-water separator of claim 1, wherein:

the liquid separation lower cover (3) comprises a lower effusion area (301) inside, and the liquid separation lower cover (3) is provided with a liquid guide pipe (302) communicated with the lower effusion area (301).

7. The gas-water separator of claim 6, wherein:

the liquid separation lower cover (3) is fixedly connected with a group of fixing supports (4), and the two fixing supports (4) are symmetrically positioned at two sides of the liquid guide pipe (302).

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