CN210814304U - High-pressure gas-liquid separator - Google Patents

Abstract

The utility model discloses a high-pressure gas-liquid separator in the technical field of gas-liquid separation equipment, including barrel and two hemispherical heads, outlet duct, safety tube, dynamometer mouth and sand washing pipe are installed at the top of barrel, outlet duct, safety tube, dynamometer mouth and sand washing pipe distribute from left to right in proper order, a plurality of supports are installed through the bolt in the bottom of barrel, fluid-discharge tube and sand discharge tube are installed to the bottom of barrel, liquid level qiao kou is installed to the front side wall of barrel; this high pressure vapour and liquid separator's setting, copper are at the internally mounted of barrel sand trap and current stabilizer, because the density difference of gas and liquid, when liquid and gas mixture flow together, meet and block, gas can baffling and walk, and liquid is because inertia, continues to have a forward speed, and forward liquid is attached to and is blockking to pack to collect together downwards because of the effect of gravity on the surface, discharges through the delivery pipe to improve the separation efficiency of gas-liquid.

Description

High-pressure gas-liquid separator

Technical Field

The utility model relates to a gas-liquid separation equipment technical field specifically is a high pressure vapour and liquid separator.

Background

The gas-liquid separator can be arranged at the inlet and outlet of the gas compressor for gas-liquid separation, gas phase demisting after the condensation cooler on the top of the fractionating tower, and gas phase demisting of various gas washing towers, absorption towers and desorption towers. The gas-liquid separator can also be applied to various industrial and civil application occasions such as gas dust removal, oil-water separation, liquid impurity removal and the like. The existing gas-liquid separator has a serious problem that a blocking object for a gas-liquid mixture is lacked when the existing gas-liquid separator is used, so that the gas-liquid separation efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high pressure vapour and liquid separator to the vapour and liquid separator who provides in solving above-mentioned background art lacks the object to the blockking of gas-liquid mixture when using, thereby can influence the problem of the separation efficiency of gas-liquid.

In order to achieve the above object, the utility model provides a following technical scheme: a high-pressure gas-liquid separator comprises a barrel and two hemispherical seal heads, wherein an outlet pipe, a safety pipe, a force meter port and a sand washing pipe are installed at the top of the barrel, the outlet pipe, the safety pipe, the force meter port and the sand washing pipe are sequentially distributed from left to right, a plurality of supports are installed at the bottom of the barrel through bolts, a liquid discharge pipe and a sand discharge pipe are installed at the bottom of the barrel, a liquid level port is installed on the front side wall of the barrel, two blade separating elements, a flow stabilizing plate and a buffer plate are installed at the top of an inner cavity of the barrel, the two blade separating elements, the flow stabilizing plate and the buffer plate are horizontally distributed, the two blade separating elements are distributed at two sides of the port of the safety pipe, a sand baffle is installed at the bottom of the inner cavity of the barrel, the top of the sand baffle is positioned at the lower part of the sand washing pipe, and the two hemispherical seal heads are fixed, and the right part is fixedly provided with a first reinforcing pipe in an inserting manner on the right side wall of the hemispherical head, and two liquid level pipes are installed on the rear side wall of the hemispherical head.

Preferably, the number of the support is four, and the four supports are arranged at the bottom of the cylinder body and are divided into square parts.

Preferably, a plurality of triangular through holes are formed in the flow stabilizing plate, and the distance between every two adjacent triangular through holes is equal.

Preferably, the safety pipe is fixed on the top of the cylinder body through flange installation.

Preferably, the force meter port is fixed on the top of the cylinder body through the flange and the bolt.

Compared with the prior art, the beneficial effects of the utility model are that: this high pressure vapour and liquid separator's setting, structural design is reasonable, and copper is at the internally mounted of barrel sand trap and current stabilizer, because the density difference of gas and liquid, when liquid and gas mixture flow together, meet and block, gaseous can baffling and walk, and liquid is because inertia, continues to have a forward speed, and forward liquid is attached to and is blockking to pack to collect together downwards owing to the effect of gravity on the surface, discharges through the delivery pipe to improve the separation efficiency of gas-liquid.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural diagram of the present invention.

In the figure: the device comprises a cylinder body 100, an air outlet pipe 110, a safety pipe 120, a force meter opening 130, a sand washing pipe 140, a sand blocking plate 141, a buffer plate 142, a support 150, a drain pipe 151, a sand discharge pipe 160, a liquid level opening 170, a blade separating element 180, a flow stabilizing plate 190, a hemispherical seal head 200, a first reinforcing pipe 210 and a liquid level pipe 220.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a high pressure vapour and liquid separator for make liquid adhere to and block to pack on the surface, collect together downwards under the effect of gravity, discharge through the delivery pipe, thereby improve the separation efficiency of gas-liquid, please refer to fig. 1-2, including barrel 100 and two hemisphere head 200.

Referring to fig. 1-2, an air outlet pipe 110, a safety pipe 120, a force meter port 130 and a sand washing pipe 140 are installed at the top of a cylinder 100, the air outlet pipe 110, the safety pipe 120, the force meter port 130 and the sand washing pipe 140 are sequentially distributed from left to right, a plurality of supports 150 are installed at the bottom of the cylinder 100 through bolts, four first screw grooves are formed at the bottom of the cylinder 100, four second screw grooves corresponding to the first screw grooves are formed at the top of the supports 150, the supports 150 are fixed at the bottom of the cylinder 100 through the four first screw grooves, the four second screw grooves and the bolts, a drain pipe 151 and a sand discharge pipe 160 are installed at the bottom of the cylinder 100, a liquid level port 170 is installed at the front side wall of the cylinder 100, two blade separating elements 180, a flow stabilizing plate 190 and a buffer plate 142 are installed at the top of an inner cavity of the cylinder 100, the two blade separating elements 180, the flow stabilizing plate 190 and the buffer plate 142 are horizontally distributed, the two blade separating elements 180 are distributed at both sides of the, the bottom of the inner cavity of the cylinder 100 is provided with a sand baffle 141, the top of the sand baffle 141 is positioned at the lower part of the sand washing pipe 140, the inside of the cylinder 100 is used for storing gas-liquid mixture, the gas outlet pipe 110 is used for leading out gas in the inner cavity of the cylinder 100, the sand washing pipe 140 is used for adding sand into the inner cavity of the cylinder 100, the liquid discharge pipe 151 is used for leading out liquid, the support 150 is used for supporting the cylinder 100, and the flow stabilizer 190 is used for stabilizing the gas flow of the gas-liquid mixture.

Referring to fig. 1-2 again, the two hemispherical heads 200 are fixed at two ends of the cylinder 100 by welding, the right sidewall of the right hemispherical head 200 is fixedly inserted with a first reinforcing pipe 210, the rear sidewall of the hemispherical head 200 is provided with two liquid level pipes 220, the first reinforcing pipe 210 is used for introducing a solid-liquid mixture into the inner cavity of the cylinder 100, and the two hemispherical heads 200 are used for sealing the inner cavity of the cylinder 100.

Referring to fig. 1 again, in order to improve the stability of the cartridge 100 in use, the number of the holders 150 is four, and four holders 150 are disposed inside the square portion of the bottom of the cartridge 100.

Referring to fig. 1 again, in order to make the gas-liquid mixture flow stably, a plurality of triangular through holes are formed in the flow stabilizer 190, and the distance between two adjacent triangular through holes is equal.

Referring to fig. 1 again, in order to improve the stability of the connection of the safety pipe 120, the safety pipe 120 is flange-mounted and fixed to the top of the cylinder 100.

Referring to fig. 1 again, in order to improve the stability of the installation of the force meter port 130, the force meter port 130 is fixed to the top of the cylinder 100 by a flange and bolts, four third screw grooves are formed on the top of the cylinder 100, four fourth screw grooves corresponding to the third screw grooves are formed on the bottom of the force meter port 130, and the force meter port 130 is fixed to the top of the cylinder 100 by the four third screw grooves, the four fourth screw grooves and the bolts.

The first thread groove, the second thread groove, the third thread groove, the fourth thread groove, the blade separating element 180, and the support 150 are not limited to the specific number described in the embodiment, and those skilled in the art may increase or decrease the number as needed on the premise that the present apparatus can perform the gas-liquid separation function.

The working principle is as follows: gas and liquid are guided into the inner cavity of the cylinder body 100 through the first reinforcing pipe 210, mixed gas flow moves leftwards through a lower gap under the action of the buffer plate 142, sand is guided into the inner cavity of the cylinder body 100 through the sand washing pipe 140, the gas flow impacts the flow stabilizing plate 190 after passing through the sand, one part of the gas flow flows leftwards from the gap at the bottom of the flow stabilizing plate 190, the other part of the gas flow flows through a triangular through hole inside the flow stabilizing plate 190, the gas and liquid mixed gas flow passes through the two blade separation elements 180 to achieve gas and liquid splitting, the gas is discharged outwards through the gas outlet pipe 110, the liquid is discharged through the liquid discharge pipe 151, and the content of the liquid in the inner cavity of the cylinder body 100 is observed through the liquid level port 170 and the liquid.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of such combinations is not exhaustive in the present specification only for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (5)

1. A high pressure gas-liquid separator characterized by: the anti-explosion safety device comprises a cylinder body (100) and two hemispherical seal heads (200), wherein an air outlet pipe (110), a safety pipe (120), a force meter port (130) and a sand washing pipe (140) are installed at the top of the cylinder body (100), the air outlet pipe (110), the safety pipe (120), the force meter port (130) and the sand washing pipe (140) are sequentially distributed from left to right, a plurality of supports (150) are installed at the bottom of the cylinder body (100) through bolts, a liquid discharge pipe (151) and a sand discharge pipe (160) are installed at the bottom of the cylinder body (100), a liquid level port (170) is installed on the front side wall of the cylinder body (100), two blade separating elements (180), a flow stabilizing plate (190) and a buffer plate (142) are installed at the top of an inner cavity of the cylinder body (100), the two blade separating elements (180), the flow stabilizing plate (190) and the buffer plate (142) are horizontally distributed, and the two blade separating elements (180) are distributed on two sides of a port, sand guard (141) are installed to the inner chamber bottom of barrel (100), the top of sand guard (141) is located the lower part of sand washing pipe (140), two hemispherical head (200) are through welded fastening in the both ends of barrel (100), the right part the right side wall of hemispherical head (200) is pegged graft and is fixed with first reinforced pipe (210), two liquid level pipe (220) are installed to the back lateral wall of hemispherical head (200).

2. A high pressure gas-liquid separator as claimed in claim 1 wherein: the number of the supports (150) is four, and the four supports (150) are arranged in a square part at the bottom of the cylinder body (100).

3. A high pressure gas-liquid separator as claimed in claim 1 wherein: a plurality of triangular through holes are formed in the flow stabilizing plate (190), and the distance between every two adjacent triangular through holes is equal.

4. A high pressure gas-liquid separator as claimed in claim 1 wherein: the safety pipe (120) is fixed on the top of the barrel (100) through flange installation.

5. The high pressure gas-liquid separator according to claim 4 wherein: the force meter port (130) is fixed on the top of the barrel (100) through the flange and the bolts.

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