CN212283365U - R-shaped gas-liquid separator - Google Patents

Abstract

The utility model discloses a R-shaped gas-liquid separator, including the R-shaped cross section body, the R-shaped cross section body has the first water conservancy diversion skew wall that blocks oil mist waste gas and guide the waste gas inflow and the second water conservancy diversion skew wall that guides the oil mist gas outflow after oil mist granule gathering separation, the disconnection forms the air inlet between first water conservancy diversion skew wall and the second water conservancy diversion skew wall one end, connect through fluid gathering cell body between the first water conservancy diversion skew wall and the second water conservancy diversion skew wall other end and form the notch that the width is less than the air inlet, the wall of second water conservancy diversion skew wall is equipped with the venthole along its wall trend distribution; the oil mist collector is arranged in the oil mist collector, oil mist particles in the oil mist waste gas are gathered and separated through drainage of the oil mist waste gas in the drainage process, and the oil mist gas after gathering and separation of the oil mist particles is drained to the electrostatic module or the filtering material in the next link for adsorption treatment, so that the load of the electrostatic module or the filtering material of the oil mist collector is reduced, the effective operation time of the oil mist collector is prolonged, and the purification treatment effect of the oil mist collector is enhanced.

Description

R-shaped gas-liquid separator

Technical Field

The utility model belongs to the technical field of oil mist exhaust-gas purification handles, concretely relates to vapour and liquid separator.

Background

The existing oil mist collector usually uses a plurality of groups of electrostatic modules to carry out electrostatic adsorption treatment on oil mist particles, or each stage of treatment links in the oil mist collector shell are provided with filtering materials, namely filters are used for carrying out adsorption treatment on the oil mist particles in a filtering and adsorbing mode, in the actual operation treatment, the electrostatic modules or the filters are responsible for most oil mist particle treatment tasks of the whole oil mist collector, along with the increase of the operation time, the electrostatic modules or the filters are overloaded, the adsorption capacity of the electrostatic modules or the filters on the oil mist particles is weakened continuously, the purification treatment effect of the oil mist collector on oil mist waste gas is weakened continuously, the oil mist collector is lowered when in effective operation, frequent maintenance is needed, the filtering materials or the electrostatic modules are replaced, the problem of unstable oil mist collection effect exists, the normal production and use are influenced, and.

Disclosure of Invention

The utility model aims at providing a can set up in the oil mist collector carry out the drainage and make the oil mist granule gathering separation in the oil mist waste gas, be favorable to reducing the interior static module of oil mist collector or filter material load, the long R shape vapour and liquid separator of reinforcing oil mist collector purification treatment effect of extension oil mist collector effective operation in the oil mist collector to the oil mist waste gas.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an R-shaped gas-liquid separator comprises an R-shaped section body, wherein the R-shaped section body is provided with a first guide inclined wall and a second guide inclined wall, the first guide inclined wall is used for blocking oil mist waste gas and guiding the oil mist waste gas to flow in, the second guide inclined wall is used for guiding oil mist gas after oil mist particles are gathered and separated out, an air inlet is formed by cutting off one end of the first guide inclined wall from one end of the second guide inclined wall, the other end of the first guide inclined wall is connected with the other end of the second guide inclined wall through an oil gathering groove body, a notch with the width smaller than that of the air inlet is formed, the oil gathering groove body is preferably an arc groove and is beneficial to gathering and condensing the oil mist particles and flowing the oil mist gas, and air outlet holes; the oil mist waste gas flows into the oil liquid gathering tank body through the notch by the blocking guide of the first flow guide inclined wall and the guide of the second flow guide inclined wall through the air inlet, the notch is contracted relative to the air inlet to enable the oil mist waste gas to be in a compressed gathering state when flowing into the oil liquid gathering tank body, most oil mist particles in the oil mist waste gas are gathered and condensed in the oil liquid gathering tank body to form oil liquid, oil mist gas after oil mist particle gathering and separation escapes out of the oil liquid gathering tank body through the notch during continuous inflow and extrusion of the oil mist waste gas and is guided by the second flow guide inclined wall to be guided to a next processing link through the air outlet hole in the second flow guide inclined wall, the oil mist waste gas is guided in the oil mist collector to enable oil mist particles in the oil mist waste gas to be gathered and separated in the flow guiding process, and the oil mist gas after oil mist particle gathering and separation is guided to an electrostatic module or a filtering material, the method is beneficial to reducing the load of the electrostatic module or the filtering material in the oil mist collector, prolonging the effective running time of the oil mist collector and enhancing the purification treatment effect of the oil mist collector.

Furthermore, the two R-shaped cross-section bodies are arranged in a linear mode, the second inclined flow guide wall of the next R-shaped cross-section body is connected with the first inclined flow guide wall of the previous R-shaped cross-section body in a sealing mode, and the second inclined flow guide wall of the next R-shaped cross-section body is preferably connected with the first inclined flow guide wall of the previous R-shaped cross-section body in a sealing mode through an arc wall, so that the oil mist waste gas flow guide is facilitated. The R-shaped cross-section body can be in the form of an annular body, so that the R-shaped cross-section bodies are sequentially connected to form a cylindrical separator, and the lower end of the annular R-shaped cross-section body can be further disconnected to form an oil discharge liquid port, so that condensed oil collected and condensed in the oil liquid collecting tank body can be conveniently discharged; or the R-shaped section bodies are linear bodies, the R-shaped section bodies are sequentially connected to form the plate-shaped separators, in actual use, the plate-shaped separators are arranged in a stacked mode, the R-shaped section bodies of two adjacent layers of plate-shaped separators are staggered, an air outlet of the R-shaped section body of the previous layer of plate-shaped separator is communicated with an air inlet of the R-shaped section body of the next layer of plate-shaped separator, oil mist waste gas can be gathered and condensed layer by layer on oil mist particles in the oil mist waste gas through the R-shaped section bodies on the plate-shaped separators, and the gathering and separating effects of the oil mist particles are greatly enhanced.

The utility model discloses following beneficial effect has:

the utility model relates to a R shape vapour and liquid separator sets up in the oil mist collector through carrying out the drainage to oil mist waste gas and making the oil mist granule gathering separation in the oil mist waste gas at the drainage in-process, and the oil mist after the oil mist granule gathering separation is gaseous to be drained static module or the filtering material of next processing link again and is adsorbed the processing, and it is long, reinforcing oil mist collector purification treatment effect when being favorable to reducing static module or filtering material load in the oil mist collector, extension oil mist collector effective operation.

Drawings

FIG. 1 is a cross-sectional structural view of an R-shaped cross-section of an R-shaped gas-liquid separator according to the present invention;

FIG. 2 is a schematic view of the R-shaped gas-liquid separator according to the present invention, wherein the R-shaped cross-sectional body of the R-shaped gas-liquid separator is an annular body and is connected to form a cylindrical separator;

FIG. 3 is a side view of FIG. 2;

FIG. 4 is a schematic view of the R-shaped gas-liquid separator of the present invention, wherein the R-shaped cross-section is an annular body and is broken to form an oil drain port;

FIG. 5 is a schematic view of a R-shaped gas-liquid separator according to the present invention, wherein the R-shaped cross-sectional body of the R-shaped gas-liquid separator is a linear body and is connected to form a plate-shaped separator;

FIG. 6 is a schematic view of the plate-like separator of FIG. 5 in a two-layer stacked use;

FIG. 7 is an end view of FIG. 6;

FIG. 8 is a schematic view of the plate separator of FIG. 5 in a three-layer stacked use;

fig. 9 is an end view of fig. 8.

In the figure: 1. an R-shaped cross-sectional body; 2. a first flow guide inclined wall; 3. a second flow guide inclined wall; 4. an air inlet; 5. an oil liquid gathering tank body; 6. a notch; 7. an air outlet; 8. a cylindrical separator; 9. a plate-like separator; 10. and an oil drain port.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments so as to more clearly understand the technical idea claimed in the invention.

As shown in fig. 1 the utility model relates to a R shape vapour and liquid separator, including R shape cross-section body 1, R shape cross-section body 1 has the first water conservancy diversion skew wall 2 that blocks oil mist waste gas and guide the inflow of oil mist waste gas and the second water conservancy diversion skew wall 3 that the oil mist gas after the separation of guide oil mist granule gathering flows out, the disconnection forms air inlet 4 between the one end of first water conservancy diversion skew wall 2 and second water conservancy diversion skew wall 3, be connected and be formed with the notch 6 that the width is less than air inlet 4 through fluid gathering cell body 5 between the other end of first water conservancy diversion skew wall 2 and second water conservancy diversion skew wall 3, this fluid gathering cell body 5 is the preferred circular arc groove, do benefit to the gathering of oil mist granule and condense and the gaseous flow of oil mist, it is provided with venthole 7 to move towards the distribution along its wall on the wall. The oil mist waste gas flows into the oil liquid gathering groove body 5 through the notch 6 under the blocking and guiding of the first flow guide inclined wall 2 and the guiding of the second flow guide inclined wall 3 through the air inlet 4, the notch 6 contracts relative to the air inlet 4 to enable the oil mist waste gas to be in a compression gathering state in the oil liquid gathering groove body 5, most oil mist particles in the oil mist waste gas are gathered and condensed in the oil liquid gathering groove body 5 to form oil liquid, oil mist gas after oil mist particle gathering and separation escapes to the outside of the oil liquid gathering groove body 5 through the notch 6 in the continuous flowing and discharging of the oil mist waste gas, the oil mist gas is guided by the second flow guide inclined wall 3 to be guided to a next processing link through the air outlet 7 on the second flow guide inclined wall 3, the oil mist waste gas is guided in the oil mist collector to be gathered and separated in the flow guiding process, and the oil mist gas after oil mist particle gathering and separation is guided to a filtering material or a module of the next processing link for adsorption processing, the method is beneficial to reducing the load of the electrostatic module or the filtering material in the oil mist collector, prolonging the effective running time of the oil mist collector and enhancing the purification treatment effect of the oil mist collector.

In use, the R-shaped cross-sections 1 may be arranged in two or more lines, and the second oblique flow guiding wall 3 of the latter R-shaped cross-section 1 is connected with the first oblique flow guiding wall 2 of the former R-shaped cross-section 1 in a sealing manner, preferably by a circular arc wall, so as to facilitate the flow guiding of the oil mist exhaust gas. Of course, the single R-shaped cross-section body 1 also has an effect of collecting and separating oil mist particles in the oil mist exhaust gas, but the gas-liquid separation effect is weak when the plurality of R-shaped cross-section bodies 1 are linearly arranged and combined. The R-shaped cross-sectional body 1 may be in the form of a ring as shown in fig. 2 to 3, such that the R-shaped cross-sectional bodies 1 are sequentially connected to form the cylindrical separator 8, and further, as shown in fig. 4, the lower end of the ring-shaped R-shaped cross-sectional body 1 is broken to form the oil drain port 10, so as to facilitate the drainage of the oil condensed and collected in the oil collecting tank 5. Or as shown in fig. 5, the R-shaped cross-section bodies 1 are linear bodies, and the R-shaped cross-section bodies 1 are connected in sequence to form a plate-shaped separator 9. In practical use, as shown in fig. 6-7 and 8-9, the plate-shaped separators 9 are stacked, and the R-shaped cross-sectional bodies 1 of two adjacent layers of plate-shaped separators 9 are staggered, and the air outlet 7 of the R-shaped cross-sectional body 1 of the previous layer of plate-shaped separator 9 is communicated with the air inlet 4 of the R-shaped cross-sectional body 1 of the next layer of plate-shaped separator 9, so that the oil mist exhaust gas can be gathered and condensed layer by layer through the R-shaped cross-sectional bodies 1 on each layer of plate-shaped separator 9, and the gathering and separating effect of the oil mist particles is greatly enhanced.

Various other changes and modifications may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such changes and modifications should fall within the scope of the present invention.

Claims (8)

1. An R-shaped gas-liquid separator characterized by: the oil mist particle collecting and separating device comprises an R-shaped section body (1), wherein the R-shaped section body (1) is provided with a first flow guide inclined wall (2) for blocking oil mist waste gas and guiding the oil mist waste gas to flow in and a second flow guide inclined wall (3) for guiding the oil mist gas after oil mist particle collecting and separating to flow out, an air inlet (4) is formed by disconnecting one end of the first flow guide inclined wall (2) from one end of the second flow guide inclined wall (3), the other end of the first flow guide inclined wall (2) and the other end of the second flow guide inclined wall (3) are connected through an oil liquid collecting groove body (5) and are provided with a notch (6) with a width smaller than that of the air inlet (4), and air outlet holes (7) are distributed in the wall surface of the second flow guide inclined wall (3).

2. The R-shaped gas-liquid separator according to claim 1, wherein: the R-shaped section bodies (1) at least comprise two linear arranged second guide inclined walls (3) of the latter R-shaped section body (1) and the first guide inclined walls (2) of the former R-shaped section body (1) are connected in a sealing way.

3. The R-shaped gas-liquid separator according to claim 2, wherein: the R-shaped section bodies (1) are annular bodies, and the R-shaped section bodies (1) are sequentially connected to form a cylindrical separator (8).

4. The R-shaped gas-liquid separator according to claim 2, wherein: the R-shaped section bodies (1) are linear bodies, and the R-shaped section bodies (1) are sequentially connected to form a plate-shaped separator (9).

5. The R-shaped gas-liquid separator according to claim 4, wherein: the plate-shaped separators (9) are arranged in a stacked mode, the R-shaped section bodies (1) of two adjacent layers of the plate-shaped separators (9) are staggered, and air outlet holes (7) of the R-shaped section bodies (1) of the previous layer of the plate-shaped separators (9) are communicated with air inlet holes (4) of the R-shaped section bodies (1) of the next layer of the plate-shaped separators (9).

6. The R-shaped gas-liquid separator according to claim 1, wherein: the oil liquid gathering tank body (5) is an arc groove.

7. The R-shaped gas-liquid separator according to claim 2, wherein: the second diversion inclined wall (3) of the latter R-shaped section body (1) is connected with the first diversion inclined wall (2) of the former R-shaped section body (1) in a closed manner through a circular arc wall.

8. The R-shaped gas-liquid separator according to claim 3, wherein: the lower end of the R-shaped section body (1) is disconnected to form an oil discharge liquid port (10) which is convenient for oil liquid condensed in the oil liquid gathering tank body (5) to be discharged.

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