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CN-224220969-U - High-efficient gas-liquid separator device

CN224220969UCN 224220969 UCN224220969 UCN 224220969UCN-224220969-U

Abstract

The utility model relates to a high-efficiency gas-liquid separator device which comprises a high tower and a filler adsorption structure arranged in the high tower, wherein the bottom of the high tower is provided with an air inlet, the top end of the high tower is provided with an exhaust outlet, a gas-liquid separator is arranged below the filler adsorption structure in the high tower, the gas-liquid separator comprises a baffle plate with a central hole, a gas cylinder and a gas passing mesh plate, a liquid guide plate connected with the outer wall of the gas cylinder above is arranged above the gas passing mesh plate, the cylinder wall of the high tower is provided with a liquid collecting port which is adaptive to the upper surface of the baffle plate, and the top of one gas cylinder above is provided with a gas baffle plate structure. The utility model belongs to the technical field of waste gas treatment, and discloses a method for separating liquid in waste gas by arranging a gas-liquid separator in a high tower, so that the influence of water vapor in the waste gas on the adsorption of harmful substances by a filler adsorption structure is avoided, and the adsorption efficiency of the filler adsorption structure on the harmful substances in the waste gas is improved.

Inventors

  • QIN SHICAI
  • LI XINQUAN

Assignees

  • 东莞市鹏锦机械科技有限公司

Dates

Publication Date
20260512
Application Date
20250427

Claims (10)

  1. 1. The utility model provides a high-efficient gas-liquid separator device, includes high tower (3) and locates the filler adsorption structure in high tower (3), the bottom of high tower (3) is equipped with air inlet (1), the top of high tower (3) is equipped with tail gas discharge port (9), its characterized in that, be located in high tower (3) the below of filler adsorption structure is equipped with gas-liquid separator (6), gas-liquid separator (6) are including baffle (12) in taking the centre bore, locate a plurality of air guide cylinders (13) that the centre bore department of baffle (12) progressively decrease from bottom to top diameter and locate air passing mesh board (10) between two adjacent air guide cylinders (13), the top of air passing mesh board (10) be equipped with be located the top air guide cylinder (13) outer wall connection's liquid guide plate (11), be equipped with on the section of thick bamboo wall of high tower (3) with liquid collecting port (5) that the upper surface of baffle (12) suited, the top that is located one air guide cylinder (13) is equipped with baffle structure (14).
  2. 2. A high efficiency gas-liquid separator apparatus according to claim 1, wherein the liquid deflector (11) has a tapered cylinder structure fixedly connected to the outer wall of the gas cylinder (13), the tapered cylinder structure having a small upper end and a large lower end.
  3. 3. A high efficiency gas-liquid separator device according to claim 1, characterized in that the edge of the gas passing mesh plate (10) is adapted to the nozzle of the gas cylinder (13) located below it, and that the gas passing mesh plate (10) is provided with a plurality of meshes.
  4. 4. A high efficiency gas-liquid separator apparatus according to claim 3, characterized in that a first wire mesh mist eliminator (4) is provided in the high tower (3) below the gas-liquid separator (6).
  5. 5. A high efficiency gas-liquid separator apparatus according to claim 4, characterized in that a second wire mesh mist eliminator (7) is provided in the high tower (3) above the gas-liquid separator (6).
  6. 6. The efficient gas-liquid separator device according to claim 4, wherein a waste liquid cavity (2) is arranged below the gas inlet (1) in the high tower (3), and a waste discharge port is arranged at the bottom end of the waste liquid cavity (2).
  7. 7. A high efficiency gas-liquid separator apparatus according to any one of claims 1-6, wherein said gas barrier structure (14) comprises a plurality of water collecting tanks (15) arranged at intervals in parallel at the nozzle of one of said gas cylinders (13) located at the uppermost, inverted V-shaped baffles (16) are provided between adjacent two of said water collecting tanks (15), and the lower surfaces of both sides of said inverted V-shaped baffles (16) are provided with raised blocks (22) connected to the sides of said water collecting tanks (15).
  8. 8. A high efficiency gas-liquid separator apparatus according to claim 7, wherein the water collecting tank (15) comprises a V-shaped tank (17) with both ends penetrating and side plates (18) provided on both sides of the V-shaped tank (17), and the elevating block (22) is connected to the top ends of the side plates (18).
  9. 9. A high efficiency gas-liquid separator apparatus according to claim 7, characterized in that the bottom of the high tower (3) is provided with an air inlet cylinder (19) connected to the air inlet (1), the air inlet cylinder (19) extending horizontally into the high tower (3).
  10. 10. The efficient gas-liquid separator device according to claim 9, wherein an opening (21) is formed in the bottom of the inner end of the air inlet cylinder (19), a plurality of vertical plates (20) are uniformly arranged at intervals at the opening (21), the vertical plates (20) are perpendicular to the central line of the air inlet cylinder (19), and the heights of the vertical plates (20) are gradually increased from outside to inside.

Description

High-efficient gas-liquid separator device Technical Field The application relates to the technical field of waste gas treatment, in particular to a high-efficiency gas-liquid separator device. Background In the industrial production process, a large amount of waste gas is generated, and the waste gas is often required to be purified for emission, and the waste gas purification mainly aims at the treatment of industrial waste gas generated in industrial places, such as dust particles, smoke dust, peculiar smell gas and toxic and harmful gas. Common waste gas purification includes factory smoke dust waste gas purification, workshop dust waste gas purification, organic waste gas purification, waste gas peculiar smell purification, acid-base waste gas purification, chemical waste gas purification and the like, and accordingly, a large number of waste gas purification devices, one of which is a spray purification tower, appear on the market. The existing purifying tower has poor effect on adsorption treatment of particulate matters and impurities in waste gas, the impurities are easy to diffuse again, gas-liquid separation is not thorough enough, and if harmful particulate matters are wrapped by liquid drops, the purification treatment is inconvenient, so that the waste gas purification efficiency is affected. Accordingly, it is desirable to provide a high-efficiency gas-liquid separator device that contributes to an improvement in the purification efficiency of exhaust gas Disclosure of utility model Based on this, it is necessary to provide a high-efficiency gas-liquid separator device that contributes to an improvement in the exhaust gas purification efficiency, and its specific technical solutions are as follows. The utility model provides a high-efficient gas-liquid separator device, includes the high tower and locates the packing adsorption structure in the high tower, the bottom of high tower is equipped with the air inlet, the top of high tower is equipped with the exhaust vent, be located in the high tower the below of packing adsorption structure is equipped with gas-liquid separator, gas-liquid separator includes the baffle of taking the centre bore, locates a plurality of air guide pipes that the centre bore department of baffle progressively decrease from bottom to top diameter and locates the air passing mesh board between two adjacent air guide pipes, the top of air passing mesh board be equipped with be located the top the liquid guide plate of air guide pipe outer wall connection, be equipped with on the section of thick bamboo wall of high tower with the liquid collecting port that the upper surface of baffle suited, be located the top of top one the air guide pipe is equipped with the gas baffle structure. Furthermore, the liquid guide plate is a conical cylinder structure fixedly connected with the outer wall of the air guide cylinder, and the upper end of the conical cylinder structure is small, and the lower end of the conical cylinder structure is large. Further, the edge of the air passing mesh plate is adapted to the cylinder mouth of the air guide cylinder positioned below the air passing mesh plate, and a plurality of meshes are arranged on the air passing mesh plate. Further, a first wire mesh demister is arranged below the gas-liquid separator in the high tower. Further, a second wire mesh demister is arranged above the gas-liquid separator in the high tower. Further, a waste liquid cavity is arranged below the air inlet in the high tower, and a waste discharge port is arranged at the bottom end of the waste liquid cavity. Further, the air baffle structure comprises a plurality of water collecting tanks which are arranged at the top and are arranged at intervals in parallel, wherein the water collecting tanks are arranged at the cylinder opening of the air guide cylinder, an inverted V-shaped baffle is arranged between every two adjacent water collecting tanks, and the lower surfaces of two sides of the inverted V-shaped baffle are provided with heightening blocks connected with the side parts of the water collecting tanks. Further, the water collecting tank comprises a V-shaped tank with two ends communicated with each other and side plates arranged on two sides of the V-shaped tank, and the heightening block is connected with the top ends of the side plates. Further, an air inlet cylinder connected with the air inlet is arranged at the bottom of the high tower, and the air inlet cylinder horizontally extends into the high tower. Further, the bottom of the inner end of the air inlet cylinder is provided with an opening, a plurality of vertical plates which are uniformly arranged at intervals are arranged at the opening, the vertical plates are perpendicular to the central line of the air inlet cylinder, and the heights of the vertical plates are gradually increased from outside to inside. Compared with the prior art, the utility model has the following beneficial effects: According