CN214436708U - Novel oil-water separator device - Google Patents

Abstract

The utility model discloses a novel profit water knockout drum device, including the water knockout drum body, the water knockout drum body includes barrel and oval head, the barrel is located the top of oval head, barrel upper portion is equipped with the atmospheric pressure balanced mouth, the atmospheric pressure balanced mouth extends to in the barrel, atmospheric pressure balanced mouth one side is equipped with the import, import one side is equipped with the temperature detection mouth, temperature detection mouth one side is equipped with the pressure detection mouth, water knockout drum body bottom is equipped with the clean-up distributive mouth, the barrel both sides are equipped with backward flow mouth and backward flow distributive mouth respectively. Has the advantages that: the invention realizes the purpose of water diversion by instrument control without manual operation, eliminates human factors and has high reliability.

Description

Novel oil-water separator device

Technical Field

The utility model relates to a petroleum, chemical industry, pharmacy trade backward flow water knockout drum device particularly, relates to a novel profit water knockout drum device.

Background

The reflux water dividing device is used for removing water in a reaction system, the common water dividing devices are lower water dividing devices, after the water-carrying agent enters the water dividing device in the using process, oil-water two-phase separation is formed because the specific gravity of water is greater than that of the water-carrying agent, the water phase is deposited at the lower part, and the water-carrying agent is arranged at the upper part of the water dividing device.

The water knockout drum that uses at present is mostly the glass water diversion bottle, and its outward appearance is the glass bottle of oval head from top to bottom, and the backward flow mouth is located water diversion bottle side upper portion, and the feed inlet is located water diversion bottle top to deepening in the water diversion bottle to below the backward flow mouth, the water diversion mouth is located water diversion bottle bottom, and the material adopts borosilicate glass more.

The current water diversion scheme is the relative level of control water diversion pipeline and backward flow mouth to realize the purpose of automatic water diversion to a certain extent, mostly be artifical manual control during the operation of dividing and adjust the valve of dividing, what rely on more is that personnel's experience judges and the on-the-spot judgement directly perceived, and people's subjective factor accounts for than very big, inefficiency.

An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel profit water knockout drum device to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel profit water knockout drum device, includes the water knockout drum body, the water knockout drum body includes barrel and oval head, the barrel is located the top of oval head, barrel upper portion is equipped with the atmospheric pressure balanced mouth, the atmospheric pressure balanced mouth extends to in the barrel, atmospheric pressure balanced mouth one side is equipped with the import, import one side is equipped with the temperature detection mouth, temperature detection mouth one side is equipped with the pressure detection mouth, water knockout drum body bottom is equipped with the clean-up distributive mouth, the barrel both sides are equipped with backward flow mouth and backward flow distributive mouth respectively.

Furthermore, the top of the cylinder body is fixedly connected through a first flange.

Furthermore, the backflow port and the backflow water diversion port are connected through a second flange.

Further, a plate-type liquid level meter is arranged inside the barrel.

Furthermore, a conductivity detection port is arranged on one side of the barrel and below the backflow water diversion port.

Furthermore, the backflow port, the backflow water diversion port and the exhaust water diversion port are all provided with adjusting valves.

The utility model provides a novel profit water knockout drum device, beneficial effect as follows:

(1) in the water separator in the scheme, the upper part is a cylinder, the lower part is a standard elliptical sealing head, and an air pressure balance port is arranged in the middle of the upper part of the cylinder and used for air pressure balance of the water separator and a reaction device so as to prevent the full-filling condition. The top is provided with an inlet, a temperature detection port and a pressure detection port. The air pressure balance port extends downwards from the inside of the water separator, and the lower part of the water separator is a clean water diversion port. When the water distribution device is used as an upper water distributor, the backflow port is a backflow port, and the backflow water distribution port is a water distribution port. When the water separator is used as a lower water separator, the backflow water separation port is a backflow port, and the drain water separation port at the lower part of the water separator is used as a water separation port.

(2) The top of the cylinder body is provided with a first flange for fastening and sealing so as to be convenient for cleaning and maintenance, and the side surface of the cylinder body of the water diversion device is provided with a backflow port and the backflow water diversion port close to the upper part, which are connected by a second flange and are horizontally distributed at an angle of 180 degrees. The pipeline of the return port extends downwards from the interior of the water diversion device to be close to the bottom and extends upwards to the top, and the purpose is to prevent the siphon phenomenon.

(3) The water diversion device is provided with a built-in plate type liquid level meter on a cylinder body, is horizontally distributed at 180 degrees and is distributed with a reflux opening and the reflux water diversion opening at 90 degrees. The liquid level meter is used for observing the liquid level, the water level and the backflow state in the water separator in real time, and the water separator is arranged at the lower part of the backflow water separation port and is provided with a conductivity meter mounting port for detecting the position of the liquid level and the water level in the water separator and controlling the opening and the closing of the regulating valve.

(4) The invention realizes the purpose of water diversion by instrument control without manual operation, eliminates human factors and has high reliability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a novel oil-water separator device according to an embodiment of the present invention.

Reference numerals:

1. a water separator body; 2. a barrel; 3. an elliptical end enclosure; 4. an air pressure balancing port; 5. a temperature detection port; 6. an inlet; 7. a pressure detection port; 8. draining the water diversion port; 9. a return port; 10. a reflux water diversion port; 11. a first flange; 12. a second flange; 13. a plate-type liquid level meter; 14. a conductivity detection port.

Detailed Description

The following, with reference to the drawings and the detailed description, further description of the present invention is made:

the first embodiment is as follows:

referring to fig. 1, a novel oil-water separator device according to an embodiment of the present invention includes a separator body 1, the water separator body 1 comprises a cylinder body 2 and an elliptical seal head 3, the cylinder body 2 is positioned above the elliptical seal head 3, the upper part of the cylinder body 2 is provided with an air pressure balancing port 4, the air pressure balancing port 4 extends into the cylinder body 2, an inlet 6 is arranged on one side of the air pressure balancing port 4, a temperature detecting port 5 is arranged on one side of the inlet 6, a pressure detection port 7 is arranged on one side of the temperature detection port 5, a drain water diversion port 8 is arranged at the bottom of the water segregator body 1, the two sides of the cylinder body 2 are respectively provided with a return port 9 and a return water diversion port 10, when the water diversion operation is carried out, liquid enters the water diversion device from the inlet, because of the different specific gravity, the water and the water-carrying agent are layered, when the device is used as a lower water separator, the water-carrying agent flows back to the reaction device from the backflow water separation port. When the water level in the water separator reaches the conductivity detection port 14, the control system opens the water separation valve of the drainage water separation port 8 for water separation due to the change of the conductivity; specifically, when the water level drops below the conductivity detection port 14, the control system closes the shunt valve of the drain water diversion port 8 due to the change of the conductivity, the shunt valve of the drain water diversion port 8 is set to be closed in a delayed manner, and the delay time is set according to the time when the oil-water separation interface reaches the drain water diversion port 8 from the conductivity detection port 14. Thereby realizing the purpose of automatic water distribution. When used as an upper water separator, the water-carrying agent is refluxed to the reaction apparatus through the reflux port 9. When the water level in the water separator reaches the conductivity detection port 14, the control system opens the water separation regulating valve of the reflux water separation port 10 for water separation due to the change of the conductivity; when the water level rises above the conductivity detection port 14, the control system closes the water diversion regulating valve of the backflow water diversion port 10 to stop water diversion due to the change of the conductivity. Thereby realizing the purpose of automatic water distribution.

Example two:

referring to fig. 1, for the cylinder 2, the top of the cylinder 2 is fixedly connected by a flange 11. For the return opening 9, the return opening 9 and the return water diversion opening 10 are connected through a second flange 12, the first flange 11 is arranged at the top of the cylinder body 2 for fastening and sealing so as to be convenient for cleaning and maintenance, the return opening 9 and the return water diversion opening 10 are arranged on the side surface of the cylinder body 2 of the water diversion device, close to the upper part, and are connected through the second flange 12 and horizontally distributed at 180 degrees. The pipe of the return port 9 extends from the interior of the water diversion device down to near the bottom and up to the top in order to prevent siphoning. For the cylinder 2, a plate-type liquid level meter 13 is installed inside the cylinder 2. For the cylinder 2, a conductivity detection port 14 is arranged at one side of the cylinder 2 and below the backflow water diversion port 10. For the return port 9, regulating valves are respectively arranged on the return port 9, the return water diversion port 10 and the exhaust water diversion port 8, and the water diversion device is provided with a built-in plate-type liquid level meter 13 on the barrel body 2, is horizontally distributed at 180 degrees and is distributed at 90 degrees with the return port 9 and the return water diversion port 10. The liquid level meter is used for observing the liquid level, the water level and the backflow state in the water separator in real time, and the water separator is arranged at the lower part of the backflow water separating port 10 and is provided with a conductivity meter mounting port for detecting the position of the liquid level and the water level in the water separator and controlling the opening and the closing of the regulating valve.

For the convenience of understanding the technical solution of the present invention, the following detailed description is made on the working principle or the operation mode of the present invention in the practical process.

In practical application, when water is divided, liquid enters the water divider from the inlet, water and the water-carrying agent are layered due to different specific gravities, and when the device is used as a lower water divider, the water-carrying agent flows back to the reaction device from the backflow water dividing port. When the water level in the water separator reaches the conductivity detection port 14, the control system opens the water separation valve of the drainage water separation port 8 for water separation due to the change of the conductivity; specifically, when the water level drops below the conductivity detection port 14, the control system closes the shunt valve of the drain water diversion port 8 due to the change of the conductivity, the shunt valve of the drain water diversion port 8 is set to be closed in a delayed manner, and the delay time is set according to the time when the oil-water separation interface reaches the drain water diversion port 8 from the conductivity detection port 14. Thereby realizing the purpose of automatic water distribution. When used as an upper water separator, the water-carrying agent is refluxed to the reaction apparatus through the reflux port 9. When the water level in the water separator reaches the conductivity detection port 14, the control system opens the water separation regulating valve of the reflux water separation port 10 for water separation due to the change of the conductivity; when the water level rises above the conductivity detection port 14, the control system closes the water diversion regulating valve of the backflow water diversion port 10 to stop water diversion due to the change of the conductivity. Thereby realizing the purpose of automatic water distribution. The invention realizes the purpose of water diversion by instrument control without manual operation, eliminates human factors and has high reliability.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a novel profit water knockout drum device, a serial communication port, including water knockout drum body (1), water knockout drum body (1) includes barrel (2) and oval head (3), barrel (2) are located the top of oval head (3), barrel (2) upper portion is equipped with atmospheric pressure balance mouth (4), atmospheric pressure balance mouth (4) extend to in barrel (2), atmospheric pressure balance mouth (4) one side is equipped with import (6), import (6) one side is equipped with temperature detection mouth (5), temperature detection mouth (5) one side is equipped with pressure detection mouth (7), water knockout drum body (1) bottom is equipped with row clean distributive opening (8), barrel (2) both sides are equipped with backward flow mouth (9) and backward flow distributive opening (10) respectively.

2. The novel oil-water separator device as claimed in claim 1, wherein the top of the cylinder (2) is fixedly connected through a first flange (11).

3. The novel oil-water separator device as claimed in claim 2, wherein the return opening (9) and the return water separation opening (10) are connected through a second flange (12).

4. The novel oil-water separator device as claimed in claim 3, wherein a plate-type liquid level meter (13) is installed inside the cylinder body (2).

5. The novel oil-water separator device as claimed in claim 4, wherein a conductivity detection port (14) is arranged on one side of the cylinder body (2) and below the backflow water separation port (10).

6. The novel oil-water separator device as claimed in claim 5, wherein the return opening (9), the return water dividing opening (10) and the drain water dividing opening (8) are all provided with regulating valves.

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