CN-224221083-U - Gas-water separation device

Abstract

The application discloses a gas-water separation device which comprises a main body and a floater, wherein a separation cavity is formed in the main body, the floater is movably arranged in the separation cavity, one end of the main body is provided with two first channel ports communicated with the separation cavity, the other opposite end is provided with a second channel port communicated with the separation cavity, the bottom of the separation cavity is convexly provided with steps corresponding to the positions of the first channel ports, and one step is provided with a through groove communicated with the inner side and the outer side of the step. According to the application, the steps are arranged, and the through grooves are formed in the steps, so that when the original upward installation mode is switched to downward installation, the water quantity in the separation cavity is large, when the floater ascends to the second port, gas can be discharged through the through grooves, liquid can not be discharged, and when the separation cavity is upwards installed, the through grooves can ensure that the liquid in the separation cavity is thoroughly discharged.

Inventors

• LAN CHANGHE

Assignees

• 吉田(广东)电极工业有限公司

Dates

Publication Date

20260512

Application Date

20250416

Claims (10)

1. 1. The gas-water separation device is characterized by comprising a main body (1) and a floater (2), wherein a separation cavity (108) is formed in the main body (1), the floater (2) is movably arranged in the separation cavity (108), one end of the main body (1) is provided with two first channel ports (109) communicated with the separation cavity (108), the other opposite end of the main body is provided with a second channel port (110) communicated with the separation cavity (108), the bottom of the separation cavity (108) is convexly provided with steps (106) corresponding to the positions of the first channel ports (109), and one step (106) is provided with a through groove (107) communicated with the inner side and the outer side of the step (106).
2. 2. The gas-water separation device according to claim 1, wherein a jack post (201) is convexly arranged at one end of the float (2) opposite to the second port (110), a sealing sleeve (3) is sleeved on the jack post (201), and the sealing sleeve (3) can be in butt sealing with the second port (110).
3. 3. The gas-water separation device according to claim 2, characterized in that the top column (201) is symmetrically provided with exhaust grooves (202) on both sides.
4. 4. A gas-water separation device according to any one of claims 1-3, characterized in that the body (1) comprises a housing (101) and an end cap (102), the end cap (102) being detachably mounted to the end of the housing (101), the first passage opening (109) being provided in the bottom of the housing (101) and the second passage opening (110) being provided in the top of the end cap (102).
5. 5. A gas-water separation device according to claim 4, characterized in that the connection of the housing (101) and the end cap (102) is provided with a locking structure.
6. 6. The gas-water separation device according to claim 5, wherein the locking structure comprises a first locking buckle (5) arranged on the outer wall surface of the shell (101) and a second locking buckle (6) arranged on the inner wall surface of the end cover (102), and the first locking buckle (5) and the second locking buckle (6) are matched and locked.
7. 7. The gas-water separation device according to claim 5, wherein the locking structure further comprises a release preventing groove (8) arranged at the inner edge of the end cover (102) and a release preventing groove (7) arranged at the outer edge of the housing (101), and the release preventing groove (8) can be embedded with the release preventing groove (7).
8. 8. A gas-water separation device according to claim 4, characterized in that the connection of the housing (101) and the end cap (102) is further provided with a seal (4).
9. 9. A gas-water separation device according to any one of claims 1-3, characterized in that the outer wall surface of the body (1) is provided with a fixing seat (103) and/or the outer circumferential surface of the float (2) is provided with a plurality of ribs (203) at intervals.
10. 10. A gas-water separation device according to any one of claims 1-3, characterized in that one end of the main body (1) is provided with a first connection column (104) corresponding to the first passage opening (109), the other end is provided with a second connection column (105) corresponding to the second passage opening (110), and the interiors of the first connection column (104) and the second connection column (105) both form an access passage.

Description

Gas-water separation device Technical Field The application relates to the technical field of separation devices, in particular to a gas-water separation device. Background In various fields such as industrial production, energy utilization, environmental treatment, and the like, the gas-water separation device plays a vital role, can effectively separate gas from liquid, and ensures the normal operation of subsequent processes or equipment. The existing gas-water separation device is generally fixed in use mode, and mainly comprises two conventional modes of downward installation and upward installation. When the downward installation mode is adopted, the device can guide gas and liquid to flow according to a preset path by virtue of the specific structural design of the device, so that the gas can be smoothly discharged, and the liquid is collected and discharged through the corresponding channel, thereby realizing the purpose of gas-water separation. Also, in the upward installed mode, the device is based on specific internal construction and hydrodynamic principles, allowing the gas-water mixture to complete the separation process within the device, ensuring that the gas is discharged from the upper portion, and the liquid is collected and processed at the lower portion. However, the relatively fixed manner of use of the prior gas-water separation devices has significant limitations. Once the upward mounting mode is changed, the original preset mounting direction is changed, and the hydrodynamic characteristics inside the device are changed obviously. Since the device is not optimized for this reverse installation at design time, there is a lack of effective guiding and control mechanisms to prevent liquid from exiting the upper vent when the amount of water in the device is excessive. At this time, excessive water directly overflows from the upper exhaust port, so that gas and liquid cannot be separated according to a normal design path, and further the gas-water separation device cannot achieve the expected gas-water separation effect. The method not only can influence the normal operation of the subsequent process and reduce the production efficiency, but also can damage equipment and increase the maintenance cost and potential safety hazard. Disclosure of utility model The embodiment of the application aims to provide a gas-water separation device, by arranging a step and arranging a through groove on the step, when the original upward installation mode is switched to downward installation, the water quantity in the separation cavity is larger, when the floater ascends to a second port, gas can be discharged through the through groove, liquid can not be discharged, and when the floater ascends to the second port, the through groove can ensure that the liquid in the separation cavity is completely discharged. In order to achieve the above purpose, the application adopts the following technical scheme: On the one hand, the gas-water separation device comprises a main body and a floater, wherein a separation cavity is formed in the main body, the floater is movably arranged in the separation cavity, one end of the main body is provided with two first channel ports communicated with the separation cavity, the other opposite end of the main body is provided with a second channel port communicated with the separation cavity, the bottom of the separation cavity is convexly provided with a step corresponding to the first channel port, and one step is provided with a through groove communicated with the inner side and the outer side of the step. Further, a jack post is convexly arranged at one end of the floater, which is opposite to the second port, a sealing sleeve is sleeved on the jack post, and the sealing sleeve can be in butt joint sealing with the second port. Further, exhaust grooves are symmetrically formed in two sides of the top column. Further, the main body comprises a shell and an end cover, the end cover is detachably mounted at the end part of the shell, the first channel opening is formed in the bottom of the shell, and the second channel opening is formed in the top of the end cover. Further, a locking structure is arranged at the joint of the shell and the end cover. Further, the locking structure comprises a first locking buckle arranged on the outer wall surface of the shell and a second locking buckle arranged on the inner wall surface of the end cover, and the first locking buckle and the second locking buckle are matched and locked. Further, the locking structure further comprises an anti-tripping groove arranged at the outer edge of the shell and an anti-tripping groove arranged at the inner edge of the end cover, and the anti-tripping groove can be embedded with the anti-tripping groove. Further, a sealing element is arranged at the joint of the shell and the end cover. Further, a fixing seat is arranged on the outer wall surface of the main body, and/or a plurality of ribs are arr