CN211111179U - Automatic oil separator - Google Patents

Abstract

An automatic oil-liquid separator comprises an oil-liquid separation box, a box cover arranged at the top of the oil-liquid separation box, a controller arranged outside the oil-liquid separation box, an oil-water interface liquid level meter suspended on the box cover and positioned in the oil-liquid separation box, and a liquid inlet pipe and a water outlet pipe arranged at the bottom of the oil-liquid separation box; a liquid inlet pump is arranged on the liquid inlet pipe; the water outlet pipe is provided with a water outlet pump, an electric valve and a first electromagnetic valve, and the electric valve is connected with a switch; an overflow port is arranged at a position close to the top of one side of the oil-liquid separation tank; the oil-water interface liquid level meter, the liquid inlet pump, the water outlet pump and the first electromagnetic valve are all connected with the controller. The automatic liquid inlet, oil discharging, water discharging and other functions and high working efficiency are realized, and the manual guard is not needed during normal work, so that the labor is saved.

Description

Automatic oil separator

Technical Field

The utility model relates to a fluid separation technical field, especially an automatic separator of fluid.

Background

The existing oil-liquid separation device has the original function, and usually, mixed liquid is injected into a container and stands for a period of time, and an oil outlet is formed in the position, close to the top, of the container so as to discharge oil on the upper layer. The whole process is manually judged and operated, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an automatic separator of fluid that realizes functions such as income liquid, oil extraction, drainage automatically, work efficiency is high and use manpower sparingly to solve above-mentioned problem.

An automatic oil-liquid separator comprises an oil-liquid separation box, a box cover arranged at the top of the oil-liquid separation box, a controller arranged outside the oil-liquid separation box, an oil-water interface liquid level meter suspended on the box cover and positioned in the oil-liquid separation box, and a liquid inlet pipe and a water outlet pipe arranged at the bottom of the oil-liquid separation box; a liquid inlet pump is arranged on the liquid inlet pipe; the water outlet pipe is provided with a water outlet pump, an electric valve and a first electromagnetic valve, and the electric valve is connected with a switch; an overflow port is arranged at a position close to the top of one side of the oil-liquid separation tank; the oil-water interface liquid level meter, the liquid inlet pump, the water outlet pump and the first electromagnetic valve are all connected with the controller; when the position of the oil-water interface detected by the oil-water interface liquid level meter is higher than or equal to a first liquid level value, the controller controls the first electromagnetic valve to be opened, controls the water outlet pump to work, and controls the liquid inlet pump to stop working; when the position of the oil-water interface is lower than or equal to the second liquid level value, and the second liquid level value is smaller than the first liquid level value, the controller controls the first electromagnetic valve to be closed, controls the water outlet pump to stop working, and controls the liquid inlet pump to work.

Further, still including hanging on the box lid and be located the cartridge filter in the fluid separator box, the inlet line passes the bottom of fluid separator box and communicates with the top of cartridge filter.

Further, a liquid inlet is formed in one side of the top of the filter cylinder, an arc-shaped pipe is connected to the top of the liquid inlet pipe, and the tail end of the arc-shaped pipe penetrates through the liquid inlet and extends into the filter cylinder.

Furthermore, a fence is arranged around the oil-water interface liquid level meter inside the oil-water separation tank, the oil-water interface liquid level meter is located in a space surrounded by the fence, and the bottom of the fence is higher than the bottom of the oil-water separation tank.

Furthermore, a plurality of through holes are formed in the fence.

Furthermore, a cleaning opening is formed in the bottom of the oil-liquid separation box, a cleaning pipe is connected to the cleaning opening, and the diameter of the cleaning pipe is larger than that of the water outlet pipe.

Compared with the prior art, the automatic oil separator of the utility model comprises an oil separation box, a box cover arranged at the top of the oil separation box, a controller arranged outside the oil separation box, an oil-water interface liquid level meter hung on the box cover and positioned in the oil separation box, and a liquid inlet pipe and a water outlet pipe arranged at the bottom of the oil separation box; a liquid inlet pump is arranged on the liquid inlet pipe; the water outlet pipe is provided with a water outlet pump, an electric valve and a first electromagnetic valve, and the electric valve is connected with a switch; an overflow port is arranged at a position close to the top of one side of the oil-liquid separation tank; the oil-water interface liquid level meter, the liquid inlet pump, the water outlet pump and the first electromagnetic valve are all connected with the controller; when the position of the oil-water interface detected by the oil-water interface liquid level meter is higher than or equal to a first liquid level value, the controller controls the first electromagnetic valve to be opened, controls the water outlet pump to work, and controls the liquid inlet pump to stop working; when the position of the oil-water interface is lower than or equal to the second liquid level value, and the second liquid level value is smaller than the first liquid level value, the controller controls the first electromagnetic valve to be closed, controls the water outlet pump to stop working, and controls the liquid inlet pump to work. The automatic liquid inlet, oil discharging, water discharging and other functions and high working efficiency are realized, and the manual guard is not needed during normal work, so that the labor is saved.

Drawings

Embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic perspective view of a first viewing angle of the automatic oil separator according to the present invention.

Fig. 2 is a schematic perspective view of a second viewing angle of the automatic oil separator according to the present invention.

Fig. 3 is a schematic diagram of the automatic oil separator according to the present invention.

Fig. 4 is a partial schematic view of the automatic oil separator provided by the present invention.

Fig. 5 is a partial schematic view of the automatic oil separator provided by the present invention.

Detailed Description

The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

Referring to fig. 1 to 3, the automatic oil separator provided by the present invention includes an oil separating box 100, a box cover 101 disposed on the top of the oil separating box 100, a controller 10 disposed outside the oil separating box 100, a filter cartridge 20 suspended on the box cover 101 and located in the oil separating box 100, an oil-water interface level gauge 30 suspended on the box cover 101 and located in the oil separating box 100, an inlet pipe 50 disposed at the bottom of the oil separating box 100, and an outlet pipe 40.

The liquid inlet pipe 50 is provided with a liquid inlet pump 51 for pumping an external mixed liquid into the oil-liquid separation tank 100.

The water outlet pipe 40 is provided with a water outlet pump 41, an electric valve 42 and a first electromagnetic valve 43, and the electric valve 42 is connected with a switch. The utility model provides a when fluid autosegregation ware starts, open through this on-off control motorised valve 42.

The oil separator tank 100 is further provided with an overflow port 70 at a position near the top of the side thereof remote from the filter cartridge 20. A second solenoid valve may also be connected to the overflow port 70.

The oil-water interface level gauge 30, the liquid inlet pump 51, the water outlet pump 41 and the first electromagnetic valve 43 are all connected to the controller 10. The controller 10 may preset a first level value and a second level value, where the second level value is smaller than the first level value.

The oil-water interface level gauge 30 is used for detecting the position of an oil-water interface in the oil-water separation tank 100, and when the position of the oil-water interface is higher than or equal to a first level value, which indicates that the amount of water in the oil-water separation tank 100 is too large, the controller 10 controls the first electromagnetic valve 43 to open, controls the water outlet pump 41 to work, and controls the liquid inlet pump 51 to stop working, so as to discharge the water in the oil-water separation tank 100.

When the position of the oil-water interface is lower than or equal to the second liquid level value, which indicates that the oil amount in the oil-water separation tank 100 is large and the water amount is small at this time, the controller 10 controls the first electromagnetic valve 43 to close, controls the water outlet pump 41 to stop working, and controls the liquid inlet pump 51 to work at the same time, so as to supplement the mixed liquid into the oil-water separation tank 100.

Oil above the overflow port 70 will flow out of the overflow port 70. If a second solenoid valve is connected to the overflow port 70, the second solenoid valve may be controlled by the controller 10.

In the present embodiment, the liquid inlet pipe 50 passes through the bottom of the oil separation tank 100, extends to the top of the oil separation tank 100, and communicates with the top of the filter cartridge 20.

The filter cartridge 20 has a cylindrical cartridge body 21 and a cartridge cover 22. The filter cartridge body 21 is a stainless steel filter screen, the top of the filter cartridge body 21 has an opening, and the filter cartridge cover 22 movably covers the opening of the filter cartridge body 21.

Referring to fig. 5, a liquid inlet 211 is formed at one side of the top of the filter cartridge 20, an arc-shaped tube 90 is connected to the top of the liquid inlet tube 50, and the end of the arc-shaped tube 90 passes through the liquid inlet 211 and extends into the filter cartridge 20.

In the inside of fluid separation case 100, be provided with rail 80 around oil water interface level gauge 30, oil water interface level gauge 30 is located the space that rail 80 encloses, and rail 80 is used for spacing oil water interface level gauge 30, prevents that oil water interface level gauge 30 from waving about the right.

The height of the bottom of the enclosure 80 is higher than that of the oil separation tank 100, so that the space surrounded by the enclosure 80 communicates with the space outside the enclosure 80 at the bottom of the enclosure 80. The enclosure 80 may also be provided with a plurality of apertures, such that the liquid composition in the space enclosed by the enclosure 80 is maintained at a level consistent with the liquid composition outside the enclosure 80.

Referring to fig. 2 again, a cleaning opening is further formed at the bottom of the oil-liquid separation box 100, the cleaning opening is connected with a cleaning pipe 60, the diameter of the cleaning pipe 60 is larger than that of the water outlet pipe 40, and a cleaning valve is connected to the cleaning pipe 60. The cleaning port and cleaning pipe 60 is used to discharge solid impurities, sludge, and the like deposited at the bottom of the oil separator 100.

One end of the water outlet pipe 40 facing the oil separation tank 100 penetrates through the bottom of the oil separation tank 100 and protrudes out of the bottom of the oil separation tank 100 by a certain height inside the oil separation tank 100, so that sludge is prevented from blocking the water outlet pipe 40.

Compared with the prior art, the automatic oil separator of the utility model comprises an oil separation box 100, a box cover 101 arranged at the top of the oil separation box 100, a controller 10 arranged outside the oil separation box 100, an oil-water interface liquid level meter 30 hung on the box cover 101 and positioned in the oil separation box 100, a liquid inlet pipe 50 arranged at the bottom of the oil separation box 100 and a water outlet pipe 40; a liquid inlet pump 51 is arranged on the liquid inlet pipe 50; the water outlet pipe 40 is provided with a water outlet pump 41, an electric valve 42 and a first electromagnetic valve 43, and the electric valve 42 is connected with a switch; an overflow port 70 is arranged at a position close to the top of one side of the oil-liquid separation box 100; the oil-water interface liquid level meter 30, the liquid inlet pump 51, the water outlet pump 41 and the first electromagnetic valve 43 are all connected with the controller 10; when the position of the oil-water interface detected by the oil-water interface level gauge 30 is higher than or equal to the first liquid level value, the controller 10 controls the first electromagnetic valve 43 to open, controls the water outlet pump 41 to work, and controls the liquid inlet pump 51 to stop working at the same time; when the position of the oil-water interface is lower than or equal to the second liquid level value, and the second liquid level value is smaller than the first liquid level value, the controller 10 controls the first electromagnetic valve 43 to close, controls the water outlet pump 41 to stop working, and controls the liquid inlet pump 51 to work at the same time. The automatic liquid inlet, oil discharging, water discharging and other functions and high working efficiency are realized, and the manual guard is not needed during normal work, so that the labor is saved.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (6)

1. An automatic oil separator is characterized in that: the oil-water interface liquid level meter is suspended on the box body cover and positioned in the oil-water separation box, and a liquid inlet pipe and a water outlet pipe are arranged at the bottom of the oil-water separation box; a liquid inlet pump is arranged on the liquid inlet pipe; the water outlet pipe is provided with a water outlet pump, an electric valve and a first electromagnetic valve, and the electric valve is connected with a switch; an overflow port is arranged at a position close to the top of one side of the oil-liquid separation tank; the oil-water interface liquid level meter, the liquid inlet pump, the water outlet pump and the first electromagnetic valve are all connected with the controller; when the position of the oil-water interface detected by the oil-water interface liquid level meter is higher than or equal to a first liquid level value, the controller controls the first electromagnetic valve to be opened, controls the water outlet pump to work, and controls the liquid inlet pump to stop working; when the position of the oil-water interface is lower than or equal to the second liquid level value, and the second liquid level value is smaller than the first liquid level value, the controller controls the first electromagnetic valve to be closed, controls the water outlet pump to stop working, and controls the liquid inlet pump to work.

2. The automatic oil separator of claim 1, wherein: still including hanging on the box lid and be located the cartridge filter in the fluid separator box, the inlet line passes the bottom of fluid separator box and communicates with the top of cartridge filter.

3. The automatic oil separator of claim 2, wherein: a liquid inlet is formed in one side of the top of the filter cartridge, an arc-shaped pipe is connected to the top of the liquid inlet pipe, and the tail end of the arc-shaped pipe penetrates through the liquid inlet and extends into the filter cartridge.

4. The automatic oil separator of claim 1, wherein: the oil-water interface liquid level meter is arranged in the oil-water separation tank, a fence is arranged around the oil-water interface liquid level meter, the oil-water interface liquid level meter is located in a space surrounded by the fence, and the bottom of the fence is higher than the bottom of the oil-water separation tank.

5. The automatic oil separator of claim 4, wherein: a plurality of through holes are formed in the fence.

6. The automatic oil separator of claim 1, wherein: the bottom of fluid separator box has still seted up the clearance mouth, and clearance mouth department is connected with the clearance pipe, and the diameter of clearance pipe is greater than the diameter of outlet pipe.

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