CN219098824U - Efficient oil-water separator for engine part cleaning line - Google Patents

Abstract

The utility model relates to a high-efficiency oil-water separator for an engine part cleaning line, which comprises a separator body, wherein one side of the separator body is provided with an oil skimming module, and the other side of the separator body is provided with an oil scraping module; the oil scraping module is used as a primary oil removing part and is correspondingly used for primary oil removing of the cleaning liquid; the oil skimming module is used as a secondary oil removal part for performing secondary oil removal on the cleaning liquid after primary oil removal, and comprises a floating surface oil receiving head to form a secondary oil removal structure for timely removing separated floating oil; and the second-stage oil removing part feeds back through the corresponding first-stage oil removing part to form a high-efficiency oil-water separation structure.

Description

Efficient oil-water separator for engine part cleaning line

Technical Field

The utility model relates to an engine manufacturing technology and using production equipment, in particular to a high-efficiency oil-water separator for an engine part cleaning line.

Background

One problem commonly existing in the industry of engine production equipment is that a numerical control machining center and other metal machining equipment widely use metal cutting fluid for cooling and lubricating, parts can be cleaned in a surface treatment process before assembly, oil content in cleaning fluid is accumulated more and more so as to influence cleaning quality, odor-generating variable is easy to negatively influence production environment quality, finally, the service cycle of the cleaning fluid can be shortened due to the fact that the accumulated oil content is too high, the oil content of sewage is too high to enable the sewage not to reach standard emission requirements, and great cost pressure is brought to subsequent treatment.

Therefore, there is a need to provide a high-efficiency oil-water separator for an engine component cleaning line to solve the above problems.

Disclosure of Invention

The utility model aims to provide a high-efficiency oil-water separator for an engine part cleaning line.

The utility model realizes the aim through the following technical scheme:

the technical scheme is as follows:

a high-efficient oil-water separator for engine parts cleaning line, including separating the body, separating one side of the body and setting up the oil skimming module, another side has oil scraping module;

the oil scraping module is used as a primary oil removing part and is correspondingly used for primary oil removing of the cleaning liquid; the oil skimming module is used as a secondary oil removal part for performing secondary oil removal on the cleaning liquid after primary oil removal, and comprises a floating surface oil receiving head to form a secondary oil removal structure for timely removing separated floating oil; and the second-stage oil removing part feeds back through the corresponding first-stage oil removing part to form a high-efficiency oil-water separation structure.

Further, the first-level oil removal part comprises a first-level oil separation tank, and an oil wiper is correspondingly arranged in the first-level oil separation tank.

Further, the oil wiper is a wheel type oil wiper.

Further, a chute communicating part is arranged between the primary oil removing part and the secondary oil removing part, and an inclined plate agglomeration block is arranged in the chute communicating part.

Furthermore, a nano bubble release head is arranged on the separator body and is used as a runner outlet for splitting bubbles into nano-scale dimensions by collision cutting of a gas-liquid mixed solution containing nano bubbles in a high-speed swirling flow field.

Further, a mixed flow pump matched with the nanobubble release head is arranged on the separator body.

Further, an oil drain port is arranged on the separator body.

Further, the separator body is correspondingly provided with a liquid inlet and a water outlet.

Compared with the prior art, the utility model effectively performs oil-water separation of the cleaning liquid of the engine cleaning line through the secondary degreasing setting, improves the service cycle of the cleaning liquid, reduces the replacement frequency of the cleaning liquid and ensures the cleaning efficiency of engine parts.

Drawings

Fig. 1 is a schematic diagram of the structure of the present utility model.

FIG. 2 is a second schematic structural view of the present utility model.

Detailed Description

Referring to fig. 1-2, the present embodiment shows a high-efficiency oil-water separator for an engine component cleaning line, which includes a separator body 1, wherein an oil skimming module 2 is disposed on one side of the separator body 1, and an oil scraping module 3 is disposed on the other side of the separator body;

the oil scraping module 3 is used as a primary oil removing part and is correspondingly used for primary oil removing of the cleaning liquid;

the oil skimming module 2 is used as a secondary oil removal part for performing secondary oil removal on the cleaning liquid after primary oil removal and comprises a floating surface oil receiving head 21 to form a secondary oil removal structure for timely removing separated floating oil; and the second-stage oil removing part feeds back through the corresponding first-stage oil removing part to form a high-efficiency oil-water separation structure.

The primary oil removal part comprises a primary oil separation tank 31, and the primary oil separation tank 31 is correspondingly provided with an oil wiper 32.

The wiper 32 is a wheel wiper.

A chute communicating part 4 is arranged between the primary degreasing part and the secondary degreasing part, and a sloping plate agglomeration block 41 is arranged in the chute communicating part 4.

The separator body 1 is provided with a nanobubble release head 5, and the nanobubble release head 5 is used as a runner outlet for splitting bubbles into nanoscale dimensions by collision cutting of a gas-liquid mixed solution containing nanobubbles in a high-speed swirling flow field.

The separator body 1 is provided with a mixed flow pump 6 matched with the nano bubble release head, and the mixed flow pump 6 is used as a nano bubble generation system of the nano bubble release head 5 to provide power, fully mix, collide and dissolve gas-liquid two phases and maintain a certain pressure.

An oil drain port 6 is arranged on the separator body 1.

The separator body 1 is also provided with a liquid inlet 8 and a water outlet 7.

Compared with the prior art, the utility model effectively performs oil-water separation of the cleaning liquid of the engine cleaning line through the secondary degreasing setting, improves the service cycle of the cleaning liquid, reduces the replacement frequency of the cleaning liquid and ensures the cleaning efficiency of engine parts.

What has been described above is only some of the embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (7)

1. A high-efficient oil water separating centrifuge for engine parts washs line, its characterized in that: comprises a separator body, wherein one side of the separator body is provided with an oil skimming module, and the other side is provided with an oil scraping module;

the oil scraping module is used as a primary oil removing part and is correspondingly used for primary oil removing of the cleaning liquid; the oil skimming module is used as a secondary oil removal part for performing secondary oil removal on the cleaning liquid after primary oil removal, and comprises a floating surface oil receiving head to form a secondary oil removal structure for timely removing separated floating oil; the second-stage oil removing part feeds back through the corresponding first-stage oil removing part to form a high-efficiency oil-water separation structure; a chute communicating part is arranged between the primary deoiling part and the secondary deoiling part, and an inclined plate agglomeration block is arranged in the chute communicating part.

2. The high-efficiency oil-water separator for an engine component cleaning line of claim 1, wherein the high-efficiency oil-water separator comprises the following components: the first-stage oil removal part comprises a first-stage oil separation tank, and an oil wiper is correspondingly arranged in the first-stage oil separation tank.

3. The high-efficiency oil-water separator for an engine component cleaning line according to claim 2, wherein: the oil wiper is a wheel type oil wiper.

4. A high efficiency oil water separator for an engine component cleaning line according to claim 3, wherein: the separator body is provided with a nano bubble release head which is used as a runner outlet for splitting bubbles into nano-scale dimensions by collision cutting of gas-liquid mixed liquid containing nano bubbles in a high-speed swirling flow field.

5. The high-efficiency oil-water separator for an engine component cleaning line of claim 4, wherein: the separator body is provided with a mixed flow pump matched with the nanobubble release head.

6. The high-efficiency oil-water separator for an engine component cleaning line of claim 5, wherein: an oil drain port is arranged on the separator body.

7. The high-efficiency oil-water separator for an engine component cleaning line of claim 6, wherein: the separator body is also correspondingly provided with a liquid inlet and a water outlet.

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