CN210599334U - Oil remover of reciprocating compressor - Google Patents

Oil remover of reciprocating compressor Download PDF

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Publication number
CN210599334U
CN210599334U CN201921187312.2U CN201921187312U CN210599334U CN 210599334 U CN210599334 U CN 210599334U CN 201921187312 U CN201921187312 U CN 201921187312U CN 210599334 U CN210599334 U CN 210599334U
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China
Prior art keywords
buffer
air pipe
cooler
separator
outlet
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CN201921187312.2U
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Chinese (zh)
Inventor
张永安
胡金明
王小磊
高威
徐亮亮
王立业
李艳芳
孙玲敏
郭新
邵杰
谷聪玉
平曼曼
牛轲
胡博
葛玲玲
刘鹏
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Henan Kaixiang Fine Chemical Co ltd
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Henan Kaixiang Fine Chemical Co ltd
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Abstract

The utility model discloses a reciprocating compressor degreaser in the technical field of degreasing, which comprises a first inlet separator, a first inlet buffer, a first-stage cylinder, a fourth cooler and a degreaser, wherein the first inlet separator is connected with the first inlet buffer through an air pipe, the first inlet buffer is connected with the first-stage cylinder through an air pipe, the first-stage cylinder is connected with a first outlet buffer through an air pipe, the first cooler is connected with the first outlet separator through an air pipe, the fourth inlet buffer is connected with a fourth-stage cylinder through an air pipe, the fourth-stage cylinder is connected with the fourth outlet buffer through an air pipe, the fourth outlet buffer is connected with the fourth cooler through an air pipe, the fourth cooler is connected with the degreaser through an air pipe, oil drops absorbed in the air are removed through the degreaser, and the safe operation of a subsequent system is ensured, the economical and practical performance is stronger.

Description

Oil remover of reciprocating compressor
Technical Field
The utility model relates to an deoiling technical field specifically is a reciprocating compressor degreaser.
Background
The original reciprocating compressor needs to fill oil into the cylinder to lubricate the piston, and the oil can not be separated completely after being separated by the separator. After the oil is sent to a subsequent device along with the gas, the reaction of the subsequent system is influenced due to the existence of oil drops when the subsequent system uses the medium gas, and the normal operation of the equipment and the sensitivity and the tightness of a valve switch are influenced due to the fact that oil stains are attached to the equipment and the pipeline.
Disclosure of Invention
An object of the utility model is to provide a reciprocating compressor degreaser to be used for lubricated oil can not separate clean problem among the current reciprocating compressor who proposes in solving above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme: a reciprocating compressor oil eliminator comprises a first inlet separator, a first inlet buffer, a first-stage cylinder, a first outlet buffer, a first cooler, a first outlet separator, a second inlet buffer, a second-stage cylinder, a second outlet buffer, a second cooler, a second separator, a third inlet buffer, a third-stage cylinder, a third outlet buffer, a third cooler, a third separator, a fourth inlet buffer, a fourth-stage cylinder, a fourth outlet buffer, a fourth cooler and an oil eliminator, wherein the first inlet separator is connected with the first inlet buffer through an air pipe, the first inlet buffer is connected with the first-stage cylinder through an air pipe, the first-stage cylinder is connected with the first outlet buffer through an air pipe, the first outlet buffer is connected with the first cooler through an air pipe, and the first cooler is connected with the first outlet separator through an air pipe, the first outlet separator is connected with a second inlet buffer through an air pipe, the second inlet buffer is connected with a second-stage air cylinder through an air pipe, the second-stage air cylinder is connected with a second outlet buffer through an air pipe, the second outlet buffer is connected with a second cooler through an air pipe, the second cooler is connected with a second separator through an air pipe, the second separator is connected with a third inlet buffer through an air pipe, the second inlet buffer is connected with a third-stage air cylinder through an air pipe, the third-stage air cylinder is connected with a third outlet buffer through an air pipe, the third outlet buffer is connected with a third cooler through an air pipe, the third cooler is connected with a third separator through an air pipe, the third separator is connected with a fourth inlet buffer through an air pipe, and the fourth inlet buffer is connected with a fourth-stage air cylinder through an air pipe, the four-stage cylinder is connected with a fourth outlet buffer through an air pipe, the fourth outlet buffer is connected with a fourth cooler through an air pipe, and the fourth cooler is connected with an oil remover through an air pipe.
The models of the first inlet buffer, the second inlet buffer, the third inlet buffer and the fourth inlet buffer are correspondingly adjusted according to different unit parameters.
The types of the first-stage cylinder, the second-stage cylinder, the third-stage cylinder and the fourth-stage cylinder are correspondingly adjusted according to different unit parameters.
The models of the first export buffer, the second export buffer, the third export buffer and the fourth export buffer are correspondingly adjusted according to different unit parameters.
The types of the first cooler, the second cooler, the third cooler and the fourth cooler are correspondingly adjusted according to different unit parameters.
The types of the first inlet separator, the first outlet separator, the second separator and the third separator are correspondingly adjusted according to different unit parameters.
The filling amount of the active carbon in the oil remover is 2-3m3
Compared with the prior art, the beneficial effects of the utility model are that: through the setting of this reciprocating compressor degreaser, structural design is reasonable, the utility model discloses deoiling facility design is unique, and simple structure is compact, and excellent in use effect. The method for eliminating the oil carried in the medium gas of the reciprocating engine is creatively designed, and the problem of oil carried in the gas caused by oil injection of the reciprocating engine into the cylinder is well solved. The special oil removing device is designed and manufactured, the problem that the oil carrying capacity of the reciprocating engine gas is large is well solved, and the influence of the oil carrying capacity of the reciprocating engine medium gas on a subsequent system is avoided.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
In the figure: 1 a first inlet separator, 2 a first inlet buffer, 3 a first stage cylinder, 4 a first outlet buffer, 5 a first cooler, 6 a first outlet separator, 7 a second inlet buffer, 8 a second stage cylinder, 9 a second outlet buffer, 10 a second cooler, 11 a second separator, 12 a third inlet buffer, 13 a third stage cylinder, 14 a third outlet buffer, 15 a third cooler, 16 a third separator, 17 a fourth inlet buffer, 18 a fourth stage cylinder, 19 a fourth outlet buffer, 20 a fourth cooler, 21 an oil remover.
Detailed Description
The technical solutions in the examples of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described examples are only some examples of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
The utility model provides a following technical scheme: a reciprocating compressor degreaser, which is used to solve the problem of large oil carrying capacity of gas in a reciprocating engine, please refer to fig. 1, including a reciprocating compressor degreaser, which includes a first inlet separator 1, a first inlet buffer 2, a first-stage cylinder 3, a first outlet buffer 4, a first cooler 5, a first outlet separator 6, a second inlet buffer 7, a second-stage cylinder 8, a second outlet buffer 9, a second cooler 10, a second separator 11, a third inlet buffer 12, a third-stage cylinder 13, a third outlet buffer 14, a third cooler 15, a third separator 16, a fourth inlet buffer 17, a fourth-stage cylinder 18, a fourth outlet buffer 19, a fourth cooler 20, and a degreaser 21;
referring to fig. 1 again, a first inlet separator 1 is connected to a first inlet buffer 2 through an air pipe, the first inlet buffer 2 is connected to a first stage cylinder 3 through an air pipe, the first stage cylinder 3 is connected to a first outlet buffer 4 through an air pipe, the first outlet buffer 4 is connected to a first cooler 5 through an air pipe, the first cooler 5 is connected to a first outlet separator 6 through an air pipe, the first outlet separator 6 is connected to a second inlet buffer 7 through an air pipe, the second inlet buffer 7 is connected to a second stage cylinder 8 through an air pipe, the second stage cylinder 8 is connected to a second outlet buffer 9 through an air pipe, the second outlet buffer 9 is connected to a second cooler 10 through an air pipe, the second cooler 10 is connected to a second separator 11 through an air pipe, the second separator 11 is connected to a third inlet buffer 12 through an air pipe, the second inlet buffer 7 is connected to a third stage cylinder 13 through an air pipe, the third-stage cylinder 13 is connected with a third outlet buffer 14 through an air pipe, the third outlet buffer 14 is connected with a third cooler 15 through an air pipe, the third cooler 15 is connected with a third separator 16 through an air pipe, the third separator 16 is connected with a fourth inlet buffer 17 through an air pipe, the fourth inlet buffer 17 is connected with a fourth-stage cylinder 18 through an air pipe, the fourth-stage cylinder 18 is connected with a fourth outlet buffer 19 through an air pipe, the fourth outlet buffer 19 is connected with a fourth cooler 20 through an air pipe, the fourth cooler 20 is connected with an oil remover 21 through an air pipe, specifically, the four cylinders are lubricated by the oil remover, oil after the four cylinders are lubricated enters the follow-up state along with gas, and is finally removed by the oil remover 21, and the oil in the gas is adsorbed by activated carbon in the oil remover 21;
referring to fig. 1 again, in order to improve the oil removing performance of the oil remover 21, the filling amount of the activated carbon in the oil remover 21 is determined according to the amount of the gas to be filtered and the oil content in the gas.
In the specific use process, according to the properties of lubricating oil used by the reciprocating compressor and the design characteristics of the reciprocating compressor, oil is required to be injected into each stage of cylinder and piston for lubrication, oil mixed gas is separated from the first stage of cylinder 3 through the first outlet separator 6, oil mixed gas enters the second stage of cylinder 8 and the third stage of cylinder 14 through the second separator 11 and the third separator 16 respectively according to the same method, oil drops which are not completely separated are gathered at the last stage along with medium gas and enter the oil remover 21 to be adsorbed by activated carbon after lubrication, the medium gas with oil is introduced into the activated carbon oil remover 21, and the oil drops in the gas are adsorbed and separated through the activated carbon to eliminate the oil content in the medium gas.
While the invention has been described above with reference to certain embodiments, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the various embodiments disclosed herein can be used in any combination with one another, and the description of such combinations that is not exhaustive in this specification is merely for brevity and resource saving. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (7)

1. An oil eliminator of a reciprocating compressor, characterized in that: comprises a first inlet separator (1), a first inlet buffer (2), a first-stage cylinder (3), a first outlet buffer (4), a first cooler (5), a first outlet separator (6), a second inlet buffer (7), a second-stage cylinder (8), a second outlet buffer (9), a second cooler (10), a second separator (11), a third inlet buffer (12), a third-stage cylinder (13), a third outlet buffer (14), a third cooler (15), a third separator (16), a fourth inlet buffer (17), a fourth-stage cylinder (18), a fourth outlet buffer (19), a fourth cooler (20) and an oil remover (21), wherein the first inlet separator (1) is connected with the first inlet buffer (2) through an air pipe, and the first inlet buffer (2) is connected with the first-stage cylinder (3) through an air pipe, the first-stage air cylinder (3) is connected with a first outlet buffer (4) through an air pipe, the first outlet buffer (4) is connected with a first cooler (5) through an air pipe, the first cooler (5) is connected with a first outlet separator (6) through an air pipe, the first outlet separator (6) is connected with a second inlet buffer (7) through an air pipe, the second inlet buffer (7) is connected with a second-stage air cylinder (8) through an air pipe, the second-stage air cylinder (8) is connected with a second outlet buffer (9) through an air pipe, the second outlet buffer (9) is connected with a second cooler (10) through an air pipe, the second cooler (10) is connected with a second separator (11) through an air pipe, the second separator (11) is connected with a third inlet buffer (12) through an air pipe, and the second inlet buffer (7) is connected with a third-stage air cylinder (13) through an air pipe, the three-stage cylinder (13) is connected with a third outlet buffer (14) through an air pipe, the third outlet buffer (14) is connected with a third cooler (15) through an air pipe, the third cooler (15) is connected with a third separator (16) through an air pipe, the third separator (16) is connected with a fourth inlet buffer (17) through an air pipe, the fourth inlet buffer (17) is connected with a fourth-stage cylinder (18) through an air pipe, the fourth-stage cylinder (18) is connected with a fourth outlet buffer (19) through an air pipe, the fourth outlet buffer (19) is connected with a fourth cooler (20) through an air pipe, and the fourth cooler (20) is connected with an oil remover (21) through an air pipe.
2. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the models of the first inlet buffer (2), the second inlet buffer (7), the third inlet buffer (12) and the fourth inlet buffer (17) are correspondingly adjusted according to different unit parameters.
3. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the types of the first-stage cylinder (3), the second-stage cylinder (8), the third-stage cylinder (13) and the fourth-stage cylinder (18) are correspondingly adjusted according to different unit parameters.
4. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the types of the first outlet buffer (4), the second outlet buffer (9), the third outlet buffer (14) and the fourth outlet buffer (19) are correspondingly adjusted according to different unit parameters.
5. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the types of the first cooler (5), the second cooler (10), the third cooler (15) and the fourth cooler (20) are adjusted correspondingly according to different unit parameters.
6. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the types of the first inlet separator (1), the first outlet separator (6), the second separator (11) and the third separator (16) are correspondingly adjusted according to different unit parameters.
7. The oil eliminator of a reciprocating compressor as claimed in claim 1, wherein: the filling amount of the active carbon in the oil remover (21) is 2-3m3
CN201921187312.2U 2019-07-26 2019-07-26 Oil remover of reciprocating compressor Active CN210599334U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921187312.2U CN210599334U (en) 2019-07-26 2019-07-26 Oil remover of reciprocating compressor

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921187312.2U CN210599334U (en) 2019-07-26 2019-07-26 Oil remover of reciprocating compressor

Publications (1)

Publication Number Publication Date
CN210599334U true CN210599334U (en) 2020-05-22

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CN201921187312.2U Active CN210599334U (en) 2019-07-26 2019-07-26 Oil remover of reciprocating compressor

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110332094A (en) * 2019-07-26 2019-10-15 河南开祥精细化工有限公司 A kind of reciprocating compressor oil expeller

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110332094A (en) * 2019-07-26 2019-10-15 河南开祥精细化工有限公司 A kind of reciprocating compressor oil expeller

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