OIL-GAS SEPARATOR AND INTERNAL COMBUSTION ENGINE ASSEMBLY

专利摘要:
The oil-gas separator assembly comprises a rotary separation section comprising: - a rotary member (3) having a through hole for the passage of an oil-gas mixture; - a rotating skeleton (1) fixed on an outer side of the rotatable member, a rotary filter element (2) being provided in the rotating skeleton to be rotated therewith; - a connecting pipe (5) attached to an inner side of the rotary member; - a rotating wheel (4) which, attached to the rotary member and located in the connecting pipe, is used to suck the oil-gas mixture into the oil-gas separator assembly; and a stationary filtration section comprising: a housing (7) fitted to the connecting pipe; a stationary skeleton; a vent hole on the housing, and an oil drain hole at the bottom of the housing.
公开号:FR3055360A1
申请号:FR1663284
申请日:2016-12-23
公开日:2018-03-02
发明作者:Chunfeng LI；Jiawei SHEN；Nan Li
申请人:Weichai Power Co Ltd；
IPC主号:

专利说明:

Holder (s): WEICHAI POWER CO., LTD ..
Extension request (s)
Agent (s): CABINET GERMAIN & MAUREAU.
ASSEMBLY OF OIL-GAS SEPARATOR AND INTERNAL COMBUSTION ENGINE.
FR 3 055 360 - A1
The oil-gas separator assembly includes a rotary separation section comprising:
- a rotary member (3) having a through hole for the passage of an oil-gas mixture;
- a rotary skeleton (1) fixed on an external side of the rotary member, a rotary filtering element (2) being provided in the rotary skeleton to be rotated therewith;
- a connection pipe (5) fixed to an internal side of the rotary member;
- a rotary wheel (4) which, fixed to the rotary member and located in the connection pipe, is used to suck the oil-gas mixture into the oil-gas separator assembly;
and a stationary filtration section comprising: a housing (7) fitted to the connecting pipe; a stationary skeleton; a vent hole on the housing, and an oil drain hole in the bottom of the housing.

i
OIL-GAS SEPARATOR AND INTERNAL COMBUSTION ENGINE ASSEMBLY
FIELD This request relates to the technical field of the production of internal combustion engines, and in particular to an assembly of oil-gas separator and an internal combustion engine.
BACKGROUND [0002] In the operation of an internal combustion engine, part of the gases in a combustion chamber can enter a crankcase through a space between a piston ring and a cylinder liner. This part of the gas contains mist of lubricating oil and combustion products produced from combustion in the combustion chamber.
In order to reduce a rate of oil consumption and clean exhaust gas emissions, it is necessary to separate the oil from the gases when the gases enter the crankcase. A common oil-gas separator used in an internal combustion engine is relatively simple, and generally includes a housing and a stationary filter element disposed in the housing. After an oil-gas mixture enters the oil-gas separator, an oil droplet is absorbed by the filter element and the gas is discharged from the housing after passing through the filter element.
As is well known, to achieve a high oil-gas separation rate, the resistance due to the filter element must be increased, however, this can cause an increase in pressure in the crankcase, which is likely cause engine oil leakage. In addition, since all of the oil droplets in the gas oil mixture are absorbed on the stationary filter element, the stationary filter element has a short service life, so it must be replaced frequently.
Therefore, a technical problem to be solved by those skilled in the art today is the increase in the oil-gas separation effect without increasing the pressure of the gas in the crankcase and the improvement of the service life. of the filter element.
SUMMARY According to the present application, an oil-gas separator assembly is provided which increases the oil-gas separation effect without increasing the pressure of the gas in a crankcase and which prolongs the life of an element. filtering.
An internal combustion engine having the oil-gas separator assembly is further provided by the present application.
The oil-gas separator assembly according to the present application comprises a rotary separation section and a stationary filtration section, where the rotary separation section comprises:
a rotary member provided with a through hole for an oil-gas mixture passing through it;
a rotary skeleton fixedly arranged at an external side of the rotary member, and a rotary filter element is provided in the rotary skeleton to be rotated with the rotary skeleton;
a connecting pipe fixedly connected to an internal side of the rotary member; and a rotary wheel fixedly connected to the rotary member and located in the connecting pipe, where the rotary wheel is provided for sucking the oil-gas mixture in the oil-gas separator assembly and for allowing the oil- gas to pass through the oil-gas separator assembly, and the stationary filtration section comprises:
a housing fitted to the connection pipe in a leaktight manner;
a stationary skeleton arranged in the housing, where a stationary filter element is provided in the stationary skeleton; and a vent hole on the case and an oil drain hole on the bottom of the case.
Preferably, several stationary skeletons are provided in the stationary filtration section, and the stationary skeleton filter element is provided in each of the stationary skeletons.
Preferably, the vent hole is arranged at an upper part of the housing.
Preferably, the oil-gas separator assembly further includes a pressure regulating valve arranged on the housing to regulate the gas pressure in the housing and maintain the gas pressure in the housing within a predetermined range.
Preferably, the oil drain hole is arranged just below the stationary skeleton.
Preferably, a lubrication groove for temporarily storing lubricating oil is provided between the stationary skeleton and the oil discharge hole.
Preferably, the oil-gas separator assembly further includes a one-way valve arranged at the oil drain hole, which simply allows the oily liquid to flow out of the oil drain hole. oil.
Preferably, the connecting pipe is fitted to the housing in a leaktight manner by a skeleton oil seal.
An internal combustion engine according to the present application is provided with an oil-gas separator assembly in communication with a crankcase, and the oil-gas separator assembly is the oil-gas separator assembly according to l any of the above points.
Preferably, the oil-gas separator assembly is arranged in a gearbox of the internal combustion engine, and the rotary member is a gear in the gearbox.
The operating principle of the oil separator assembly according to the present application is as follows.
The oil absorption process consists in that: the rotary skeleton, the rotary filter element, the connection pipe and the rotary wheel are rotated synchronously when the rotary member rotates. Under the action of the rotary wheel, negative pressure will be generated in the oil-gas separator assembly, and the oil-gas mixture will enter the oil-gas separator assembly from one end of the rotary skeleton. Large oil droplets in the oil-gas mixture will first be absorbed by the rotary filter element, then the oil-gas mixture passes through the through hole in the rotary member and then continues to advance until reaching the cross-section. stationary filtration. Small oil droplets in the oil-gas mixture will be absorbed by the stationary filter element, and the residual clean gas will be discharged from the vent hole.
The oil delivery process consists in that: the rotary filter element throws the oil which is absorbed therein by a centrifugal force generated by the rotation, and this part of oil will return, in the form of splashing , to the oil pan. The stationary filter element discharges the separated oil droplets to the oil pan through the oil drain hole.
Since the rotary wheel generates negative pressure during rotation, the oil-gas mixture is drawn into the oil-gas assembly, and the negative pressure generated by the rotation of the wheel sufficiently overcomes the resistances due to the cross-section of rotary separation and stationary filtration section, which therefore cannot cause an increase in gas pressure in the crankcase, effectively preventing oil leakage from the crankcase. In addition, a multi-stage combination of rotary separation and stationary filtration also improves the effect of oil-gas separation. The rotating filter element can throw out the lubricating oil absorbed by centrifugal force, then self-clean. The stationary filter element is arranged downstream of the rotary filter element and absorbs a small amount of lubricating oil, so the two filter elements should not be replaced frequently. Consequently, the oil-gas separator according to the present application effectively prolongs the life of the filter element.
BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic view showing the structure of an oil-gas separator assembly according to an embodiment of the present application.
The reference numbers in the drawings:
I rotary skeleton, rotary member, connection pipe, lubrication groove housing,
II pressure regulating valve, 13 oil drain hole.
rotary filter element, rotary wheel, skeleton oil seal, stationary skeleton, one-way valve, 12 vent hole, and
DETAILED DESCRIPTION The present application provides a set of oil gas separator which increases the oil-gas separation effect without increasing the gas pressure in a crankcase, and which prolongs the life of a filter element.
An internal combustion engine having the oil-gas separator assembly is further provided according to the present application.
To better understand the skilled person the technical solution of the present application, the present application is further described in detail with reference to the drawings and the embodiments.
Referring to Figure 1, which is a schematic view showing the structure of an oil-gas separator assembly according to an embodiment of the present application.
The oil-gas separator assembly according to the present application comprises a rotary separation section and a stationary filtration section. The rotary separation section comprises a rotary member 3, a rotary skeleton 1, a rotary filter element 2, a connecting pipe 5 and a rotary wheel 4, as shown in Figure 1. The rotary member 3 is provided with a through hole for an oil-gas mixture passing through it. The rotary skeleton 1 is fixedly arranged at an external side of the rotary member 3. The rotary filter element 2 is arranged in the rotary skeleton 1 and rotates synchronously when the skeleton 1 rotates. The connection pipe 5 is fixedly connected to an internal side of the rotary member 3. The rotary wheel 4 is located in the connection pipe 5, and the rotary wheel 4 is also fixedly connected to the rotary member 3 which is used to draw an oil-gas mixture into the separator assembly and to allow the oil-gas mixture to pass through the oil-gas separator assembly. The stationary filtration section comprises a housing 7, a stationary skeleton 8 and a stationary filter element. The housing 7 is adjusted to the connection pipe 5 in a leaktight manner. The stationary skeleton 8 is arranged in the casing 7, and the stationary filter element is arranged in the stationary skeleton 8. The casing 7 is provided with a vent hole 12 for evacuating clean gases and with a oil outlet 13 for the delivery of separate lubricating oil to an oil pan.
It should be noted that, in the oil-gas separator assembly according to the present application, in the method of separating oil from gas, the oil-gas mixture first enters the rotary separation section to be separated, then enters the stationary filtration section to be separated. The external side of the rotary member 3 relates specifically to one side, which the oil-gas mixture reaches first, of the rotary member 3, and the internal side of the rotary member 3 specifically relates to another side, which the oil-gas mixture reaches second, of the rotary member 3.
Referring to Figure 1, the operating principle of the oil-gas separator assembly according to the present application is as follows.
The oil absorption process consists in that: the rotary skeleton 1, the rotary filter element 2, the connection pipe 5 and the rotary wheel 4 are rotated synchronously when the rotary member 3 turns. Under the action of the rotary wheel 4, a negative pressure will be generated in the oil-gas separator assembly, and the oil-gas mixture will enter the oil-gas separator assembly from one end of the rotary skeleton. 1. Large oil droplets in the oil-gas mixture will first be absorbed by the rotary filter element 2, then the oil-gas mixture crosses the through hole in the rotary member 3, then continues to advance until to reach the stationary filtration section. Small oil droplets in the oil-gas mixture will be absorbed by the stationary filter element, and the residual clean gas will be discharged from the vent hole 12.
The oil delivery process consists in that: the rotary filter element 2 throws the oil which is absorbed therein by a centrifugal force generated by the rotation, and this part of oil will return, in the form of splashing, to the oil pan. The stationary filter element discharges the separated oil droplets to the oil pan through the oil drain hole.
Since the rotary wheel 4 generates negative pressure during rotation, the oil-gas mixture is drawn into the oil-gas assembly. The negative pressure generated by the wheel rotation sufficiently overcomes the resistances due to the rotary separation section and the stationary filtration section, which therefore cannot cause an increase in gas pressure in the crankcase, thus effectively avoiding crankcase oil leak. In addition, a multi-stage combination of rotary separation and stationary filtration also improves the oil-gas separation effect. The rotary filter element 2 can throw away the lubricating oil absorbed under the action of centrifugal force, which makes it possible to carry out self-cleaning, and the stationary filter element is arranged downstream of the rotary filter element 2, which absorbs a small amount of lubricating oil. There is no need to replace the two filter elements frequently. Consequently, the oil-gas separator according to the present application effectively prolongs the life of the filter element.
It is easy to understand that, if a stationary skeleton 8 in which is disposed a stationary filter element is provided in the stationary filtration section, the stationary filtration section and the rotary separation section form an oil-separation system. two-stage gas. If several stationary skeletons 8, in each of which a stationary filter element is arranged, are provided in the stationary filtration section, the stationary filtration section and the rotary separation section can form a multi-stage oil-gas separation system. Assuming that an installation space and a manufacturing cost are authorized, several stationary skeletons 8 can be provided in the stationary filtration section, and each of the stationary skeletons 8 is provided, inside that -ci, a stationary filter element, which further increases the gas-oil separation effect, and improves the cleanliness of gas emissions.
It is understood that the vent hole can be provided in the form of a vent hole or of several vent holes. As shown in Figure 1, several vent holes are distributed around the entire circumference of the housing. In addition, to prevent clean gases from being mixed again in the lubricating oil during evacuation, the vent holes 12 are preferably arranged on an upper part of the housing 7. Since the density of the lubricating oil is greater than the density of the gases and since the separate lubricating oil is located at the bottom of the housing 7, this evacuation of gas from the upper part of the housing 7 effectively prevents mixing of the gases and the lubricating oil, avoiding so that clean gases are not mixed again in the lubricating oil.
In fact, the oil-gas separator assembly can generally be mounted in a crankcase of an internal combustion engine. The gas pressure in the crankcase must be maintained within a specified range. Too high or too low gas pressure can have a negative effect on the internal combustion engine. Consequently, the oil-gas separator assembly is further optimized in an embodiment of the present application, which allows the oil-gas separator assembly to also have the function of regulating the gas pressure in the crankcase. Specifically, a pressure regulating valve is provided in the housing 7, as shown in Figure 1. The pressure regulating valve 11 can regulate the gas pressure in the housing, which allows the gas pressure in the housing to always be within a predetermined range. The pressure control valve may be a conventional control valve available on the market, and since an internal structure of the pressure control valve is known to those skilled in the art, the internal structure of the control valve pressure is not described in the embodiment of the present application. Those skilled in the art will readily understand that the predetermined range of the exhaust gas pressure can be established according to an optimized gas pressure of a crankcase. For different internal combustion engines, since their crankcases have different optimum operating pressures, the emission pressures of the pressure regulating valves 11 must also be adjusted differently.
Since the oil-gas mixture passes through the stationary filtration section and the oily liquid in the mixture will be absorbed by the stationary filter element and will fall on a direct lower side of the stationary filtration section under the action of gravity, the oil drain hole 13 is arranged just below the stationary skeleton 8 to completely drain the lubricating oil in this embodiment, as shown in Figure 1. In addition, to allow the lubricating oil absorbed at other positions in the housing 7 to be collected at the position of the oil drain hole 13, a lubrication groove 9 for temporarily storing lubricating oil can be further provided between the skeleton stationary 8 and the oil drain hole 13.
In the case where the oil-gas separator assembly is arranged in the crankcase, it is particularly necessary to prevent the gas in the crankcase from entering inside the oil-gas separator assembly by through the oil drain hole 13. The gases flowing inside the oil-gas separator assembly can have a negative effect on the air flow in the oil-separator assembly- gas and cause turbulence in the air flow in the oil-gas separator and not allow an ideal oil-gas separation to be obtained. Therefore, in this embodiment, a one-way valve 10 is provided at the oil drain hole 13. The one-way valve 10 simply allows the oily liquid to flow out of the oil drain hole 13, while in a reverse direction, the one-way valve has a cut-off property. Consequently, the one-way valve can prevent gas from entering the oil-gas separator assembly through the oil drain hole 13. When the oil in the lubrication groove 9 reaches a certain height, the one-way valve 10 is opened by the action of the oil pressure, and the separated oil returns directly to an oil pan. When an amount of oil in the lubrication groove 9 is reduced to a certain level, the pressure is lowered and the one-way valve 10 is closed.
The housing 7 of the stationary filtration section must be reliably mounted on a body of the internal combustion engine, and the rotary separation section can rotate relative to the housing 7 of the stationary filtration section. For this purpose, in this embodiment, a skeleton oil seal 6 is used to seal between the rotary separation section and the housing 7 of the stationary filtration section. The skeleton oil seal 6 can provide relative movement between the rotary separation section and the housing 7 of the stationary filtration section on the one hand, and can avoid mutual interference between the gas in the oil-gas separator and the gas out of the oil-gas separator on the other hand.
In practical manufacture, it is preferred that the stationary filter element has a higher compactness than that of the rotary filter element 2 to ensure the filtration effect.
The present application further provides an internal combustion engine which is provided with an oil-gas separator assembly in communication with a crankcase, and the oil-gas separator assembly is the oil-separator assembly. gas according to any of the above embodiments.
Due to the use of the oil-gas separator assembly, the internal combustion engine has correspondingly the technical advantages of the oil-gas separator assembly, which are not further described here.
The oil-gas separator assembly is preferably arranged in a gearbox of the internal combustion engine, for example, and a gear initially existing in the gearbox can just serve as a rotating member. Thus, a fluid delivery of the lubricating oil can be obtained simply by the internal structure of the oil-gas separator assembly without, in addition, providing an external connection pipe.
It is particularly noted that the internal combustion engine 5 in the present application includes, but is not limited to, a diesel engine and a gasoline engine.
The oil-gas separator assembly and the internal combustion engine according to the present application are described in detail above. The principle and the embodiments of the present application are illustrated here by specific examples. The above description of the examples is only intended to facilitate understanding of the process and the concept of the present application. It should be noted that, for those skilled in the art, numerous modifications and improvements can be made to the present application without departing from the principle of the present application, and these modifications and improvements are also considered to fall within the scope of this application.

权利要求:
Claims (10)
[1" id="c-fr-0001]
1. An oil-gas separator assembly, comprising: a rotary separation section, and a stationary filtration section, where the rotary separation section comprises:
a rotary member (3) provided with a through hole for an oil-gas mixture passing through it;
a rotary skeleton (1) fixedly arranged at an external side of the rotary member (3), where a rotary filter element (2) is provided in the rotary skeleton (1) to be rotated with the rotating skeleton (1);
a connecting pipe (5) fixedly connected to an internal side of the rotary member (3); and a rotary wheel (4) fixedly connected to the rotary member (3) and located in the connecting pipe (5), where the rotary wheel (4) is provided for sucking the oil-gas mixture in the assembly oil-gas separator and to allow the oil-gas mixture to pass through the oil-gas separator assembly, where the stationary filtration section includes a housing (7) fitted to the connecting pipe (5) in a sealed manner;
a stationary skeleton (8) arranged in the housing (7), where a stationary filter element is provided in the stationary skeleton (8); and a vent hole (12) provided on the housing (7), and an oil drain hole (13) provided in the bottom of the housing (7).
[2" id="c-fr-0002]
2. An oil-gas separator assembly according to claim 1, wherein a plurality of stationary skeletons (8) is provided in the stationary filtration section, and the stationary skeleton filter element is provided in each of the stationary skeletons (8) .
[3" id="c-fr-0003]
3. An oil-gas separator assembly according to claim 1, wherein the vent hole (12) is arranged on an upper part of the housing (7).
[4" id="c-fr-0004]
4. An oil-gas separator assembly according to claim 3, further comprising a pressure regulating valve (11) arranged on the housing (7) for regulating the gas pressure in the housing and maintaining the gas pressure in the housing within a predetermined range.
[5" id="c-fr-0005]
5. An oil-gas separator assembly according to claim 1, in which the oil discharge hole (13) is arranged just below the stationary skeleton (8).
[6" id="c-fr-0006]
6. An oil-gas separator assembly according to claim 5, wherein a lubrication groove (9) for temporarily storing lubricating oil is provided between the stationary skeleton (8) and the oil discharge hole (13 ).
[7" id="c-fr-0007]
7. Oil-gas separator assembly according to claim 6, further comprising a one-way valve (10) arranged at the oil drain hole (13) and simply allowing the oily liquid to flow out of the hole d '' oil drain (13).
[8" id="c-fr-0008]
8. An oil-gas separator assembly according to claim 1, wherein the connecting pipe (5) is fitted to the housing (7) in a sealed manner by a skeleton oil seal (6).
[9" id="c-fr-0009]
9. Internal combustion engine, comprising the oil-gas separator assembly according to any one of claims 1 to 8, in communication with a crankcase.
[10" id="c-fr-0010]
10. Internal combustion engine according to claim 9, wherein the oil-gas separator assembly is arranged in a gearbox of the internal combustion engine, and the rotary member (3) is a gear in the gearbox .
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引用文献:

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FR2933626B1|2008-07-10|2011-01-21|Filtrauto|DEVICE WITH ROTOR WITH MEDIA COALESCER FOR SEPARATING THE OIL FROM THE CASING GASES OF AN INTERNAL COMBUSTION ENGINE.|

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FR2959425B1|2010-04-30|2013-01-25|Filtrauto|DEVICE FOR SEPARATING CARTER GAS OIL FROM AN INTERNAL COMBUSTION ENGINE|

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DE102011016893B4|2011-04-13|2015-10-29|Mann + Hummel Gmbh|Oil separator for separating at least oil from an aerosol|

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CN205206905U|2015-11-18|2016-05-04|南车玉柴四川发动机股份有限公司|Gas engine crankcase ventilation unit|CN110017280B|2019-04-29|2021-06-29|艾珍机械设备制造（上海）有限公司|Oil-gas separation device for air compressor|

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法律状态:
2017-12-29| PLFP| Fee payment|Year of fee payment: 2 |

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2018-12-20| PLFP| Fee payment|Year of fee payment: 3 |

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2019-10-18| PLSC| Publication of the preliminary search report|Effective date: 20191018 |

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2019-12-27| PLFP| Fee payment|Year of fee payment: 4 |

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2020-12-11| PLFP| Fee payment|Year of fee payment: 5 |

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2021-12-15| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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CN201610726139.3A|CN106224056B|2016-08-25|2016-08-25|A kind of Oil-gas Separation device assembly and internal combustion engine|

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CN201610726139.3|2016-08-25|

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