KR101519752B1 - Device for ventilating blow-by gas using truss of cylinder block - Google Patents

Abstract

The present invention relates to a blow-by gas purging device using a truss of a cylinder block, capable of improving blow-by efficiency by improving a connector structure of an oil separator and a truss structure of the cylinder block. In other words, the present invention provides a blow-by gas purging device using a truss of the cylinder block, capable of improving a purging efficiency of the blow-by gas by making the blow-by gas flow towards an oil separator through first to third trusses except for a fourth truss when the fourth gas does not smoothly inhale the blow-by gas because oil is driven into a front sump by improving first and third spaces and fourth space of the cylinder block with a connectable structure when an oil fan with the front sump is applied.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a blow-by gas blowing apparatus using a truss of a cylinder block,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blow-by gas blowing apparatus using a truss of a cylinder block, and more particularly, to a truss structure of a cylinder block and a truss structure of a cylinder block for improving blow- The present invention relates to a blow-

Generally, automobile exhaust gas includes a mixture of combustion chambers and blow-by gas in which unburned gas leaks into the crankcase of the engine, and fuel evaporation gas in which fuel in the fuel tank evaporates and is released into the atmosphere.

Such automobile exhaust gas contains harmful substances such as carbon monoxide (CO), nitrogen oxides (NOx), and hydrocarbons (HC), and is discharged into the atmosphere, which causes environmental pollution. Therefore, automobile exhaust gas is forced into the intake system And a blow-by gas recirculation device for re-combustion after being sent to the combustion chamber of the engine is applied.

The blow-by gas recirculation device is used for closed crankcase ventilation (CCV). The blow-by gas recirculation device discharges the blow-by gas generated during the engine combustion process and filters the engine oil contained in the blow- A separator is used.

The engine oil separated from the oil separator is drained toward the oil pan, and the blowby gas is recirculated to the intake air.

1 and 2 are cross-sectional views showing a truss (blow-by gas passage) and an oil separator formed in a conventional cylinder block.

1, reference numeral 10 denotes a cylinder block, and reference numeral 20 denotes an oil pan.

The cylinder block 10 has a hollow portion such as a water jacket and a truss in addition to the space in which the piston and the crankshaft are disposed.

Particularly, the truss is used as a passage for taking out engine oil and blow-by gas in addition to the weight reduction effect of the cylinder block.

The trusses are formed from the first to sixth trusses 11 to 16 along the longitudinal direction of the cylinder block. The trusses are divided into a vertical space forming an independent space and a horizontal space Lt; / RTI >

Generally, since the partition wall is formed between the third truss 13 and the fourth truss 14, the first to third trusses 11 to 13 are formed as an integrated space, and the trusses 4 to 6 14 to 16 are formed as an integral space, and trusses 14 to 16 of No. 4 to No. 6 are used as passages for blowing out the blowby gas.

Thus, the blowby gas that has escaped from the combustion chamber of the engine is sucked through the trusses 14 to 16 and flows into the oil separator 30.

At this time, the blow-by gas outlet connector 32 of the oil separator 30 is press-fitted into the outlet of the take-out passage in the cylinder block so that the blib gas enters the oil separator 30 through the connector 32 do.

The blowby gas is sucked through the fourth to sixth trusses 14 to 16, passed through the connector 32, and then enters the oil separator 30, whereby the engine oil is drained toward the oil pan, Is recirculated to the intake.

On the other hand, in the case of a type in which the oil pan 21 has a front sump while the oil in the oil pan is pushed back due to a sump structure such as a sump of the oil pan 20 at the time of running on the back plate of the vehicle (maximum 33% The oil in the front sump is filled with oil. In the case of the type having the rear sump, the oil is filled in the rear sump. As a result, the inlet of the 5th and 6th trusses is immersed in the oil. (14) is a passage through which the blowby gas is sucked.

3, when the oil pan 20 has a front sump, the gap between the oil surface of the front sump and the fourth truss 14 (oil gas passage) is small, and the flow of the blow- As the blowby gas and the oil are taken out together and sucked into the oil separator, a blowover occurs in which the oil excessively flows into the oil separator, resulting in a problem that the blowby gas separation efficiency by the oil separator is deteriorated.

On the other hand, as shown in FIG. 4, when the oil pan 20 has a rear sump, the gap between the oil surface of the sump and the fourth truss 14 is large, so that the blow- Only the blow-by gas flows into the oil separator, so that the blower phenomenon does not occur.

As described above, in the case of the oil pan having the front sump at the time of running the maximum inclined back plate (33%) of the vehicle, only the fourth truss extracts the blowby gas, so that the clearance between the oil surface and the truss 4 is small, The blow-by gas is taken out of the oil separator together with the oil so that the oil is excessively introduced into the oil separator, resulting in a problem of deterioration of the blow-by gas separation efficiency due to the oil separator .

Furthermore, when a blow-over phenomenon occurs in which excessive oil flows into the oil separator, most of the inflowed oil flows into the intake manifold and also flows into the turbocharger and the intercooler, resulting in breakage of the turbocharger, It may enter the combustion chamber and cause engine damage due to engine diesel ringing or combustion instability.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an oil pan having a front sump, which is improved in a structure in which truss spaces 1 to 3 of a cylinder block and a truss space of a fourth cylinder can communicate with each other, In case the oil is poured into the front sump at the time of maximum sloping, and the suction of the blowby gas is not smooth by the truss 4, the blowby gas is sucked through the trusses 1 to 3 in addition to the truss 4 to flow into the oil separator And an object of the present invention is to provide a blow-by gas blowout device using a truss of a cylinder block which can improve blow-out efficiency of blow-by gas.

Another object of the present invention is to provide an oil separator in which a resistance hollow body serving as a resistance against blow-by gas is integrally formed at the press-fitting portion of the blow-by gas outlet connector and protruded toward the outlet of the take- When the blowby gas enters the oil separator, it touches the resistance hollow body and flows into the hollow body so that the blowover phenomenon can be prevented.

According to an aspect of the present invention, there is provided a fuel cell system including: a cylinder block having first to third trusses communicated with each other, and a fourth to sixth truss communicating with each other, An oil pan disposed at a lower end of the cylinder block; An oil separator mounted at an outlet of a take-out passage in a cylinder block communicating with the trusses 4 to 6; Wherein when the oil is poured into the front sump of the oil pan, the blowby gas is sucked through the trusses 1 to 3, and at the same time, The truss and the oil separator, and the truss and the oil separator.

According to an embodiment of the present invention, the communication means includes: a through hole formed through the partition wall as a machining hole machined from the outer surface of the cylinder block toward the partition wall; A sealing cap tightly fastened to a machining hole formed on an outer surface of the cylinder block; .

The communication means according to another embodiment of the present invention is characterized in that: the cylinder block is connected at one end thereof to the trusses 1 to 3 in a communicable manner, and the other end thereof is connected to a truss .

Preferably, the connector of the oil separator is formed with a resistance hollow body protruding from the outlet of the take-out passage in the cylinder block.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

First, by applying the structure in which the communication means is formed between the truss space of No. 1 to No. 3 of the cylinder block and the truss space of No. 4, the oil is poured into the front sump of the oil pan at the time of running the maximum inclined plate, The blowby gas is sucked through the trusses 1 to 3 in addition to the truss 4 and flows through the connecting means to the truss 4 and the oil separator 4, thereby improving the extraction efficiency of the blowby gas .

Second, a resistance hollow body serving as a resistance against blow-by gas is integrally formed in the press-fitting portion of the blow-by gas outlet connector of the oil separator so as to protrude toward the outlet of the take-out passage in the cylinder block, It is possible to prevent a blow-over phenomenon in which the blow-by gas containing oil temporarily enters the oil separator.

1 and 2 are sectional views showing a truss and an oil separator formed in a conventional cylinder block,
FIGS. 3 and 4 are cross-sectional views showing a flow path of a conventional blowby gas at maximum slope travel according to an oil pan structure,
FIGS. 5 to 7 are cross-sectional views illustrating a blow -by gas taking-out apparatus using a truss of a cylinder block according to an embodiment of the present invention,
FIG. 8 and FIG. 9 are cross-sectional views illustrating a blow -by gas taking-out apparatus using a truss of a cylinder block according to another embodiment of the present invention,
10 is a cross-sectional view showing a structure of a connector of an oil separator as a blow-by gas extraction device using a truss of a cylinder block according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 through FIG. 7 are cross-sectional views illustrating a blowby gas taking-out apparatus using a truss of a cylinder block according to an embodiment of the present invention.

5 to 7, in the cylinder block 10, there is a hollow portion such as a water jacket and a truss in addition to the space in which the piston and the crankshaft are disposed. The truss space has a weight reducing effect of the cylinder block, And is used as a passage for blow-by gas extraction.

The trusses are formed from the first to sixth trusses 11 to 16 along the longitudinal direction of the cylinder block. The trusses are divided into a vertical space forming an independent space and a horizontal space Lt; / RTI >

Since the partition 18 is formed between the third truss 13 and the transverse space of the fourth truss 14, the first through third trusses 11 through 13 are formed by the partition walls 18, 4 to 6 trusses 14 to 16 are used as another space, and trusses 14 to 16 of No. 4 to 6 are used as a passage for taking out the blowby gas.

An oil pan 20 having a front sump in which engine oil is stored is disposed at a lower end portion of the cylinder block 10.

The oil separator 30 for separating the oil from the blowby gas and draining the oil into the oil pan is mounted in the take-out passage outlet 17 in the cylinder block 10 communicating with the trusses 14 to 16 do.

Particularly, according to an embodiment of the present invention, the communication means 40 for communicating the partition 18 between the first to third trusses 11 to 13 and the fourth truss 14 is formed.

In more detail, the communication means 40 according to an embodiment of the present invention includes a through-hole forming process which is formed through the partition wall through a process of forming a machining hole machined from the outer surface of the cylinder block 10 toward the partition wall 18 A hole 42 and a sealing cap 44 which is tightly fastened to a machining hole formed on the outer surface of the cylinder block 10. [

When the vehicle is running backward (up to 33%), the oil enters the front sump of the oil pan 20 while the vehicle is running backward (up to 33%) and the bottom inlet of the trusses 5 and 6 is submerged in the oil. Is a passage through which blow-by gas is sucked.

At this time, the flow of the blowby gas is unfavorable because the distance between the oil sump on the front sump and the truss 14 is small, and the blowby gas and the oil are taken out together with the oil separator 30, Blowover may occur where excess oil enters the oil separator.

However, through-holes 42 are formed in the partition wall 18 of the cylinder block 10 so that the first to third trusses 11 to 13 are in communication with the fourth truss 14, The blowby gas is sucked through the lower ends of the trusses 11 to 13 and then flows through the through hole 42 to the truss 14 and then flows into the cylinder block 10 through the take- And enters the oil separator 30 through the passage 32 via the passage outlet 17.

According to the embodiment of the present invention, when the maximum sloping plate travels, the oil is poured into the front sump of the oil pan 20, so that even if the suction of the blowby gas is not smooth by the truss 14, The blowby gas is sucked through the first to third trusses 11 to 13 and flows through the through hole 42 of the partition wall 18 to the fourth truss 14 and the oil separator 30 The blow-out efficiency of blow-by gas can be improved.

8 to 9 are cross-sectional views illustrating a blow-by gas extraction apparatus using a truss of a cylinder block according to another embodiment of the present invention.

According to another embodiment of the present invention, the pipe type communication means 40 is connected between the trusses 11 to 13 and the truss 14 of the first to third trusses.

More specifically, the communicating means 40 according to another embodiment of the present invention is configured such that one end of the communicating means 40 is connected to the trusses 11 to 13 at one side from the outer surface of the cylinder block 10, Is adopted as a pipe 46 communicably connected to the No. 4 truss 14.

Therefore, even if the flow of the blowby gas is in a state in which the distance between the oil surface of the oil sump of the oil pan 20 and the fourth truss 14 is small, the first to third trusses 11 to 13, The blowby gas is sucked through the lower end of the cylinder block 10 and then flows through the pipe 46 to the fourth truss 14 and then flows through the outlet port 17 in the cylinder block 10 to the connector 32 Through the oil separator 30.

According to another embodiment of the present invention, the oil is poured into the front sump of the oil pan 20 when the maximum inclined back plate is driven, so that even if the blow-by gas is not sucked smoothly by the fourth truss 14, The blowby gas is sucked through the first to third trusses 11 to 13 and flows through the pipe 46 to the fourth truss 14 and the oil separator 30, It is possible to improve the extraction efficiency.

On the other hand, a resistance hollow body 34 is protruded from the connector 32 of the oil separator 30 and extends toward the extraction passage outlet 17 in the cylinder block 10.

More specifically, at the position where the oil separator 30 is mounted, the connector 32 of the oil separator 30 is press-fitted by the wall thickness of the cylinder block 10 to be connected to the extraction passage outlet 17 in the cylinder block 10 A resistance hollow body 34 is further formed at the front end of the connector 32 so as to protrude further into the outlet passage 17.

By thus forming the resistance hollow body 34 at the front end of the connector 32, the resistance hollow body 34 serves as a resistance against the blow-by gas.

That is, when the blowby gas flows into the extraction passage outlet 17 through the fourth truss 11 and then enters the oil separator 30 through the connector 32, the blowby gas flows into the resistance hollow body 34 to flow into the connector 32 through the internal passage of the resistance hollow body 34 so that the blowby gas containing the oil enters the oil separator at a time and flows into the oil separator 36 of the oil separator 34, An overload phenomenon for gas separation and a blow-over phenomenon in which the oil excessively enters the oil separator can be prevented.

10: Cylinder block
11: Truss 1
12: Truss 2
13: truss 3
14: Truss 4
15: truss 5
16: truss 6
17: Exit passage exit
18:
20: Oil pan
30: oil separator
32: Connector
34: Resistive hollow body
40: communication means
42: Through hole
44: sealing cap
46: pipe

Claims (4)

delete A cylinder block 10 in which first to third trusses 11 to 13 communicated with each other and fourth to sixth trusses 14 to 16 communicating with each other are independently divided by partition walls;
An oil pan 20 disposed at a lower end of the cylinder block 10;
An oil separator 30 mounted at the outlet of the take-out passage in the cylinder block 10 communicating with the trusses 14 to 16 of the No. 4 to No. 6; , ≪ / RTI &
When the communication means 40 is formed between the first to third trusses 11 to 13 and the fourth truss 14 so that the oil is poured into the front sump of the oil pan 20, Through the third truss 11-13 and through the communication means 40 to the fourth truss 14 and the oil separator 30,
The communication means (40) comprises:
A through hole 42 formed through the partition wall as a machining hole machined from the outer surface of the cylinder block 10 toward the partition wall 18;
A sealing cap 44 hermetically coupled to a machining hole formed in the outer surface of the cylinder block 10;
Wherein the cylinder block is a cylinder block.
A cylinder block 10 in which first to third trusses 11 to 13 communicated with each other and fourth to sixth trusses 14 to 16 communicating with each other are independently divided by partition walls;
An oil pan 20 disposed at a lower end of the cylinder block 10;
An oil separator 30 mounted at the outlet of the take-out passage in the cylinder block 10 communicating with the trusses 14 to 16 of the No. 4 to No. 6; , ≪ / RTI &
When the communication means 40 is formed between the first to third trusses 11 to 13 and the fourth truss 14 so that the oil is poured into the front sump of the oil pan 20, Through the third truss 11-13 and through the communication means 40 to the fourth truss 14 and the oil separator 30,
The communication means (40) comprises:
One end of the outer surface of the cylinder block 10 is communicably connected to the trusses 11 to 13 and the other end of the cylinder block 10 is connected to the truss 14 in a communicable manner. Wherein the cylinder block is a cylinder block.
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