KR20190070021A - Ventilation System for Commercial Engine - Google Patents

Abstract

The present invention relates to a ventilation system for a commercial engine, which composes a mixture of new air and blow-by gas to improve the purifying performance of a CCV filter. According to an embodiment of the present invention, the ventilation system for a commercial engine comprises: the CCV filter which includes: an inlet port connected to an exhaust side of the engine, through which the blow-by gas is introduced, and an outlet port through which the purified blow-by gas is discharged to be returned to the engine; an air compressor which connects the new air introduced through an intake duct to the CCV filter by a fluid through a connection port; a drain port through which the oil purified by the CCV filter is drained; and another inlet port through which the new air introduced through the intake duct is introduced into the CCV filter through the air compressor.

Description

Commercial Ventilation System for Commercial Engine < RTI ID = 0.0 >

The present invention relates to a commercial engine ventilation system, and more preferably, a generator introduced into an intake port through an air compressor is introduced into a CCV filter to increase the purification efficiency of the oil contained in the blowby gas And more particularly to a commercial engine ventilation system.

BACKGROUND ART [0002] An internal combustion engine, which is generally used as a power source in a vehicle or the like, includes a cylinder defining a combustion chamber having a predetermined volume, a piston reciprocating in the combustion chamber, a crank mechanism for rotating the reciprocating motion of the piston, A rocker cover (or cylinder head cover) mounted thereon, an oil pan mounted on the lower portion of the cylinder to receive the lubricating oil, and the like.

Wherein the internal combustion engine performs a reciprocating motion of the piston by injecting fuel and air into the combustion chamber and then compressing and exploding the mixture of fuel and air to cause the reciprocating motion of the piston to change rotational motion through the crank mechanism Thereby generating a rotational power necessary for driving the vehicle.

A part of the unburned gas leaks to the rocker cover or the oil pan in the expansion stroke during the compression stroke during operation of the internal combustion engine. The blowby gas leaking as described above deteriorates the lubricating oil stored in the oil pan or corrodes the interior of the internal combustion engine.

As described above, if the blowby gas harmful to the internal combustion engine is released from the internal combustion engine into the atmosphere, it causes air pollution. Therefore, the blowby gas is withdrawn from the internal combustion engine and then returned to the combustion chamber of the internal combustion engine, A reflux system has been applied to internal combustion engines.

A conventional blow-by gas reflux system uses a closed crankcase ventilation (hereinafter referred to as CCV), in which the rocker cover or the oil pan is introduced into the intake system of the internal combustion engine, for example, And a ventilation passage connected to a surge tank for guiding the blowby gas leaked to the rocker cover or the oil pan to the intake system of the internal combustion engine through the ventilation passage.

Fig. 1 shows a conventional structure in which a housing incorporating a CCV filter for separating oil contained in blowby gas, an inflow port for allowing blowby gas leaking into the crankcase of the internal combustion engine to flow into the housing, A discharge port through which the blowby gas introduced through the port is drained to the intake system of the internal combustion engine after the oil is filtered through the filter, a drain port for draining the oil filtered through the filter to the oil pan, and the like .

However, there is a problem that sludge is formed in the case of the CCV filter because the pressure of the blowby gas reduced from the CCV filter to the engine is low, and the sludge is accumulated in the CCV filter case and the purification performance of the CCV filter is remarkably low .

Patent Document 1: Korean Patent Laid-Open No. 10-2009-0055234

SUMMARY OF THE INVENTION It is an object of the present invention to provide a commercial engine ventilation system configured to fluidly connect a generator introduced through an intake port to a CCV filter.

In addition, the present invention aims at injecting compressed air through a compressor into a CCV filter, thereby increasing the flow rate of purified blowby gas.

The present invention also provides a commercial engine ventilation system in which a purifying performance is improved through a connection port fluidly connected to the filter so that a fresh air is injected into the CCV filter.

The objects of the present invention are not limited to the above-mentioned objects, and other objects of the present invention which are not mentioned can be understood by the following description and can be more clearly understood by the embodiments of the present invention. Further, the objects of the present invention can be realized by the means shown in the claims and their combinations.

A commercial engine ventilation system for achieving the object of the present invention includes the following configuration.

A commercial engine ventilation system of the present invention includes a CCV filter connected to an engine exhaust side and including an inlet port through which blowby gas is introduced and an exhaust port through which cleaned blowby gas is discharged to return to the engine; An air compressor configured to be fluidly connected to the CCV filter through a connection port for introducing incoming air from the intake duct; A drain port configured to drain the purified oil from the CCV filter; And a connection port through which the air entering the air intake duct flows into the CCV filter through the air compressor.

In addition, the connection port configured to be fluidly connected to the air compressor to allow the fresh air to flow may be configured to have the same height as the inflow port.

Further, the exhaust port configured to reflux the purified blowby gas to the engine is configured to be positioned higher than the connection port.

Also, the flow velocity of the blowby gas refluxed through the discharge port is higher than the flow velocity of the blowby gas flowing through the inlet port.

The inlet port may be eccentrically coupled to the CCV filter.

The present invention can obtain the following effects by the above-described embodiment, the constitution described below, the combination, and the use relationship.

The present invention has an effect of providing a commercial engine ventilation system which is configured to fluidly connect a generator introduced through an intake port with a CCV filter, thereby improving the purification efficiency of the CCV filter.

Further, the present invention has an effect that the flow rate of the blowby gas recirculated in the CCV filter is increased, and the cycle of the engine oil change is increased through the purifying efficiency of the filter.

1 shows a ventilation system connected to a CCV filter in the prior art.
2 is a block diagram of a ventilation system of a commercial engine according to an embodiment of the present invention.
3 is a block diagram showing a configuration of a ventilation system of a commercial engine according to one embodiment of the present invention.
4 is a block diagram of a CCV filter according to an embodiment of the present invention.
5 shows a fluid connection relationship of a CCV filter according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the following embodiments. This embodiment is provided to more fully describe the present invention to those skilled in the art.

Further, the term "... port" or the like described in the specification refers to a unit for processing at least one function or operation, and may be implemented by hardware or a combination of hardware.

The present invention relates to a commercial engine ventilation system (100) applied to a commercial engine, wherein a part of uncombusted gas in a commercial engine leaks a part of the combustion gas toward the rocker cover or the oil pan (90) do. The blowby gas leaked as described above prevents the problem of deteriorating the lubricating oil stored in the oil pan 90 or corroding the interior of the internal combustion engine.

As described above, the blowby gas reflux system uses a closed crankcase ventilation system, and this system controls the blowby gas located at the end of the engine 80 to flow through the ventilation passage of the internal combustion engine To the system.

2 is a block diagram of a commercial engine ventilation system 100 according to an embodiment of the present invention.

An internal combustion engine includes an engine (80) including a plurality of cylinders each having a combustion chamber, an oil pan (90) containing lubricating oil is mounted on the lower portion of the cylinder, and a rocker cover do.

An intake duct 50 for supplying outside air to the combustion chamber and an exhaust manifold for exhausting exhaust gas generated by combustion of the fuel in the combustion chamber are connected to the upper portion of the cylinder.

The blowby gas of the engine 80 discharged from each exhaust manifold is configured to flow into the CCV filter 10 through the inlet port 20 and the blowby gas purified by the CCV filter 10 is supplied to the engine 80, . Further, purified blowby gas may be configured to flow into the intake system of engine 80.

An inlet port 20 and an outlet port 30 in fluid communication with the CCV filter 10 are configured to be located in the housing of the CCV filter 10 and the oil pan 90 is connected to the bottom of the CCV filter 10 housing And a drain port 40 for discharging the exhaust gas.

That is, the blowby gas connected to the exhaust manifold of the engine 80 flows into the CCV filter 10 side and flows into the CCV filter 10 to be purified by the inside of the CCV filter 10 to be separated into blowby gas and oil, The oil separated through the filter 10 is configured to flow into the oil pan 90 through the drain port 40.

Further, the purified blowby gas is configured to be refluxed to the engine 80 through the exhaust port 30 located in the CCV filter 10 housing. More preferably, the refluxed blowby gas can be configured to flow into the intake system and into the cylinder.

The other end of the connection port 70 is connected to the intake duct 50 so as to be connected to the outside of the vehicle. New air) is introduced into the CCV filter 10.

In addition, in an embodiment of the present invention, the air compressor 60 is configured to flow the incoming air into the housing of the CCV filter 10 such that the pressure of the incoming air through the intake duct 50 is increased do.

That is, in order to prevent the blowby gas from being discharged to the intake duct 50 because the pressure inside the housing of the CCV filter 10 into which the blowby gas flows is higher than the atmospheric pressure, the connection port 70, into which the blowing- (60) so that the pressure of the fresh air entering the housing of the CCV filter (10) is higher than the pressure of the blowby gas located inside the housing.

3 shows a configuration of a CCV filter 10 as an embodiment of the present invention.

As shown, the CCV filter 10 of the present invention includes a housing and a drain port 40 at the bottom.

The engine is configured such that the oil-containing blowby gas is introduced into the housing of the CCV filter 10 through the inlet port 20 connected to the manifold through which the blow-by gas of the engine 80 is discharged, and by the CCV filter 10 The purified blowby gas is returned to the engine 80, and the purified oil is configured to be drained to the oil pan 90.

As a feature of the present invention, the fresh air introduced through the intake duct 50 to the outside of the vehicle is formed to pass through the air compressor 60 and have a pressure higher than the pressure of the blowby gas inside the CCV filter 10 housing, Is configured to flow into the CCV filter (10) housing through the connection port (70).

More preferably, the connection port 70 is eccentrically connected to the housing of the CCV filter 10 such that a high pressure generator enters the housing of the CCV filter 10 to increase the filtration efficiency of the CCV filter 10 Effect.

In summary, in the CCV filter 10 constituted by the cyclone filter, the incoming air is introduced and the incoming air and the blowby gas can perform the rotational flow, and a cyclone filter is disposed inside the CCV filter 10 in accordance with the rotational flow And the flow rate of the passing-through blowby gas and the mixed gas of the fresh gas is increased. Accordingly, the cleaning efficiency of the blowby gas located inside the CCV filter 10 is increased.

4 is a block diagram of a commercial engine ventilation system 100 according to an embodiment of the present invention.

As shown in the figure, the CCV filter 10 includes a configuration of a CCV filter 10 connected to a manifold of an engine 80 (a rocker cover or a cylinder head) through which blowby gas is discharged, To the engine (80).

The blowby gas flowing into the CCV filter 10 from the engine 80 is separated into oil and cleaned blowby gas through the CCV filter 10 containing the oil. Further, the separated oil flows into the oil pan 90 through the drain port 40 located in the CCV filter 10.

In addition, since the fresh air is introduced into the CCV filter 10 through the intake duct 50 to perform the purification of the CCV filter 10, the blowby gas and the flow inside the CCV filter 10 housing .

Furthermore, the incoming air entering the CCV filter 10 is configured to have a pressure higher than the pressure of the blowby gas located inside the CCV filter 10 through the air compressor 60, so as to prevent backflow of the blowby gas do.

5 shows a detailed view of the configuration of the inlet port 20, the outlet port 30 and the connection port 70 in fluid communication with the CCV filter 10, according to one embodiment of the present invention.

An inlet port 20, an outlet port 30 and a connection port 70 connected to a housing configured to enclose the CCV filter 10 as shown in FIG. (70) are configured to be located at substantially the same height of the CCV filter (10).

The inlet port 20 and the connection port 70 are positioned at the same height of the CCV filter 10 so that the blowby gas introduced from the engine 80 exhaust manifold and the high pressure by the air compressor 60 Is mixed and flows.

The blowby gas and the fresh gas having different flow rates are configured to flow at the same height of the CCV filter 10, and the blowby gas and the fresh gas have the effect of increasing the flow rate through the rotational motion.

The blowby gas and the fresh gas whose flow rate is increased are configured to be purified inside the CCV filter 10 constituted by the cyclone filter, and the purifying efficiency of the filter is increased in accordance with the increase of the flow rate.

The blowby gas purified through the CCV filter 10 is configured to be returned to the engine 80 through the inlet port 20 and the outlet port 30 located at the top of the connection port 70, The purified blowby gas is configured to flow into the engine 80 from the CCV filter 10 having a high flow rate.

The foregoing detailed description is illustrative of the present invention. In addition, the foregoing is intended to illustrate and explain the preferred embodiments of the present invention, and the present invention may be used in various other combinations, modifications, and environments. That is, it is possible to make changes or modifications within the scope of the concept of the invention disclosed herein, within the scope of the disclosure, and / or within the skill and knowledge of the art. The described embodiments are intended to illustrate the best mode for carrying out the technical idea of the present invention and various changes may be made in the specific applications and uses of the present invention. Accordingly, the detailed description of the invention is not intended to limit the invention to the disclosed embodiments. It is also to be understood that the appended claims are intended to cover such other embodiments.

10: CCV filter
20: inlet port
30: exhaust port
40: drain port
50: Intake duct
60: Air Compressor
70: connection port
80: engine
90: Oil pan
100: commercial engine ventilation system

Claims (5)

A CCV filter connected to the engine and including an inlet port through which the blowby gas flows and a discharge port through which cleaned blowby gas is discharged to return to the engine;
An air compressor configured to be fluidly connected to the CCV filter for entering incoming air from the intake duct;
A drain port configured to drain the purified oil from the CCV filter; And
And a connection port through which the incoming air from the intake duct flows into the CCV filter through the air compressor.
The method according to claim 1,
Wherein the connection port configured to be fluidly connected to the air compressor to receive the fresh air is configured to have the same height as the inlet port of the CCV filter.
The method according to claim 1,
Wherein the exhaust port configured to reflux the purified blowby gas to the engine is configured to be positioned higher than the connection port.
The method according to claim 1,
Wherein the flow velocity of the blowby gas refluxed through the discharge port is higher than the flow velocity of the blowby gas flowing through the inlet port.
The method according to claim 1,
Wherein the inlet port is eccentrically coupled to the CCV filter.

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