VOLUME FLOW CONTROL VALVE

Abstract

The invention relates to a volume flow control valve with a control function for ventilating the crankcase of an internal combustion engine in a housing between a crank chamber of a crankcase and an intake tract with at least two openings between the crank chamber and the intake tract.

Claims

1. A volume flow control valve with a feedback-control function for ventilating the crankcase of an internal combustion engine in a housing between a crank chamber of a crankcase and an intake tract with at least two openings between the crank chamber and the intake tract, characterized in that the cross-section of at least one first opening is generally constant, and the cross-section of at least one second opening is spanned by at least one spring sheet, said spring sheet opens a lower volume flow at first through the second opening when the pressure difference between the crank chamber and the intake tract increases, and switches at a defined high pressure drop, the spring sheet reduces the cross-section of the second opening and closes it, so that the volume flow is localized through the first opening and is limited to a lower level, even if the pressure difference increases further.

2. The volume flow control valve according to claim 1, characterized in that the spring sheet is attached at the housing with a bias by a downholder.

3. The volume flow control valve according to claim 1, characterized by having a flow barrier for deviating the gas flow in the intake tract downstream of the openings.

4. The volume flow control valve according to claim 3, characterized in that the flow barrier comprises a non-woven and/or a baffle, which separate gas-borne particles, such as oil droplets, from the gas flow.

Description

[0011] Accordingly, it has been the object of the present invention to limit the amount of gas for aerating or ventilating the crankcase, to regulate the reduced pressure in the crank chamber, optionally to separate the oil from the blow-by gas, and all this using a small and compact mounting space.

[0012] In a first embodiment, the above object is achieved by a volume flow control valve with a feedback-control function for ventilating the crankcase of an internal combustion engine in a housing 2 between a crank chamber 1 of a crankcase and an intake tract 8 with at least two openings 5a, 5b, 6 between the crank chamber 1 and the intake tract 8,

characterized in that the cross-section of at least one first opening 5a, 5b is essentially constant, and the cross-section of at least one second opening 6 is spanned by at least one spring sheet 3, said spring sheet 3 opens a lower volume flow at first through the second opening 6 when the pressure difference between the crank chamber 1 and the intake tract 8 increases, switches at a defined high pressure drop, the spring sheet 3 thus reducing the cross-section of the second opening 6 and ultimately closing it, that the volume flow is localized through the first opening 5a, 5b and is limited to a lower level, even if the pressure difference increases further.

[0013] The volume flow control valve according to the invention controls the gas flow, or the pressure difference between the ventilated crankcase or crank chamber 1, and the intake tract 8. The valve directs the gas from the crank chamber 1 through the intake tract 8 into the combustion room, but it also avoids that a high reduced pressure propagates into the crankcase during partial load operation in the intake tract 8, for example, in an Otto engine.

[0014] The present invention provides a gas and pressure control with a defined valve characteristic diagram and a small mounting space. With at least one spring sheet 3, the flowed-through cross-section of opening 6 between the crankcase 1 and the intake tract 8 is reduced, and thus the gas flow and the pressure drop are controlled.

[0015] Another advantage of the present invention resides in the fact that there is only one movable element, namely spring sheet 3.

[0016] Spring sheet 3 serves to control the flowed-through cross-section. For example, spring sheet 3 can be mounted in the region of crank chamber 1 under a defined bias 4 to open the way of the gas flow through the opening 6. If the pressure drop increases because of a higher suction pressure, the spring sheet 3 will move towards the wall of the housing 2 up to the point where the opening 6 is completely closed.

[0017] FIGS. 1 and 2 represent a volume flow control valve having a feedback control function according to the invention, preferably for aeration or ventilation, which is mounted in an internal combustion engine, for example, in a housing 2 between a crank chamber 1 of a crankcase and an intake tract 8, which, when the pressure difference between the two spaces 1 and 8 interconnected through the valve increases, has a volume flow rate that also increases at first. The downholder 7 provides that the spring sheet 3 can move only up to a topmost position point in a rest position when the latter is in a state of rest. The switching point of the valve is also set thereby.

[0018] FIG. 3 represents the pressure course or the pressure loss as a function of the volume flow rate of the blow-by gas. With increasing pressure loss, the volume flow rate V within the range 11 increases at first to a maximum of 10. Now, the spring sheet 3 switches. At a defined higher pressure loss in the range 12 of FIG. 3 after leaving range 11, the valve reduces the cross-section of the opening gap 6 in such a way that the volume flow rate is reduced again even when the pressure difference increases further, the remaining opening 5a, 5b being unaffected thereby. If the pressure loss increases further after the opening 6 has been closed, the gas can flow only through the opening 5a, 5b. However, since the cross-section of the opening 5a, 5b is constant, the volume flow rate is limited.

[0019] While the spring sheet has the constant opening 5a in FIGS. 1 and 2, the constant opening is shown through a hole 5b in the housing 2 in FIGS. 4 and 5.

[0020] Thus, in contrast to valves having a similar mechanism, the control function is represented by at least one spring sheet 3 in the volume flow control valve according to the invention, which reduces the size of at least one opening 6 or one corresponding gap when the pressure loss increases (from range 11 through 12 and 13 in FIG. 3), and sets the switching range 12 to the lower volume flow level 13 through a possible bias, for example, through a metal sheet structure 4 on the housing 2 and optionally additional downholders 7.

[0021] In another preferred embodiment of the present invention, the volume flow control valve is characterized by having at least one flow barrier 9 for deviating the gas flow in the intake tract 8 downstream of the openings 5. The separation of oil from a blow-by gas into the structure according to the invention can be integrated thereby. Thus, the oil separation unit is arranged separately and is not a direct or necessary component of the valve, but a preferred component of the concept according to the invention, resulting in a separation of the oil droplets from the blow-by gas leaving the crankcase.

[0022] FIGS. 6 to 9 represent analogous volume flow control valves according to the invention corresponding to FIGS. 1 to 4, which differ from the latter Figures only by the presence of the additional flow barrier 9. Because of the forced change of direction of the gas flow, oil droplets separate here, which can be recycled into the oil circulation of the internal combustion engine. While FIG. 7 shows the closed position of FIG. 6, FIG. 9 shows the closed position of FIG. 8. Here too, the flowed-through cross-section of opening 6 and thus the gas flow and the pressure drop are controlled by spring sheet 3. The high flow rate accelerates the droplets that impinge when redirected, in particular, against a non-woven or a baffle 9 and adhere thereto. The aerosol from the crank chamber 1, which is usually a mixture (for example, blow-by) of gas and air as well as gas-borne particles (for example, oil droplets), should be recirculated to the intake tract 8 and thus to combustion without oil fractions if possible. The aerosol flows through the volume flow control valve according to the invention through the cross-sections of openings 5, which are small in comparison. Because of the cross-section reduction of the free travelling path, the flow rate increases, and the gas-borne particles are accelerated. Shortly behind the housing opening, which separates the crank chamber 1 from the intake tract 8, the flow barrier 9 is localized, which is flowed at or flowed through, for example, and redirects the gas flow. Because of the inertia of the droplets in the aerosol, the latter impinge against the barrier 9 and are thus separated or deposited from the gas flow for the major part thereof.

[0023] Therefore, the characteristic pressure loss/volume flow curve according to FIG. 10 corresponds to that in FIG. 3, so that the ranges 14, 15 and 16 correspond to those of ranges 11, 12 and 13 of FIG. 3.

[0024] In FIG. 11, the volume flow control valve according to the invention in accordance with FIG. 1 is represented three-dimensionally. The reference symbols have corresponding meanings. It can be seen that the openings 6 are not local openings, but a cleaning gap. Thus, the annular spring sheet 3 closes this cleaning gap 6.