Patent Grant
10502105
1. Field of the Invention
The invention relates to a dividing wall structure for a liquid collecting device for a vehicle structure comprising a crankshaft and connecting rods, preferably a combustion engine (e.g. an internal combustion engine). The invention likewise relates to an associated liquid collecting device.
2. Description of the Related Art
Oil collecting devices for arranged beneath crankshaft/connecting rod structures are known in a very wide variety of embodiments in the prior art. The particular disadvantage of conventional oil collecting devices is the fact that oil can collect in corner regions of the oil collecting devices when in a sloping position, with the result that a suction cage lies above the oil level of the oil to be extracted. Another disadvantage with conventional oil collecting devices is, for example, that they tend towards relatively heavy oil deposits.
It is an object of one aspect of the invention to provide an improved and/or alternative liquid collecting device can be obtained.
The invention provides a dividing wall structure for a liquid collecting device for a vehicle structure comprising a crankshaft and connecting rods, e.g. a combustion engine, in particular an internal combustion engine (e.g. diesel engine) or some other piston machine.
The dividing wall structure comprises at least two liquid channels and at least two shaped portions for turning, in particular rotating, crankshaft and/or connecting-rod sections, whereby liquid can be forced out of the shaped portions, preferably via the liquid channels, and in particular can be delivered, e.g. pumped and/or squeezed, out of the shaped portions. In particular, each shaped portion is used for one turning crankshaft and/or connecting-rod section.
Consequently, the dividing wall structure is embodied in such a way that it allows exploitation of a turning motion, in particular the turning motion performed during normal operation, of the crankshaft and/or connecting-rod sections, to force liquid out of the shaped portions, preferably from recess to recess and/or towards a liquid extraction region.
Consequently, the dividing wall structure can have an integrated liquid delivery function, in particular, together with turning crankshaft and/or connecting-rod sections.
The dividing wall structure can be formed from a single dividing wall element or from a plurality of, preferably at least two, separate dividing wall elements.
The crankshaft and/or connecting-rod sections expediently comprise lower crankshaft and/or connecting-rod sections, preferably the lowermost crankshaft and/or connecting-rod sections.
It is possible for at least one liquid channel to connect one shaped portion to another shaped portion, preferably an adjacent shaped portion, expediently directly or indirectly, with the result that liquid delivery, in particular from shaped portion to shaped portion and/or towards a liquid extraction region, is preferably made possible. As an alternative or supplementary measure, it is possible for at least one liquid channel to connect a shaped portion to a liquid extraction region, expediently directly or indirectly, thus preferably allowing liquid delivery, in particular from shaped portion to shaped portion and/or towards the liquid extraction region.
At least one liquid channel can expediently have a liquid inlet and a liquid outlet. The liquid inlet can be formed in a shaped portion or adjacent thereto. The liquid outlet can be formed in another, preferably adjacent, shaped portion or adjacent thereto.
In the context of one aspect of the invention, it is consequently possible for at least one liquid channel to connect two, preferably adjacent, shaped portions directly (inlet in one shaped portion and outlet in the other shaped portion) or indirectly (inlet in one shaped portion or adjacent thereto and outlet in the other shaped portion or adjacent thereto).
In the context of one aspect of the invention, it is thus possible for at least one liquid channel to connect one shaped portion directly to a liquid extraction region (inlet in shaped portion and outlet in liquid extraction region) or indirectly (inlet in shaped portion or adjacent thereto and outlet in liquid extraction region or adjacent thereto).
It is possible for at least one liquid channel to have a channel cross section that tapers in the direction of liquid delivery in order, for example, to achieve a pressure difference and/or a delivery effect. The channel cross section preferably tapers in the direction of liquid delivery.
It is possible for a gap for receiving liquid to be formed between the shaped portions and the turning crankshaft and/or connecting-rod sections.
It is possible for the shaped portions to be designed in accordance with the envelope geometry of the turning motion of the crankshaft and/or connecting-rod sections, plus a clearance dimension (e.g. at least 1 mm, 2 mm, 3 mm, 4 mm or 5 mm) to form the gap to receive liquid between the shaped portions and the turning crankshaft and/or connecting-rod sections.
It follows from this, in particular, that the envelope geometry of a rotational motion of the crankshaft is mirrored in the dividing wall structure, expediently by the shaped portions. The mirror image is designed with a defined clearance, such that the clearance can form the gap.
In particular, the gap is embodied in such a way that liquid is forced out of the gap into the liquid channels by the turning motion of the crankshaft and/or connecting-rod sections.
In particular, the shaped portions are embodied in such a way that liquid is forced out of the shaped portions into the liquid channels by the turning motion of the crankshaft and/or connecting-rod sections.
The dividing wall structure is preferably used for arrangement under the vehicle structure and/or for arrangement under the crankshaft and the connecting rods.
The dividing wall structure is preferably embodied as a cover unit for the liquid collecting device.
The dividing wall structure can be embodied as a moulding, for example, e.g. as a plastic moulding, with integrated shaped portions and/or integrated liquid channels. This makes it possible, for example, for the shaped portions and liquid channels to be one-piece integral parts of the dividing wall structure.
The liquid is preferably oil.
The liquid from the shaped portions is preferably squeezed or pumped into the liquid channels by the turning crankshaft and/or connecting-rod sections.
The gap can therefore be referred to, in particular, as a pumping gap and/or the liquid channels can be referred to, in particular, as pump channels.
It should also be mentioned in the context of the invention that at least one liquid channel, in particular a liquid channel leading to the liquid extraction region, can be designed as a simple opening, recess and/or hole, that is to say preferably with essentially no longitudinal extent or a very short longitudinal extent.
It should furthermore be mentioned that a recess for a crankshaft bearing assembly can be formed between the shaped portions.
It should furthermore be mentioned that the shaped portions are designed as depressions in the dividing wall structure.
The shaped portions are preferably used to receive turning crankshaft and/or connecting-rod sections and, as an alternative or in addition, to receive liquid, in particular oil, from the vehicle structure.
The invention is not restricted to a dividing wall structure but also includes a liquid collecting device for a vehicle structure comprising a crankshaft and connecting rods, e.g. a combustion engine, in particular a diesel engine, or some other piston machine. The liquid collecting device is provided with a dividing wall structure as disclosed herein.
The liquid collecting device preferably comprises a liquid trough for receiving liquid, having a liquid extraction region that has a liquid extraction cage or some other liquid extraction device, for example.
The liquid extraction region is preferably arranged substantially in the center of the liquid trough. It is expedient for delivery to be towards the center because it is here that the liquid extraction region is situated, in particular with the liquid extraction device (liquid extraction cage). The liquid extraction device should be below the liquid level of the liquid extraction region at all times and thus in virtually any sloping position since otherwise air would be drawn into the liquid circuit and, for example, it would thus no longer be possible to ensure engine lubrication or at least no longer possible to ensure proper engine lubrication.
The liquid collecting device can furthermore have a pump unit for extracting the liquid from the liquid extraction region, in particular by means of the liquid extraction device.
It should be mentioned that the vehicle structure preferably comprises an internal combustion engine, in particular diesel engine, which is stationary, for example. However, it can also comprise some other piston machine (e.g. lubricating circuit, oil sump etc.).
The dividing wall structure comprises a plurality of shaped portions, e.g. at least four, at least five or at least six shaped portions, wherein one shaped portion is expediently formed for each turning crankshaft and/or connecting-rod section.
The invention furthermore relates to an arrangement having a vehicle structure, which comprises a crankshaft and connecting rods, and a liquid collecting device as disclosed herein.
Other objects and features of the present invention will become apparent from the following detailed description considered in conjunction with the accompanying drawings. It is to be understood, however, that the drawings are designed solely for purposes of illustration and not as a definition of the limits of the invention, for which reference should be made to the appended claims. It should be further understood that the drawings are not necessarily drawn to scale and that, unless otherwise indicated, they are merely intended to conceptually illustrate the structures and procedures described herein.
In the drawings:
The above-described preferred embodiments and features of the invention can be combined with one another. Other advantageous developments of the invention are disclosed in the dependent claims and will become apparent from the following description of preferred embodiments of the invention in conjunction with the attached figures.
The dividing wall structure 1 is embodied as a cover unit for the oil collecting device F and is arranged underneath the crankshaft 2 and the connecting rods 3.1 to 3.6.
Underneath the dividing wall structure 1, the oil collecting device F comprises an oil sump 4 for collecting oil from the vehicle structure V. The oil sump 4 comprises an oil extraction region 5, from which oil can be pumped away by way of an oil pump 6 by an oil suction cage arranged in the oil extraction region 5.
The dividing wall structure 1 is made up of two separate dividing wall elements, a left-hand dividing wall element and a right-hand dividing wall element in
The dividing wall structure 1 comprises a plurality of oil channels K1, K2, K3, K4, K5 and K6 and a plurality of shaped portions A1, A2, A3, A4, A5 and A6 for turning crankshaft and/or connecting-rod sections, expediently lower, in particular lowermost crankshaft and/or connecting-rod sections. One shaped portion A1 to A6 is provided for each connecting rod 3.1 to 3.6 and thus for each crankshaft and/or connecting-rod section.
The shaped portions A1 to A6 are shaped in such a way that oil is forced out of the shaped portions A1 to A6 into the liquid channels K1 to K6 by the turning motion of the crankshaft and/or connecting-rod sections, with the result that oil delivery from shaped portion to shaped portion towards the oil extraction region 5 is achieved.
In particular, oil is forced out of shaped portion A1 to shaped portion A2 via liquid channel K1, oil is forced out of shaped portion A2 to shaped portion A3 via liquid channel K2, and oil is forced out of shaped portion A3 towards the oil extraction region 5 via liquid channel K3.
In particular, oil is forced out of shaped portion A6 to shaped portion A5 via liquid channel K6, oil is forced out of shaped portion A5 to shaped portion A4 via liquid channel K5, and oil is forced out of shaped portion A4 towards the oil extraction region 5 via liquid channel K4.
From this, it can be seen that liquid delivery from shaped portion to shaped portion towards the oil extraction region 5 can be provided in the context of the invention.
Consequently, the dividing wall structure 1 can perform an integrated oil delivery function together with the turning crankshaft and/or connecting-rod sections.
A gap S for receiving oil between shaped portions A1 to A6 and the turning crankshaft and/or connecting-rod sections is expediently formed between shaped portions A1 to A6 and the turning crankshaft and/or connecting-rod sections. It is self-evident that a respective gap S is expediently formed for each connecting rod 3.1 to 3.6 and/or for each shaped portion A1 to A6. The gaps S can be of identical or different dimensions.
In particular, shaped portions A1 to A6 are designed in accordance with the envelope geometry of the turning motion of the crankshaft and/or connecting-rod sections, plus a clearance dimension to form the gap S. It follows from this that shaped portions A1 to A6 mirror the envelope geometry of a rotational motion of the crankshaft, plus a defined clearance to form the gap S.
Due to the turning motion of the crankshaft and/or connecting-rod sections, oil can be forced out of the respective gap S into the respective liquid channel K1 to K6.
The oil suction cage in the oil extraction region 5 must be below the oil level in the oil extraction region 5 at all times, especially in any sloping position; otherwise, air would be drawn in and, as a result, lubrication of the vehicle structure V (in particular of the engine) would no longer be guaranteed.
In particular, oil delivery from the shaped portions A1 to A6 and thus the effectiveness of the oil delivery function integrated into the dividing wall structure 1 depend on the size of the gap S (the smaller the gap S, the smaller the gap losses) and on the passage cross sections of oil channels K1 to K6.
In particular, oil delivery from the shaped portions A1 to A6 and thus the effectiveness of the oil delivery function integrated into the dividing wall structure 1 furthermore depend on the operating state of the vehicle device V, in particular on the engine and/or crankshaft speed of the vehicle device V.
If the vehicle device V is in a steeply sloping position, the oil delivery function ensures that there is continuous oil delivery from shaped portions A1 to A6 to the oil extraction region 5, thus making it possible to reduce or even entirely avoid the risk of air being drawn in.
Reference sign 7 denotes optional recesses in the dividing wall structure 1 for the crankshaft bearings.
Oil channels K3 and K4 are of very short design and, in the context of the invention, can be embodied as simple oil passage openings.
It is once again possible to see from
One shaped portion is provided for each connecting rod in the context of the invention.
From
The narrowing passage cross section causes acceleration of the oil delivered. The oil mass flow at the outlet of an oil channel can be projected against the adjacent shaped portion or flow out adjacent thereto.
Once again, it can be seen that a respective shaped portion A1 to A6 is formed in the dividing wall structure 1 for each connecting rod 3.1 to 3.6 and thus for each connecting-rod and/or crankshaft section. One oil channel K1 to K6 is likewise formed for each shaped portion A1 to A6.
The invention is not restricted to the preferred embodiments described above. On the contrary, a large number of variants and modifications is possible which likewise make use of the inventive concept and thus fall within the scope of protection. Moreover, the invention also claims protection for the subject matter and features of the dependent claims independently of the features and claims to which reference is made.
Thus, while there have shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.
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