DE102021003685A1 - Connecting rod for setting different compression ratios of an internal combustion engine - Google Patents

Abstract

The invention relates to a VCR connecting rod. The connecting rod according to the invention for setting different compression ratios of an internal combustion engine comprises a first support cylinder (1) and a second support cylinder, a first support piston (2), which is guided in the first support cylinder (1), and a second Support piston, which is guided in the second support cylinder, a hydraulic system (3) for supplying the first support cylinder (1) and the second support cylinder with a hydraulic fluid, and an eccentric, which is connected to the support cylinders (1) for changing a connecting rod length, at least the first support cylinder (1) has a venting device which is designed such that in an end position of the first support piston (2) venting of the first support cylinder (1) into an outer space (6) is ensured.

Description

The invention relates to a VCR connecting rod.

From the DE 1020191219341 A1 a two-stage VCR connecting rod (VCR = Variable Compression Ratio) for setting different compression ratios is known. The connecting rod comprises two support cylinders, each of which guides a support piston. One of the support cylinders has an overflow channel in order to avoid negative pressure in a first cylinder space when a tensile force is exerted on the first support piston. The overflow channel is intended to prevent cavitation from occurring as a result of movements of the support cylinder.

From the DE 102019106553 A1 another two-stage VCR connecting rod is known. The VCR connecting rod comprises a hydraulic system with a switching valve which is designed such that after the second support cylinder has been emptied, the second support cylinder is decoupled from the supply of hydraulic fluid and / or from the first support cylinder in such a way that no hydraulic fluid flows into the second support cylinder can. The coupling is intended, in particular, to avoid a pressure excitation of the oil supply.

The connecting rod according to the invention for setting different compression ratios of an internal combustion engine comprises a first support cylinder and a second support cylinder, a first support piston which is guided in the first support cylinder and a second support piston which is guided in the second support cylinder, a hydraulic system for supplying the first support cylinder and of the second support cylinder with a hydraulic fluid, and an eccentric, which is connected to the support cylinders for changing a connecting rod length, wherein at least the first support cylinder has a venting device which is designed such that depending on a position of the first support piston or depending on the pressure, a venting of the first Support cylinder is guaranteed in an outside space.

The venting device enables gases that collect undesirably in the support cylinder, for example caused by outgassing, to be passed into the outside space. Such a connection can, for example, reduce or even avoid the occurrence of cavitation. Such a venting device is used in particular for VCR connecting rods with hydraulic systems in which, after the first support cylinder has been emptied, the first support cylinder is decoupled from the supply of hydraulic fluid and / or from the second support cylinder in such a way that no hydraulic fluid enters the second (decoupled or disconnected) . Ventilated) support cylinder can flow, advantageous. In principle, it can also be used for connecting rods with hydraulic systems in which there is a coupling.

The first support piston is preferably designed to be flat on its stop surface. This enables the support piston to be manufactured inexpensively. A non-planar stop surface is possible as an alternative embodiment. This would make it possible, for example, to accelerate the venting process.

Furthermore, the first support piston preferably has a sealing ring which, in an end position of the first support piston, rests in a sealing manner on a wall of the first support cylinder. This enables venting to be ensured without involving the sealing ring. This enables a defined setting of the position-dependent venting.

In one embodiment, the sealing ring is designed as an open spring ring, wherein in a pressure-unloaded position the spring ring releases a passage for venting the first support cylinder into an outer space, and in a pressure-loaded position the passage is closed. This solution has the advantage that machining of the connecting rod base is reduced.

The ventilation device according to the invention can be provided in one or in both support cylinders.

The dependent claims describe further advantageous embodiments of the invention.

• 1 einen Ausschnitt einer ersten Ausführungsform eines erfindungsgemäßen Pleuels in einer Stellung, in der die Entlüftungsvorrichtung geschlossen ist,
• 2 einen Ausschnitt der ersten Ausführungsform, in der die Entlüftungsvorrichtung geöffnet ist,
• 3 einen Ausschnitt einer zweiten Ausführungsform eines erfindungsgemäßen Pleuels in einer Stellung, in der die Entlüftungsvorrichtung geschlossen ist,
• 4 einen Ausschnitt der zweiten Ausführungsform, in der die Entlüftungsvorrichtung geöffnet ist,
• 5 einen Ausschnitt einer dritten Ausführungsform eines erfindungsgemäßen Pleuels in einer Stellung, in der die Entlüftungsvorrichtung geöffnet ist und
• 6 einen Ausschnitt der dritten Ausführungsform, in der die Entlüftungsvorrichtung geschlossen ist.

Preferred exemplary embodiments are explained in more detail with reference to the following figures. It shows

• 1 a section of a first embodiment of a connecting rod according to the invention in a position in which the venting device is closed,
• 2 a section of the first embodiment in which the venting device is open,
• 3 a section of a second embodiment of a connecting rod according to the invention in a position in which the ventilation device is closed,
• 4th a section of the second embodiment, in which the venting device is open,
• 5 a section of a third embodiment of a connecting rod according to the invention in a position in which the ventilation device is open and
• 6th a section of the third embodiment, in which the venting device is closed.

1 and 2 show a section of a first embodiment of a VCR connecting rod according to the invention for setting different compression ratios of an internal combustion engine. Regarding the basic structure of the VCR connecting rod, reference is made to the laid-open documents DE 1020191219341 A1 and DE 1020191065543 A1 and the embodiments described there, the content of which is to be considered included here.

The VCR connecting rod includes a first support cylinder 1 and a second support cylinder, a first support piston 2 , the one in the first support cylinder 1 is guided, and a second support piston which is guided in the second support cylinder. A hydraulic system is also included 3 to supply the first support cylinder 1 and the second support cylinder with a hydraulic fluid, and an eccentric which is connected to the support cylinders for changing a connecting rod length. The first support piston has a flat design on its stop surface, here flat, in order to be flat on the bottom of the first support cylinder in a lower end position 1 to lie on. Furthermore, the first support piston 2 a sealing ring 9 on, at least in the lower end position of the first support piston 2 on a side wall of the first support cylinder 1 fits tightly.

The first support cylinder 1 has a ventilation device which is designed such that in the lower end position of the first support piston 2 a venting of the first support cylinder 1 in an outside space 6th is guaranteed.

According to the first embodiment, the ventilation device has a valve 4th which is designed such that the first support piston 2 the valve when the end position is reached 4th to open a connection 5 to the outside area 6th actuated for the purpose of venting, and the valve when leaving the end position 4th to break the connection 5 to the outside area 6th closes.

The valve 4th is in the area of the ground 8th of the first support cylinder 1 arranged. It has a valve body 4a with a peg 4b on. The cone 4b stands in a non-actuated position above the floor 8th addition, see 1 . The cone 4b is in this position by an on a valve body 4a of the valve 4th acting pressure in the hydraulic system 3 located hydraulic fluid brought and held. The first support cylinder approaches 2 the ground 8th so will be about the tenon 4b the valve 4th mechanically operated and the connection, here a vent line 5 , to the outside area 6th , here the crankcase, open, see 2 . The first support piston moves 2 away from the end position, the chamber pressure acts on the upper and lower surfaces of the valve body 4a . Due to the larger area on the underside, the valve body 4a in a cone seat 4b pressed and the vent line 5 closed with it.

An advantage of the first embodiment is that the sealing ring 9 always on the side wall of the first cylinder 1 is applied, whereby the risk of increased wear of the sealing ring 9 in comparison to solutions in which the sealing ring is moved over grooves, is avoided.

Another advantage is the position dependency of the ventilation. Venting is only possible in the lower end position. Unwanted venting, for example through leakage, in other positions is avoided.

In an alternative variant, a spring is provided around the valve 4th to hold in a defined state, for example in the closed state. This is particularly advantageous for pressureless hydraulic systems.

3 and 4th show a second embodiment of a section of a VCR connecting rod according to the invention.

The first support cylinder 1 has a vent line 10 with an entrance 10a on, which is in the end position of the first support piston in the support cylinder 1 im from the sealing ring 9 sealed portion of the support cylinder 1 and an exit 10b in the end position of the first support piston in the support cylinder 1 im from the sealing ring 9 unsealed portion of the support cylinder 1 lies. The first support piston is located 2 in its lower end position, see 4th , is a vent via the vent line 10 effective. As soon as the sealing ring 9 above the exit 10b located, see 1 , is a vent via the vent line 10 prevented.

The vent line 10 can be made mechanically easily from the outside through transverse bores, which are then connected with a plug 12th to the outside area 6th to be closed. The stopper 12th itself is shaped so that it connects between entrance 10a and exit 10b enables. A desired overflow cross-section can be set in a defined manner via the shape.

5 and 6th show a third embodiment of a section of a VCR connecting rod according to the invention.

In this embodiment, the sealing ring 9 designed as an open spring ring. In an unloaded position, the spring ring gives a passage 11 for venting the first support cylinder 1 in the outside space 6th free, see 5 . The passage is in a loaded position of the spring ring 11 closed, see 6th .

In this case the sealing ring is 9 a metallic spring ring, which has a joint with a selected shape, here an L-shape, to form a defined passage. In the unloaded state, a ring twist is used to open the joint and use it as an overflow channel. The desired flow rate can be set by adjusting the groove height, contour in the joint area and twist.

In the loaded state, here by the pressure / counter pressure of the hydraulic fluid in the first support cylinder 1 is initiated or by the first support piston 1 is pushed out, the sealing ring lies down 9 to the upper edge of the groove in the first support piston 1 at. The joints are pressed together and seal the joint area.

In the embodiments shown here, the venting device is provided on the gas force-side support cylinder. It is also possible to provide the ventilation device for both support cylinders.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 1020191219341 A1 [0002, 0012]
• DE 102019106553 A1 [0003]
• DE 1020191065543 A1 [0012]

Claims (8)

Connecting rod for setting different compression ratios of an internal combustion engine, comprising a first support cylinder (1) and a second support cylinder, a first support piston (2) which is guided in the first support cylinder (1) and a second support piston which is guided in the second support cylinder, a hydraulic system (3) for supplying the first support cylinder (1) and the second support cylinder with a hydraulic fluid, and an eccentric which is connected to the support cylinders (1) for changing a connecting rod length, at least the first support cylinder (1) having a venting device which is designed in such a way that, depending on a position of the first support piston (2) or pressure-dependent, venting of the first support cylinder (1) into an outer space (6) is ensured. Connecting rod after Claim 1 , wherein the first support piston (2) is flat on its stop surface. Connecting rod according to one of the Claims 1 or 2 , wherein the first support piston (2) has a sealing ring (9) which at least in one end position of the first support piston (2) rests in a sealing manner on a wall of the first support cylinder (1). Connecting rod according to one of the Claims 1 until 3 , wherein the venting device has a valve (4) which is designed in such a way that the first support piston (2) actuates the valve (4) to open a connection (5) to the outside space (6) for venting when the end position is reached, and when Leaving the end position the valve (4) closes to interrupt the connection (5) to the outside space (6). Connecting rod after Claim 4 , wherein the valve (4) is arranged in the region of the base (8) of the first support cylinder (1). Connecting rod according to one of the Claims 1 until 2 and Claim 3 , wherein the first support cylinder (1) has a vent line (10) with an inlet (10a) which, in the end position of the first support piston in the support cylinder (1), lies in the section of the support cylinder (1) sealed by the sealing ring, and an outlet (10b) ) which, in the end position of the first support piston in the support cylinder (1), lies in the section of the support cylinder (1) which is not sealed by the sealing ring. Connecting rod after Claim 5 , wherein the inlet (10a) and the outlet (10b) are formed in a side wall of the first support cylinder (1). Connecting rod according to one of the Claims 1 until 2 and Claim 3 , wherein the sealing ring (9) is designed as an open spring ring, wherein in an unloaded position the spring ring releases a passage (11) for venting the first support cylinder (1) into an outer space, and in a loaded position the passage (11) is closed .

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