DE2613484A1 - IC engine poppet valve gear with variable spring press. - using hydraulic operated piston and cylinder unit to move spring carrier - Google Patents

Abstract

The IC engine poppet valve gear with variable spring press. is based on a conventional engine and valve gear arrangement. However the manifold-end valve spring (9) carrier takes the form of a piston (10) and cylinder (15) assembly fitting around the valve guide (8). Max. spring compression is determined by an axial extension (19) on the piston butting against an internal collar (20) at the open end of the cylinder. The piston is moved against the spring by lubricating oil press. applied via oil inlet aperture (18) to the space (17) under it. When this pressure is max., at full speed, the piston will be against the stop; as speed and press. decrease it will move away from this position and spring compression will be reduced. A reduction in wear results.

Description

Daimler-Benz AIcfcileBgossll

Stuttgart ~ üv.z3Ttüxl: .h.0i ± m 261

Daim Ίο 615/4 24.3-76

Valve control for internal combustion engines

The invention relates to a valve control for internal combustion engines, in which a valve is loaded in the direction of its closed position by a spring and against it
the Pedertension can be opened via an actuating element that is inevitably driven in accordance with the machine speed.

In known valve controls for internal combustion engines, the valve springs are designed so that the spring forces corresponding to their preload are greater than the maximum inertia forces that occur at maximum speeds. Regarding the at low
Inertia forces occurring at speeds is the spring preload

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The voltage is accordingly too high, which in itself leads to unnecessarily high wear even in the low speed ranges can lead. In addition, the stability of the hydrodynamic lubricating film also depends on the speed is and gets better with increasing speed, so that from this side, too, the less favorable ones at lower speeds Conditions exist.

The invention is now a valve control of the type mentioned with a view to reducing the Wear at low speeds can be improved.

In a valve control of the type mentioned, this is achieved according to the invention in that the size of the Spring preload depending on the speed of the machine

thereby possible

machine is changeable. The / reduction of the spring preload in the range of low speeds leads to a reduction in the contact pressure and thus to a Reduction of wear and tear, especially since the risk of the lubricating film tearing is reduced as the load decreases will.

The size of the spring preload can be changed mechanically, but preferably hydraulically, in a simple manner. In particular, the hydraulic path proves to be useful here, since this relies on the lubricating oil supply of the Machine can be used, the pressure of which can be changed anyway depending on the speed of the machine and increases with increasing speed.

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It is thus possible within the scope of the invention without great effort to hydraulically change the preload pressure of the valve spring in that the valve spring is supported in particular on the housing side via a hydraulically actuatable piston.

The invention is explained in more detail below with reference to the drawings. Ss show:

1 shows a schematic representation of a section

through the cylinder head area of a valve-controlled internal combustion engine, and

FIG. 2 shows section A from the illustration according to FIG Fig. 1 on an enlarged scale.

In the section through the cylinder head region of an internal combustion engine shown in Fig. 1, 1 denotes the cylinder head in which the inlet opening 2 is provided, onto which the inlet channel 3 opens and in which the seat 4 is arranged for a valve 5, the plate 6 of which when the valve is closed, it cooperates in a sealing manner with the seat k. A guide 8 is assigned to the shaft 7 of the valve k , and the shaft 7 of the valve h is surrounded essentially above its guide 3 by a valve spring 9 which is supported on a piston / on the plate side, as shown in particular in FIG . On the opposite side, the spring 9 is supported against a valve spring plate 11 provided near the end of the shaft, and the shaft 7 is acted upon at this end via a lever 12.

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bar, which is pivotably mounted on the cylinder head at its end remote from the shaft 7 and which can be acted upon via the cam 13 of a camshaft "\ k.

The piston which supports the valve spring 9 on the valve disk side is guided in a socket 15 in the exemplary embodiment, could but also run directly in a corresponding bore in the cylinder head. The socket 15 is in a corresponding, used to guide 8 concentric bore and forms with a U-shaped cross-section with their respective inner and outer legs, the guide for the piston 1o, which is an annular piston rests sealingly on the two beech walls and so against the Socket base 16 delimits an annular space 17 on the one Oil supply bore 18 running through the cylinder head here discharges, which is connected to the lubricating oil circuit of the machine.

In the exemplary embodiment according to FIG. 2, the piston 1o has a radially outside on its end face facing the spring 9 upright annular collar 19, which determines the upper end position of the piston Io with a radially inwardly projecting annular collar 2o of the socket 15, so that the extension path of the piston «and thus the maximum valve spring preload is given.

If the oil pressure drops, as is the case according to the characteristics of the pump delivery with decreasing speed for the Lubricating circuit is the case, the piston sinks and the bias of the is reduced in a corresponding manner Valve spring 9 · which leads to a corresponding reduction in the friction between the cam 13 and the lever 12.

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Claims (5)

Daira Io 6I5A Expectations / 1. ^ Valve control for internal combustion engines, in which a valve loaded in the direction of its closed position by a spring and against the spring preload via a corresponding to the Machine speed inevitably driven actuator is to open, marked thereby net that depends on the size of the spring preload can be changed by the speed of the machine. 2. Valve control according to claim 1, characterized in that the spring preload is mechanical is changeable. 3. Valve control according to claim 1, characterized that the spring preload can be changed hydraulically. 4. Valve control according to claim 3, characterized that the spring preload as a function can be changed by the machine's lubricating oil pressure. 5. Valve control according to claim 3 or k, characterized
characterized in that the valve spring (9)
on the housing side via a hydraulically actuated
Piston (io) is supported. ORIGINAL INSPECTED
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