EP0774575A1 - Cast cylinder head for an internal combustion engine - Google Patents

Abstract

The invention relates to a cast cylinder head (1) of a multi-cylinder internal combustion engine with gas exchange channels and chambers for spark plugs or injection nozzles arranged in the cooling water chamber (9) and with blind holes (16) arranged in the cylinder head cover (8) for accommodating valve clearance compensation elements, each Blind hole (16) communicates with a longitudinal oil channel (12) extending in the longitudinal direction of the cylinder head for supplying pressurized oil to the valve lash compensating elements, and in addition that each blind hole (16) has at its lower end a return opening (19) to an oil collecting chamber (11) generated during casting. communicates. In order to design a cast cylinder head (1) for a multi-cylinder internal combustion engine in such a way that a simplified and therefore less expensive production is ensured, the invention proposes that the blind holes (16) are at least pre-cast and the longitudinal oil channel (12) is cast. <IMAGE>

Description

The invention relates to a cast cylinder head of a multi-cylinder internal combustion engine according to the preamble of claim 1.

From DE 44 17 480 C1 a generic cylinder head of a multi-cylinder internal combustion engine is known. The cylinder head comprises blind holes arranged in the cylinder head cover for receiving valve lash compensation elements, the blind holes being connected to a longitudinal oil channel for supplying pressurized oil to the valve lash compensation elements and to an oil collecting space through return openings. The blind holes and the longitudinal oil channel must be created in a separate operation and make the production of the cylinder head more expensive.

For general technical background, reference is made to EP 0 416 600 A1 and DE 43 44 356 A1.

It is the object of the invention to design a cylinder head in such a way that a simplified and therefore less expensive production is ensured.

This object is achieved by the features given in the characterizing part of patent claim 1.

The cylinder head according to the invention has blind holes arranged in the cylinder head cover for receiving valve lash compensation elements. The blind holes are above distributor channels with a longitudinal oil channel extending in the longitudinal direction of the cylinder head for supplying pressurized oil to the valve clearance compensating elements in connection. Each blind hole is connected to an oil collection chamber via a return opening at its lower end. The blind holes, the longitudinal oil channel, the distribution channels, the return openings and the oil collecting space are cast in by a casting core. This is achieved through a multifunctional core, also known as an oil gallery core, which comprises several core sections. A basic core is used to produce the return openings and the oil collecting space. A first core section connected to the base core is used to produce the blind holes. A second core section connected to the first core section is used to produce the longitudinal oil channel and the distribution channels. The multifunctional core is supported by two core bearings in the lower part of the mold. In a further exemplary embodiment, a secondary air duct extends between gas exchange valves and chambers in the longitudinal direction of the cylinder head and has connecting pieces branching off to the individual outlet ducts. The secondary air duct and the connecting pieces are produced by a third core section, which is connected to the other core sections of the multifunctional core via a core bearing.

A simplified manufacture of the cylinder head is achieved by the invention. The multi-functional core is used for the simultaneous production of several elements of the cylinder head, so that both machining processes, such as drilling the longitudinal oil channel, and the insertion of individual cores can be omitted. The core section forming the secondary air channel is advantageously held on the core bearing facing away from the chain shaft, so that the secondary air channel is separated from the other core sections and thus has only one connection to the outlet channel. The core section can also be connected to the core bearing in the chain case, so that the core is more stable. Then the secondary air duct on this side must be closed later. The secondary air duct runs arbitrarily, but advantageously meanderingly, between the gas exchange ducts and the chambers, so that the cooling water chamber of the cylinder head is largely preserved.

Further configurations and advantages emerge from the description.

Fig. 1

einen Querschnitt durch einen erfindungsgemäßen Zylinderkopf,

Fig. 2

den Zylinderkopf aus Fig. 1 im Längsschnitt und

Fig. 3

einen Teilschnitt durch den Zylinderkopf aus Fig. 1 und 2.

An embodiment of the invention is explained in more detail in the following in three drawings, showing:

Fig. 1

3 shows a cross section through a cylinder head according to the invention,

Fig. 2

the cylinder head of FIG. 1 in longitudinal section and

Fig. 3

2 shows a partial section through the cylinder head from FIGS. 1 and 2.

1 to 3 show a cylinder head 1 for a multi-cylinder internal combustion engine, not shown here. The cylinder head 1 comprises a one-piece casting with a cylinder head base 2 and the longitudinal outer walls 4, 5 and front outer walls 6, 7 leading away from the latter up to a cover separating plane 3.

A cylinder head cover 8 is cast into the cylinder head 1 at a distance from the cylinder head base 2, through which a cooling water chamber 9 is separated from an overlying control chamber 10. In the cylinder head cover 8, an oil collecting space 11 is arranged, over which in turn a longitudinal oil channel 12 runs.

The cylinder head base 2 has a combustion chamber 13 for each cylinder, from each of which an inlet channel (not shown here), an outlet channel 14 and chambers (also not shown here) for receiving a spark plug, an injection nozzle or the like emanate. Pass through the inlet and outlet channels 14 the cooling water chamber 9 up to the longitudinal outer walls 4,5.

In the cylinder head cover 8 there are symmetrical to the longitudinal center plane 15 V-shaped and staggered blind holes 16 for receiving valve clearance compensation elements, each blind bore 16 via a transverse distributor channel 17 with the longitudinal oil channel 12 extending in the cylinder head longitudinal direction 18 for supplying pressurized oil to the valve clearance compensation elements communicates. In order to allow the discharge of the pressure oil from the blind hole 16, each blind hole 16 is at its lower end via a return opening 19 with the oil collection chamber 11 in connection through which the oil from the cylinder head 1 via a chain shaft 20 and through special oil return holes, not shown here the oil pan of the internal combustion engine can flow back.

According to the invention, the blind holes 16, the longitudinal oil channel 12, the distributor channels 17, the return openings 19 and the oil collecting space 11 are formed by a single casting core, which is designed as a multifunctional core a. The drilling of the longitudinal oil channel, the distribution channels and the return openings as well as the insertion of individual cores are thus no longer necessary. Only the pre-cast blind holes 16 for receiving valve clearance compensation elements are subsequently drilled. The multifunctional core a, also referred to as an oil gallery core, comprises several core sections b to d. A base core b serves to produce the oil collecting space 11 and the return openings 19. A first core section c connected to the base core b serves to produce the blind holes 16. A second core section d connected to the first core section c serves to produce the tubular longitudinal oil channel 12 and the Core of the longitudinal oil channel 12 stabilizing distribution channels 17. The multifunctional core a is supported by two core bearings a ', a''in the lower mold part. In the area of a spring support surface 21 of a valve guide, a defined parting plane 22 between the basic core b and one necessary to form the control chamber 10 is formed Control room core f placed, in which a casting skin inevitably forms during casting, which is at least partially cut open by the processing tool during the subsequent processing of the spring support surface 21, so that an oil drain to the rest of the oil chamber is thereby automatically produced.

In a further embodiment of the invention, a secondary air duct 23 extends approximately in a meandering shape in the longitudinal direction 18 of the cylinder head between the gas exchange ducts 14 and the chambers, in such a way that the cooling water chamber 9 of the cylinder head 1 is largely preserved. The secondary air duct 23 in each case has connecting pieces 24 branching off from the individual outlet ducts 14 and opening in the region 25 near the valve on the side of the outlet duct 14 facing the inlet duct.

The secondary air duct 23 and the connecting pieces 24 are produced by a further core section e, which is connected to the other core sections b to d of the multifunctional core a via a core bearing a '. Here, too, there are no machining operations, such as deep hole drilling of the secondary air duct and drilling the connecting pieces, and inserting a single core.

The core section e protrudes in the region 25 near the valve into an outlet channel core (not shown here), which is recessed accordingly. The casting skin formed during the casting between the outlet channel 14 and the connecting piece 24 thus lies within the outlet channel 14. The area 25 of the outlet channel 14 is usually machined by form cutters, whereby the casting skin is advantageously removed at the same time.

Claims (6)

Cast cylinder head of a multi-cylinder internal combustion engine with gas exchange channels and chambers for spark plugs or injection nozzles arranged in the cooling water chamber and with blind bores arranged in the cylinder head cover for receiving valve clearance compensation elements, each blind bore having a longitudinal oil channel extending in the longitudinal direction of the cylinder head and connecting oil supply to the valve clearance compensating oil supply to the valve clearance in that each blind hole is connected at its lower end to a return opening to an oil collecting space produced during casting,
characterized,
that the blind holes (16) are at least pre-cast and the longitudinal oil channel (12) is cast. Cast cylinder head according to claim 1,
characterized,
that the blind bores (16) and the longitudinal oil channel (12) are connected by distributor channels (17). Cast cylinder head according to claim 1 or 2,
characterized,
that the blind holes (16), the longitudinal oil channel (12), the distributor channels (17), the return openings (19) and the oil collecting space (11) are formed by a single casting core. Cast cylinder head according to one of claims 1 to 3,
characterized,
that the casting core (a) additionally comprises a core section (e) forming a secondary air duct (23). Cast cylinder head according to one of claims 1 to 4,
characterized,
that the core section (e) is held on only one core bearing (a '). Cast cylinder head according to one of claims 1 to 5,
characterized,
that the core section (e) extends in the cylinder head longitudinal direction (18) between the gas exchange channels (14) and the chambers in an approximately meandering manner, the core section (e) each having branching pieces (24) branching off to the individual outlet channels (14).

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