EP0515925A1 - Cylinder head for combustion engine - Google Patents

Abstract

2.1 In the case of a known cylinder head with oil ducts for supplying the hydraulic tappets and camshaft bearing with lubricating oil costly mould cores which are difficult to form are necessary for its manufacture. The resulting risk of damage during construction of the mould and during the casting process is correspondingly high. 2.2 According to the invention the oil ducts 6a, 6b, 6a', 6b' are so arranged and so designed with connections to the recesses 1a, 1b, 1c, 1d for the hydraulic tappets or valves and to the camshaft bearings that the entire lubricating oil ducting system can be moulded by means of a single, robust mould core. <IMAGE>

Description

The invention relates to a cylinder head for an internal combustion engine according to the preamble of claim 1.

Such an internal combustion engine with the features of the preamble of claim 1 enables a favorable arrangement of an ignition device or an injection device in the center of the combustion chamber associated with each piston, in that the gas exchange valves can be arranged around the central ignition device or injection device in the cylinder head area assigned to a combustion chamber. Nevertheless, a reliable supply of lubricating oil and, if necessary, cooling oil to the camshaft bearings, the valves and the sliding surface between the camshaft and valve tappet must be ensured. Here, the known cylinder head has disadvantages, since long connections to the valves and the camshaft bearings are present from the oil channels arranged below the camshafts. These have to be manufactured in a complex manner.

The invention has for its object to provide a cylinder head for an internal combustion engine, in which a secure supply of lubricating oil to the camshaft bearings and the valves is ensured, the corresponding oil channels and connections should be easy and inexpensive to manufacture.

This object is achieved in that the oil channels running parallel to the camshafts are arranged next to the valves within the drilling pattern formed by the cylinder head screws. As a result, the connections to the valves and to the camshaft bearings are considerably shorter than in the known prior art and are therefore easier to manufacture.

If, in an advantageous development of the invention, the connections are designed as channels or recesses which are formed by casting cores when the cylinder head is cast, the short connections have a positive effect on the production process. Because the connections are short, the risk of breaking appropriately designed casting cores is low or no longer exists.

In an advantageous development of the invention, the casting cores of the oil channels and the channels and / or recesses branching off each oil channel are formed in one piece. This one-piece design enables a particularly efficient manufacturing process, since only one casting core has to be fixed in the mold for each oil channel, preferably at the ends of the cylinder head.

The oil channels are advantageously connected to one another via transverse channels. In this case, in a further embodiment, the casting cores of the two oil passages of the cylinder head and the transverse passages connecting them can be formed in one piece. This means that only one core needs to be defined for each cylinder head for the entire oil supply to the cylinder head in the casting mold. However, this also minimizes the risk of core parts breaking off, so that the reject rate of unusable cylinder heads is further reduced.

In a further embodiment, branch channels to the camshaft bearings are connected to the transverse channels. This solution is particularly useful if cross-channels are provided in the area between all adjacent cylinders. In this case, the cores to the camshaft bearings can be formed as simple short branch channels from these transverse channels. The casting cores of the transverse channels are preferably formed in one piece with the casting cores of the branch channels.

In a further embodiment, bearing cores are molded onto the casting cores of the channels or recesses to the valve tappets, which are locked between the valve spring core lower part and valve spring core upper part after the core assembly. This further stabilizes the entire core and further reduces the risk of damage to the core. This also eliminates the risk of the casting core "bending", particularly in the area of the oil channels. In addition, the gas exchange valves are preferably arranged vertically, that is to say axially parallel in the cylinder head. This has the advantage of an uncomplicated casting core and simple workability, for example of the valve seats or valve seat rings.

Further refinements of the invention can be found in the description of the drawings, in which exemplary embodiments of the invention shown in the figures are described.

Fig.1:

einen Längsschnitt V durch einen Zylinderkopf,

Fig.2:

einen Längsschnitt I durch den Zylinderkopf,

Fig.3:

einen Querschnitt II durch den Zylinderkopf,

Fig.4:

einen Querschnitt III durch den Zylinderkopf,

Fig.5:

einen Querschnitt IV durch den Zylinderkopf,

Fig.6:

einen Querschnitt durch den Zylinderkopf ähnlich Fig.3 mit einem anders ausgebildeten Ölkanal und

Fig.7:

eine Variante zu Fig.5.

Show it:

Fig.1:

a longitudinal section V through a cylinder head,

Fig. 2:

a longitudinal section I through the cylinder head,

Fig. 3:

a cross section II through the cylinder head,

Fig. 4:

a cross section III through the cylinder head,

Fig. 5:

a cross section IV through the cylinder head,

Fig. 6:

a cross section through the cylinder head similar to Figure 3 with a differently designed oil channel and

Fig. 7:

a variant to Fig. 5.

The cylinder head according to FIG. 1 has four gas exchange valves per cylinder, which are arranged in recesses 1a, 1b, 1c, 1d for each cylinder. The recesses 1a, 1b, 1c, 1d in FIG. 1 have a diameter which is designed to accommodate hydraulic tappets for valve clearance compensation. The recesses 1a, 1b, 1c, 1d or the corresponding gas exchange valves and hydraulic tappets are arranged in relation to the combustion chamber of a cylinder in such a way that an opening 2 can be arranged in the center of the combustion chamber. An ignition device, a prechamber or an injection nozzle can be inserted into the opening 2. The cylinder head is fastened to the crankcase of the internal combustion engine with cylinder head screws, the cylinder head screws being passed through cylinder head screw pipes 3. Connecting walls 4 extend between the cylinder head screw pipes 3. In the interior space formed by the cylinder head screw pipes 3 and the connecting walls 4, oil channels 6a, 6b extend parallel to the axes of the camshafts 5a, 5b (FIG. 3). The oil passes through inlets and outlets 7a, 7b or alternatively 7c, in this case 7b is closed and transverse channels 8a, 8b into the oil channels 6a, 6b. Between the individual cylinder units In the four-cylinder head shown, further transverse channels 8c, 8d, 8e are provided. During the casting process of the cylinder head, all channels through which oil flows are formed by a single casting core. The casting core is held by receptacles that protrude through the inlet and outlet, 7a, 7b, and by bearing cores that protrude into the recesses 1a, 1b, 1c, 1d for the valves and are locked between the valve spring lower part and the valve spring upper part.

In the section according to FIG. 2, the oil channel 6b is shown in broken lines.

3 shows a section through an assembled cylinder head. The cylinder head with the oil channels 6a, 6b is covered by a cylinder head cover 9. Two camshafts 5a, 5b are mounted in the covered space, which actuate hydraulic tappets 11a, 11b with their cams 10a, 10b. The hydraulic tappets 11a, 11b in turn act on valve stems 12a, 12b, which are connected to valve disks, not shown, for controlling the gas exchange of the internal combustion engine.

Channels 13a, 13b branch off from the oil channels 6a, 6b to the recesses 1a, 1b, 1c, 1d, in which the hydraulic tappets 11a, 11b and the valve stems 12a, 12b with the valve springs are arranged.

A cross-channel 8c with branch channels 14c ', 14c' 'to the camshaft bearings is shown in broken lines.

4 shows a section III through an unmounted cylinder head in the area of cylinder head screw pipes 3, while FIG. 5 shows a section IV through the cylinder head in Area of the transverse channel 8d. Branch channels 14d 'and 14d''branch off from the transverse channel 8d to the camshaft bearings.

6 and 7 show sections through another embodiment of a cylinder head with oil channels 6a ', 6b'. In turn, channels 13a, 13b branch off from the oil channels 6a ', 6b' to the recesses 1a, 1b, 1c, 1d of each cylinder. The camshaft bearings are connected via recesses 15a, 15b connected to the oil channels 6a ', 6b'. Cross channels are not provided in this embodiment.

Claims (8)

Cylinder head for an internal combustion engine, which has a crankcase and a crankshaft rotatably mounted therein, to which at least one connecting rod connected to a piston is fastened, the piston being movable in a cylinder which is covered by the cylinder head manufactured for several cylinders, wherein in arranged in the cylinder head are two camshafts which control gas exchange valves, in particular two intake valves and two exhaust valves, and an oil channel parallel to these is arranged below the camshafts and has connections to the valves and the camshaft bearings,
characterized in that the oil channels (6a, 6b, 6a ', 6b') are arranged next to the valves within the drilling pattern formed by the cylinder head screws. Cylinder head according to claim 1,
characterized in that the connections are formed as channels (13a, 13b) and / or recesses (15a, 15b) which are formed by casting cores when the cylinder head is cast. Cylinder head according to claim 2,
characterized in that the casting cores of the oil channels (6a, 6b, 6a ', 6b') and the channels (13a, 13b) and / or recesses (15a, 15b.) branching off each oil channel (6a, 6b, 6a ', 6b') ) are integrally formed. Cylinder head according to one of the preceding claims,
characterized in that the oil channels (6a, 6b, 6a ', 6b') are connected to one another via transverse channels (8a, 8b, 8c, 8d, 8e). Cylinder head according to claim 4,
characterized in that the casting cores of the oil channels (6a, 6b, 6a ', 6b') and the transverse channels (8a, 8b, 8c, 8d, 8e) are formed in one piece. Cylinder head according to claim 4 or claim 5,
characterized in that branch channels (14c ', 14c'') to the camshaft bearings are connected to the transverse channels (8a, 8b, 8c, 8d, 8e). Cylinder head according to claim 6,
characterized in that the casting cores of the transverse channels (8a, 8b, 8c, 8d, 8e) and the branch channels (14c, 14c '') are formed in one piece. Cylinder head according to one of claims 2 to 7,
characterized in that bearing cores are formed on the casting cores of the channels (13a, 13b) and / or recesses (15a, 15b) to the valves, the bearing cores being locked between the valve spring core lower part and the valve spring core upper part after the core assembly.

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