DE1006667B - Combustion chamber structure for air-cooled injection internal combustion engines - Google Patents

Description

Combustion chamber structure for air-cooled injection combustion machines The invention relates to a combustion chamber structure for air-cooled injection slurry-inkraftmaschinen which contains a divided combustion chamber (prechamber, swirl chamber) and which is releasably attached to the cylinder head by means of fastening screws and retaining members. Such combustor assemblies represent the heißesten part of an injection internal combustion engine is For air-cooled cylinder heads must be taken to ensure that Ternperaturspitzen occur at any point that the strength of the material, reduce in most cases Leichtinetall so far that there is P'issen.. The most endangered point in valve-controlled internal combustion engines, for which the invention is preferably used, is between the valve seats. The object of the invention is to achieve that as little heat as possible flows from the hot combustion chamber structure to the aforementioned point. Rather, the heat of the combustion chamber structure should be dissipated by the flow of cooling air flowing around it.

The known designs of combustion chamber structures that are detachable are attached to an air-cooled cylinder head, solve the problem of the invention only to a very inadequate degree. For example, it is known to have combustion chamber structures screw it into the cylinder head by means of a thread. Since the thread is at the hottest Place of the combustion chamber structure and with your 7Y1inderkopf a relatively has a large common contact area, there is an intolerable heat transfer to the endangered part of the pier. It has also become known, fuel canal superstructures to be fixed with screws. These screws grip hot spots on the firing canine structure and thus provide a thermally conductive connection to the endangered cross-sections here.

It is also known internal combustion chambers of water-cooled internal combustion engines to be fastened with screws that attack the coldest part of the combustion chamber. In this case, however, the actual combustion chamber is with those that come into contact with water Walls of the cylinder head in a thermally conductive connection, so that neither the local The risk of overheating is eliminated and the combustion chamber is kept warm will.

The task of preventing in a combustion chamber assembly of the aforementioned type the flow of heat from the combustion chamber assembly to the vulnerable web cross-section between the valves is achieved according to the invention by the interaction of the following measures: 1. The insert body, wherein the or Verhindungskanäle between the partitioned combustion chamber and contains the cylinder space, is inserted into the cylinder head, leaving air gaps free, and is only in heat-conducting connection with the same via a sealing ring.

2. The retaining links on which the fastening screws engage are as far away as possible from the hot insert body on the coldest part attached to the combustion chamber structure.

Details of the measures described above are already on Combustion chamber structures have been applied. But in any case they were together with connected with other opposing measures that canceled their effect again. the Invention is only fulfilled if all features of the main claim are complete available.

In an embodiment of the invention, the fastening screws are on Place the cylinder head screwed in as far as possible from the endangered Place, e.g. B. the bridge part are removed. In a further embodiment of the invention is contributed to by using a suitable sealing material that the heat of the combustion chamber structure, if possible, not to the cylinder head, but to the heat-dissipating rib section of the structure flows off.

The invention is shown in the drawing in several sections and views shown.

1 shows a section through the combustion chamber structure according to the invention along the line AB (FIG. 2); Fig. 2 is a top view of the combustion chamber assembly, from which the injector and glow plug are removed, in the direction of arrow E; Fig. 3 shows a section along the line CD (Fig. 2); Fig. 4 shows the sealing of the combustion chamber structure in an enlarged view.

The upper part of the combustion chamber structure 1 carries the injection nozzle 2 and the glow plug 3, which are screwed in in a known manner by means of a thread. The part of the structure located in the flow of cooling air is provided with ribs 4. At the end of the structure 1 on the cylinder head side, there is the insert body 5, which contains the connecting duct 6 from the combustion chamber 7 to the cylinder chamber 8. The insert body 5 rests on a heavy metal ring 11 shrunk into the light metal cylinder head 10 , with a seal 9 in between. The sealing ring 9 can be made of a poorly thermally conductive material, for example asbestos, to improve the thermal insulation. The combustion chamber structure 1 is held in place by screws 12 (FIG. 3) which engage tabs 13 which in turn grow out of the upper coldest part of the structure. The screws 12 are screwed into reinforcements 14 of the cylinder head 10 . Their force is transmitted to the structure 1, from this via a seal 15 (FIG. 4) and a flange 16 of the insert body 5 to the seal 9 and the ring 11. The seal 15 can be made of a particularly good heat-conducting material, for example copper , be made in order to ensure that the heat of the hot insert body is conducted as well as possible to the cooling fins 4 of the structure 1 . The sealing surfaces of the structure 1 and of the flange 16 and of the ring 11 are provided on their outer circumference with annular beads 17 which prevent the seals, especially the seal 9, from bursting. An air gap 18 , which has an insulating effect, is arranged between the neck of the insert body 5 and the cylinder head 10. Likewise, there is an air gap 19 between the flange 16 and the cylinder head 10. The metallic contact of the insert body 15 with the heavy metal ring 11 is reduced to the smallest possible M , ate absolutely necessary for centering.

The measures described have the effect that as little heat as possible flows away from the hot insert body 5 to the endangered partie20 between the valve seats (not shown). Rather, the heat from the insert body should , if possible, be fed to the structure 1 and removed from there by the flow of cooling air.

The cooling air flows to the combustion chamber assembly described in Pf eilrichtung F over and gets him into a shaft between the not shown valve ports of the cylinder head. The cooling fins 4 are indented at the point 21 so that the cooling air flow through the reinforcements 14 is not obstructed. The insert body 5 is preferably made from a highly heat-resistant steel, the combustion chamber structure 1 from a heavy metal, primarily cast iron or malleable cast iron.

The invention is not restricted to the embodiment shown. It can also be used, for example, on one-piece combustion chamber structures with VortA. It should also be pointed out that the heat retention of the insert body 5 in the manner described also seems to have a favorable effect on the combustion effect of this part.

Claims (2)

PATENT CLAIMS: 1. Air-cooled pulp chamber structure, detachably attached to such a cylinder head by means of fastening screws and retaining members, which contains a divided combustion chamber (antechamber, swirl chamber), characterized in that the one or more connecting channels (6) between the divided combustion chamber (7) and the Cylinder space (8) containing insert body (5) with the release of air gaps (18, 19) is inserted into the cylinder head (10) and is in heat-conducting connection with the same only via a sealing ring (9) and that the holding members (13) on which attack the fastening screws (12), are attached as far as possible from the hot insert body (5) on the coldest part of the pulp chamber structure. 2. Brennkammeraufban according to claim 1, characterized in that the fastening screws (12) in as far as possible from the endangered point, for. B. the web portion (20), removed reinforcements (14) of the cylinder head (10) are screwed. 3. Combustion chamber structure according to claim 1 and 2, characterized in that the sealing ring (9) lying between the insert body (5) and the cylinder head (10) or a ring (11) embedded in this consists of a poorly thermally conductive material. 4. Combustion chamber structure according to claim 1 to 3, characterized in that the sealing ring (15) lying between the insert body (5) and the combustion chamber structure (l #) consists of a material that conducts heat well. 5. Brennkanimeraufban according to claim 1 to 4, characterized in that the flange (16) of the insert (5) is provided at its outer periphery with known annular beads (17) contemplated references: 55 German patents No. 751 781, 749 023; USA. Patent No. 2,148,505....