DE102017213411A1 - Internal combustion engine with attached high-pressure pump - Google Patents

Abstract

The invention relates to an internal combustion engine (1) with built-high-pressure pump (2) for supplying the internal combustion engine (1) with fuel, wherein the high-pressure pump (2) comprises a pump housing (3) in at least one contact area (4). 5) of the internal combustion engine (1) adjacent contact surface (6). According to the invention, at least one heat-conducting material (7) for reducing the internal cooling load or a heat-insulating material (8) for reducing the external cooling load is arranged in the contact region (4) between the pump housing (3) and the housing part (5) of the internal combustion engine (1).

Description

The invention relates to an internal combustion engine with a mounted high-pressure pump for supplying the internal combustion engine with fuel according to the preamble of claim 1.

State of the art

For combustion of fuel in an internal combustion engine, the fuel is injected under high pressure into a combustion chamber of the internal combustion engine. To promote the fuel to high pressure, a high pressure pump is used.

From the prior art, high-pressure pumps designed in particular as radial piston pumps are known which comprise at least one pump element with a liftable pump piston. The pump piston is supported in the radial direction on a cam or on an eccentric of a drive shaft of the high pressure pump, so that the rotation of the drive shaft drives the pump piston to a lifting movement. At the other end of the pump piston limits an element space of the pump element, so that the lifting movement of the pump piston leads to a reduction of the element space, wherein the fuel absorbed in the element space is compressed.

In the conversion of the rotational movement of the drive shaft in a translational movement of the pump piston, the contact surfaces are subjected to friction. Heat is generated which heats the high-pressure pump. A generally unavoidable high pressure leakage leads to a further heat input. Since the heating of the high pressure pump, the tribologically stressed machine elements of the high pressure pump are exposed to higher wear, measures are taken to keep the temperature of the high pressure pump at a low level. As a rule, the high-pressure pump is cooled for this purpose with a precisely defined cooling amount, with fuel or oil being used as the cooling medium.

Based on the aforementioned prior art, the present invention has the object to reduce the amount of cooling in order to achieve a performance optimization of the internal combustion engine. At the same time, the temperature of the high pressure pump should be kept at a low level to minimize wear.

To solve the problem, the internal combustion engine with the features of claim 1 is proposed. Advantageous developments of the invention can be found in the dependent claims.

Disclosure of the invention

It proposes an internal combustion engine with a mounted high-pressure pump for supplying the internal combustion engine with fuel. The high-pressure pump comprises a pump housing which, in at least one contact region, has a contact surface which bears against a housing part of the internal combustion engine. According to the invention, at least one heat-conductive material for reducing the internal cooling load or a heat-insulating material for reducing the external cooling load is arranged in the contact region between the pump housing and the housing part of the internal combustion engine.

Under "cooling load" is understood in the present case to be discharged from the high-pressure pump heat load, which is required to keep the temperature of the high pressure pump and thus the wear low. Since the cause of the heating of the high-pressure pump can be both inside and outside, a distinction is made between "inner" and "outer" cooling load.

In order to reduce the internal cooling load, the heat conduction between the pump housing and the housing part of the internal combustion engine is improved by arranging a heat-conducting material in the contact region. In this case, it is assumed that the temperature of the high-pressure pump is above the temperature of the housing part of the internal combustion engine, so that heat is dissipated via the housing part of the internal combustion engine. The proposed arrangement of a thermally conductive material in the contact area, the heat dissipation can be improved, which makes it possible to reduce the amount of cooling required for cooling the high-pressure pump. As a result, a performance optimization of the internal combustion engine is achieved in this way.

In order to reduce the external cooling load, a heat-insulating material is arranged in the contact area between the pump housing and the housing part of the internal combustion engine. In this case, it is assumed that the temperature of the high pressure pump is below the temperature of the housing part of the internal combustion engine, so that it applies to minimize the heat input from the housing part of the internal combustion engine to the high pressure pump. At the same time, the cooling load decreases, which in turn makes it possible to reduce the amount of cooling.

Whether a heat-conducting or a heat-insulating material is arranged in the contact area between the pump housing and the housing part of the internal combustion engine, accordingly depends on the particular circumstances, in particular on the specific location of the high-pressure pump. The decisive factor is whether the temperature of the high-pressure pump is above or below the temperature of the housing part of the internal combustion engine in the contact area.

According to a preferred embodiment of the invention, the heat-conducting material is a thermal paste. The thermal compound not only improves the heat transfer from the pump housing to the housing part of the internal combustion engine due to an increased thermal conductivity, but also due to an increase in the contact area. Because the thermal compound filled in unevenness in the area of the surfaces in contact with each other on the pump housing and the housing part of the internal combustion engine, so that an enclosed therein air volume, which acts insulating, is displaced. Preferably, the thermally conductive material is an oil or silicone thermal grease.

Alternatively or additionally, it is proposed that the heat-conducting material is or comprises a metal. For metals usually have a high thermal conductivity, so that the heat conduction is improved. The metal may be, in particular, gold, silver, aluminum and / or copper, since these metals have a particularly high thermal conductivity.

For example, the thermal paste may contain metal in the form of metal particles, for example in the form of silver or aluminum particles.

Further, the metal may be in the form of a foil or a sheet. The film or the sheet can be inserted in the contact area with the cultivation of the high-pressure pump to the internal combustion engine. Alternatively, the contact surface formed on the pump housing or the counter surface provided on the housing part of the internal combustion engine can already be clad with the foil or the metal sheet. If the pump housing is subsequently fixed to the internal combustion engine by means of a screw connection, the foil or the metal sheet can be deformed via the screw tightening force in such a way that an enclosed volume of air is displaced. Analogous to the embodiment described above, in which a thermal paste is used, the thermal conductivity can thus be improved at the same time by increasing the contact area.

The thermally conductive material can also be formed by a coating containing a heat-conducting material coating, which is applied to the contact surface of the pump housing and / or on the housing part of the internal combustion engine. The coating levels surface roughness, increasing the contact area while minimizing the trapped, insulating air volume.

In the event that the housing part of the internal combustion engine in the attachment area of the high-pressure pump is hotter than the pump housing, the arrangement of a heat-insulating material in the contact area is proposed. This means that a heat conduction is prevented as far as possible in order to prevent heat input from the outside into the high-pressure pump.

Preferably, the heat-insulating material disposed in the contact region forms a heat-insulating layer or a heat-insulating body. The heat insulation layer can be applied to the contact surface of the pump housing or to the housing part of the internal combustion engine prior to installation of the high pressure pump, so that it is only necessary to strike the high pressure pump. The heat insulation body is preferably inserted in the contact area when the high-pressure pump is attached to the housing part of the internal combustion engine.

If a heat insulation is to be achieved, it is not important that an enclosed volume of air in the contact area between the pump housing and the housing part of the internal combustion engine is removed. Because the insulating property of the air volume has an effect in this case as desired.

According to a first preferred embodiment of the invention, the heat-insulating material is a plastic. This may in particular be a foamed plastic, which includes an air volume, since the air volume has a heat-insulating effect. Alternatively, it is proposed that the heat-insulating material comprises a plastic. This means that at least one plastic is included.

According to a further preferred embodiment of the invention, the heat-insulating material is a ceramic. Ceramic has the advantage that it is not flammable and also has a high mechanical strength. Alternatively, it is proposed that the heat-insulating material comprises a ceramic. That is, at least one ceramic material is contained in the heat-insulating material.

• 1 einen schematischen Längsschnitt durch ein Gehäuseteil einer erfindungsgemäßen Brennkraftmaschine gemäß einer ersten bevorzugten Ausführungsform, wobei an das Gehäuseteil eine Hochdruckpumpe angebaut ist,
• 2 einen vergrößerten Ausschnitt der 1,
• 3 einen schematischen Längsschnitt durch ein Gehäuseteil einer erfindungsgemäßen Brennkraftmaschine gemäß einer zweiten bevorzugten Ausführungsform, wobei nur der Anbaubereich dargestellt ist,
• 4 einen schematischen Längsschnitt durch ein Gehäuseteil einer erfindungsgemäßen Brennkraftmaschine gemäß einer dritten bevorzugten Ausführungsform, wobei nur der Anbaubereich dargestellt ist.

Preferred embodiments of the invention are explained below with reference to the accompanying drawings. These show:

• 1 a schematic longitudinal section through a housing part of an internal combustion engine according to the invention according to a first preferred embodiment, wherein a high-pressure pump is attached to the housing part,
• 2 an enlarged section of the 1 .
• 3 a schematic longitudinal section through a housing part of an internal combustion engine according to the invention according to a second preferred embodiment, wherein only the cultivation area is shown,
• 4 a schematic longitudinal section through a housing part of an internal combustion engine according to the invention according to a third preferred embodiment, wherein only the cultivation area is shown.

Detailed description of the drawings

The in the 1 at least partially shown internal combustion engine 1 includes a housing part 5 to which a high-pressure pump 2 to supply the internal combustion engine 1 grown with fuel. The high pressure pump 2 has a pump housing 3 on that in a contact area 4 over a contact surface 6 on the housing part 5 the internal combustion engine 1 is applied.

The contact surface 6 is present on a flange portion of the pump housing 3 formed over which the high-pressure pump 2 with the housing part 5 the internal combustion engine 1 is connected or screwed. In the 1 are exemplary two screws as fasteners 9 shown. The flange portion has a passage for a drive shaft 10 the high pressure pump 2 on, which consequently in the housing part 5 the internal combustion engine 1 for connection to another shaft (not shown) protrudes. About the further wave is the drive shaft 10 drivable in a rotational movement, wherein the drive shaft 10 moved about its longitudinal axis A.

The pump housing 3 the high pressure pump 2 is with a pump cylinder head 11 connected to which a high pressure connection 12 is trained.

How the particular 2 can be seen, have the contact area 4 superimposed surfaces of the pump housing 3 and the housing part 5 the internal combustion engine surface roughness. These usually lead to an enclosed air volume, which has an insulating effect. In the present case, however, the volume of a thermally conductive material 7 filled so that the heat conduction between the pump housing 3 and the housing part 5 the internal combustion engine 1 is improved. The improved heat conduction promotes heat removal from the high-pressure pump to the housing part 5 the internal combustion engine 1 so that the internal cooling load is reduced. Accordingly, the required amount of cooling for cooling the high-pressure pump 2 be reduced. However, this assumes that the temperature of the high pressure pump 2 above the temperature of the housing part 5 the internal combustion engine 1 lies. If this is not the case, it will be in the contact area 4 a heat-insulating material 8th arranged (see reference numerals in parentheses).

The presentation of the 3 shows a further preferred embodiment of the invention, which serves to reduce the internal cooling load. That means that in the contact area 4 a thermally conductive material 7 is arranged to heat dissipation from the high pressure pump 2 in the housing part 5 to improve. The thermally conductive material 7 In this case, it is a thermal grease that has the advantage of being cavity-filling.

Of the 4 shows an embodiment of the invention, which serves to reduce the external cooling load. In the contact area 4 this is a heat-insulating material 8th arranged forming a heat insulating layer or a heat insulating body. In the present case, the heat-insulating body is a ceramic disk, through which the fastening element 9 passed through. In the 4 two ceramic discs are shown, wherein preferably the number of ceramic discs of the number of fasteners 9 equivalent.

Claims (7)

Internal combustion engine (1) with built-high-pressure pump (2) for supplying the internal combustion engine (1) with fuel, wherein the high-pressure pump (2) comprises a pump housing (3) in at least one contact region (4) on a housing part (5) of the internal combustion engine (1) abutting contact surface (6), characterized in that in the contact region (4) between the pump housing (3) and the housing part (5) of the internal combustion engine (1) at least one heat-conducting material (7) for reducing the internal cooling load or a heat insulating material (8) is arranged to reduce the external cooling load. Internal combustion engine (1) after Claim 1 , characterized in that the heat-conductive material (7) is a thermal paste, preferably an oil or silicone thermal grease, is. Internal combustion engine (1) after Claim 1 or 2 , characterized in that the heat-conductive material (7) is or comprises a metal such as gold, silver, aluminum and / or copper. Internal combustion engine (1) according to one of the preceding claims, characterized in that the heat-conducting material (7) is formed by a coating containing a heat-conducting material coating on the contact surface (6) of the pump housing (3) and / or on the housing part (5 ) of the internal combustion engine (1) is applied. Internal combustion engine (1) after Claim 1 characterized in that the heat insulating material (8) forms a heat insulation layer or a heat insulation body. Internal combustion engine (1) after Claim 1 or 5 , characterized in that the heat-insulating material (8) is plastic or comprises a plastic. Internal combustion engine (1) after Claim 1 . 5 or 6 , characterized in that the heat-insulating material (8) is ceramic or comprises a ceramic.

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