DE19933363A1 - Device for cooling and / or lubricating a reciprocating piston internal combustion engine - Google Patents

Abstract

The invention relates to a device for cooling the pistons 18 of an internal combustion engine by means of a pump 11, which supplies oil from the lubricating oil circuit to the piston by means of a pump via an inlet line 4 having an outlet opening 5, the oil inlet being controlled via a valve 17 controlled as a function of engine parameters regulated and the oil is sprayed at least against the underside of the piston 18 and the lubricating oil circuit includes at least one main supply line 27 to which a plurality of supply lines 4, each with an outlet opening 5, are connected, only one valve 17 being provided in the main supply line.

Description

The invention relates to a device for cooling the Piston of an internal combustion engine by means of a pump, the oil out the lubricating oil circuit by means of a pump via an outlet opening supply line feeds the piston, the Oil supply via a control depending on engine parameters valve regulated and the oil at least against the bottom the piston is injected.

It is already a device of the type listed at the beginning known (DE 42 43 571 C2), in which the piston cooling immediately bar in the crankcase in the area of the storage chairs and is connected to a lubricant supply, so that oil is spilled on the underside of the piston via oil spray nozzles can be gen. The oil spray nozzles are in connection with the upstream pressure valves designed so that in idle drove the machine's oil spray nozzles from the lubrication supply are switched off. Furthermore, the oil spray nozzles in the La recesses provided. This is supposed to additional lubrication oil channels for the other oil spray valves be saved.  

Accordingly, the object of the invention is a device for cooling the pistons of an internal combustion engine with a Train and arrange the lubricating oil circuit so that only at be agreed parameters of cooling the engine follows.

The object is achieved in that Lubricating oil circuit belongs to at least one main supply line, to the several supply lines, each with an outlet opening are connected, with only one valve in the main supply supply line is provided. This will make building simple Liche achieved that the piston cooling of the internal combustion engine machine only occurs when certain temperature values in the Internal combustion engine can be achieved, so that in particular Piston cooling does not occur during cold start operation, as this is not required in this operating state. A piston Cooling is particularly effective during cold starts and in parts load range negative on emissions, noise behavior and Fuel behavior. By the device according to the invention and for the targeted switching on of the piston cooling one significant improvement created.

It is also advantageous that the valve as pressure independent hanging, switchable valve designed and in the area of a End of the main supply line is provided.

According to a further development, an additional possibility is the Device according to the invention that the valve as an electromagnetic table valve and engine parameters such as oil temperature, water temperature or oil pressure, is controllable. Since that Valve is designed as an electromagnetic valve, it leaves easily about the engine parameters, such as Switch oil temperature, water temperature or oil pressure, see above that it opens very specifically at the desired operating state and ensures the coolant supply to the piston.  

In a further embodiment of the invention, it is advantageous that the valve with sensors of the engine and / or with the engine control device is operatively connected in which the individual Mo gate parameters are stored.

According to a preferred embodiment of the invention Solution is finally provided that the supply line with their outlet opening designed as oil splashes at a distance to at least one inlet opening provided in the piston is arranged and in flow connection.

It is also advantageous that the supply line with its off opening concentric to the one provided in the piston let opening is arranged. Due to the advantageous placement the outlet of the oil syringe in the area of the piston an optimal coolant in any position of the piston ensures the piston is supplied with power, as it also has a lan ge distance between the outlet opening of the feed lines and the inlet opening in the piston a transport to the piston si Is made so that the coolant is targeted into the inlet Enter the opening in the piston and at another point in the piston ben can exit again.

In connection with the training and arrangement according to the invention It is advantageous that the supply line with its off opening in a certain position of the piston in the Intake opening of the piston protrudes. This ensures that no damage in any position of the piston the supply line can enter because even in the lowest Position of the piston (UT) the outlet or outlet End of the oil supply line into the opening of the piston can enter.  

It is also advantageous that one or more Ölka in the piston channels are provided, at least one of them with the off opening of the supply line of the oil circuit in flow connection that is at least partially in an engine block or cylinder housing.

Further advantages and details of the invention are in the Pa claims and explained in the description and in the Fi shown. It shows:

Fig. 1, an internal combustion engine with a coolant supply for a piston,

Fig. 2 is an oil cooling circuit for the coolant supply of the piston,

Fig. 3 shows another embodiment example of a coolant supply for a piston.

In the drawing, a device for cooling or for lubricating a reciprocating internal combustion engine is illustrated with a cylinder 2 shown in cross section and a crankcase 12 to which a combustion chamber 1 is assigned.

A piston 18 is mounted in the crankcase 12 above a piston pin 16 by means of a connecting rod 15 . The piston 18 has a piston crown 20 and a piston skirt 21 and in the upper region numerous ring grooves 22 for receiving piston rings 23 .

The piston 18 is delimited by the piston crown 20 and an upper piston surface or piston recess 24 and a piston jacket surface 25 .

In the area of the piston jacket surface 25 there is an umlau fender oil channel 19 which can be connected to an inlet opening 6 , 6 'and on the other hand to an outlet opening 7 , 7 '. In the drawing, the oil channel 19 is indicated in dashed lines.

The oil channel 19 belongs to an oil circuit, which also includes a supply line 4 provided in an engine block 10 . The lead line 4 is connected to a main supply line 27 . The main supply line 27 is also used for pressure medium supply of further supply lines, not shown in the drawing, for further cylinders of the internal combustion engine and is supplied by a pump 11 .

As can be seen from the drawing, the feed line or the feed channel 4 is in each case connected to the corresponding crankcase 12 . For this purpose, the feed line 4 in the loading area 5 has an oil spray nozzle 26 which is arranged at a sufficient distance from the piston crown 20 so that no damage to the feed line 4 can occur when the piston 18 is in the UT position. For this purpose, the supply line 4 or the oil spray nozzle 26 is arranged concentrically to the inlet opening 6 provided in the piston 18 of the oil channel 19 , so that in the Stel development UT of the piston 18 part of the oil spray nozzle 26 or the associated supply line 4 in the hole adjoining the inlet opening 6 , 6 'can occur briefly.

In the UT position of the piston 18 , however, the Öl Spritzdü se 26 has a free path L, so that the oil emerging from the oil spray nozzle 26 passes through this path L into the inlet opening 6 . Depending on the design of the oil spray nozzle 26 , part of the coolant can also be sprayed onto the piston walls or the piston crown 20 and thus also ensure cooling of the piston 18 from the outside. This arrangement ensures in any case that an oil supply to the oil channel 19 is provided in any position of the piston 18 . Furthermore, the piston can also be permitted without an oil channel.

Advantageously, there is a switchable valve 17 behind the pump 11 , which is formed as an electromagnetic valve and can be controlled by engine parameters such as oil temperature, water temperature or oil pressure. In this way, it is possible to selectively apply the desired coolant or the engine oil to the cooling channels or oil channels 19 when a certain operating state is sufficient. A coolant supply during cold start or overrun can have a negative impact on the running behavior, noise, emissions and fuel consumption of the internal combustion engine. The targeted cooling and / or clocked cooling significantly improves the key figures of the engine and the overall efficiency.

The switchable valve 17 is operatively connected to sensors of the engine and / or an engine control unit, also not shown in the drawing, in which the individual engine parameters are stored. With this arrangement it is also possible to save valves within the range of the oil syringe. In addition, it is possible according to another embodiment, instead of a separate oil channel or a separate feed line 4 to control the flow rate of the individual oil spray nozzle 26 as a function of the operating parameters by means of a separate valve.

With the device according to the invention for cooling and / or lubricating the piston 18 or the reciprocating piston internal combustion engine, the lubrication or cooling can only be used after the cold start of the engine, so that rapid combustion chamber heating can also take place, which delays due to early cooling would. In order to counteract cooling of the combustion chamber, it is advantageous to avoid or reduce cooling channel loading, particularly in the partial-load range or overrun mode.

In Fig. 2 are to the main supply line 27 to supply lines or supply channels 4 with oil spray nozzles 26 is closed, which have outlet openings 5 through which the cooling oil is supplied to the piston 18 . An engine control unit 28 can according to FIG. 2, may be 3 operatively connected to the valve 17, the valve 17 between the pump 11 and the first supply passage 4 or the oil spray nozzle 26 (Fig. 3) or between an oil pan 30 of the crankcase 12 and a Oil spray nozzle 26 or a feed channel 4 is provided ( FIG. 3).

Claims (8)

1. Device for cooling the pistons ( 18 ) of an internal combustion engine by means of a pump ( 11 ) which supplies oil to the piston from the lubricating oil circuit by means of a pump via an outlet opening ( 5 ) having a feed line ( 4 ), the oil supply being dependent on controlled by engine parameters valve ( 17 ) and the oil is sprayed at least against the underside of the Kol bens ( 18 ), characterized in that at least one main supply line device ( 27 ) belongs to the lubricating oil circuit, to which several supply lines ( 4 ) each with egg ner Outlet opening ( 5 ) are connected, only one Ven valve ( 17 ) is provided in the main supply line. 2. Device according to claim 1, characterized in that the valve ( 17 ) is designed as a pressure-independent, switchable valve and is provided in the region of one end of the main supply line ( 27 ). 3. Apparatus according to claim 1 or 2, characterized in that the valve ( 17 ) is designed as an electromagnetic valve and can be controlled by engine parameters such as oil temperature, water temperature or oil pressure. 4. The device according to claim 1, characterized in that the valve ( 17 ) with sensors of the engine and / or with the engine control unit is operatively connected, in which the individual engine parameters are stored. 5. Device according to one of the preceding claims, characterized in that the supply line (4) at a distance from an opening provided in the piston (18) inlet opening (6) is arranged with its having formed as an oil spraying th exit opening (5) at least and is in flow communication. 6. Device according to one of the preceding claims, characterized in that the supply line (4) is arranged with its outlet opening (5) con centric to the provided in the piston (18) inlet opening (6). 7. Device according to one of the preceding claims, characterized in that the feed line ( 4 ) with its outlet opening ( 5 ) in egg ner certain position of the piston ( 18 ) protrudes into the inlet opening ( 6 ) of the piston. 8. Device according to one of the preceding claims, characterized in that one or more oil channels ( 19 ) are provided in the piston ( 18 ), at least one of which is in flow connection with the outlet opening ( 5 ) of the feed line ( 4 ) of the oil circuit, which at least partially in an engine block or cylinder housing ( 10 ).