DE2006708A1 - Arrangement of the cooling liquid circuit of an intercooler for cooling the filling air for blower internal combustion engines, in particular for motor vehicles - Google Patents

Description

Patent attorneys
Dlpl.-Ing. R. β EET 2 sen.
-Dlpl-Ing. K. LAMPRECHT
Dr.-Ing. R. BEET 2 Jr. 233-15 · 397P February 13, 1970

Ustav pro vyzkum motorovych vozidel, PRAGUE (Czechoslovakia)

, ■■ .. ■■ ■■■ .. -ζ. ι

Arrangement of the coolant circuit of a Intercoolers for cooling the filling air for blower internal combustion engines, in particular for automobiles

The invention relates to the arrangement of the coolant circuit for cooling the filling air compressed in a compressor for piston-blower internal combustion engines, especially for motor vehicles, in an intercooler.

Previously used intercoolers for the charge air compressed in a compressor, which is cooled by a liquid in these intercoolers, are associated with various advantages. Your possible uses are known and are often used. By cooling the filling air is the specific mass of the air conveyed into the working and cubic capacity of the combustion

233- (S 6558-J 3525) -Tp-r (7)

009836/1440

motors enlarged. This allows larger amounts of fuel to be burned in the engine's working space The engine output is increased and the specific fuel consumption is reduced.

When using an intermediate cooler for the filling air in a motor vehicle fan motor is the size of the possible Cooling and thereby also the cooling capacity of the filling air is given by the lowest temperature of the cooling air and limited that is normally available in the engine. In the simplest case of the usual design, the

P The coolant of the intercooler is taken from the main cooling system of the engine at a temperature of approx. 80 to 90 C. To z. As to increase the power of an automotive engine to kO "fa, the temperatures of the inflation air to reach downstream of the compressor for the corresponding compression and a satisfactory Koepressorleistung values of 120 ° to 130 ⁰ C. Cooling of the inflation air in this known embodiment is merely to 90 ° to 105 ° C possible, which means a reduction of 30 to 25 C. The supply of any cold cooling water in the intercooler, e.g. from the installed water supply network, as in the case of stationary motors, or the supply

k cooler water from around a ship in the Arrangement of marine engines is impossible with automobile engines.

A much greater reduction in the temperature and cooling of the filling air and therefore also a higher engine output at a lower thermal stress on the individual engine parts, the arrangement of the invention Achieved cooling circuit of an intercooler.

009836/1440

The invention is characterized at a cooling circuit arrangement of the intercooler of a vehicle engine or an engine of a ¹ different type, where the free supply of any cold liquid or impossible of water in an amount sufficient that the inflation air cooled in the intermediate cooler liquid in a A special circuit of the liquid, independent of the main cooling system of the engine and containing its own liquid cooler, is cooled, this independent circuit being provided with a circulation pump which is regulated as a function of a change in the engine speed or a change in the size of the filling pressure.

In completely independent cooling circuit of the liquid of the intercooler are - the actual intercooler of the liquid-air system, in which on a Side of the temperature exchange surface the cooling liquid from the independent liquid cooler cooling the liquid and cooled on the other side Filling air flow, connecting lines for the out of the Intercooler into the liquid cooler and from there Liquid flowing back into the intercooler and a circulation pump operating in the second connection line is arranged, wherein the liquid cooler is arranged independently and independently next to the radiator of the engine cooling system. .

The invention will now be explained in more detail with the aid of the drawing representing an exemplary embodiment, which shows the cooling liquid circuit of the intermediate cooler. -.-. ■ "... ■ -: '" - ■■ · -..- -.'- .'_ .'

9836/1440

In the single figure, 1 denotes a fan internal combustion engine with a turbo blower or with a mechanically or otherwise driven compressor 2} 3 is an intercooler of the liquid-charge air type. At a On the side of this intercooler 3 there is a liquid and on the other side there is filling air. The liquid cooler is denoted by 4, 5 is a connecting pipe from the intercooler 3 to the liquid cooler 4 and 6 is a connecting pipe which leads back from the liquid cooler 4 to the intercooler 3. the The regulated circulation pump operating in this pipe is denoted by 7. The actual cooler of the engine cooling system tents is marked with 8 «

The illustrated embodiment works as follows χ

The cooling system with the radiator 8 of the internal combustion engine 1 is entirely from the cooling system of the intercooler 3 separated. The liquid that cools the filling air flows off Intercooler 3 in an independent circuit through pipe 5 in the liquid cooler 4, where they are on the possible low temperature of the surrounding air driven through the cooler by a fan. then the liquid flows out of the cooler 4 through the circulation pump 7 and the pipe 6 back into the intercooler 3, where it again removes heat from the filling air. Of the The circle is therefore independent and closed. The circulation pump 7 has a control system for control the liquid flowing through the cooling circuit of the intercooler 3 is provided.

A major advantage of the inventive approach

009836/1440

Order consists in the fact that a maximum temperature of the cooling liquid is stabilized in the independent and separate cooling circuit of the intercooler 3, which is significantly lower than the temperature of the liquid in the cooling system of the engine. An up to k $ - 50 ° C higher cooling effect on the inflation air is achieved for temperatures of the inflation air downstream of the compressor at values of 120 ° to 130 ⁰ C · This is an about twice higher effect in comparison with the usual design, in which the cooling circuit of the intercooler is connected to the normal cooling system of the engine. The device according to the invention can easily be manufactured according to the usual technology and offers a significant increase in the performance of internal combustion blower engines that are fed with compressed air from a compressor. A further reduction in fuel consumption and the thermal stress on the engine is also achieved.

Another advantage of the arrangement according to the invention of the cooling circuit of the intercooler is that they in internal combustion engines both with water cooling as can also be used with air cooling.

009836/1440

Claims (3)

Claims ί 1 .J Arrangement of the coolant circuit for cooling oer filling air compressed in a compressor for piston-blower internal combustion engines, in particular for Motor vehicles, in an intercooler, d a d u r ch marked that the filling air in the Intercooler (3) cooling liquid in a special, independent of the main cooling system of the engine (1) and containing its own liquid cooler (4) The liquid circuit is cooled, this independent circuit being provided with a circulation pump (7) is that as a function of a change in the engine speed or a change in the size of the filling pressure is regulated. 2. Arrangement according to claim 1, characterized in that the liquid in the completely independent cooling circuit of the intercooler the actual intercooler (3) »connecting lines (5t *>)» those with a control circulation pump provided for the liquid flow (7) and the liquid cooler (4), which is preferably flowed through by ambient air, which is independent of the cooler (8) of the cooling systems of the engine (1) is arranged, are provided. 3. Arrangement according to claim 1 or 2, characterized in that the liquid cooler (h), preferably through which ambient air flows, of the independent cooling circuit of the liquid of the intercooler (3) is independent of the entry and flow of the cooling air into or through the actual cooling system of the engine ( i) arranged 1st. 009836 / U4O