DE3623078A1 - Method and device for determining the gas sealing quality of cylinder head gaskets - Google Patents

Abstract

For determining the gas sealing quality of cylinder head gaskets the quantity of leakage gas escaping from the combustion chamber openings by way of the coolant openings of the gasket into the coolant circuit whilst the engine is running is determined by volumetric analysis. For this purpose a preferably funnel-shaped gas separator is incorporated into the coolant circuit downstream of the engine so that the entrained gas is separated from the coolant, migrates from there into a gas collecting vessel and a measuring vessel where it is electronically analysed and recorded, preferably fully automatically. In this way the gas sealing quality of the cylinder head gasket in the engine can be determined simply and economically, whilst at the same time further measured data on the engine are determined with the engine running. <IMAGE>

Description

The invention relates to a method and an apparatus for Determination of the gas sealing quality of cylinder head gaskets for Internal combustion engines.

Cylinder head gaskets for internal combustion engines are in the Engine between engine block and cylinder head with high Clamping pressure clamped and statically sealed against each other the hot combustion gases in the combustion chamber and towards the liquids of the coolant and Lubricant circuit. Special requirements with regard to the sealing quality are with cylinder head gaskets placed at the edge of the combustion chamber, since in the combustion chamber hot combustion gases are under strong pressure and already small amounts of those emerging at the edge of the combustion chamber Combustion gases for compression pressure drop with Loss of performance of the engine can result. You can also small amounts of escaping combustion gases Destroying sealing material and thus gas leakage gradually increase.

Testing the gas sealing quality of Cylinder head gasket material is made in practice according to DIN 3535 or ASTM F-37 on test rings in the model device under a predetermined surface pressure between two flanges  are clamped. After pressurizing the from the ring enclosed interior with a compressed gas is the most Exhaust gas leakage quantity measured outside the ring, and you may also get from different ones Temperatures a measure of the gas sealing quality of the Sealing material as a function of surface pressure for the various internal gas pressures in the interior of the test ring.

Values determined in model tests with test rings can be but only to a limited extent with the actual gas sealing quality a built-in cylinder head gasket under Compare operating conditions. Especially the surface pressure on the sealing surfaces of a built-in seal according to the different acting characteristics of the Clamping screws vary from place to place, and under the operating conditions of an engine is corresponding the driving style, the cylinder head gasket at the edge of the combustion chamber constantly changing gas pressure load from the Combustion chamber at various temperatures exposed.

To determine the gas sealing quality of a It would be cylinder head gasket under operating conditions of course, the entire engine during one Test bench run to be surrounded by a gas-tight shell and so the one emerging at the edge of the cylinder head gasket Determine total gas leakage. Such methods are very complex and uneconomical, and at the same time they only capture very imprecise at the edge of the combustion chamber of the cylinder head gasket excess gas leakage. This method is therefore available  especially for the detection of small amounts of exhaust gas leakage, for which Assessment of the sealing quality of a cylinder head gasket straight arrives, not suitable.

The present invention is therefore based on the object a simple method and device for carrying it out of the process by which the Exhaust gas sealing behavior of a cylinder head gasket in the determine motor operation with sufficient accuracy leaves.

According to the invention, this object is achieved by a method through which the from the edges of the combustion chamber Cylinder head gasket over the coolant holes during the Engine running into the coolant circuit Gas leakage amount is determined.

The now at the combustion chamber opening edges of the built Cylinder head gasket transcending and from there approximately radial gases flowing outward meet those Combustion chamber openings adjacent coolant openings and get into the coolant flow there. The coolant flow entrained amount of gas can then in a Coolant circuit separated gas separator and are preferably determined volumetrically. The measured The amount of gas is roughly proportional to the total at the edge of the combustion chamber Exceeded combustion gas leakage quantity and thus a measure for the gas sealing quality of the cylinder head gasket. At Determination of the excess gas leakage over a longer period Periods can be relatively small and with other methods  difficult to detect gas leaks with good accuracy be recorded quantitatively.

The measurement is carried out on the running engine, in particular during its test bench run without the engine running too influence. The method used according to the invention for Determination of the gas sealing quality can therefore be an additional one Criterion for further measurements on the engine during the same run to assess his running behavior be used.

For separating those entrained by the coolant flow Exhaust gas quantity has a funnel-shaped gas separator an opening angle of about 5 to 30 °, in particular 8 °, particularly proven. The gas separator is in the under Pressurized coolant circuit after flowing through the Coolant through the engine in the vertical direction so built in that it widens in the direction of flow. On in this way a laminar is formed in the gas separator delayed flow in the entrained gas bubbles climb up and get into a gas collection container. in the Gas collection container itself or in a downstream one Measuring vessel can then the entrained amount of exhaust gas per unit of time determined and preferably measured fully automatically-electronically and be evaluated.

The invention is thus a simple and thereby found economic method by which gas leakage or the gas sealing quality of one Cylinder head gasket under installation and operating conditions  can be determined even with small amounts of leakage. Since the Measurement of gas leakage without influencing engine running takes place, especially in engine test bench runs under the various conditions for determining the behavior of the Motors with practically no additional effort Made a statement about the quality of the cylinder head gasket will.

The method and the device for performing the method closer explained.

The illustration shows the principle diagram Coolant circuit management, gas separation, the measuring vessel and the registration device for electronic fully automatic measurement of gas leakage Cylinder head gasket.

The coolant flows under pressure in the direction of the arrow ( 1 ) through the pipe-water-cooled cooler ( 2 ), the motor ( 3 ) and the gas separator ( 4 ) in order to get back into the motor ( 3 ) after cooling ( 2 ). In the engine ( 3 ), the cooling water absorbs the gas leakage quantities coming through the combustion chamber openings to the cooling water openings of the seal. The gas separator ( 4 ) downstream of the motor ( 3 ) with a funnel-shaped housing and an opening angle ( 5 ) of approximately 8 ° widens in the direction of flow ( 1 ) and is arranged in the circuit in the vertical direction. A laminar delayed coolant flow ( 1 ) forms in the gas separator ( 4 ), in which entrained gas bubbles ( 7 ) separate along the rising gas separator surface ( 6 ) and migrate into the gas collecting vessel ( 8 ) arranged above. Via the two float valves ( 9 ) the separated gas quantity ( 12 ) reaches the measuring vessel ( 14 ) suspended from a load cell ( 11 ) and relaxes to the normal pressure while displacing the measuring vessel liquid into the expansion tank ( 13 ). The force measuring cell ( 11 ) is used to determine the volume of measuring vessel displaced by differential weighing. At the same time, when a certain displacement of the measuring vessel liquid quantity is reached, the solenoid valve ( 14 ) is closed and the supply of separated gas is interrupted, while the valve ( 15 ) is opened and the gas accumulated in the measuring vessel ( 10 ) via the outlet ( 16 ) while filling up the measuring vessel ( 10 ) is blown off with liquid. The measuring process can be repeated by subsequently opening the valve ( 14 ) and closing the valve ( 15 ).

The signals from the load cell ( 11 ) for controlling the valves ( 14, 15 ) and for registration on the recorder ( 18 ) are converted in the measuring bridge ( 17 ). In the recorder ( 18 ), the gas leakage quantity per unit of time is registered as an analog signal, and the differentiation of the signal gives the gas leakage quantity absorbed by the coolant per unit of time with a maximum error of plus / minus 5 ml with one liter of gas leakage quantity.

Claims (7)

1. A method for determining the gas sealing quality of cylinder head gaskets for internal combustion engines, characterized in that the gas leakage amount from the combustion chamber edges of the built-in cylinder head gasket is determined via the coolant openings in the coolant circuit while the engine is running. 2. The method according to claim 1, characterized in that the amount of gas leakage ( 7 ) into the coolant circuit is separated from the coolant in a gas separator ( 4 ) connected downstream of the engine ( 3 ) in the coolant circuit, that the amount of gas leakage ( 7 ) in a gas collecting vessel ( 8 ) collected and the gas leakage amount ( 7 ) is determined volumetrically. 3. The method according to claims 1 and 2, characterized in that the gas leakage amount ( 7 ) in a measuring vessel ( 10 ) is determined volumetrically and the gas leakage amount ( 7 ) is recorded in an electronic registration device ( 17, 18 ) per unit of time. 4. Device for performing the method according to at least one of claims 1 to 3, characterized in that the measuring device from a in the coolant circuit after flowing ( 1 ) of the coolant through the engine ( 3 ) built-in gas separator ( 4 ), a downstream gas collection container ( 8 ) and a downstream measuring vessel ( 10 ) for volumetric determination of the amount of gas ( 7, 12 ). 5. The device according to claim 4, characterized in that the gas separator ( 8 ) consists of a funnel-shaped housing with an opening angle ( 5 ) between 5 and 30 °, and that the gas separator ( 8 ) opens in the vertical direction in the flow direction ( 1 ) and is built into the coolant circuit. 6. Device according to claims 4 and 5, characterized in that the measuring device ( 10, 11, 13 ) for determining the gas leakage amount ( 12 ) consists of a load cell ( 11 ) and the associated measuring vessel ( 10 ), so that the gas leakage amount ( 12 ) is determined from the weight of the liquid displaced into the compensating vessel ( 13 ) during the measurement in the measuring vessel ( 10 ). 7. Device according to claims 4 to 6, characterized in that the device for registering the amount of gas leakage per unit of time in the engine in the coolant circuit ( 12 ) consists of a measuring bridge ( 17 ) in which the signals of the load cell ( 11 ) in write signals for the recorder ( 18 ) and into signals for controlling the valves ( 14, 15 ) for periodically filling and emptying the measuring vessel with the gas leakage quantity ( 12 ).