DE10012225A1 - Hydraulic play compensation element to control gas exchange valve of internal combustion engine; has opposite clamp areas with moving parts to determine volume of pressure chamber between them - Google Patents

Abstract

The element has opposite clamp areas to clamp two external counter bearings (14,15). The clamp areas are relatively displaceable parts (1,2), which determine the volume of a pressure chamber (3) between them. The pressure chamber is controlled by a one-way valve and connected to a supply chamber (4). An additional connection between the pressure chamber and another chamber (4,9) is formed by a throttle channel (6) with a high flow resistance. The two parts are charged by a force in the direction that increases the volume of the pressure chamber, at least during the operation of the engine. The pressure and supply chambers are acted on by a fluid. The supply chamber is connected to a fluid circuit (7) outside the compensation element. The supply chamber is connected to an area (8) of the fluid circuit, which has a higher pressure than another area (9) in the fluid circuit. The fluid circuit is not the lubrication oil circuit of the engine.

Description

The invention relates to a fluid circuit closed hydraulic lash adjuster for the Control of the gas exchange valves of an internal combustion engine according to the preamble of claim 1.

As a fluid circuit for such hydraulic play The lubricating oil circuit is usually the same element of the internal combustion engine.

Disadvantages of a connection to the lubricating oil circuit are in addition to a sometimes large lubricating oil refill requirement, esp the engine start, a sensitivity of the game same element on dirty or aerated Lubricating oil, which can result in malfunctions, as well as functional differences that arise due to the swan oil viscosity in a temperature range set between minus 40 ° and 150 ° C.  

An on the lubricating oil circuit of an internal combustion engine closed hydraulic lash adjuster shows at for example DE 198 18 893 A1.

The invention deals with the problem, the function to improve a generic game compensation element and in particular to increase its operational security.

This problem is solved by designing the gat appropriate device according to the characteristic feature of claim 1.

Advantageous and expedient refinements are the subject of subclaims.

The invention is based on the general idea of a hy drastic game compensation element to one for their radio tion and operational safety, the most suitable fluid circuit to join the run. This fluid circuit can to act in such a way that only for the operation of the Game compensation element is created or around one those in an internal combustion engine or in a Motor vehicle powered by the internal combustion engine will already exist. From the already one reasons mentioned above should not be connected to the Lubricating oil circuit of the engine take place.

For the selection of the fluid circuit, that for play same element should either be created as such  or that already in a combustion engine in one power vehicle is present, it must be ensured that the requ fluid pressure especially when starting an engine ride at the required amount as early as possible Is available and si during the entire engine operation is maintained.

A connection to, for example, is particularly advantageous the fuel supply device of the internal combustion engine, since fuel is always under increased pressure during engine operation is available and in a cycle under et wa atmospheric pressure as return flow into the tank flows back. In this fuel cycle is for the An end of the game compensation element no additional pressure generating device necessary.

Basically, as pressure generation energy for one of the lubricating oil circuit separate fluid circuit also that pressurized lubricating oil can be used.

An embodiment of the invention is in the drawing shown.

In this shows the only one

Fig. 1, the device according to the invention in a wesent union schematic representation.

The relatively movable parts of the hydraulic Game compensation elements are with 1 and 2 as the first and called second parts.

The two parts 1 and 2 are telescopically displaceable relative to one another, with spaces separated from one another, namely a pressure space 3 and a feed space 4 .

The rooms 3 and 4 are connected via a one-way valve 5 , which only allows fluid flow from the feed chamber 4 into the pressure chamber 3, and via a throttle channel 6 , which is in the form of an annular gap between regions of the first and second parts.

The feed chamber 4 is connected to a fluid circuit 7 via a feed channel 10 in the first part 1 . In the fluid circuit 7 , fluid is conveyed from a tank 11 by means of a pump 12 into an area 8 of the fluid circuit 7 . In the region 8 of the fluid circuit there is therefore a higher pressure than in the region 9 which lies within the tank 11 . The two pressure ranges 8 and 9 are separated from one another by a throttle 13 .

The function of the hydraulic working according to the invention Match compensation element is as follows.  

In a fluid circuit 7 with an operating union pump 12 reaches a selected hydraulic fluid speed as operating fluid in the feed chamber 4 of the play compensation element. Due to the pressure of the hydraulic fluid speed in the feed chamber 4 , the one-way valve 5 opens, whereby the liquid flows into the pressure chamber 3 . The hydraulic fluid flowing into the pressure chamber 3 under pressure ensures an increase in volume of the pressure chamber 3 by mutual displacement of the parts 1 and 2 . In this way, the play compensation element takes its maximum clamping length between two abutments 14 and 15 , which are on the one hand on the first part 1 and on the other hand on the two part 2 , one.

If from the abutments 14 , 15 , against which the parts 1 and 2 abut, a force is exerted in the direction of a shortening of the clamping length of the play compensation element, then when the one-way valve 5 is closed, hydraulic fluid flows through the throttle channel 6 from the pressure chamber 3 into the area 9 in the fluid circuit 7 , which reduces the clamping length of the hydraulic likausgleichselementes.

It is also possible to direct the hydraulic fluid flowing out of the pressure chamber 3 through the throttle channel 6 into the supply chamber 4 , which is under supply pressure.

Claims (7)

1. Connected to a fluid circuit hydraulic lash adjuster for controlling the charge exchange valves of an internal combustion engine with opposite clamping areas for clamping between two outside abutments, in which

• the clamping regions are formed by parts that can be displaced relative to one another, namely a first and a second part ( 1 , 2 ),
• - A pressure chamber ( 3 ) is formed between the first and second part ( 1 , 2 ),
• - The volume of the pressure chamber ( 3 ) is determined by the mutual position of the first and second part ( 1 , 2 ),
• - The pressure chamber ( 3 ) can be connected to a supply chamber ( 4 ) in a valve-controlled manner,
• a one-way valve ( 5 ) to be let from the supply in the direction of the pressure chamber ( 4 or 3 ) is provided for the valve control,
• - There is an additional connection between the pressure chamber ( 3 ) and another chamber ( 4 , 9 ) via a throttle channel ( 6 ) with high flow resistance,
• - The two parts ( 1 , 2 ) are loaded at least temporarily by a force in the direction of an increase in volume of the pressure chamber ( 3 ), at least during the operation of the internal combustion engine,
• - The pressure and the feed chamber ( 3 or 4 ) are acted upon by a fluid,
• - The feed space ( 4 ) is connected to a fluid circuit ( 7 ) provided outside the play compensation element,
• - The fluid circuit ( 7 ) comprises areas ( 8 ) and ( 9 ) different fluid pressure values,
• - The feed chamber ( 4 ) is connected to an area ( 8 ) of the fluid circuit ( 7 ) in which there is an increased fluid pressure compared to the other fluid circuit area ( 9 ),

characterized by
that the fluid circuit ( 7 ) is different from the lubricating oil circuit of the internal combustion engine. 2. Device according to claim 1, characterized, that as a fluid a hydraulic fluid with one in one Temperature range from minus 40 ° to plus 150 ° C compared to Mo Tor lubricating oil lower viscosity is used. 3. Device according to claim 1 or 2, characterized in that an electrical energy is used to generate a pressure difference in the fluid circuit ( 7 ). 4. Device according to claim 1 or 2, characterized in that for generating a pressure difference in the fluid circuit ( 7 ) pressurized engine lubricating oil is set. 5. Device according to one of the preceding claims, characterized, that the operating fluid of the lash adjuster the Fuel flow of the internal combustion engine is removed. 6. Device according to one of claims 1 to 4, characterized, that the operating fluid of the lash adjuster the Brake fluid circuit one of the internal combustion engine driven vehicle is withdrawn. 7. Device according to one of claims 1 to 4, characterized, that the operating fluid of the lash adjuster the cooling middle circuit of the internal combustion engine is removed.