DE102005058109B4 - Use of a filter unit with a predetermined breaking point - Google Patents

Abstract

Use of a filter unit (1),
comprising at least one oil inlet (8), at least one oil outlet (5), at least one filter element (2) arranged fluidically between oil inlet (8) and oil outlet (5), and a bypass, through the oil inlet (8) and oil outlet ( 5) can be connected without the interposition of the filter element (2) and which is provided with a valve element (16) which keeps the bypass closed for the first time exceeding a certain pressure difference between oil inlet (8) and oil outlet (5) and after the pressure difference has been exceeded for the first time permanently releasing, wherein the valve element (16) has a predetermined breaking point, which leads to a controlled breaking or tearing of the valve element (16) when the pressure difference is exceeded,
for quickly reducing an initial contamination of oil in a transmission of a motor vehicle caused by inlet wear.

Description

The The invention relates to a new use of a filter unit with a predetermined breaking point.

In the EP 0 955 474 A2 there is disclosed a transmission with a pressurized oil system having a filter unit for purifying oil. Between a oil inlet and an oil outlet of the filter unit, a filter element is arranged, which is flowed through by the oil to be cleaned while dirt particles etc. catches. Furthermore, the filter unit has a bypass, can be connected through the oil inlet and oil outlet without the interposition of the filter element. The bypass is equipped with a valve element, which allows a flow through the bypass, if an excessive pressure drop across the filter element occurs or if a certain pressure difference between the oil inlet and the oil outlet is exceeded. The valve element is designed as a spring-loaded ball seat valve.

Also in the DE 102 42 872 A1 is described a spring-loaded valve, which is part of a filter. The valve opens when a certain pressure limit value is exceeded and ensures that if the filter element is contaminated too much, the flow resistance of the filter does not rise unacceptably high.

Next The possibility, integrating a spring-loaded valve in a filter is the same known, about one aperture maybe one too big Reduce pressure between input and output of the filter unit. When using a diaphragm decreases the reduction of dirt particles in the oil one longer Time consuming, as always a partial flow through the aperture on the filter element flows past. This is true a pressure relief valve or a spring-loaded ball seat valve, the more cost-effective variant, However, there is a risk that harmful dirt particles too late the oil be filtered and thus damage the pressure oil system. Put instead a pressure relief valve On, the sidestream is set to zero until a certain load condition or degree of contamination of the filter element or the viscosity of the oil so low will that the maximum allowable Pressure drop is reached and the valve bypass for the bypass releases. Such overpressure valves however, as stated above, are comparatively expensive, because several components are used. In addition, usually additional Space to be taken.

In the DE 10 2004 041 290 A1 As a non-published prior art, a filter assembly for a hydraulic circuit in a motor vehicle is known, comprising a cap made of elastic plastic. Due to its elasticity, the cap assumes an open position when the filter assembly is flowed through by an oil inlet in the direction of an oil outlet. If the filter arrangement flows through in the opposite direction, the cap is pressed against a valve seat and assumes a closed position. Thus, a check valve is realized, which is simple and inexpensive.

The US 2005/0145558 A1 shows a filter assembly with a valve element that allows to flow through the filter assembly in different directions.

The DE 102 00 274 A1 shows a fuel filter with a predetermined breaking point, which opens when due to flocculation in the fuel, a pressure difference in the fuel filter is too large. When the temperature of the fuel increases and thus the flocculations dissolve, a sealing lip closes the broken breaking point, so that impurities can not pass unimpeded through the fuel filter.

From the DE 102 06 805 A1 is a soot filter with means for reducing an existing in the soot filter exhaust back pressure, said means comprising a predetermined breaking point in a filter body of the filter or in a bypass. If the predetermined breaking point is broken or cracked, the exhaust gas to be cleaned passes unfiltered into the environment. Accordingly, the DE 102 06 805 A1 Means to detect the breakage of the predetermined breaking point, so as to quickly fix the fault condition.

In the US 2005/0125178 A1 A solution is also proposed to detect when a fluid filter has become clogged and needs to be replaced. Here is a valve element in the form of a pressure relief valve to the permitting that in the open state in the liquid filter, a liquid level, which is used as a visual indication for the replacement of the liquid filter.

Of the Invention is based on the object, a filter unit with a To supply predetermined breaking point of a new use, wherein the filter unit for a possible good filtering and easy and inexpensive to produce.

The object underlying the invention is achieved with the use of a filter unit according to claim 1. The filter unit has the feature that the valve element keeps the bypass closed before first exceeding a certain pressure difference between the oil inlet and the oil outlet and releases it permanently after the pressure difference has been exceeded for the first time. Such a thing Valve element may preferably be formed as a thin wall or membrane which breaks or ruptures when the determined pressure difference between oil inlet and oil outlet is exceeded. Before exceeding the pressure difference, the valve element closes the bypass, so that the entire oil entering through the oil inlet flows through the filter element.

Compared to the known bypass valves in the form of pressure relief valves can be the valve element according to the invention much cheaper produce. Compared to a filter unit with a shutter In the bypass, the invention has the advantage that through the filter unit the initial contamination to be detected in transmissions of motor vehicles through inlet wear etc. is quickly degraded by the filter unit, there initially no oil flow past the filter element is. A big part This initial contamination is still in the factory of the motor vehicle manufacturer instead of. Only after the filter element by the loading of the dirt particles in the oil one too big flow resistance has, breaks the wall or the membrane.

The Valve element has a predetermined breaking point. Thus it comes corresponding pressure conditions to a controlled breaking or tearing of the valve element. moreover is achieved by providing the predetermined breaking point that at a variety of manufactured filter units any deviations in the pressure difference, to a permanent release of the bypass or to open the valve element leads, can be kept small.

The versions refer to a filter unit for cleaning oil. The term "oil" is meant here representative of Fluids are understood to be dirt particles, chips or The like can take and transport and through filter units let it clean.

The Pressure difference between oil outlet and oil inlet should correspond to the pressure drop that occurs over the filter element. The influence of any components in the filter unit, between oil inlet and oil outlet can be arranged and by their flow resistance cause a pressure drop, should not be considered here.

In a preferred embodiment the filter element fixed by at least one holding part. Preferably is the holding part in one piece with formed the valve element and is suitably made of plastic. Thus can be make the valve element particularly inexpensive.

The Filter element may be formed as a hollow cylinder and the front side each by a holding part in the form of a first end cap or in Be held in the form of a second end cap. In this case, the oil outlet be arranged on the first end cap, while preferably on the second end End cap, the valve element is arranged. For hollow cylindrical training of the filter element flows preferably the oil to be cleaned radially through the filter element in the interior of the hollow cylinder and then in the axial direction in purified form, passed through the oil outlet at the front. If the valve element on the second end cap after first exceeding the pressure difference opened is, at least a partial flow of the oil to the filter element over through the valve element on the second end cap into the interior of the Get hollow cylinder, then again in the axial direction flowing through the oil outlet to step out of the interior of the hollow cylinder.

Preferably Filter element and valve element are housed in a common filter housing. Thus, the filter unit is combined in one component and let yourself simply use for example in a transmission of a motor vehicle. But there is also the possibility that the filter unit consists of separate parts that only through pipes, channels or the like fluidically connected to each other.

Preferably can after the first crossing the pressure difference between oil inlet and oil outlet, which permanently opens the valve element, the valve element fulfill the function of a diaphragm. Is that for example Valve element formed as a membrane, after initial overwriting the pressure difference is cracked, so the cracked membrane like an aperture due to a small flow cross-section a large flow resistance exhibit. By appropriate shaping of the valve element in Connection with a predetermined breaking point allows the flow cross section after being torn open the membrane to a desired Set the value with sufficient accuracy.

Based the exemplary embodiments illustrated in the figures, the invention explained in more detail. It demonstrate:

1 a filter unit with a closed valve element;

2 the filter unit of 1 with an open valve element; and

3 another filter unit in exploded view.

1 schematically shows a filter unit in section, in its entirety with 1 referred to as. The filter unit 1 has a filter element 2 formed in the form of a hollow cylinder and designed to purify oil used in a motor vehicle transmission in a pressurized oil system.

The filter element 2 consists of zigzag folded filter fleece or filter paper, which is formed into the hollow cylinder. The filter element 2 is through a first or upper end cap 3 and by a lower and second end cap, respectively 4 held on the respective end faces of the hollow cylinder. The upper end cap 3 makes an exit 5 for the oil coming out through the filter unit 1 should be filtered.

Furthermore, in 1 a housing 6 shown the end caps 3 . 4 fixed. The housing 6 has two housing halves 6a . 6b on that at a common interface 7 (shown only schematically) are interconnected. The housing halves 6a . 6b For example, they can be glued, screwed or locked.

The housing has two openings 8th acting as inputs to the filter unit 2 serve and by the oil to be cleaned or dirty oil to the filter element 2 arrives. The flow of the dirty oil should be through the arrows 9 be indicated. The dirty oil is seen radially from the outside to the filter element 2 then introduced mainly in the radial direction through the filter element 2 in a cylindrical interior 10 to stream. When flowing through the filter element 2 Dirt particles or the like are filtered out. That through the filter element 2 streamed oil or clean oil now flows in the axial direction of the hollow cylindrical filter element 2 through the exit 5 from. The flow of clean oil is through the arrows 11 shown.

The filter element 2 rests on a cylindrically shaped support frame 12 from. The support frame 12 is doing so with a variety of recesses 13 provided so that the cleaned oil from the filter element 2 over the interior 10 to the exit 5 can get.

The lower end cap 4 has a flat bottom 14 with an area 15 on, the wall thickness is significantly lower than the wall thickness of the rest of the soil 14 , Thus, a valve element 16 in the form of a thin wall or a membrane 21 educated. About in the end cap 4 molded channels 17 that gets through the inputs 8th passing dirt oil even to the membrane 21 , The membrane 21 separates fluidly the inputs 8th and the interior 10 from each other. With such a closed membrane 21 the oil passing through the oil inlet enters the filter unit 6 exclusively through the filter element 2 therethrough.

2 shows the filter unit 1 , where now the membrane 21 is no longer closed, but due to a first occurrence of excessive pressure difference between inputs 8th and exit 5 torn. This creates a flow of oil to be cleaned on the filter element 2 passed by. This should be done by the arrows 18 to be marked. By designing the membrane 21 (Wall thickness, material, possibly introducing a predetermined breaking point) can be adjusted at which pressure difference between the oil inlet and oil outlet, the membrane 21 rips and a stream of oil according to the arrows 18 on the filter element 2 passing by. This ensures that even with a high degree of contamination of the filter element 2 not too high pressure in front of the filter unit 1 builds up or that a flow through the filter unit 1 guaranteed at all times. Depending on the degree of contamination, a portion of the dirty oil continues to flow through the filter element 2 (see arrows 9 ).

3 shows in exploded perspective view in a slightly modified embodiment, the filter element 2 , the support frame 12 in the form of a cylinder cage as well as the end caps 3 . 4 , The upper end cap 3 has an annular groove 19 for receiving a sealing ring 20 on, through which a tight connection between the upper end cap 3 and housing 6 (in 3 not shown) is ensured.

1

filter unit

2

filter element

3

first endcap

4

second endcap

5

output

6

casing

7

interface

8th

opening

9

arrow (Flow direction)

10

inner space

11

arrow (Flow direction)

12

support frame

13

recess

14

ground

15

Area

16

valve element

17

channel

18

arrow (Flow direction)

19

ring groove

20

seal

21

membrane

Claims (10)

Use of a filter unit ( 1 ) comprising at least one oil inlet ( 8th ), at least one oil outlet ( 5 ), at least one filter element ( 2 ), which fluidically between oil inlet ( 8th ) and oil outlet ( 5 ), and a bypass, through the oil inlet ( 8th ) and oil outlet ( 5 ) without the interposition of the filter element ( 2 ) are connectable and with a valve element ( 16 ), which before a first-time exceeding of a certain pressure difference between oil inlet ( 8th ) and oil outlet ( 5 ) keeps the bypass closed and permanently releases after first exceeding the pressure difference, wherein the valve element ( 16 ) has a predetermined breaking point, which leads to a controlled breaking or tearing of the valve element ( 16 ), when the pressure difference is exceeded, leads to the rapid degradation of an initial contamination of oil in a transmission of a motor vehicle caused by inlet wear. Use according to claim 1 with the proviso that the valve element ( 16 ) as a thin wall or membrane ( 21 ) is trained. Use according to claim 1 or 2 with the proviso that the filter element ( 2 ) by at least one holding part ( 3 . 4 ) is fixed. Use according to claim 3 with the proviso that the holding part ( 4 ) and the valve element ( 16 ) are integrally formed. Use according to claim 3 or 4 with the proviso that the holding part ( 4 ) and the valve element ( 16 ) are made of plastic. Use according to one of claims 1 to 5, with the proviso that the filter element ( 2 ) is formed as a hollow cylinder and each end face by a holding part in the form of a first end cap ( 3 ) or in the form of a second end cap ( 4 ) is held. Use according to claim 6 with the proviso that at the first end cap ( 3 ) the oil outlet ( 5 ) is arranged. Use according to claim 6 or 7 with the proviso that on the second end cap ( 4 ) the valve element ( 16 ) is arranged. Use according to one of claims 1 to 8 with the proviso that the valve element ( 2 ) and valve element ( 16 ) in a common filter housing ( 6 ) are housed. Use according to one of claims 1 to 9 with the proviso that after the first time the pressure difference between the oil inlet ( 8th ) and oil outlet ( 5 ) the valve element ( 16 ) fulfills the function of a diaphragm.