DE202017007191U1 - End plate, filter element and filter system - Google Patents

Abstract

End disk for filter material (10) for filtering a liquid, in particular a hydraulic oil, with a passage opening (11) for filtered liquid, which is surrounded by a sealing ring (20) for a connecting piece, and a cover (12) for the filter material (10) , characterized in that the sealing ring (20) delimits a free space (13) for receiving an anti-rotation device (14), the free space (13) having a depth in the axial direction with respect to the longitudinal extent of the sealing ring (20) which is at least the immersion depth corresponds to the anti-rotation device (14) and the sealing ring (20) has an upper edge, the depth of the free space (13) being at least 5 mm from the upper edge of the sealing ring (20).

Description

The invention relates to an end plate for filter material for filtering a liquid, in particular a hydraulic oil, with the features of the preamble of claim 1 DE 10 2013 106 264 A1 known. The invention further relates to a filter element for filtering a liquid and a filter system.

Hydraulic systems are used, for example, in construction, agricultural, tool or processing machines. The hydraulic oil used in the hydraulic systems is usually filtered. The filter elements used in this process pick up the dirt particles from the hydraulic oil and must be replaced after a certain time.

DE 10 2013 106 264 A1 describes in this context a filter element for filtering a liquid with an end plate, which is divided into two parts and has a stationary and a movable plate part, whereby the exchange of the filter element is facilitated. Another filter element is out EP 2 092 970 A1 known. The known filter elements do not allow automatic determination of the degree of contamination of the filter material.

The invention is based on the object of specifying an end plate for filter material for filtering a liquid, by means of which the alignment of the components is improved in a filter element or a filter system with such a filter element. The invention is also based on the object of specifying a filter element and a filter system.

According to the invention the object is achieved with a view of the end plate by the subject matter of claim 1. With regard to the filter element and the filter system, the object is achieved according to the invention by the subject matter of claims 7 and 9.

The invention is based on the idea of specifying an end plate for filter material for filtering a liquid, in particular a hydraulic oil, with a passage opening for filtered liquid, which is surrounded by a sealing ring for a connecting piece, and a cover for the filter material. The sealing ring limits a space for receiving an anti-rotation device.

The invention has the advantage that the anti-rotation device moves in free space, i.e. can be moved into or out of the free space. The free space of the end plate according to the invention ensures that the anti-rotation device is effective over the entire stroke without the anti-rotation device colliding with the end plate. In the maximum position, the anti-rotation lock can be completely immersed in the free space of the end plate.

The limitation of the free space by the sealing ring offers the constructive prerequisite for making the filter system compact, because the anti-rotation device can be arranged in the vicinity of the sealing ring, specifically on the sealing ring. This means that the anti-rotation device can be arranged close to the passage opening in the assembled state. The sealing ring forms the inner wall of the free space and seals against the outlet connection when installed.

The sealing ring is preferably formed in one piece with the end plate.

The end plate according to the invention not only allows a filter system to be equipped with a switch and / or a bypass valve, but even the use of a switch and / or bypass valve which require a particularly large stroke. The switch can be used to indicate a certain degree of contamination of the filter element. Instead of the switch or in addition to the switch, the end plate can be used with a bypass valve, which enables a safety function, for example switching off the filter function, when a certain degree of contamination is reached.

The end plate is marketable as such and is therefore disclosed and claimed independently of the filter element. In addition, the end plate is disclosed and claimed in connection with the filter element. The end plate forms part of the filter element.

When installed, the end plate acts as the interface of the filter element to the filter system in which the filter element is used. The end plate serves on the one hand to transfer the filtered liquid into the filter head of the filter system. The anti-rotation device as such does not form part of the end plate, but interacts with it when installed. The anti-rotation device is part of the filter head or the components integrated in the filter head.

Preferred embodiments of the invention are specified in the subclaims.

In a preferred embodiment, the free space is designed as a receiving pocket which extends between the sealing ring and the cover and has a bottom. The anti-rotation device is arranged in the space between the sealing ring and the cover. The invention is not limited to axially flowable end plates. Other end plate geometries are possible. The receiving pocket has the further advantage that it has a bottom, so that the filter space adjacent to the end plate is sealed.

The receiving pocket is preferably of ring-shaped design. On the one hand, this has the advantage in terms of production technology that the end plate can be designed, for example, as an injection molded part with flow paths of almost the same length. On the other hand, the end plate is easy to assemble, since it is not necessary to align the end plate relative to the anti-rotation device.

In a further preferred embodiment, the cover has an inner ring, the receiving pocket being formed between the sealing ring and the inner ring. The inner ring enables optimal use of the overall height of the filter element, since the axial end of the filter material can be arranged in the region of the inner ring and thus higher than the bottom of the receiving pocket, in particular at the same height as the receiving pocket.

The height of the bottom or the axial end of the filter material relates to the longitudinal extent of the filter element.

The inner ring can form a positioning ring for a support tube and therefore has a double function, since it forms the outer wall of the free space or the receiving pocket and positions the support tube. The inner ring is also formed in one piece with the end plate in this embodiment.

The free space has a depth in the axial direction with respect to the longitudinal extent of the sealing ring which corresponds at least to the immersion depth of the anti-rotation device in the free space. Immersion depth is the distance by which the anti-rotation device is moved into the free space. This embodiment is particularly advantageous in connection with the receiving pocket, because it reliably prevents the anti-rotation device from colliding with the bottom of the end plate.

Furthermore, the sealing ring has an upper edge, the depth being at least 5 mm, in particular at least 10 mm, in particular at least 15 mm from the upper edge of the sealing ring.

More preferably, the free space, in particular the receiving pocket, has a width in the radial direction from the sealing ring that is at least 2 mm. This has the advantage that the anti-rotation lock can be made sufficiently stable.

With regard to the advantages of the filter element and the filter system, reference is made to the explanations in connection with the end plate.

Furthermore, a method can be provided in which the liquid to be filtered is fed to a filter system according to the invention, filtered in the filter material and discharged as a filtered liquid through the passage opening of the end plate.

The invention is explained in more detail below with reference to the accompanying schematic drawings using an exemplary embodiment.

• 1 den Schnitt eines Filtersystems mit einem Filterelement und einer Endscheibe nach einem erfindungsgemäßen Ausführungsbeispiel und
• 2 eine Detailansicht des Filtersystems nach 1 im Bereich der Endscheibe.

Show in these

• 1 the section of a filter system with a filter element and an end plate according to an embodiment of the invention and
• 2 a detailed view of the filter system after 1 in the area of the end plate.

1 shows a filter system 30 for use in a hydraulic system, for example for a construction machine, agricultural machine, machine tool or processing machine. The filter system 30 is generally suitable for hydraulic systems in which hydraulic fluid, especially hydraulic oil, has to be filtered.

The filter system 30 has a filter head 27 with a first connection 28 and a second connector 29 on. Through the first connection 28 occurs in the use of the filter system 30 hydraulic fluid to be filtered into the filter system. Through the second connection 29 the filtered hydraulic fluid emerges from the filter system 30 out. The filter head 27 is with a filter housing 26 tightly connected, for example screwed. In the filter housing 26 is a filter element 25 arranged. The filter element 25 includes a filter material 10 , which causes the filter function during operation. The invention is not restricted to certain filter materials. The filter material is preferably 10 made up of layers folded in a star shape. The higher-level contour or outer contour of the filter material 10 is cylindrical. In other words, the macroscopic shape of the filter material 10 cylindrical and the microscopic shape of the filter material 10 star-shaped. The inner wall of the cylindrical filter material 10 lies on a support tube 23 on, the through openings arranged in the longitudinal direction and distributed over the circumference 31 for the hydraulic fluid. The support tube 23 supports the filter material 10 in the radial direction.

The filter element is in the axial direction 25 through two end plates 24 . 32 limited. The two end plates 24 . 32 lie on the end faces of the filter material 10 on. The end disks 24 . 32 , the support tube 23 and the filter material 10 together form the filter element 25 that is manageable and marketable as a unit. The filter element 25 forms a wearing part that is replaced as a whole when the filter material 10 is dirty.

The in the direction of installation of the filter element 25 end disc arranged below 32 is closed and seals the interior of the support tube 23 as well as the filter material 10 in the filter housing 26 downwards. The in the direction of installation of the filter element 25 end disc arranged at the top 24 has a passage opening 11 on, through which the filtered hydraulic oil or generally the filtered hydraulic fluid from the filter element 25 exit. The passage opening 11 is central in the end plate 24 , ie arranged in the middle. It is also conceivable that the passage opening 11 is arranged eccentrically. In the example according to 1 are the filter material 10 , the support tube 23 and the passage opening 11 arranged coaxially. A different arrangement of these components is possible.

The upper end plate 24 also has a cover 12 on the filter material when installed 10 , specifically the face of the filter material 10 is applied. The cover 12 has an annular disc 43 on that coaxial to the passage opening 11 is arranged. The cover also has an inner ring 21 and an outer ring 33 on, each with the annular disc 43 are connected. The inner ring 43 and the outer ring 33 are arranged coaxially and form with the disc 43 an annular receptacle for the axial end of the filter material 10 , The inner ring 21 and the outer ring 33 overlap the filter material 10 at least partially.

On the outer ring 33 are several spacers 34 , arranged, for example, in the form of noses that the filter element 25 in the housing in the filter housing 26 position so that between the filter material 10 and the inside of the filter housing 26 an annular gap is formed.

Other end plate geometries 24 are possible.

In operation, the hydraulic oil to be filtered flows through the first connection 28 into the filter head 27 and from there to the upper end plate 24 radially past in an annular gap between the filter element 25 and the filter housing 26 , From there, the hydraulic oil flows through the filter material 10 in the radial direction, flows through the support tube 23 and from there in the cleaned state through the passage opening 11 back into the filter head 27 directed. There, the cleaned hydraulic oil passes through the second connection 29 out.

The upper end plate 24 is in 2 shown enlarged.

There you can see that there is a free space 13 between the passage opening 11 and the cover 12 , specifically the inner ring 21 the cover 12 , is formed, the anti-rotation in the installed state 14 of the filter head 27 receives. The anti-rotation device 14 is according to the example 2 as a pin-shaped extension or projection of a switch 15 or a bypass valve 16 educated. The anti-rotation device 14 protrudes over the pane when installed 43 the cover 12 in the axial direction of the filter element 25 in front. The anti-rotation device 14 and the freedom 13 align in the axial direction so that the anti-rotation device 14 in the free space 13 can dip when the switch 15 or the bypass valve 16 itself in the in 2 shown rest position is. This is the depth of the free space 13 , ie the extension of the free space 13 in the axial direction of the filter element 25 dimensioned so that the anti-rotation device 14 completely in the free space 13 can be moved in without using the end plate 24 to collide. The section on the anti-rotation lock is specific 14 in the axial direction over the cover 12 protrudes or into the filter element 25 protrudes completely in the open space 13 added.

The freedom 13 is as a storage bag 17 formed, which is parallel to the flow direction of the liquid through the passage opening 11 extends. In other words, the receiving pocket extends 17 in the axial direction of the filter element 25 , The receiving bag 17 has a bottom 19 on the the receiving pocket 17 downwards, ie towards the interior of the support tube 23 limited and seals. This ensures that the cleaned liquid completely through the passage opening 11 emerges and the dirt side from the clean side of the filter system 30 is separated. The receiving bag 17 is ring-shaped so that when the end plate is installed, its position in the circumferential direction with respect to the anti-rotation device 14 does not have to be determined.

The sealing ring 20 and the inner ring 21 are arranged coaxially and extend in the longitudinal direction of the filter element 25 , The sealing ring 20 borders on the passage opening 11 and serves on the one hand a connection piece 22 of the filter head 27 record and seal. On the other hand, the sealing ring forms 20 the inside wall of the pocket 17 , The inner ring 21 borders on the annular disc 43 the cover 12 and extends essentially parallel to the sealing ring 20 , The inner ring 21 serves the support tube 23 to position at least during assembly. The inner ring also forms 21 the outer wall of the receiving pocket 17 ,

The receiving bag 17 can also act as an annular gap between the cover 12 and the passage opening 11 be understood, the downward, ie towards the lower end plate 32 closed is.

On the one of the outlet nozzle 22 opposite side of the end plate 24 are several axial ribs 35 on the circumference of the passage opening 11 arranged, which is in the installed state in the interior of the support tube 23 extend.

As in 2 the filter head shows 27 a switch and valve unit 36 on that a switch 15 and a bypass valve 16 as an integrated component. It is also possible to use the switch 15 and the bypass valve 16 as separate components, each with its own anti-rotation lock 14 train. The receiving bag 17 can accommodate several anti-rotation devices distributed around the circumference. It is also possible to have only one switch 15 or just a bypass valve 16 in the filter head 27 provided.

In the example according to 2 is the anti-rotation device 14 as a pin-shaped extension or projection on a valve body 37 of the bypass valve 16 arranged. The anti-rotation device is preferably 14 and the valve body 37 formed in one piece. The valve body 37 is cylindrical. The anti-rotation device 14 is related to the valve body 37 eccentric, specifically on the circumference of the valve body 37 arranged. This has the advantage of preventing rotation 14 close to the passage opening 11 can be arranged.

The valve body 37 has a piston 18 on that in the filter head 27 is slidably guided.

The bypass valve 16 , specifically the valve body 37 has several flow openings on the circumference of the bypass valve 16 or the valve body 37 are distributed. According to the idle state 2 the flow openings are closed, so that the clean side and the dirty side of the filter system 30 are separated.

The bypass valve 16 has an axial guide 38 on, for example in the form of guide ribs which have a coaxially arranged pin 39 of the switch 15 include. The cone 39 is with a fixed in the filter housing 27 stored switch component 40 connected to the electronics of the switch 15 contains. The axial guide 38 of the bypass valve 16 is with a magnetic element 41 connected that on the tenon 39 in the axial direction together with the bypass valve 16 can be moved when a corresponding differential limit pressure is reached. This will make the switch 15 actuated. Between the valve body 37 and the stationary switch component 40 is a feather 42 arranged, which ensures that the bypass valve 16 and the switch 15 remain in the rest position until the differential pressure limit at a certain degree of contamination of the filter element 25 is reached. The reed contact itself can be open or closed in the rest position.

The anti-rotation device 14 blocked in the circumferential direction of the valve body 37 or the bypass valve in general 16 a movement so the valve body 37 essentially only in the axial direction of the filter element 25 can be moved.

This is the anti-rotation lock 14 engages with the filter head, for example, through a corresponding groove in the filter head 27 ,

Because the anti-rotation 14 towards the filter element 25 over the valve body 37 protrudes, it is achieved that the anti-rotation 14 with the filter housing 27 remains engaged even when the bypass valve 16 or the switch 15 are operated. By the length of the anti-rotation device 14 can have different switching points of the bypass valve 16 and the switch 15 can be set. For example, the switch 15 switch at a lower differential limit pressure than the bypass valve 16 or vice versa.

The filter system according to 1 and 2 works in use as follows.

Through the first connection 28 hydraulic oil to be filtered becomes the filter element 25 fed that the filter material 10 flows in the radial direction. From the interior of the support ear 23 the cleaned hydraulic oil passes through the passage opening 11 back into the filter head 27 and from there through the second connection 29 back to the hydraulic system. With increasing degree of contamination of the filter material 10 the dynamic pressure rises in the area of the first connection 28 , which is fluidly connected to the bypass valve via an annular space, so that the bypass valve 16 with the appropriate pressure is applied. If the resulting differential pressure between the dirty side and the clean side of the filter system 30 the bypass valve exceeds a certain limit value, which results from the spring force of the spring 16 actuated, ie moved out of the rest position. The anti-twist device 14 also moved in the axial direction during the stroke movement of the bypass valve 16 in engagement with the filter housing 27 remains and so the bypass valve 16 as well as the switch 15 positioned in the circumferential direction. The magnetic element 41 is moved, so that the switch 15 is pressed and shows the degree of contamination. If the degree of contamination continues to increase, the bypass valve 16 switched so that in the bypass valve 16 arranged flow openings are released and the clean side with the dirt side bypassing the filter element 25 is connected (bypass).

As soon as the dirty filter element 25 against a new filter element 25 has been replaced, the back pressure and the bypass valve and the switch decrease 15 return to the rest position. The anti-rotation device is immersed 14 back into the open space 13 the end plate 24 on.

LIST OF REFERENCE NUMBERS

10

filter material

11

Port

12

cover

13

free space

14

twist

15

switch

16

bypass valve

17

receiving pocket

18

piston

19

ground

20

seal

21

inner ring

22

outlet

23

support tube

24

(upper) end plate

25

filter element

26

filter housing

27

filter head

28

first connection

29

second connection

30

filter system

31

Through openings

32

(lower) end plate

33

outer ring

34

spacer

35

axial ribs

36

Switch and valve unit

37

valve body

38

axial guidance

39

spigot

40

switch component

41

magnetic element

42

feather

43

disc

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102013106264 A1 [0001, 0003]
• EP 2092970 A1 [0003]

Claims (9)

End disk for filter material (10) for filtering a liquid, in particular a hydraulic oil, with a passage opening (11) for filtered liquid, which is surrounded by a sealing ring (20) for a connecting piece, and a cover (12) for the filter material (10) , characterized in that the sealing ring (20) delimits a free space (13) for receiving an anti-rotation device (14), the free space (13) having a depth in the axial direction with respect to the longitudinal extent of the sealing ring (20) which is at least the immersion depth corresponds to the anti-rotation device (14) and the sealing ring (20) has an upper edge, the depth of the free space (13) being at least 5 mm from the upper edge of the sealing ring (20). End plate after Claim 1 , characterized in that the free space (13) forms a receiving pocket (17) which extends between the sealing ring (20) and the cover (12) and has a bottom (19). End plate after Claim 1 or 2 , characterized in that the free space (13), in particular the receiving pocket (17), is annular. End plate according to one of the Claims 1 to 3 , characterized in that the cover (12) has an inner ring (21), the receiving pocket (17) being formed between the sealing ring (20) and the inner ring (21). End plate after Claim 4 , characterized in that the inner ring (21) forms a positioning ring for a support tube (23). End plate according to one of the Claims 1 to 5 , characterized in that the free space (13) has a width in the radial direction starting from the sealing ring (20) which is at least 2 mm. Filter element for filtering a liquid with an end plate (24) according to one of the preceding claims and a filter material (10) which is arranged on the cover (12) and surrounds the passage opening (11) on its circumference. Filter element after Claim 7 , characterized in that a support tube (23) is arranged on the inside of the filter material (10) and is connected to the end plate (24). Filter system (30) with a filter element (25) Claim 7 or 8th , a filter housing (26) in which the filter element (25) is arranged, and a filter head (27) with connections (28, 29) which is connected to the filter housing (26), the filter head (27) providing an anti-rotation device ( 14), and the filter head (27) and the free space (13) of the end plate (24) form an interface.

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