FILTER DEVICE TOGETHER WITH FILTER ELEMENT

Abstract

A filter device for the filtration of fluids, at least consisting of a filter housing (10), which can be closed by means of a cover (40), and a filter element (30) accommodated in a replaceable manner in the filter housing (10), is characterized in that at least one functional element is present on the cover (40) and on the filter housing (10) and on the filter element (30) in such a way that the filtration of the fluid is only possible when all functional elements interact simultaneously.

Claims

1. A filter device for the filtration of fluids, at least consisting of a filter housing (10), which can be closed by means of a cover (40), and a filter element (30) accommodated in a replaceable manner in the filter housing (10), characterized in that at least one functional element is present on the cover (40) and on the filter housing (10) and on the filter element (30) in such a way that the filtration of the fluid is only possible when all functional elements interact simultaneously.

2. The filter device according to claim 1, characterized in that the functional elements are formed from preferably continuous threaded sections (44, 50, 82, 84), and in that the threaded sections are of identical design, at least in terms of their pitch, between cover (40) and filter element (30) and between filter element (30) and filter housing (10) respectively.

3. The filter device according to claim 1, characterized in that one end cap (58) of the filter element (30), wherein said one end cap (58) faces the cover (40), bears a locating ring (80) having a functional element, in particular in the form of a threaded section (84, 82), on the inner and outer circumferential sides each.

4. The filter device according to claim 1, characterized in that this one end cap (58) has a spacer (78), which keeps the locating ring (80) at an axial distance from the element material (52) of the filter element (30).

5. The filter device according to claim 1, characterized in that the spacer (78) has fluid passages (90) in such a way that unfiltered matter flowing into the filter housing (10) passes into the interior (64) of the filter element (30) and, after flowing through the element material (52) from the inside to the outside, flows to the filtrate side in a clean state.

6. The filter device according to claim 1, characterized in that the element cap (58) together with the spacer (78) and the locating ring (80) has a sealing device (68) on the outer circumference in such a way that in the replaced operating state of the filter element (30) in the filter housing (10) outside the element material (52) the unfiltered matter side is sealed off from the filtrate side.

7. The filter device according to claim 1, characterized in that the individual functional elements, which are preferably designed as threaded sections (44, 50, 82, 84), are arranged concentrically with respect to each other in the operating state, as viewed to the longitudinal axis of the filter housing (10).

8. The filter device according to claim 1, characterized in that in its operating state, viewed from the inside to the outside, a female thread (44) of the filter element (30) follows a male thread (84) of the cover (40) and a female thread (50) of the filter housing (10) follows a male thread (82) of the filter element (30) having their respective individual thread lengths as the functional elements.

9. The filter device according to claim 1, characterized in that it, designed as an in-tank filter, discharges the unfiltered matter supplied outside of a tank, cleaned by means of the filter element (30), as filtrate to the inside of the tank.

10. A filter element, in particular provided for a filter device according to claim 1, characterized in that an element material (52) has at least one end cap (58), which, held at an axial distance by a spacer (78), bears a locating ring (80), which has functional elements, in particular in the form of the threaded sections (84, 82), on the inner circumference and on the outer circumference.

Description

[0019] Below, the filter device according to the invention, together with the assigned filter element will be explained in more detail with reference to the drawing. In the figures, in general view, not to scale,

[0020] FIG. 1 shows an exploded view of the filter device with the filter element partially inserted and the cover lifted off the filter housing;

[0021] FIG. 2 shows a longitudinal section of the filter device according to FIG. 1;

[0022] FIG. 3 shows a sectional view of the filter device, corresponding to FIG. 2, however the filter element is removed and the cover is in place;

[0023] FIG. 4 shows an upper subsection of the filter device shown in FIG. 3;

[0024] FIGS. 5 and 6 show a perspective plan view and a longitudinal section, respectively, of the upper part of the filter element;

[0025] FIG. 7 shows a longitudinal section of the filter device with a partially inserted filter element and without cover, and

[0026] FIG. 8 shows the upper part of the filter device with the filter element inserted and the cover inserted, in particular screwed in, in the functional position.

[0027] FIG. 1 shows, in the manner of an exploded view, the filter device as a whole, which is designed as a so-called in-tank solution. The filter device has a filter housing 10 arranged at the head end, which has a flange plate 12 at the foot end for attaching the filter device to a upper side of a tank wall, in particular a hydraulic oil tank (not shown), which has a passage opening in this respect, beyond which the flange plate 12 extends for the purpose of inserting the sleeve-shaped, cylindrical wall part 14 of the filter device into the tank. Viewed in the direction of FIG. 1, the wall part 14, which is designed having a thin wall thickness, has at its lower end area window-like passage openings 16, which are used for the passage of filtrate from the filter device into the interior of the fluid tank and which are preferably designed in such a way that any gas or air bubbles present in the fluid, can be released to the fluid in the tank without constraint and in there rise above the tank fluid level for a degassing process of the fluid. In this respect, provision is preferably made that the passage openings 16 are located below the respective fluid level in the tank, although this is not mandatory.

[0028] The filter housing 10, which in the present embodiment is designed in the manner of a filter head, encompasses an interior space 18 (see FIG. 2), into which a fluid port 20 opens radially from the outside for the purpose of supplying unfiltered matter originating from a hydraulic circuit (not shown) of a hydraulic system or the machine. The filter housing 10 is formed as a cast part, and both the flange plate 12 and the fluid port 20 are integral parts of the filter housing 10. At the underside of the flange plate 12 a circumferential ring seal 22 is arranged, which also seals the interior of the tank from the environment while the filter device is installed in the tank.

[0029] Flared laps 24 are used to attach the upper end area of the cylindrical wall part 14, which essentially forms a closed shell, to the filter housing 10, and to a closing part 26 arranged at the lower end. The plate-like closing part 26 closes off a receiving space 28 of the wall part 14, viewed in the direction of FIG. 3, downwards with respect to the interior of the tank. Because the wall part 14 having the receiving space 28 is used to receive a filter element 30, the wall part 14 can still be considered as a component of the overall filter housing 10 in that regard.

[0030] At the outer circumference, the upper flared laps 24 extend along the entire circumference of the filter head, and to establish the flared connection, the filter housing 10 has an abutment ring 32 projecting downwards, which bears a further ring seal 34 at its lower free end and below the upper flared laps 24. The plate-like closing part 26 also has an annular seal 36 located below the lower flared laps 24, wherein said annular seal 36 seals the interior of the receiving space 28 from the tank environment in this connection area. At the connecting webs between the passage openings 16 spacers 38 (FIG. 3) are arranged, which hold the filter element 30 in position along its lower end area and at a predeterminable radial distance from the inside of the shell-shaped wall part 14.

[0031] The interior 18 of the filter housing 10 is open at the top and can be closed by means of a cover 40. As shown in particular in FIG. 4, the cover 40 has a bar-like threaded ring 42 projecting downwards in the direction of the interior 18, wherein the male thread 44 of said threaded ring 42 forms a functional element in that way. In the illustration of FIG. 4, the cover 40 is shown in its installation situation inserted into the filter housing 10, wherein the cover 40 is only loosely inserted and is more or less loosely supported by an annular seal 46 while bearing against an annular attachment connection 48 of the filter housing 10. As can further be seen in FIG. 4, at the same height but at a radial distance on the inside of the head-like filter housing 10 a female thread 50 is arranged as a further functional element, which opens out in the direction of the upper free end of the filter housing 10 below the attachment connection 48 into the surroundings. In the functional position shown in FIG. 4, without any inserted filter element 10, when the filter device is put into operation the cover 40 would lift off from its sealing seat on the attachment connection 48 even at very low operating pressures, such as occur when a machine or system is started up, and immediate leakage and pressure loss would occur, which would not go unnoticed during operation. In this way, the solution according to the invention ensures that in any case a sensible start-up is only possible if a suitable original filter element 30 is actually inserted in the filter device with its filter housing 10.

[0032] For a detailed explanation of the filter element 30, reference is also made in particular to FIGS. 2 and 5, 6. The filter element 10 has an element material 52 that is preferably pleated (not shown). The element material 52 is typically used to clean particulate contaminants from a fluid, such as oil, wherein a stream of unfiltered matter flows through the element material 52 from the inside to the outside during the operation of the filter device. With regard to the direction of flow referred to, on the outer circumference the element material 52 is surrounded by a cylindrical support tube 54 (FIGS. 5, 6), which is provided with a perforation 56 for the passage of fluid, wherein for the sake of simplicity not all the passage openings are shown in the figures. In particular, as shown in FIG. 2, the element material 52 is sandwiched between an upper end cap 58 and a lower end cap 60. The lower end cap 60 has a bypass valve 62 as an integral component, which is customary in hydraulics and which opens when the element material 52 is clogged above a predetermined differential pressure and connects the interior 64 of the filter element 30 directly to the interior of the tank, bypassing the element material 52, to enable the continued operation even when the filter element 30 has failed or is blocked. On the filtrate downstream end of the filter element 30, a radial clearance is provided between the wall part 14 and the element material 52 so as to allow the undisturbed flow of the filtrate to the tank interior via the window-like passage openings 16 in the wall part 14. Preferably, the axial length of the filter element 30 is selected such that its lower end cap 60 can be placed in contact with the closing part 26, which is designed as a base plate, without clearance.

[0033] Viewed from above in the direction of FIG. 6, the upper end cap 58 encompasses the upper end of the element material 52 in a U-shaped manner and is, for instance, firmly connected to the element material 52 and the support tube 54 arranged on the outer circumference by means of a conventional adhesive bond. A ring seal 68 is arranged in an engagement groove 66 arranged above, which separates the filtrate side from the unfiltered side of the filter device in a media-tight manner when the filter element 30 is installed (see FIG. 2). Above, there is an annular perimeter rim 70 which, angled inwards at 90 degrees, is an integral part of the end cap 58 (FIG. 6). The perimeter rim 70 forms an engagement space 74 with the top surface 72, viewed in an axial direction in parallel to the longitudinal axis of the filter device, wherein with said engagement space 74 an engagement rim 76 of a spacer 78, projecting from the foot end, is engaged. For a spacer 78 attached to the filter housing 10, the filter element 30 can be moved in parallel to the longitudinal axis of the filter device along a predeterminable axial path, to compensate for tolerances, for instance if the manufacturing length for the filter element 30 cannot be precisely maintained or if, for instance, temperature-related changes in length occur at the filter element 30.

[0034] The upper free end of the spacer 78 is provided with a locating ring 80, which has a male thread 82 on the outer circumference and a female thread 84 on the inner circumference as further functional elements. The locating ring 80 may have individual hollow chambers between the threaded sections 82, 84 and is secured to a hollow cylindrical wall part 88 of the spacer 78 by an annular plate 86, wherein said spacer 78 holds the locating ring 80 including the annular plate 86 at an axial distance above the outwardly projecting engagement rim 76. In turn, window-like fluid passages 90 are again provided in the wall part 88 of the spacer 78; likewise, the annular plate 86 extending transversely to the longitudinal axis of the filter element 30 has such passages 92, all of which permit an unobstructed fluid flow into the interior 64 of the filter element 30 via the fluid port 20.

[0035] Furthermore, a polygon 94 projecting upwards, in particular in the form of a hexagon, is provided centrally on the upper end of the ring plate 86, wherein said polygon 94, when the cover 40 is lifted off, enables the engagement of an actuating tool, not shown in greater detail, which can be used to bring the male thread 82 of the locating ring 80 into male engagement or female engagement with the associated female thread 50 of the filter housing 10. During this rotational movement in the course of an unscrewing process, the engagement rim 76 of the spacer 78 then rotates freely in the engagement space 74 of the upper end cap 60, and the filter element 30 is only inevitably lifted out of the filter housing 10 having the wall part 14 in a rotational position, in which the engagement rim 76 comes into axial contact with the perimeter rim 70 of the end cap 58, wherein the friction of the sealing ring 68, which wall-sided bears against the inside of the filter housing 10 below the fluid port 20, has to be overcome. In the reverse case, that is when the filter element 30 is screwed in, the engagement rim 76 presses the filter element 30 downwards after overcoming the play when it is in axial contact with the upper end 72 of the end cap 58 until it takes up its intended functional position in the filter housing 10. In this way, a particularly simple replacement process is feasible for the filter element 30 and it cannot ‘stick’ to the filter housing 10 in such a way that it cannot be replaced without obstruction.

[0036] During an insertion process of the filter element 30 into the filter housing 10, first, as shown in FIG. 7, the filter element 30 is inserted axially downwards into the filter housing 10, viewed in the direction of FIG. 7, until the start of the threaded section 82 on the outer circumference comes into incipient engagement with the female thread 50 of the filter housing 10. The polygon 94 is used for the screwing-in process until the complete screwing-in position for the filter element 30 in the filter housing 10 shown in FIGS. 2 and 8 has been reached.

[0037] Then the male thread 44 of the cover 10 is screwed into the female thread 84 on the locating ring 80 of the filter element 30 until, once again, the complete installation situation shown in FIGS. 2 and 8 is achieved, in which the cover 40 closes off the filter device at the top. Because of the specially designed functional elements in the form of the threaded sections 50, 82, only a special original filter element 30 can be inserted into the filter device housing 10, counteracting the replacement of an original filter element 30 with a cheap element or counterfeit product.

[0038] If the filter element 30 is not inserted, according to the illustration in FIGS. 3 and 4, the cover 40 can be inserted into the upper receiving opening of the filter housing 10, but the frictional adhesion via the sealing ring 46 of the cover 40 alone does not suffice for a secure attachment to the filter housing 10. Accordingly, it is not possible to put the filter device or the hydraulic system or the machine into operation without the filter element 30 being anchored in the filter housing 10 and without the cover 40 forming an effective threaded connection with the filter element 30 already attached via the threaded sections 44, 84.

[0039] As shown in particular in the illustration according to FIGS. 2 and 8, all functional elements and threaded sections 44, 50, 82, 84, respectively, are arranged in a horizontal plane transverse to the longitudinal axis of the filter device, wherein the threaded sections 44 and 84, which are assigned to each other in pairs, come into engagement with each other as the pairs of threaded sections 50 and 82. The threaded sections 44, 50, 82, 84 referred to can be continuous as shown; however, they can also be interrupted segment by segment if necessary. Furthermore, dedicated pairs of threaded sections 44 and 84 or 50, 82 should each be provided with the same thread having the same pitch; otherwise, any engagement of the assigned pairs of threaded sections would not be possible. Preferably, all the threaded sections 44, 50, 82, 84 used may also be formed from one type of thread having the same thread pitch.

[0040] With great advantage, therefore, the two part element cap 58—having the element mount 72 constituting one part and the spacer 78 together with the locating ring 80 constituting the other part and open at the top, is provided in the area of the locating ring 80 with a male thread 82 for attaching the element in the filter housing 10 and with a female thread 84 for attaching the cover 40, the threaded ring 42 of which in this respect engages axially with the locating ring 80 along the inside of the latter. For an improved element fit, in the installed condition, the outer surface of the upper element cap 58 may be in planar contact with the assigned inner wall part of the filter housing 10. It goes without saying that the filter device solution according to the invention does not have to be restricted to in-tank filters, but can always be used where it is desired to ensure that only original filter elements are installed and that hydraulic systems and machines including their components can only be started if such an original filter element is actually mounted in the filter housing 10 of the hydraulic filter. In this respect, it is also possible to reverse the filtration direction from the inside to the outside to the direction from the outside to the inside.

[0041] The subject matter of the patent is therefore also a replaceable filter element as such, characterized in that an element material 52 has at least one end cap 58, which, held at an axial distance via a spacer 78, bears a locating ring 80, which has functional elements on the inner periphery and on the outer periphery, in particular in the form of the threaded sections 82 and 84, respectively. Based on these measures, the spare parts business remains with the original equipment manufacturer of the filter device and the user does not have to worry about failures in hydraulic machines and systems.