DE3341642A1 - Filter arrangement comprising a casing and at least one filter element - Google Patents

Abstract

Filter arrangement having a casing (1) which has a closing member which permits access to the casing interior, through which at least one filter element (4) can be inserted or removed. The filter element (4) is arranged in the casing in such a manner that a first liquid outlet (5) of the casing is adjacent to one end of the filter element (4) and that a liquid inlet pipe (7) extends within the casing from one end of the filter element to the vicinity of its other end, the liquid inlet pipe (7) and first liquid outlet (5) being arranged on the same side of the filter element (4). A second liquid outlet (10, 11) of the casing is situated on the opposite side of the filter element (4), see drawing. <IMAGE>

Description

A housing and at least one

Filter assembly existing filter element The invention relates to a A filter arrangement consisting of a housing and at least one filter element.

In filter technology, it is known to use a solid-liquid suspension to filter by being guided across a filter medium on which a Differential pressure is maintained so that the filtrate passes through the filter medium, while the solid fractions together with unfiltered liquid from the filter arrangement exit for the purpose of further admission. The flow conditions are regulated here, to limit the deposit of solids on the surface of the filter medium.

This technique is used to remove the liquid from a suspension to separate or, on the contrary, to concentrate a solid-liquid suspension. For the purposes of the invention, the term “solids” includes all of the solids to understand which of a liquid are to be separated, regardless of the size of the respective solid material.

This filter technology can be used, for example, to recover antibiotics, Enzymes and the like from filtrates can be used in the concentration of cell suspensions or for washing and resuspending cells. An example of this filter technique is the so-called cross-flow filtration, which is also called so-called tangential flow filtration (tangential flow filtration) is known.

In cross-flow filter technology, it is known as a filter element tubular filter medium of circular cross-section made of porous material use. The solid-liquid suspension gets into the interior of the filter element introduced on one side, the filtrate is on the outside of the filter element collected and the concentrated suspension leaves the filter element at its opposite Page.

It is also known that the suspension over the outer surface of the filter element flows from one end to the other end, so that the filtrate is collected on the inside of the filter element. In both cases there is a differential pressure over the filter element to support the filtering effect. The flow conditions are chosen and are maintained so that the Deposition of solids on the surface of the filter element is limited.

Although these cross-flow filter assemblies work effectively is own, there is a defect in that it is very difficult to get it Dismantle the respective filter element for cleaning purposes or for replacement is to be removed from the arrangement. This difficulty is compounded, if it concerns such filter arrangements with multiple filters, then except two end plates a plurality of elongated tubular filter elements are present that extend between these end plates and corresponding receptacles require.

It is readily apparent that an exchange of a filter element is particularly difficult because at least one end plate has to be removed, so that not only the affected filter element, but all of the filter elements are exposed.

Further, such a design requires that all holes be in the end plates are correctly aligned, otherwise the filter elements will not be in the desired position or required positions.

The invention is based on the object of the known filter arrangements to improve this type in such a way that the disadvantages mentioned above do not are more present or avoided.

This object is according to the invention by the characterizing features of claim 1 solved.

Further features of the invention emerge from the subclaims The inventive design of the filter arrangement, it is particularly easy to gain access to the filter element simply by removing the closure member and then easily remove it from the housing in order to clean it or replace. This also applies when a large number of filter elements are combined in a housing. These filter elements are accurate positioned in their prescribed positions within the housing and can be used individually or removed altogether once the closure member is removed. This maintenance and repair work is possible regardless of how the filter assembly is installed is. Usually such a filter arrangement is installed oriented so that the axes of the filter element (s) are vertical or essentially vertical, although other orientations are also possible.

The invention is based on one in the drawing more or less schematically illustrated embodiment example in cross section.

A cross-flow filter arrangement comprises, as the drawing shows, a from a wall part 1 forming a cylinder jacket, a cover 2 and a Junction 3 existing housing. The wall part 1 and the cover 2 can In contrast to the drawing, be an integral component and therefore a removable one Form cover member that with the Rorlrverzweiguna 3, z.D. by not shown Brackets is releasably connected. Using suitable sealants, part 1 sealed against the manifold to cn leakage of liquid during to prevent the filtering process.

But it can also be an integral part of the wall 1 with the pipe branch Form component so that the cover 2 is then releasably attached to the wall part 1 is, with a suitable seal between cover and wall part for the seal ensures.

However, training can also be chosen in which a solvable Cover element forms part of the side wall 1.

A tubular filter element 4 is arranged inside the housing, which consists of a suitable material suitable for the suspension to be filtered, e.g. a thick-walled plastic pipe or a pipe made of a sintered material, e.g.

s stainless steel, phosphor bronze or polypropylene.

The manifold has a central cylinder bore Ba with the a pipe 5 communicates. In this way a first liquid outlet is formed, can be withdrawn from the liquid by means of the tube 5.

As can be seen from the drawing, the filter element 4 is seated a sealing ring 6 which is supported on the flange-like part of the bore 3a.

A liquid inlet pipe 7 penetrates the cylinder bore 3a and 3b is part of the pipe branch 3. The pipe 7 arranged coaxially to the filter element extends to a position just before the upper end of the filter element. One Plate 8 forms an upper closure for the filter element; this plate sits at the upper end of the filter element with the interposition of a sealing ring 9. The plate 8 is also positioned relative to the pipe 7 by means of a central bolt Ya and firmly connected to it.

An upper filtrate outlet 11 and / or a lower filtrate outlet 10 are provided in the housing 2 as shown.

In use of the filter arrangement, the liquid to be filtered becomes introduced at high speed through the pipe 7 at the upper end of the filter element, to then along the annular space between the filter element 4 and tube 7 in the direction of Arrows A to flow.

By means not shown, there is a pressure ditterence between the opposing surfaces of the filter element - as is the case with cross-flow filter assemblies is common - generated so that part of the liquid is towards the filter element of arrows B happened. The liquid that forms the annulus between the tube 7 and the filter element 4 passes down, becomes more and more in their solids content concentrated until the liquid speed reaches the bore 3a and through the outlet pipe 5 exits.

As can also be seen from the drawing, the one at the inside of the filter element 4 moving along the bore 3a, the has the same diameter as the filter element 4 before it bends around 900 and exits through the outlet pipe 5. The arrangement of the hole 3a - with the same diameter like the filter element - a reduction in the flow of the liquid ensures the emerges from the filter element 4.

The filtrate can be collected through outlets 10 or 11.

The use of such outlets has the advantage that the housing always is filled with liquid, so that the filter element 4 is prevented from drying out.

Depending on the desired product, either the filtrate or the concentrated liquid present at outlet 5 is collected. If the latter is collected, it can of course be recycled through the arrangement are used for further filtration.

The illustrated filter arrangement can be used for filtering, for example be used by liquids that have solid particles, precipitated or crystallized Products, inert particles from leaching processes, contact substance particles from reaction processes from plant, animal or microbiological cells.

The arrangement can also be used for example to make the fixed Hold back phase within a certain system (for example in a chemical Reactor) from which the liquid product is to be separated. Therefore, a suspension a solid phase (for example a contact substance) in the liquid by means of the filter arrangement are discharged from the system, the liquid filtrate is collected and the solid suspension can be returned to the system. Can also Arrangement for the conventional production of antibiotics, enzymes, etc. containing Filtrate can be used.

The filter arrangement described has a number of advantages. In particular, access to the filter element 4 is particularly simple for the purpose of replacement of the filter element. For this purpose, the cover member of the housing can be removed. The arrangement can also be easily steam sterilized since not both Ends of the filter tube are fixed. There can also be no expansion pressures during of heating occur, as is common in filter assemblies in which both Fixed ends of the filter element, for example firmly clamped in plates are. These advantages are considerable over conventional filter assemblies.

A number of modifications are of course to be made to those described Filter arrangement possible without departing from the inventive concept. For example, the filter element 4 can be in a recess within the cover element be arranged, whereby the necessary sealing takes place by means of an O-King, which is placed around the lower peripheral surface. But it can also be the end of the filter element connected to the cover by means of a screw connection be, which must then also have a screw thread in the recess.

The manifold and the filter element itself can also be different be trained. For certain applications it can be useful if the The manifold forms the upper part of the housing, with the first outlet in the Manifold and with the liquid inlet pipe, which is suitably connected with the manifold and then down into the filter element extends.

However, several filter elements of a filter arrangement can also be used be assigned to the type described; these filter elements are then inside of a common housing. With such a design, each filter element 4 is assigned its own liquid inlet pipe and a first liquid outlet.

A common head is then assigned to the liquid inlet pipes 7, which are fed through channels in the manifold.

In a similar manner, all of the liquid inlet pipes 7 are then one assigned to a common receptacle for the suspension enriched via the filter elements, providing a common outlet for the filtrate to pass through the filter elements gets into the housing. Even with such an arrangement, each filter element can be replaced in a simple manner without an adjacent filter element being affected.

All embodiments have in common that the speed of the fed suspension and the way in which they use the filter element or elements flows through, is chosen so that the deposition of stationary solid particles on the inner surface of the filter element is throttled. If such solid particles are collected on the filter element, it is clear that the filter effectiveness will then decrease and accordingly it is desirable to have the filter assembly backwashed from time to time to keep the effectiveness at an acceptable level. This technique but is known, so that no further description is necessary for this.

Claims (8)

PATENT CLAIMS From a housing and at least one filter element existing filter arrangement, characterized in that the housing a releasable closure member (2) and releasable means (9a) for securing the filter element (4) in a predetermined position within the housing that the filter element (4) can be inserted and removed from the housing with the closure member (2) removed, that the housing has a first, one end of the filter element (4) adjacent Liquid outlet (5) is assigned that a liquid inlet pipe (7) itself within the housing from this end of the filter element (4) starting to close the other end, the end of the liquid inlet tube (7) and the first liquid outlet (5) are on the same side as the filter element (4), and that a second lying on the opposite side of the filter element (4) Liquid outlet (11) is assigned to the housing. 2. Filter arrangement according to claim 1, characterized in that g e k e n n -z e i c h n e t that the filter element (4) is tubular. 3. Filter arrangement according to claims 1 and 2, characterized g e k e n It is noted that the first liquid outlet (5) and the liquid inlet pipe (7) communicate with the interior of the filter element (4). 4. Filter arrangement according to one of the preceding claims, characterized it is not indicated that the housing has a pipe branch (3), on which the filter element (4) is arranged, and in which the first liquid outlet (5) is molded and from which the liquid inlet pipe (7) extends. 5. Filter arrangement according to claim 4, characterized in that g e k e n n -z e i c h n e t that the holding means for the filter element (4) with the manifold (3) are connected. 6. Filter arrangement according to claim 5, characterized in that g e k e n n -z e i c h n e t that the holding means for the filter element (4) with that of the manifold (3) facing away from the end of the wall member (1) are connected. 7. Filter arrangement according to claim 5, characterized in that g e k e n n -z e i c h n e t that between the filter element (4) and the branch pipe (3) a seal (6) is arranged. 8. Filter arrangement according to claim 4, characterized in that g e k e n n -z e i c h n e t that the liquid inlet pipe (7) through the first liquid outlet (5) is guided into the filter element (4) and that the liquid inlet pipe (7), first Liquid outlet (5) and the filter element (4) are arranged coaxially.