DE202010004588U1 - High pressure filters - Google Patents

Abstract

Filter assembly comprising a filter housing and at least one arranged in the interior of the filter housing filter element,
characterized,
that the filter housing (1) is pressure-resistant, and
the filter housing (1) has receiving elements for a positive reception of the filter element (4).

Description

The The invention relates to a filter assembly comprising a filter housing and at least one filter element arranged in the interior of the filter housing includes.

particulate Filter for the purification of industrial gases are known and are in many Fields used. The filters are so far with pressures of up to a maximum of 250 bar. The for the purification of industrial gases The filter elements used are usually protective filters made of wire mesh manufactured with a fineness of for example 3 microns, 10 microns or 25 microns. During the Filtration these filter elements mostly from the outside flows through inside. Such filter elements can To press Withstand. Due to the design of the known filter housing is however, it is not possible these filter elements at higher To press use.

Of the The invention is based on the object, a filter arrangement create a safe operation even at high pressures greater than 250 bar guaranteed.

These The object is solved by the features of the protection claim 1. further developments and advantageous embodiments will become apparent from the dependent claims 2 to 13th

The Inventive filter assembly records characterized by the fact that the filter housing is pressure-resistant, and that the filter housing receiving elements for one positive Has recording of the filter element.

With this form-fitting Recordings are guaranteed that the filter also during operation at high pressures greater than 250 Bar can be used without causing it to slip or move can come. On a slipped filter element could to flow past the industrial gas to be purified, without the filter material of the Filter element to pass. A filtration of industrial gas would be then not given anymore. The inventively provided with the filter element cooperating, form-fitting Recordings ensure that the filter element slips or otherwise moving it is excluded. It is It is important that these recordings form fit on the filter element and this in the filter housing has no game. The pressure-resistant housing has walls with it the required wall thicknesses which withstand pressure of, for example, 450 bar.

One the receiving elements is preferably formed as a flow guide. This flow deflector Fulfills inside the filter housing two functions. First, the oncoming industrial gas to be purified becomes from the flow guide disk evenly over the entire filter exchange area of the filter element, thereby reducing the overall capacity of the filter element can be exploited, resulting in higher Throughputs and ultimately leads to cost savings. Second, the flow guide disk a receptacle with which the filter element can be fixed within the filter housing is. Recording and filter element are designed such that the recording form-fitting attaches to the filter element. With the combination of these two functions, the fixation of the filter element and the uniform distribution of the introduced Industrial gases over the filter exchange area, in one component, can by reducing the components also a simple construction of the filter housing can be achieved.

This Receiving element is preferred as at least one elevation, which the flow baffle on the filter element facing surface formed. This survey is characterized by the fact that they form-fitting with commercial High pressure filters for Gas applications interacts. For this purpose, the survey of Strömungsleitscheibe According to a further development, a flat surface which corresponds to the cross-sectional area of the Interior of the filter element corresponds. So can the filter element on the survey of Strömungsleitscheibe be postponed and will be held securely in position. Unintentional leaks, for example due to slipping or wobbling the filter element on the Strömungsleitscheibe are so synonymous with high pressures excluded up to 450 bar. These commercial high pressure filters are For example, made of stainless steel 1.4404 and with the subtleties mentioned above manufactured. The body this filter elements is mostly cylindrical, being inside an interior exists around which the filter material is built up in a ring shape is. Filtration takes place from the outside into the interior of the filter element.

In order for the industrial gases to pass uniformly over the entire filter exchange surface of the filter element, it is provided according to a development that the flow guide disk has openings on its circumference, outside the outer diameter of the filter element. These breakthroughs are distributed as evenly as possible on the circumference of the Strömungsleitscheibe and can be, for example, holes in the Strömungsleitscheibe. Other embodiments could include, for example, wire mesh or a porous material incorporated with the flow guide. Regardless of how the openings in the Strömungsleitscheibe are designed in detail, the Strömungsleitscheibe is formed so that the Strömungsleitscheibe of the gas is passable only through the openings and positively with the Ends the inner wall of the filter housing. This ensures that the introduced industrial gas is passed into a space between the inner wall of the filter housing and the filter element and from there again can only escape via the filter.

Around to be able to replace the filter element within the filter housing provided according to a development that the filter housing a closure having. This closure is preferably screwed to the filter housing. By screwing the two components is a safe Ensuring connection of the two components even at higher pressures of up to 450 bar. Thus, the screw the filter housing safely even at these high pressures closes it is with many threads accomplished and can be up to about the length correspond to the filter element. At the same time it is possible that that in the filter housing used filter element when needed against, for example, a new Filter is interchangeable or enclosed by the filter housing Interior can be cleaned.

Of the Closure of the filter housing is also as a second recording for formed the filter element, which in turn, as already in the Strömungsleitscheibe a component is saved. Overall, the filter arrangement exists Thus, only four components: the filter housing, the filter element, the flowing disc and the closure. The inclusion of the closure for the filter element is preferably a facing on the filter element Side of the closure shaped recess. In this depression one end of the filter element is received and closed by closing the filter housing with the closure in the filter housing jammed. So that the filter element also on the closure side not laterally can slip or be postponed, is after a training provided that the recess has a width, the width of the filter element corresponds. The filter element thus sits positively in the depression of the closure. With the between the two recording elements the depression in the closure and the elevation on the Strömungsleitscheibe jammed filter element ensures that the filter element with closed filter housing neither laterally nor longitudinally is movable. The above the breakthroughs in the flow guide disk into a through the inner wall of the filter housing, the Strömungsleitscheibe, the filter exchange area and the closure limited space introduced industrial gases can this only by passing the filter exchange surface into the interior of the filter element leave. In the closure, a gas outlet opening is incorporated, via which the purified gas is discharged from the interior of the filter element can. Both at the outlet as well as the entrance opening is in one embodiment a threaded connection hole provided to the filter assembly in to install a plant or a production process.

In order to also the case the high pressures Stands up, this is preferably formed as a cylindrical body, as these Form that withstands the high loads best. In addition, the cylindrical Filter housing form adapted to the widely used candle filter, which for relevant applications predominantly be used. Advantageously, the lateral surface of the cylindrical filter housing equally strong and characterized in that the filter housing a Coat thickness from about 8 to 12 mm. On the filter housing acting loads and forces be evenly distributed over the entire surface of the housing.

A Further development provides that the filter housing is preferably made of stainless steel 1.4571 is made. This stainless steel has increased resistance to corrosion and pitting on.

One embodiment of the invention, from which further inventive features arise is shown in the drawing. Show it:

1 : An exploded view of the filter assembly according to the invention in a perspective view; and

2 a sectional view of the filter assembly with inserted filter element.

1 shows the individual components of the filter assembly. The cylindrical filter housing 1 has the described, over the entire lateral surface of the same thickness shell wall thickness and an outlet opening 8th with a threaded connection hole through which the industrial gases are introduced into the filter assembly.

The closure side has the filter housing 1 on its circumference a bearing surface 12 for the sealing ring 5 and on the inner wall an internal thread 13 on. This internal thread 13 has many threads and comes with the male thread 14 of the lock 2 screwed when closing the filter assembly, the gas tightness through the then between the filter housing 1 and closure 2 arranged sealing ring 5 is guaranteed. The closure 2 the filter assembly further has an outlet opening 9 for the purified industrial gas, which in turn has a connection threaded bore. For opening and closing the closure 2 is also an advantage 15 provided with hexagonal scope, attached to the example, an open-end wrench can be. The filter housing 1 is in the area of the entrance opening 8th designed as a key area.

On the outer circumference of the flow guide disk 3 are the breakthroughs 6 arranged. In the filter arrangement according to the invention, the openings are 6 Drilled holes in the flow guide disk 3 , Centered on the flow baffle 3 is the elevation 7 arranged on which the filter element 4 is pushed in the composite filter assembly. The diameter of the survey 7 on the flow baffle 3 corresponds to the diameter of the interior 11 of the filter element 4 , The filter element 4 is also cylindrical in the embodiment as the filter housing 1 ,

2 shows a cross section of the assembled and bolted filter assembly with inserted filter element 4 , The filter element 4 is between the Strömungsleitscheibe 3 and the closure 2 inside the filter housing 1 arranged and screwed by filter housing 1 and closure 2 between flow guide 3 and closure 2 so jammed that the flow baffle 3 and the closure 2 gastight on the filter element 4 issue. So that the filter element 4 in a predetermined position between the Strömungsleitscheibe 3 and the closure 2 in the interior of the filter housing 1 is arranged, has the Strömungsleitscheibe 3 a survey 7 and the closure 2 a depression 10 on. The assessment 7 acts with closed filter housing 1 positively with the wall of the interior 11 of the filter element 4 together. The filter element 4 is so on the flow baffle 3 secured against lateral slipping. A similar fuse is also provided on the closure side, here is the filter element 2 in the depression 10 , Which side walls in turn has a form-fitting manner with the outer wall of the filter element 4 interact, held in place.

On the circumference of the filter housing 1 , with closed filter arrangement between the filter housing 1 and closure 2 , lies the sealing ring 5 on. The sealing ring 5 guarantees that the screwing of closure 2 and filter housing 1 is gas-tight.

The flow deflector 3 closes positively with the inner wall of the filter housing 1 from. This ensures that the in the from the inner wall of the filter housing 1 , the lock 2 , the flow guide disk 3 and the filter element 4 limited space introduced industrial gases, this only on the filter exchange surface of the filter element 4 can leave again.

With proper operation of the filter assembly, the industrial gas will pass through the inlet 8th introduced into the filter assembly and flows to Strömungsleitscheibe 3 the industrial gases over the breakthroughs 6 evenly distributed in the from the closure 2 , the flow guide disk 3 , the filter element 4 and the inner wall of the filter housing 1 introduces limited space. Because of from the inlet 8th nachströmenden industrial gas, the industrial gas that has flowed into this space can only through the filter exchange area in the interior 11 of the filter element 4 escape. In this case, present in the industrial gas, undesirable particles in the filter material of the filter element 4 retained. In the interior 11 The filter element is therefore only purified industrial gas, which in turn via the outlet opening 9 in the lock 2 can be dissipated.

Claims (13)

Filter assembly comprising a filter housing and at least one filter element arranged in the interior of the filter housing, characterized in that the filter housing ( 1 ) is pressure-resistant, and that the filter housing ( 1 ) Receiving elements for a positive reception of the filter element ( 4 ) having. Filter arrangement according to claim 1, characterized in that one of the receiving elements as Strömungsleitscheibe ( 3 ) is trained. Filter arrangement according to claim 2, characterized in that the flow guide disk ( 3 ) at the filter element ( 4 ) facing surface at least one survey ( 7 ) having. Filter arrangement according to claim 3, characterized in that the survey ( 7 ) of the flow guide disk ( 3 ) has a flat surface which corresponds to the cross-sectional area of the interior ( 11 ) of the filter element ( 4 ) corresponds. Filter arrangement according to one of the preceding claims, characterized in that the flow guide disk ( 3 ) on its circumference, outside the outer diameter of the attached filter element ( 4 ), Breakthroughs ( 6 ) having. Filter arrangement according to one of the preceding claims, characterized in that the filter housing ( 1 ) a closure ( 2 ) having. Filter arrangement according to one of the preceding claims, characterized in that the closure ( 2 ) with the filter housing ( 1 ) is screwed. Filter arrangement according to one of the preceding the claims, characterized in that the closure ( 2 ) of the filter housing ( 1 ) as a second receptacle for the filter element ( 4 ) is trained. Filter arrangement according to claim 1 or 6, characterized in that the closure ( 2 ) at the filter element ( 4 ) facing side a recess ( 10 ) having. Filter arrangement according to one of the preceding claims, characterized in that the recess ( 10 ) has a width which corresponds to the width of the filter element ( 4 ) corresponds. Filter arrangement according to one of the preceding claims, characterized in that the flameproof filter housing ( 1 ) has a cylindrical shape. Filter arrangement according to one of the preceding claims, characterized in that the filter housing ( 1 ) has a shell wall thickness of about 8 to 12 mm. Filter arrangement according to one of the preceding claims, characterized in that the filter housing ( 1 ) is preferably made of stainless steel 1.4571.