DE2835913A1 - Tubular filter with liq. distributor - has pipe inside or outside filter medium with graded flow passages to give uniform flow across filter surface - Google Patents

Abstract

Filter consists of tubular element mounted on a support inside a housing. Inside the element is located a distributor pipe so that a space is left between the element and the pipe. The pipe has a series of holes in it, so arranged that they have a greater resistance to flow at the top than at the bottom. Uniform flow distribution across the whole surface of the filter is obtd. and so uniform filtration across the whole surface of the element when filtering solids from fluids. This gives optimum performance of the filter at all times without creating undue stress in the element.

Description

Tube filter device

The present invention relates to a tube filter device in which placed a relatively long tubular filter within a long housing and the liquid flow mainly in the longitudinal direction of the device occurs.

A common problem with current canister filter devices is the non-optimal distribution of the flow along the filter in connection with a high pressure drop at local sections of the filter surface, which results in has that only part of the filter surface is used temporarily and that the separation capacity of the filter is not used in an optimal way. The high local pressure drop also causes unnecessary strain on the filter, which even damages it and can endanger the separation result.

In order to further clarify this problem mentioned, the Flow conditions in conventional tube filters are explained, with reference on Fig. 1 of the attached Drawings is taken. The one to be filtered Fluid is introduced through an inlet A at one end of the outer tube B and flows mainly to outlet D, which is at the opposite end of the outer Rohres is located. A tubular filter C is placed inside the outer tube, with the lower end of the filter closed and the upper end towards outlet D. is open. Close to outlet A, the fluid flows at a relatively high speed along the filter, whereas the flow velocity near outlet D is outside of the filter is low. As a result, the static pressure P1 is at the lower end of the outer pipe low, whereas the corresponding static pressure P2 on the opposite End of the outer tube is relatively high. At the same time is the flow rate of the filtrate flowing inside the filter in the lower section of the filter decreases and increases in the direction of the outlet D. As a result, a high pressure drop across the filter near outlet D, whereas a low pressure drop is achieved or often even a reverse flow direction through the filter in the lower Section of the filter is obtained. That is why particles are mainly in the upper section of the filter, this section also being a is exposed to significantly higher stress than is the case with even distribution the same filtrate flow along the entire filter of the case would be. Only when the upper section of the filter is severely clogged will the filtrate flow through the filter will gradually move downwards.

These disadvantages mentioned occur with so-called non-regenerable Filter on after a certain blockage or after a new filtration cycle be replaced, also in the case of continuously or partially continuously working Tube filters that may be backwashed after a certain degree of clogging will. When using filters that cannot be regenerated, it is important that the entire filter surface is used at the same time in order to achieve an optimal and even To obtain separation results during a working period.

In addition, cheap filters such as filter cloths are often used in such processes made of woven or non-woven fiber material. Such materials are often weak, and even with the use of filter tips they can result in too high local pressure loads are destroyed. For filters designed for a longer working period can be used during constipation due to periodic Backflow or the like.

be removed, it is also of great importance that the entire Filter surface is used at the same time, which increases the efficiency of the system and the periods between work breaks necessary for cleaning be extended.

The aim of the present invention is to realize a tube filter device, in which the flow in and through the filter is distributed in such a way that a greater Section of the filter surface -is used simultaneously and that over the filter larger local pressure drops can be avoided.

In a tube filter device with an elongated housing, with an inlet at one end of the housing and an outlet for the filtrate at the opposite End of the housing, and having a tubular filter disposed in the housing, whose axis is substantially parallel to the longitudinal direction of the housing one end is closed and the other end is open and connected to the outlet or the Inlet is connected, preferably a tubular filter support in the Housing is arranged on the filtrate side of the filter, this is mentioned above Objective achieved in that, in addition, a tubular element with an openwork Tube wall is arranged substantially coaxially to the filter, and that a Space is provided between the filter and the element, the element is designed so that there is the flow of filtrate in the portion near the outlet of the filter to a greater extent than in the opposite section of the filter, to achieve a more even distribution of the flow over the entire filter.

The invention provides an elongated tubular filter device at the desired flow distribution of the filtrate through the filter by means of a Durcilflussverteilungselementes is obtained on the filtrate side of the filter. the Arrangement of a flow-restricting element may be used to achieve such a distribution seem unsuitable, but it has surprisingly been found that such an element only insignificantly affects the total flow capacity of the device decreased. A possible explanation could be that the backflow effects mentioned at the beginning in connection with the flow conditions in conventional tube filters have completely or partially disappeared. Furthermore is with filtration tests with flow distribution elements at the beginning of the test when the filter was clean, sometimes a smaller increase in resistance has been observed. After a short However, period of time when some impurities are deposited on the filter is the difference in resistance between a device with a flow distribution element and a corresponding conventional device without such an element or disappeared. Some test results have even indicated that from a certain point onwards Clogging the filter has a lower overall resistance in a device an ore in the flow distribution element according to the invention is obtained as at a same device without such an element. In any case, the invention looks a tube filter device, by means of which a more even and better filtration result allows and a considerably reduced local compressive stress on the filter is obtained without incurring any loss of capacity of any practical importance.

The flow distribution element according to the invention must at least along the portion of the filter closest to the outlet of the device lies. To ensure a distribution of the filtrate flow through the filter as evenly as possible to bring about, the element is preferably designed so that the free Filtrate disturbance from the filter to the outlet to an increasing extent in the direction is inhibited towards the outlet. According to a preferred embodiment of the invention is the flow distribution element along the major part of an elongated Tube filter arranged so that the inhibiting effect on the filtrate flow is in the direction enlarged to the outlet of the device.

Even if a gradual decrease in the perforated area of the Flow distribution tube is preferred, the invention includes many others Opportunities. The idea of the invention is that the flow distribution pipe the filtrate flow closer to the end of the filter the device outlet and, to a lesser extent, the other end of the filter. The perforated surface of the distribution pipe need not necessarily be gradual and the tube does not have to extend along the entire length of the filter extend.

For example, the invention includes an embodiment having a Flow distribution pipe that resembles with evenly spaced perforations Diameter is provided extending from the filter end of the device outlet end to extends about two-thirds the length of the filter and that at its end to the device inlet end is open. In this case the filtrate flow will be at the filter end close to the device outlet considerable, but not at all inhibited at the opposite end.

Embodiments of the invention are described below, reference being made to the accompanying figures. It shows Fig. 1 the basic Flow conditions of a conventional tube filter, Fig. 2 shows an embodiment when the filtrate flows into the tubular filter, and Fig. Figure 3 shows an embodiment in which the filtrate stream flows out of the tubular filter.

In the embodiment according to FIG. 2, a non-regenerable Filter, arranged within a tubular housing in which the unprocessed Liquid on the outside of the filter and the filtrate through the filter wall in the filter and out through the open end of the filter cloth.

According to this embodiment, the filter is on its inside held by a filter support. The device has the following details: In an outer housing 1 with an inlet 2 and an outlet 3 is a cloth-like Filter 4 attached to outlet 3 by means of a hollow sealing plug 5. One The filter support, which in this case consists of a coil spring, is in the filter 4 provided. In the hollow plug 5, a cylindrical tube 7 is fixed, which extends along the main section of the filter 4 within the helical spring 6. The pipe jacket 7 is provided with a number of circular holes 8, 8 ', 8 "etc., the diameter of which decreases in the direction of the outlet 3. As can be seen from the drawing is, the tube 7 can also be open at the end facing the inlet 2, since according to the invention the inlet area on the pipe 7 for the filtrate should be greatest at this end.

In this embodiment, which is based on a tube filter device that opens quickly and easily when cleaning and changing the filter must be, the cylindrical tube 7 is at its upper end in a suitable manner attached to the sealing plug 5, so that it is with this closure at a Filter change can be pulled out as a unit. As can be seen from Fig. 2, the filter 4 is wound around the spring 6 and together with this on the corresponding dimensioned sealing plug 5 clamped.

In the embodiment now described, the flow distribution pipe 7 can also be used for another purpose. By adjusting the length of the Tube in such a way that its lower end is in contact with the end turn of the spring 6 stands, the former having a smaller diameter than the rest of the spring, the spring 6 is prevented from being compressed in the longitudinal direction, and In addition, there is a certain stabilization of the filter support in the radial direction and the filter opposite to the housing 1 is reached.

The combination of coil spring and flow distribution tube opens up a very economical way of using these cheap items at the same time provide a filter support, flow distribution and filter stabilization.

In the embodiment described above, a cylindrical Pipe used with boreholes located in the pipe wall. Of course everyone can tubular element can be used for flow distribution, provided that the inventive idea, namely the reduction of the flow area in the direction of Device outlet end is followed. As a result, the openings can also look There are slots in the pipe. Another example of a flow distribution arrangement according to the invention represents a coil spring which has a decreasing height of rise towards the outlet end the device has out.

In the embodiment of FIG. 2, the filter support consists of one Coil spring, although the embodiment of the # filter support for the invention is immaterial. As a result, the flow distribution pipe and filter support not be separate components, however, the filter support can be made of, for example There are flanges extending from the pipe, provided that there is a proportionate free flow of filtrate is made possible between the filter and the insert tube. For example, the flow distribution pipe, which has filter supporting flanges, can be made in one piece from plastic.

Such pipe filter devices also form part of the present inventive concept in which the direction of flow is reversed, i.e. in which the unprocessed Liquid is introduced into the tubular filter and the filtrate through the Filter flows into the space between the filter and the housing.

Such an embodiment is shown schematically in FIG.

The flow distribution pipe is placed around the filter, wherein the inventive teaching is still valid, namely that the flow area of the tube for the filtrate decreases towards the outlet end of the filter device. In this embodiment, of course, the filter support must be arranged outside the filter will. Since this embodiment is equivalent in principle to that described above Embodiment, the same details have been given the same reference numerals, with the addition of the letter a, i.e. la, 2a etc. How this works The embodiment is also analogous to the one embodiment described. Consequently If the flow distribution tube were removed, the lower portion of the Filters are initially exposed to a high pressure drop and become clogged would only occur in this section of the filter. The flow distribution pipe serves the same purpose as before i.e. to control flow and pressure drops distribute so that the entire effective filter surface is used at the same time.

Claims (7)

Claims 0 pipe filter device with an elongated housing, with an inlet at one end of the housing and an outlet for the filtrate at opposite end of the housing, and having a tubular shape disposed in the housing Filter, the axis of which is essentially parallel to the longitudinal direction of the housing, one end of which is closed and the other end of which is open and connected to the outlet or the inlet, preferably a tubular filter support is arranged in the housing on the filtrate side of the filter, characterized in that that in addition a tubular element (7, 7a) with a perforated tube wall is arranged substantially coaxially to the filter (4, 4a), and that a gap between the filter and the element (7, 7a) is provided, the element so is designed that there is the filtrate flow in near the outlet (3, 3a) section of the filter (4, 4a) inhibits to a greater extent than in the opposite Section of the filter in order to distribute the flow more evenly over the whole To achieve filter (4, 4a). 2. Apparatus according to claim 1, characterized in that the tubular Element (7) is arranged inside the filter (4) and is a perforated cylindrical Has tube with at least one open end and one end that is open to the Outlet (3, 3a) is connected. 3. Apparatus according to claim 2, characterized in that the element (7) extends along a major part of the filter (4) and that also the end of the element (7) closest to the inlet (2) is open. 4. Apparatus according to claim 1, with a flexible filter support, characterized in that the tubular element (7, 7a) by contact with the filter support (6, 6a) at one or more points the filter support (6, 6a) and the filter (4, 4a) stabilized with respect to the housing (1, la). 5. Apparatus according to claim 4, characterized in that the filter support consists of a helical spring (6, 6a), which in contact with the element (7, 7a) is located by being in one or more places in relation to the rest of the spring has a different diameter. 6. Apparatus according to claim 5, characterized in that the element (7) is arranged inside the coil spring (6), the end of the element (7) is in contact with the spring (6) so that the spring (6) and the filter (4) are held against compression in the longitudinal direction. 7. The device according to claim 1, characterized in that the tubular Element (7, 7a) is provided with protruding flanges that serve as a filter support.