JPS59154112A - Mechanical purifier of cooling water stream - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is provided with a cylindrical filter casing, at least one filter basket with a filter basket axis extending beyond the height of the basket, and a flash bank arrangement, wherein the filter The basket has a filter basket head and a filter basket periphery, and the outside of the filter basket periphery is connected to the support bottom, further removing accumulated dirt.
The present invention relates to a device for mechanically purifying a cooling water stream of a power plant condensing system, which can be separated by a flashback device, the flashback device having a wastewater discharge device for discharging separated dirt.

In the known device as mentioned at the outset (Hawker, Sidley, Brackett's brochure, Ref, Boko θ10, page 3), the filter casing passes the flow transversely to the axial trap. The filter basket correspondingly has a filter basket circumferential surface that is open on the inflow side, into which the cooling water stream to be cleaned enters. The support bottom for the filter basket head and the filter bath's periphery is
It is not constructed as a filter, but is constructed as a plate-shaped part attached to the filter casing. The Franchbach device n has a suction container which extends beyond the height of the filter basket inside the circumference of the filter basket and is movable in the circumferential direction along the circumference of the filter basket.

A suction conduit with a suction bonder is connected to the suction container. In a similar embodiment (German Patent Application No. 3'l 9/2), the suction container is in a fixed arrangement. The closed cylindrical filter basket can be rotated about its axis and the peripheral surface of the filter basket near the casing can pass through the suction vessel. Correspondingly, the cooling water flow enters the underside of the filter basket, but the casing It enters the inside laterally with respect to the axial direction,
and exits again transversely to the axial direction. There is room for improvement in known treatments. Since dairy products can accommodate only a relatively small filter surface within the filter casing, the filter casing generally has a much larger cross-section than the conduits supplying or discharging the cooling water flow. The filter basket head and support bottom do not participate in the mechanical purification of the cooling water flow, thereby increasing the flow resistance. Moreover, the procedure for flashbacks is laborious and, on the one hand, a relative interlock must be realized between the filter basket circumferential surface and the suction container, and on the other hand it can only be achieved by means of an expensive suction pump via the C suction container. It is time-consuming because it is not possible to suction dirt sufficiently. In particular, in known embodiments of filter baskets, the flow resistance and thus the pressure loss do not increase to a disturbing extent.
It is disadvantageous that there is no accumulation effect in the sense that even more dirt can accumulate in the filter basket. When dirt accumulates on the filter circumferential surface, the flow resistance increases exponentially with the amount of dirt accumulated.

In view of this, the object of the invention is to improve the device mentioned at the outset in such a way that it is possible to accommodate a fairly large filter surface 1 in the filter casing and, in the abovementioned sense, to have a significant cumulative effect. be. In addition, it is possible to clean the sump that releases dried up dirt in a simple way without having to strain, and without making any relative movement between the suction container connected to the suction bong 7° and the filter surface. Do it like this.

In order to solve this problem, the present invention shows the following. That is, the filter casing is axially flow permeable and has at least seven sector separation walls, which sector separation walls start in front of the filter basket in the direction of flow and (at least and) extend beyond the basket height. In addition, at least one of the parts, the filter basket head or the support base is configured as a filter, and in each sector (S) the flash bank device extends over the filter basket and the support base in the direction of flow. In front of the discharge tube section and seven or more flashback flaps are provided, by means of which the sectors (S) can be closed alternately on the inlet side for cleaning. Of course, the discharge tube is then open. It is advantageous if both the filter basket head, which is arranged transversely to the direction of flow, and the support base, which is arranged transversely to the direction of flow, are configured as a filter. Cleaning is performed from time to time in response to soil removal. Within the framework of the present invention, a filter basket head is defined as a part of the circumferential surface of the filter basket, regardless of whether the outer surface of the filter basket head or the inner surface of the filter basket surrounded by the circumferential surface of the filter basket faces in the flow direction. It represents the end. The support bottom means the filter within the scope of this investigation)
r-shin! The bottom part is built into the filter basket and supports the peripheral surface of the filter basket. The separation wall may reach the flashbank flag or extend beyond it, opposite the direction of flow, depending on construction conditions.

The present invention is based on the following knowledge. Thus, in the device according to the invention, the filter basket head and/or the support base can be used as a filter, so that the filter surface to be accommodated in a filter housing of a given size is enlarged. The present invention utilizes the following.

This means that the filter periphery and the filter basket head and support bottom can nevertheless be cleaned easily and without relative movements and without the use of a suction container connected to a suction bank. This is because, on the one hand, the wall or sector separation walls arranged as described above, and on the other hand, the seven or more properly swung flashback 7 lugs establish a hydrodynamic relationship, which will be discussed later. This is because cleaning is performed automatically without any reason, as will be explained in detail with reference to the drawings. This relationship (%
(a relative movement between the filter surface to be cleaned and the suction container is no longer necessary), the filter surface in a filter casing of a given size can be made several times larger than in known constructions. I can do it. The fill/masquerade or filter basket periphery can have any shape. In this regard, embodiments of the invention (which have the following characteristics, namely the fill tN
The filter basket has a plurality of spaced concentric filter basket circumferential surfaces held together by a circular filter/muskerato plate or supporting bottom plate; The axis is arranged at the filter casing axis and the filter basket circumferential surface is likewise divided into sectors (S) by one or more sector separating walls.

Significant enlargement of the filter surface may be achieved as follows. That is to say, the supporting bottom configured as a filter is lowered over the entire cross-section of the filter casing and is divided into supporting bottom sectors (8) by one or more sector separating walls, which supporting bottom sectors (s)
has at least seven cutouts, each of which is followed by the filter basket circumference of one filter basket. Within the framework of the invention, the seven or more filter basket surfaces can be of cylindrical design and the axis of the filter basket surface can be arranged in the direction of or parallel to the axis of the filter casing. I can do it. However, one or more filter basket surfaces may also be conically shaped with a similar arrangement.

Obviously, in the device according to the invention the flashback flag must be able to be operated as described above, and correspondingly the discharge tube can also be opened or closed via the flag or the slide. This can also be done as follows. i.e., having one or more flashback flags or lever arms, and having a closing flap on the lever arm so that when the seven flashback flags are opened, the discharge tube piece is closed and the flashback operating position is When the flash bank 7 is closed, the discharge tube piece opens.

The division of the filter casing by seven or more sector separation walls can be carried out according to special conditions. Generally, the filter casing is divided into sectors of equal cross-sectional area by one or more sector walls. This is desirable for hydrodynamic reasons and causes as little disturbance to the cooling water flow as possible. This embodiment has the following features. The filter housing is thus divided into two sectors by a diametrical sector separation wall, and these sectors can be operated by one flashback flan.

Another embodiment has the following features. That is, the filter casing is divided into q sectors by two diametrically intersecting sectors [e], which sectors can be operated by q 74-yen 7-back flats. When operated in this way, the 1/2 Franschbach 7 tubes can be connected to the 7 operating axes in pairs and offset by 900 degrees. The operation of the flashback flag in accordance with the 7 flashback processes to be carried out from time to time and alternatively within a sector is otherwise reasonably possible with today's drive and control technology and therefore does not need to be explained in detail. do not have.

Embodiments of the present invention will be explained below with reference to the drawings.The illustrated device is a condensing device i'? used to mechanically purify cooling water streams. The basic configuration includes a cylindrical filter casing, at least seven filter baskets with a basket axis 3 extending beyond the height of the basket, and a flashback arrangement 61'. The filter basket has a filter basket head S and a filter basket peripheral surface 6. The outer side of the filter circumferential surface 6 is connected to a support bottom 7 . Accumulated dirt can be separated by means of a flashback device. The flash bank device has a device to be described later for wastewater discharge. In the embodiment according to FIGS. 1 to 9, the device a has one filter bus scaler) J. In the embodiment according to FIGS. On the left side of FIGS. 1 and 2, the filter basket has a plurality of filter basket circumferences, which can be considered to be complete on the right side as well. On the right side of FIGS. 1 and 2, the filter tN"l Sketco has seven filter basket circumferential surfaces 6, which are also completed on the left side. In the embodiment according to FIGS. is equipped with multiple filter baskets.

In the device shown, the filter casing always carries a cooling water flow in the axial direction, so that this cooling water flow enters the filter casing in the axial direction on the one hand and exits in the axial direction on the other hand.

In the embodiment of FIGS. 1 to 1, the filter casing/has seven sector separating walls g, which start in the direction of flow in front of the filter basket and at least and approximately , and the cooling water stream to be treated either flows, as in the first direction and in the embodiment of FIG. 7, into a filter bath, or, as in the embodiment of FIG. It does not matter whether it hits the filter basket head S or not. It is particularly clear from FIGS. 1-7 how the 7-latch bank is performed. The flashback device has in each sector S a filter basket (J) and a discharge pipe section in front of the support base 7, and in the embodiment of FIGS. 7 to 9 seven flashbank flags 10. , so that sector S can sometimes and alternatively be closed on the ingress side to perform a flashback.

If one of these sectors S is closed, as shown in FIG. The tube piece 9 is closed. The flow state that occurs at this time is indicated by arrow /2 in FIG. The cooling water stream flows through the device in one direction and is purified in the process;
A portion of the flow branches, and this portion is indicated by the arrow 12 shown in the diagram.
Flashback is carried out in the direction of , during which not only the filter basket circumferential surface 6 but also the filter basket S and the support bottom 7 are cleaned of the dirt deposited in the sector S, and these dirt are removed from the discharge pipe piece 9 released through.

As is clear from FIG. 2, the filter basket as a whole is divided into a halves by sectoring, and this also applies to the filter basket head S and the support base 7. This likewise applies to the embodiments of FIGS. 3 and 7, in which on the one hand the filter basket is arranged offset by /gO° with respect to the direction of flow, and on the other hand the filter basket It is shown that the latco may have a conical filter basket circumference 6 and a domed filter basket head 5. As will be readily apparent to those skilled in the art from a comparative consideration of FIGS. 116 to 9, the filter basket can be provided with a plurality of concentrically spaced filter basket circumferential surfaces 6;
These filter basket circumferential surfaces are then joined together by a ring-shaped filter head plate S or a support base plate 7, the filter basket axis 3
is arranged at the filter housing axis /3 and the filter basket circumferential surface 6 is likewise divided into sectors B by seven or more sector separating walls g. However, they may also be arranged as shown in FIGS. S and 6. The support base, here designed as a filter, extends over the entire cross section of the filter housing. This support bottom is divided into support bottom sectors 8 by l or a plurality of sector separation walls g, and these support bottom sectors θ are divided by seven or more notches/l'
has. The peripheral surfaces 6 of seven filter baskets are connected to each cutout /lI. As already mentioned, the filter basket circumferential surface(s) 6 is of cylindrical or conical design.

The embodiment shown in FIGS. S and 9 has the advantage of simplicity with respect to the operation of the seven lash bank flap 10. The seven or more flash bank flags 10 have a lever arm /S and a closure flag // on the lever arm /S, so that when the flash bank flag 10 is opened, the discharge tube piece D is closed. , and the discharge tube piece 9 is open when the flash bank flat f10 is closed during the flash bank operation. Therefore, the flashback conduit/6 with discharge tube piece or discharge volume lower:
Located in the center of the bottom of the support.

In this example, the filter casing / is divided into sectors of equal cross-sectional area by one or more sector separation walls g. 1 to 7 show an embodiment of the invention, in which the filter casing / is divided into two sectors S by a diametrical sector separation wall g. Figures 3 to 3 show the filter casing l.
is divided into t three sectors S by two intersecting sector separation walls g on the diameter, and in this case, these sectors are divided into 174 yen flashback 7
The flash bank flag, which can be operated by the rat f10, is as shown in the perspective view of FIG. 7. Here the 1/yen flash bank flap 10 is connected to a single operating shaft /7 at an angle of 90°. Each? By means of a corresponding rocking movement of θ°, all sectors S can be manipulated as described above. It is clearly within the scope of the invention to provide more than one sector S. In order to distribute the flashbank water to all filter baskets during flashbanking in the embodiments of FIGS. Separation walls may be provided. The filter basket 12 can also be configured as a so-called folding unit, which anti-folding unit has for example a number of linear filter walls parallel to each other as the filter basket circumferential surface 6.
The filter walls and thus the folds can then run parallel to the diameter.

[Brief explanation of drawings]

FIG. 1 is an axial sectional view of the device according to the invention showing different filter basket devices in the left and right halves;
2 is a plan view of the embodiment shown in FIG. 1, FIG. 3 is a diagram showing another embodiment of the embodiment shown in FIG. 1, and FIG. 7 is a plan view of the embodiment shown in FIG. Figures showing examples, 3rd [
J is a plan view of the device according to the invention with a number of individual filter baskets; FIG. 6 is a plan view of the device according to FIG.
7 is a sectional view in the A direction; FIG. 7 is a perspective view of the flash bank flap according to FIG. S; ff1fiG';k;
! Flashing one sector and special structure? 7 is a top view of the device according to the invention with a mask flap; FIG. 7 is a plan view of the device according to FIG. S; Axis line, D...Flashback device, S...Filter basket head, B...
・Filter basket circumferential surface, 7...support bottom, gl・
...Sector separation wall, Ri...Discharge tube piece, lO...Flashback 7 Ratsuno, S...Sector patent applicant TAGROTSUDDE, KESELSHAFT, MITUTO, BESCHRENCHTER, HAFSONG Patent Attorney 1) Representative Uoji Federal Republic of Germany 4030 Ratingen 3 Beldenkampf 35 0 Inventor Dieter Patzig Federal Republic of Germany 4030 Ratingen 1 K Teller-Strasse procedural amendment (method) % formula % 1. Indication of the case Patent application No. 1984-44578 2 Title of the invention Apparatus for Mechanically Purifying Cooling Water Flow 3, Relationship with the Amendment Person Case Name of Patent Applicant: Tabrogge, Gesellschaft, Mituto, Beschrenchtel, Hafrang & Corrector Date: June 8, 1982 (shipped 58.6928) Drawings subject to 0 correction: Plane 7, contents of correction as shown in attached sheet (1 copy of drawing (4), engraving of drawing, no change in contents)

Claims (9)

[Claims] (1) a cylindrical filter casing, at least one filter basket with a filter basket axis extending beyond the height of the basket, and a flashback device, wherein the filter basket is
The filter basket has a filter basket head and a filter bath Kent periphery, and the outer side of the filter basket periphery is connected to a support bottom, in which case further accumulated dirt can be separated by a flash bank device, and a flash back device is provided. In a device for mechanical purification of a cooling water stream of a power plant condensing system, having a wastewater discharge device for discharging separated dirt, the filter casing (1) passes the flow in the axial direction,
and at least one sector separation wall (g), which sector separation wall starts in the flow direction before the filter basket (, 2) and extends over (at least and approximately) the basket height. In addition, at least one of the components, the filter basket head C3) or the support base (7), is configured as a filter, and in each sector (S) a flashback device fft(lI) is provided to control the flow. In front of the filter basket (2) and the supporting bottom (W) in the direction, it has a discharge tube piece (9) and seven or more seven-latch back flats 7P (10), thereby providing a sector (8) for cleaning. ) are alternately closable on the inlet side. (2) The filter basket (K) has a plurality of concentric filter basket peripheral surfaces (K) arranged at intervals from each other.
6) The filter basket periphery is held together by a circular filter basket plate (5) or a supporting bottom plate (7), and the filter basket axis (
,? ) is arranged at the filter casing axis (13) and the filter basket surface (6) is arranged at the filter casing axis (13).
Claim 1, which is likewise divided into sectors (S) by seven or more sector molecules 11 walls Cg).
Apparatus described in section. (3) A supporting bottom (7) configured as a filter extends over the entire cross section of the filter casing (1) and is divided into supporting bottom sectors (8) by seven or more sector separating walls (g). These support bottom sectors (8) have at least one notch (/II), and the filter basket circumferential surface (B) of each of the seven filter baskets (K) is formed in the notch (/+). Apparatus according to claim 1, which follows. (4) One or more filter basket peripheral surfaces (A)
is formed in a cylindrical shape, and the axis (3) of the peripheral surface of the filter basket is aligned with the axis &i of the filter casing (1).
Claims 1 to 3, which are arranged in the direction of (/3) or parallel to this.
The device described in. (5) Seven or more filter basket aspects (6)
is conically shaped and the axis (3) of the filter basket surface is arranged in the direction of or parallel to the axis (/, ?) of the filter casing (1) Apparatus according to one of the ranges 1 to 3. (6) seven or more flashback flags (one
0) has a lever arm (/&), and the lever arm
It has a closing 7 lap (//) on the flashback flap (/S) so that the discharge tube piece (9) closes when the flashback flap '' (io) is opened and the flashback 7 run is closed in the flash hack operating position. Device according to any one of claims 1 to 5, characterized in that the discharge tube (q) opens when the 7° (10) is closed. (7) The filter casing (1) is divided into sectors (S) of the same cross-sectional area by seven or several sector separation walls Cg).
A device according to claims 1 to 6, wherein the device is divided into: (8) The filter casing (1) is connected to the sector separation wall Cg
) is divided into λ sectors (S) on the diameter, and these sectors are divided into λ sectors (S) by the flashback flap (
10) Apparatus according to claim 7, operable by 10). (9) The filter casing (1) has t sectors (
S), and these septa are divided into seven
8. Device according to claim 7, operable by a four-circle flashback flag (10). 10. The device according to claim 9, wherein the H/4 circular flashback flaps 0) are connected to the operating shaft (/7) in pairs and offset by 90[deg.].