DE3832978C1 - Gravity filter - Google Patents

Abstract

In a gravity filter (1), for substantial avoidance of bacterial removal during the operating phase, flow passes through the retention chamber (5). For this purpose, an overflow (19) connected to the outlet (20) is situated in the upper retention chamber part. <IMAGE>

Description

The invention relates to a gravity filter, in which a filtrate chamber, a filter bed, a distribution chamber, a storage chamber and an on aisle chamber are arranged and in which the distributor came with the entrance chamber and a backwash line and the filtrate chamber with the storage chamber as well at least one vertical channel and one in height of the upper storage chamber part arranged overflow are connected to an output.

A gravity filter of this type is from the brochure "Interfilt filter systems Automatic gravity filters SK series "from the company Chemie und Filter GmbH, Druck number IT-TM-009/1 from September 1984 known. Such Gravity filters allow automatic backwashing for cleaning and loosening up, for example Sand existing filter bed, being in the store chamber collected filtrate through the filtrate chamber the filter bed and further over the distribution chamber and the backwash line is led into a drain channel.  

In the subsequent filter operation, the Storage chamber filled with filtrate. Only then can the filtrate is fed to a consumer via the outlet will. In the known case, the filtrate chamber is over a riser pipe and a horizontally connecting cross pipe, that forms the overflow with an outlet nozzle bound.

In some cases it has been found that in germs occur in such systems. This has helped the industrial water filtration has no disadvantages, but is annoying in drinking water treatment.

Filters are also known (DE-OS 34 33 472) which are the entrance chamber below and the filtrate chamber above the filter bed so that the Flow through the filter bed from bottom to top. Here a trough is provided in the upper part of the filtrate chamber, that works as an overflow and with a lateral out lassstutzen is connected.

The invention has for its object a heavy to specify force filters of the type described at the outset, in which the risk of contamination is eliminated or substantial is reduced.

This object is achieved in that the at least one vertical channel into the storage chamber opens and that the overflow ge from the storage chamber is fed.  

The invention is based on the consideration that the Verkei Mung is largely due to the fact that the Fil occurred in the storage chamber during normal filtra tion, i.e. over longer periods, stagnates what leads to germination. Germs remain during backwashing back in the filter bed, which subsequently filtered the Can affect water.

According to the invention, provision is therefore made for the Storage chamber from the filtrate during the operating phase is flowed through. This is the start of germination increasing stagnation lifted. It's enough behavior low flow velocities to a To prevent contamination.  

The cross section of the memory is particularly advantageous chamber partially covering collecting device, the Filtrate from various locations in the storage chamber records. This ensures that the Filtrate not only near the exit but also distributed over the cross-section is recorded, that is a uniform flow through the storage chamber instead finds and no stagnant areas remain.

The collecting device can be particularly advantageous at least one Have collecting trough, the upper edges of the overflow form. At the end of the gutter or in the middle of the gutter then connect the output.

It is preferably also ensured that the connection between the filtrate chamber and the storage from several channels consists of the across the cross section of the storage chamber about evenly distributed places on the bottom of the spit chamber. This also causes the inflow side an even flow in the storage chamber takes place.

The invention is based on a in the drawing illustrated preferred embodiment closer explained. It shows

Fig. 1 shows a schematic longitudinal section through a gravity filter,

Fig. 2 is a vertical section through a collecting channel and

Fig. 3 is a horizontal section along the line AA in FIG. 1.

The illustrated gravity filter 1 has a filter bed 2 , including a filtrate chamber 3 and a distribution chamber 4 above. Above this, a memory chamber 5 and an input chamber 6 are arranged. The latter is connected to an inlet connection 7 at the lower end. At an overflow 8 , an inlet pipe 9 connects to, which leads to a deflection and ventilation vessel 10 , from which a connecting pipe 11 to the chamber 4 Ver goes. A backwash line 12 connects to the top of the distribution chamber 4 and rises up to an elbow 13 and then leads into an outlet channel 14 .

The filtrate chamber 3 is connected via a plurality of vertical channels 15 to the bottom of the storage chamber 5 . The channels are evenly arranged on a circle. In the upper part of the storage chamber 5 there is a collecting device 16 in the form of a collecting channel, the upper edges 17 and 18 of which serve as an overflow 19 . At the left end of the channel 16 there is the outlet 20 which is designed as a connector.

An interrupter pipe 21 connects to the backwash line 12 near the elbow 13 , the lower end of which is located near the bottom of the storage chamber 5 . At the upper end of the elbow 13 there is a vent line 22 which is connected to a suction nozzle 23 . The suction nozzle lies in the course of a line 24 through which liquid flows when it has reached the corresponding height in the backwash line 12 .

This gravity filter works in operation as follows, the arrows indicate the direction of flow: Rohwas water is supplied through the inlet nozzle 7 . As soon as the inlet chamber is filled, the raw water reaches the distribution chamber 4 via the overflow 8 , the inlet pipe 9 , the deflection and ventilation vessel 10 and the connecting pipe 11 . The water to be filtered passes through the filter bed 2 and passes into the filtrate chamber 3 from which it rises through the vertical channels 15 upwardly into the storage chamber. 5 When the liquid level in this chamber reaches the edges 17, 18 of the collecting channel, the filtrate reaches the outlet 20 via the collecting channel.

Because of the extension of the overflow 19 over considerable cross-sectional areas of the storage chamber 5 and because of the supply of the filtrate via evenly distributed channels 15 , the entire storage chamber 5 is flowed through by liquid. Therefore, no contamination can occur.

If the filter bed 2 due to contamination in the sand layer causes an increasing pressure loss, the water level 25 in the backwash line 12 rises above the water level in the storage chamber 5 . As soon as this water level 25 has reached the beginning of the line 24 , the suction nozzle 23 is activated by the now flowing liquid and the air from the manifold 13 is evacuated via the line 22 . Now the filtrate of the storage chamber 5 flows as backwashing liquid through the channels 15 , the Fil stepping chamber 3 , the filter bed 2 , the distribution chamber 4 and the backwash line 12 in the sewer 14th This backwashing process is automatically interrupted when the water level in the storage chamber 5 reaches the end of the interrupter tube 21 . Then air is drawn into the manifold 13 , whereby the liquid column in the backwash line 12 is interrupted.

After the backwashing has ended, the filtrate water which initially forms is collected again in the storage chamber 5 . Only after its filling is the filtered water supplied to the outlet 20 via the collecting device 16 .

The embodiment described can be varied in many respects without departing from the basic idea of the invention. The input chamber 6 can thus have a smaller volume and be arranged separately from the rest of the gravity filter. Instead of a collecting channel, several, for example star-shaped, collecting channels can also be provided. As a collecting device, a circular bowl can be used, the peripheral edge of which forms the overflow. It is also possible to use a collecting container which has through openings in the bottom, these through openings being designed as throttles, the throttle resistance of which increases towards the outlet.

Claims (4)

1. Gravity filter, in which a filtrate chamber ( 3 ), a filter bed ( 2 ), a distribution chamber ( 4 ), a storage chamber ( 5 ) and an input chamber ( 6 ) are arranged one above the other and in which the distribution chamber ( 4 ) with the input chamber ( 6 ) and a backwash line ( 12 ) and the filtrate chamber ( 3 ) with the storage chamber ( 5 ) and via at least one vertical channel ( 15 ) and an overflow ( 19 ) arranged at the level of the upper storage chamber part with an outlet ( 20 ) are connected, characterized in that the at least one vertical channel ( 15 ) opens into the storage chamber ( 5 ) and that the overflow ( 19 ) is fed from the storage chamber ( 5 ). 2. Gravity filter according to claim 1, characterized by a cross-section of the storage chamber ( 5 ) partially covering collecting device ( 16 ) which receives filtrate from different locations in the storage chamber. 3. Gravity filter according to claim 2, characterized in that the collecting device ( 16 ) has at least one collecting channel, the upper edges ( 17, 18 ) of which form the overflow ( 19 ). 4. Gravity filter according to one of claims 1 to 3, characterized in that the connection between the filtrate chamber ( 3 ) and memory ( 5 ) consists of a plurality of channels ( 15 ), which are approximately evenly distributed over the cross section of the storage chamber at the bottom in open the storage chamber.