DE2653573C2 - Filter system for water - Google Patents

Description

The invention relates to a filter system for cleaning water (drinking water, industrial water, bathing water, A coagulating and oxidizing agent is used for sewage has added and this passes through the backwash or regenerable, multi-layer filter.

This filter system can be used for the elimination of solids, colloidal impurities as well as dissolved Substances, dyes, etc. from surface water, circulating water and wastewater of various properties use.

Devices of the most varied types for the elimination of so-called impurities are known per se (backwashable gravel sand filters, precoat filters, etc.).

The known devices for water purification have the disadvantage that with continuous and in particular in the case of changing and large flow rates, the necessary measures and systems are proportionate are complicated and expensive. In addition, the process-related maintenance work, despite some automatic machines, mostly only carried out by trained, reliable maintenance personnel will.

The invention is now based in detail on a filter system as described in DE-AS 14 36 325 is. According to the preamble of claim I, this is a filter system for water with two each having a backwashable filter mass resting on a sieve plate and connected to one another at the bottom and filter containers connected to a common drain line, which are parallel and in series are switchable, with all containers in the cleaning direction from top to bottom and in parallel operation in series operation with the drain line closed, the front container in each case viewed in the direction of flow to backwash its filter mass from the purified water flows in the opposite direction from bottom to top will. In the well-known case, there are always going to be separate Filtcrbehäker, which have a flange connection below the sieve plate contained in each case own. These flange connections are connected to a centrally arranged collecting container with a corresponding Number of ports connected. The drain line then goes off from this collecting container. These Arrangement is space-consuming because of the relatively large container spacing and are also with not inconsiderable costs associated with the provision of the collecting container.

Based on this, the invention is based on the object of creating a filter system of the type mentioned, which is simple, space-saving and inexpensive.

According to the invention, this object is achieved in that the filter containers interlock in the bottom area pass over and in the passage containing an outlet a sieve or nozzle plate common to all containers is arranged

In this filter system, the filter containers are directly next to each other, with a common one Have a floor area with a continuous sieve or nozzle plate. The space under this common Sieve or nozzle plate replaces the collecting tank and the flange connections of the known system, see above that a significant simplification and a much smaller design is achieved.

From Hauschild, water supply systems, 1965, pages 138, 139 and 152 and from CH-PS 2 76 404 are Arrangements of other types with only one filter container are known, so that the solution according to the invention for this reason alone cannot be suggested.

The sieve plate expediently extends between the lower ends of the lateral guide surfaces Container arched over the transition.

Another useful measure is that the filter container is close between the filter masses a separating insert is arranged on the sieve plate.

Furthermore, the sieve plate can be designed as a nozzle plate.

Finally, it is also advantageous that the filter container is stepless - as in CH-PS 2 76 404 per se known - or are conical in stages. Due to the conical expansion of the filter container from below The following advantages are achieved for the operational process:

a) optimal filter surface,

b) favorable flow rate for the accumulation of solids on the multilayer filter medium,

c) differentiated flow velocities according to the respective filter medium weight as well as optimal loosening and regeneration of the filter media,
d) by reducing the flow velocity to the upper outlet zone of the filter container, preventing the formation of eddies and rearrangement of the filter media, as occurs with cylindrical filter containers, and thus preventing the outflow

carrying filter media while rewinding.

The invention will then be explained with reference to figures

It shows in a purely schematic representation

F i g. 1 is a view of a device for purifying water with two filter containers,

F i g. 2 shows a section through the system according to FIG. 1 along section line H-H and

F i g. 3 shows a different shape of container.

The in F i g. 1 illustrated filter system 1 comprises a filter container 3 and a mirror image standing next to it trained filter container 5. The two filter containers 3.5 are provided with curved ceilings 7.9. The jacket 11 of the filter container 3 is provided with filling and emptying openings 12, 13, which are preferably with Sight glasses are provided, while the other jacket 15 of the filter container 5 has two filling and Emptying openings 16 and 17 has a separating insert 19 separates the filter masses in the rest of this Area connected filter container 3 and 5. The connection is performed as shown in FIG. 2 visible connecting bridge 20. Lateral guide surfaces 21, 23 are provided in the lower part of the filter container 3, 5 lower ends are connected by means of a common, arched sieve plate 25. Under this sieve plate 25, which can also be designed as a nozzle plate, is located in the axis of symmetry of the filter system 1 Outlet 27.

The upper part of the system shows an inlet line 29 for the water to be treated and a side in this discharging metering line 31, which is used to add the corresponding chemicals, such as precipitants and / or oxidizing agent and the like is used. A connecting line 33 enables the filter container to be acted upon 3 and 5 as desired. Part of the line system is also used as backwash lines. The two Backwash lines 35 and 36 open into a common drain line 38 for the backwash water the impurities.

Various lock fittings 40, 41, 42, 43, 44 and 45 enable the parallel or series connection of the filter containers 3 and 5 as well as the switching for backwashing and normal operation, as seen, for example, by the position of the fittings in FIG. 1 reproduces.

At the outlet 27 a drain line 47 is provided for the purified water.

In cleaning operation, for example for cleaning drinking water, industrial water, bathing water, waste water and the like., The inlet line 29 is opened and the locking valve 40 for Dciierleitung 31 is set accordingly to "passage". Then there will be the necessary ones Quantities before; Chemicals added to the water to be cleaned. This is split up and flows over the Connection line 33 and the two open fittings 41 and 42, if possible distributed in equal parts, at the top of the filter container 3 and 5. The one in these filter containers 3.5 existing gravel-sand filters, precoat filters or the like. Keep the corresponding flocculated, coloidal Impurities back, as well as larger floating debris. After trickling through the two filter containers 3 and 5 from top to bottom, the purified water passes through the sieve plate 25 via the outlet 27 and the open fitting 45 into the drain line 47 to a container (not shown).

The filter material! can through the felling and emptying openings 12, 13, 16, 17 are introduced and replaced.

When backwashing, for example the filter container 3, the two filter containers 3 and 5 are in series It is therefore switched, contrary to the previously known method, with the filter container through which the flow was first carried out 5 obtained, purified water of the second filter container 3 from bottom to top in the sense of backwashing flowed through. For this purpose, the valve 41 is closed and the valve 43 is opened and closed the valve is also 45. It then flows

to the incoming water to be cleaned through the filter container 5 from top to bottom, is cleaned and then arrives in the filter container 3, through which it flows in a cleansing sense through the opened Fitting 43 and the backwash line 35 in the Abis flow line 38 to get.

To separate the accumulated contamination from the filter medium of the filter container 3 and 5 backwashing or regeneration of the filter medium takes place alternately and discontinuously.

Instead of a container with a continuous jacket, according to FIG. 3 also has a detached container 50 be used.

The admixture takes place in the inflow line upstream of the filter system, advantageously at a point with a subsequent one strong turbulence.

To achieve optimal room filtration, filter media such as quartz filter gravel, lava gravel, anthracite granulate, Activated carbon, indifferent plastic etc. are used in multiple layers.

The point in time for the continuous backwashing is advantageous due to the operationally occurring Difference in pressure when reaching a maximum value (mark) is determined

The backwash speed of the rinse water required for the various filter media layers, e.g. B. 10 m / h, 15 m / h, 20 m / h etc., is achieved by the stepless or stepwise conicity of the upright filter container sensibly achieved.

The accumulated impurities are removed from the system by means of the process-specific alternating discontinuous backwashing or regeneration of the filter medium in the two conical filter containers with a filter system.

The device according to the invention makes it possible that the system can be put into operation without lengthy start-up preparations by untrained maintenance personnel can be set and then does not require ongoing monitoring.

The flow control can be carried out with very little maintenance or fully automatically.

The provision of pure water for backwashing the filter medium as well as the use of an additional one There is no need for a pump unit as the filtrate from the plant system is used.

Any Drrchsatz'.eistung, the water purification plant Reach ¹ by parallel connection of recurring units of the illustrated apparatus are.

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1. Filter system for water with two filter containers, each containing a filter material resting on a sieve plate, which can be recovered and which are connected to one another at the bottom and connected to a common drainage line In series operation with the drain line closed, the respective front container (viewed in the flow direction) is flowed through by the purified water in the opposite direction from the bottom to the top for rewinding its filter material, characterized in that the filter containers (3, 5) merge into one another in the bottom area and contain an outlet (27) Above, a sieve or nozzle plate (25) common to all containers is arranged ki. 2. Füteranüäge according to claim I _1, characterized in that the sieve plate (25) extends between the lower ends of lateral guide surfaces (21,23) of the container arched over the transition 3. Filter system according to claim 1 or 2, characterized in that between the filter masses A separating insert (19) is arranged in the filter container (3, 5) near the sieve plate (25). 4. Filter system according to one of claims 1 to 3, characterized in that the sieve plate (25) as Nozzle plate is formed. 5. Filter system according to one of claims 1 to 4, characterized in that the r filter container (3.5) are stepless or stepped conical.