WO2016040976A1 - Device for an uninterrupted water filtration process with an automatic filter cleaning capability - Google Patents

Abstract

The invention relates to an advantageous device for an uninterrupted water filtration process with an automatic filter cleaning capability, consisting of a first filter unit (F1), a second filter unit (F2), a third filter unit (F3), a fourth filter unit (F4), a first inlet valve unit (V1), a second inlet valve unit (V2), a third inlet valve unit (V3), a fourth inlet valve unit (V4), a first outlet valve unit (I1), a second outlet valve unit (I2), a third outlet valve unit (I3), a fourth outlet valve unit (I4), a central valve unit (CA), a second central valve unit (CB), a control unit (K), and a communication connection (L1).

Description

 DEVICE FOR UNINTERRUPTED WATER FILTRATION WITH

AUTOMATIC FILTER CLEANING

Technical area

The present invention relates to a system for continuous (continuous) water filtration with automatic filter cleaning. State of the art

Numerous water filtration and purification systems are well known: a system with alternating water filtration and filtration, brush cleaning systems, and others.

A common problem of all these systems is the inability of continuous water filtration with simultaneous automatic filter cleaning, as well as clogging of the pores with colloidal particles or a biofilm. Most existing water filtration systems require interruption of water filtration when the filter cleaning process begins. Because of the above problem, the final capacity of the filtered water is greatly reduced and the maintenance cost of the entire system is much higher. With the introduction of the system of continuous water filtration with automatic filter cleaning, the water filtration becomes more effective and cheaper. The system has uninterrupted operation, which contributes significantly to the final capacity of the filtered water and thus eliminates all possible disturbances due to the interruption of the clean water supply. With such a system, the operating costs are greatly reduced because the entire process of water filtration and filter cleaning is fully automated, and human intervention is no longer necessary. The maintenance costs are also reduced, since due to the automatic and frequent filter cleaning eliminates the mechanical filter cleaning with different brushes or other means. The ability of a Broken automatic filter cleaning without interruption of the water filtration also allows filtration of numerous highly loaded media that could not be filtered due to the numerous interruptions required for filter cleaning. Furthermore, in the case of mechanical water filtration, the order of the filters and the ratio between the input and output pores are also important. In the systems known hitherto, it is necessary to use a filter arrangement in which the filters are each lined up after the filters with the widest pores up to the filters with the narrowest pores. If heavily contaminated water is to be filtered to a particle size of 50 microns, a filter assembly must be assembled in the following order: a 300 micron mesh filter, then a 200 micron mesh filter, then a 150 mesh filter Micrometer, then 100 microns and at the end 50 microns. Nevertheless, there is a high probability that one of the filters will clog much faster than the other, reducing or interrupting the water flow. The system for continuous water filtration with automatic filter cleaning offers the possibility that in a filter there is a large ratio between the pore widths; the egg spore has a width of 30 millimeters and the exit pore a width of 50 microns. And that is exactly the fact that makes it possible to clean very polluted waters. The continuous water filtration system with automatic filter cleaning is also ideal as a pre-filter for ultrafiltration, nanofiltration, reverse osmosis, ion exchangers, desalinators and hundreds of other industrial applications where fluids are filtered. There are already some inventions or patents in the field of water filtration. The existing patents provide a solution to various segments of the problems that arise in the water filtration systems. However, the inventors of the existing patents are not aware of a solution in the form of an invention or a patent which solves the pre-existing problems in an advantageous manner. The invention solves the problems with the features of claim 1. Advantageous developments of the invention are illustrated in the subclaims.

In detail, the invention of the system for continuous water filtration with automatic filter cleaning comprises a first filter arrangement A, a second filter arrangement B and a control unit K. The first filter arrangement A consists of a first filter unit F1, a second filter unit F2, a first input valve unit V1, a first output valve unit 11, a second input valve unit V2, a second output valve unit 12 and a first central valve unit CA. The second filter arrangement B consists of a third filter unit F3, a fourth filter unit F4, a third input valve unit V3, a third output valve unit 13, a fourth input valve unit V4, a fourth output valve unit 14 and a second central valve unit CB. Each valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB consists of an electric valve E and a communication arrangement L. The control unit K consists of a process unit P and a communication arrangement L.

The communication between each valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB and the control unit K is via the communication link L1. In the control unit K program instructions are executed by means of the process unit P, which are then transmitted by means of the communication arrangement L via the communication connection L1 to each valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB. In each valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB, the program commands are then received by means of the communication arrangement L and then in the form of opening or closing the solenoid valve E in the valve unit V1, V2, V3 , V4, 11, 12, 13, 14, CA, CB. The inventive system for continuous water filtration with automatic filter cleaning is achieved by a coordinated operation of all on solenoid valves E or other automatic valve-based valve units V3, V4, 11, 12, 13, 14, CA, CB.

Brief description of the drawings The invention is illustrated by means of drawings. They show:

1 assembly of the first filter assembly A,

2 assembly of the second filter assembly B,

Fig. 3 Assembly of the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB, Fig. 4 Assembly of the control unit K and

 Fig. 5 shows the entire system for continuous water filtration with automatic filter cleaning.

Way to carry out the invention

Elements of the first filter arrangement A: · F1 - first filter unit (filter with pores of 200 microns to 0.01 microns)

 F2 - second filter unit (filter with pores from 200 microns to 0.01 microns)

 V1 - first input valve unit (solenoid valve)

· V2 - second input valve unit (solenoid valve)

 11 - first outlet valve unit (electrovalve)

 12 - second output valve unit (electrovalve)

 CA - first central valve unit (electrovalve)

 FV - filtered water

 NV - unfiltered water

 OV - rinsed water

FIG. 1 illustrates the first filter assembly A assembled from ten main elements.

The first filter unit F1 ensures filtration of the unfiltered water NV into the filtered water FV by means of various filtration options (filters with pores of 200 microns to 0.01 microns). The second filter unit F2 ensures filtration of the unfiltered water NV into the filtered water FV by means of various filtration options (filters with pores of 200 microns to 0.01 microns).

The first input valve unit V1 allows free flow or prevents the flow of the input, unfiltered water NV into the first filter unit F1 by means of the solenoid valve E.

The second input valve unit V2 allows a free flow or prevents the flow of the input, unfiltered water NV in the second filter unit F2 using the solenoid valve E. The first output valve unit 11 allows free flow or prevents the flow of the output, flushed water OV from the first filter unit F1 using the solenoid valve E.

The second output valve unit 12 allows a free flow or prevents the flow of the output, flushed out water OV from the second filter unit F2 using the solenoid valve E.

The first central valve unit CA allows a free flow or prevents the flow of the output, filtered water FV from the first filter unit F1 and the second filter unit F2 by means of the solenoid valve E.

The first filter arrangement A has operating possibilities with regard to the opening or the closure of the valve units V1, V2, 11, 12, CA.

1 . WATER FILTERS

The first filter assembly A performs the water filtration process when the first input valve unit V1 is opened, the second input valve unit V2 is opened, the first output valve unit 11 is closed, the second output valve unit 12 is closed, and the first central valve unit CA is opened. In this case, unfiltered water NV passes through the first and second input valve units V1, V2 in the first and second filter unit F1, F2 a. From the first and second filter units F1, F2 then filtered water FV exits through the first central valve unit CA.

2. FLUSHING OF THE FILTER UNITS F1, F2 The first filter assembly A carries out the process of purging filter units F1, F2 when the first input valve unit V1 is opened, the second input valve unit V2 is opened, the first output valve unit 11 is opened, the second output valve unit 12 is opened and first central valve unit CA is closed. In this case, unfiltered water NV enters the first and second filter units F1, F2 through the first and second input valve units V1, V2. From the first and second filter unit F1, F2 then exits the flushed water OV through the first and second output valve unit 11, 12 from.

3. CLEANING THE FIRST FILTER UNIT F1

The first filter arrangement A carries out the process for cleaning the first filter unit F1 when the first input valve unit V1 is closed, the second input valve unit V2 is opened, the first output valve unit 11 is opened, the second output valve unit 12 is closed and the first central valve unit CA is closed. In this case, unfiltered water NV enters the second filter unit F2 through the second input valve unit V2. Filtered water FV then flows out of the second filter unit F2 into the first filter unit F1 and exits through the first outlet valve unit 11 as flushed-out water OV.

4. CLEANING THE SECOND FILTER UNIT F2

The first filter arrangement A carries out the process for cleaning the filter unit F2 when the first input valve unit V1 is opened, the second input valve unit V2 is closed, the first output valve unit 11 is closed, the second output valve unit 12 is opened and the first central valve unit CA is closed. In this case, unfiltered water NV enters the first filter unit F1 through the first input valve unit V1. Filtered water FV flows then from the first filter unit F1 into the second filter unit F2 and exits as flushed out water OV through the second outlet valve unit 12.

Elements of the second filter arrangement B:

F3 - third filter unit (filter with pores from 200 microns to 0.01 microns)

F4 - fourth filter unit (filter with pores from 200 microns to 0.01 microns)

V3 - third input valve unit (electrovalve)

V4 - fourth input valve unit (solenoid valve) · 13 - third output valve unit (electrovalve)

14 - fourth output valve unit (electrovalve)

CB - second central valve unit (solenoid valve)

FV - filtered water

NV - unfiltered water · OV - rinsed water

FIG. 2 illustrates the second filter assembly B assembled from ten main elements.

The third filter unit F3 provides filtration of the unfiltered water NV into the filtered water FV by means of various filtration options (filters with pores of 200 microns to 0.01 microns). The fourth filter unit F4 provides filtration of the unfiltered water NV into the filtered water FV by means of various filtration options (filters with pores of 200 microns to 0.01 microns).

The third input valve unit V3 allows a free flow or prevents the flow of the input, unfiltered water NV in the third filter unit F3 using the solenoid valve E.

The fourth input valve unit V4 allows a free flow or prevents the flow of the input, unfiltered water NV in the fourth filter unit F4 using the solenoid valve E. The third output valve unit 13 allows a free flow or prevents the flow of the output, flushed water OV from the third filter unit F3 using the solenoid valve E.

The fourth outlet valve unit 14 allows a free flow or prevents the flow of the output, flushed out water OV from the fourth filter unit F4 using the solenoid valve E.

The second central valve unit CB allows a free flow or prevents the flow of the output, filtered water FV from the third filter unit F3 and the fourth filter unit F4 using the solenoid valve E.

The second filter arrangement A has with respect to the opening or the closure of the valve units V3, V4, 13, 14, CB 4 operating options.

1 . WATER FILTERS

The second filter arrangement B carries out the water filtration process when the third input valve unit V3 is opened, the fourth input valve unit V4 is opened, the third output valve unit 13 is closed, the fourth output valve unit 14 is closed and the second central valve unit CB is open. In this case, unfiltered water NV passes through the third and fourth input valve units V3, V4 into the third and fourth filter units F3, F4. From the third and fourth filter unit F3, F4 then filtered water FV exits through the second central valve unit CB.

2. FLUSHING THE FILTER UNITS F3, F4 The second filter assembly B performs the process of purging filter units F3, F4 when the third input valve unit V3 is opened, the fourth input valve unit V4 is opened, the third output valve unit 13 is opened, the fourth output valve unit 14 is opened and the second central valve unit CB is closed. In this case, unfiltered water NV enters the third and fourth filter units F3, F4 through the third and fourth input valve units V3, V4. From the third and fourth filter unit F3, F4 then flushed out water OV passes through the third and fourth output valve unit 13, 14 from.

3. CLEANING THE THIRD FILTER UNIT F3

The second filter arrangement B carries out the process for cleaning the third filter unit F3 when the third input valve unit V3 is closed, the fourth input valve unit V4 is opened, the third output valve unit 13 is opened, the fourth output valve unit 14 is closed and the second central valve unit CB is closed. In this case, unfiltered water NV enters the fourth filter unit F4 through the fourth input valve unit V4. Filtered water FV then flows out of the fourth filter unit F4 into the third filter unit F3 and exits through the third output valve unit 13 as flushed water OV.

4. CLEANING THE FOURTH FILTER UNIT F4

The second filter arrangement B carries out the process for cleaning the fourth filter unit F4 when the third input valve unit V3 is opened, the fourth input valve unit V4 is closed, the third output valve unit 13 is closed, the fourth output valve unit 14 is opened and the second central valve unit CB is closed. In this case, unfiltered water NV enters the third filter unit F3 through the third input valve unit V3. Filtered water FV then flows out of the third filter unit F3 in the fourth filter unit F4 and exits as purged water OV through the fourth output valve unit 14.

Elements of the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB:

E - Electric valve that automatically allows or prevents water flow

L - communication arrangement (wired or wireless communication link)

Connection: Valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB - control unit K

Figure 3 illustrates the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB, which is assembled from two basic elements.

The electric valve E ensures a free water flow or prevents the flow of water through the valve unit. The communication arrangement L enables a communication connection between the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB and the control unit K in the form of a wire or wireless communication connection.

In the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB commands are received by the control unit via the communication link L, which then prevented or prevented by means of the electric valve E in the form of a free water flow Water flow are performed.

Elements of the control unit K: P - process unit in which program commands are executed for the respectively provided valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB.

L - communication arrangement (wired or wireless communication link)

Relationship: Control unit K - Valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB

Figure 4 illustrates the control unit K, which is constructed from two basic elements.

The process unit P in which all program commands for a tuned operation of all valve units V1, V2, V3, V4, 11, 12, 13, 14, CA, CB are carried out in the entire system for continuous water filtration with automatic filter cleaning. The communication arrangement L enables a communication connection between the control unit K and the valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB in the form of a wire or wireless communication connection.

In the control unit K, program instructions are transmitted by the process unit P to the respective valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB in the system by means of the communication arrangement L via the communication connection L1.

Elements of the entire system for continuous water filtration with automatic filter cleaning:

A - first filter arrangement

B - second filter arrangement

F1 - first filter unit (filter with pores from 200 microns to 0.01 microns) F2 - second filter unit (filter with pores from 200 microns to 0.01 microns)

F3 - third filter unit (filter with pores from 200 microns to 0.01 microns) F4 - fourth filter unit (filters with pores from 200 microns to 0.01 microns)

V1 - first input valve unit (solenoid valve) V2 - second input valve unit (solenoid valve) V3 - third input valve unit (solenoid valve) · V4 - fourth input valve unit (solenoid valve)

11 - first outlet valve unit (electrovalve)

12 - second output valve unit (electrovalve)

13 - third output valve unit (electrovalve)

14 - fourth output valve unit (electrovalve) · CA - first central valve unit (electrovalve)

CB - second central valve unit (solenoid valve)

K - control unit

FV - filtered water

NV - unfiltered water OV - rinsed out water

L1 - communication connection (wired or wireless communication connection)

Relationship: Control unit K - Valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB

Figure 5 illustrates the invention in the form of the entire system. A detailed description of the continuous water filtration system with automatic filter cleaning shows the assembly, operating mode, arrangement of arrangements, filtered, unfiltered water flow, and communication mode, the basis of the patent application are.

The process of continuous water filtration with automatic filter cleaning can be described with a continuous cyclic operation of 6 consecutive phases:

1 . Phase: The first filter arrangement A filters the water and the second filter arrangement B rinses out the water.

2nd phase: The first filter arrangement A filters the water and the third filter unit F3 cleans the fourth filter unit F4.

3rd phase: The first filter arrangement A filters the water and the fourth filter unit F4 cleans the third filter unit F3. 4th phase: The first filter assembly A flushes out the water and the second filter assembly B filters the water.

5th phase: The first filter unit F1 cleans the second filter unit F2 and the second filter assembly B filters the water. 6th phase: The second filter unit F2 cleans the first filter unit F1 and the second filter assembly B filters the water.

I. Phase:

In the control unit K, by means of the process unit P, the program instructions begin to execute the process of continuous water filtration with automatic filter cleaning. The program instructions are transmitted by means of the communication arrangement L in the control unit K via the communication connection L1 into the communication arrangement L of each valve unit V1, V2, V3, V4,

II, 12, 13, 14, CA, CB transmitted in the system. Thus, all four input valve units V1, V2, V3, V4 in both filter arrangements A, B receive a command for a free flow of the unfiltered water NV into all four filter units F1, F2, F3, F4 and therefore all four solenoid valves E in open all input valve units V1, V2, V3, V4. In the first filter assembly A, both output valve units 11, 12 receive an instruction to prevent the flow of the purged water OV from both filter units F1, F2, and the solenoid valves E in both outlet valve units 11, 12 are closed. At the same time, in the first filter arrangement A, the first central valve unit CA also receives a command for the free flow of the filtered water FV from the two filter units F1, F2 and the electric valve E in the first central valve unit CA is opened. At the same time received in the second filter assembly B, the two output valve units 13, 14 a command on the free flow of the flushed water OV from the two filter units F3, F4 and the solenoid valves E in both output valve units 13, 14 are opened. In the second filter assembly B also receives the second central valve unit CB at the same time a command to interrupt the flow of the filtered water FV from the two filter units F3, F4 and the solenoid valve E is closed in the second central valve unit CB.

2nd phase: After a certain predetermined in the stereoscopic unit K time interval from the control unit K, the program commands via the communication link L1 simultaneously in the fourth input valve unit V4 and in the third output valve unit 13 in the second filter assembly B transmitted. The fourth input valve unit V4 receives the command for interrupting the flow of the unfiltered water NV in the fourth filter unit F4 and the electric valve E in the fourth input valve unit V4 is closed. The third output valve unit 13 receives a command for interrupting the flow of the purge water OV from the third filter unit F3, and the electric valve E in the third output valve unit 13 is closed.

3rd phase:

After a certain predetermined in the stereoscopic unit K time interval from the control unit K, the program commands via the communication link L1 simultaneously in the two input valve units V3, V4 and in the two output valve units 13, 14 in the second filter assembly B transmitted. The third input valve unit V3 receives the command for interrupting the flow of the unfiltered water NV in the third filter unit F3 and the electric valve E in the third input valve unit V3 is closed. The fourth input valve unit V4 receives the command for a free flow of the unfiltered water NV into the fourth filter unit F4, and the electric valve E in the fourth input valve unit V4 is opened. The third output valve unit 13 receives a command for a free flow of the purged water OV from the third filter unit F3, and the electric valve E in the third output valve unit 13 is opened. The fourth output valve unit 14 receives a command for interrupting the flow of the purged water OV from the fourth filter unit F4, and the electric valve E in the fourth output valve unit 14 is closed.

4th phase: After a certain predetermined in the stereonomy K time interval from the control unit K, the program commands via the communication link L1 simultaneously in the third input valve unit V3, the third output valve unit 13 and the second central valve unit CB in the second filter assembly B and in the first output valve unit eleventh , the second output valve unit 12 and the first central valve unit CA in the first filter arrangement A transmits. The third input valve unit V3 receives the command for the free flow of the unfiltered water NV in the third filter unit F3 and the solenoid valve E in the third input valve unit V3 is opened. The third output valve unit 13 receives a command for interrupting the flow of the purged water OV from the third filter unit F3, and the electric valve E in the third output valve unit 13 is closed. The second central valve unit CB receives the command for the free flow of the filtered water FV from the third and fourth filter units F3, F4, and the electric valve E in the second central valve unit CB is closed. The first output valve unit 11 receives the command for the free flow of the purged water OV from the first filter unit F1, and the electric valve E in the first output valve unit 11 is opened. The second output valve unit 12 receives the command for the free flow of the purged water OV from the second filter unit F2, and the solenoid valve E in the second output valve unit 12 is opened. The first central valve unit CA receives the command for the free flow of the filtered water FV from the first and second filter units F1, F2, and the electric valve E in the first central valve unit CA is closed. 5th phase:

After a certain time interval predetermined in the stereovision unit K, the program commands via the communication link L1 are simultaneously transmitted from the control unit K to the second input valve unit V2 and into the first output valve unit 11 in the first filter arrangement A. The second input valve unit V2 receives the command for interrupting the flow of the unfiltered water NV in the second filter unit F2 and the electric Valve E in the second input valve unit V2 is closed. The first output valve unit 11 receives the command for interrupting the free flow of the purged water OV from the first filter unit F1, and the electric valve E in the first output valve unit 11 is closed. 6th phase:

After a certain time interval predetermined in the stereovision unit K, the program commands via the communication link L1 are simultaneously transmitted from the control unit K to the two input valve units V1, V2 and into the two outlet valve units 11, 12 in the first filter arrangement A. The first input valve unit V1 receives the command for interrupting the flow of the unfiltered water NV in the first filter unit F1 and the electric valve E in the first input valve unit V1 is closed. The second input valve unit V2 receives the instruction on the free flow of the unfiltered water NV in the second filter unit F2 and the solenoid valve E in the second input valve unit V2 is closed. The first output valve unit 11 receives the command for the free flow of the purged water OV from the first filter unit F1, and the electric valve E in the first output valve unit 11 is opened. The second output valve unit 12 receives the command for interrupting the flow of the purged water OV from the second filter unit F2, and the electric valve E in the second output valve unit 12 is closed.

After the first cycle of alternate repetition of water filtration and cleaning of the filter units F1, F2, F3, F4 between the two filter assemblies A, B is completed, the process of water filtration with automatic filter cleaning is repeated in the same order.

In summary, the process of continuous water filtration with automatic filter cleaning begins with the transmission of the program commands from the control unit K via the communication link L1 to each valve unit V1, V2, V3, V4, 11, 12, 13, 14, CA, CB in the system. The first filter arrangement A begins with the process of water filtering and so opens the first input valve unit V1, the second input valve unit V2 opens, the first output valve unit 11 closes, the second output valve unit 12 closes and the first central valve unit CA opens. In this case, unfiltered water NV enters the first and second filter units F1, F2 through the first and second input valve units V1, V2. From the first and second filter units F1, F2 then filtered water FV exits through the first central valve unit CA. Meanwhile, the second filter assembly B performs the process of flushing the filter units F3, F4 and the third input valve unit V3 opens, the fourth input valve unit V4 opens, the third output valve unit 13 opens, the fourth output valve unit 14 opens and the second central valve unit CB closes. In this case, unfiltered water NV enters the third and fourth filter units F3, F4 through the third and fourth input valve units V3, V4. From the third and fourth filter unit F3, F4 then flushed out water OV passes through the third and fourth output valve unit 13, 14 from.

After a certain time interval, the process of water filtration is still running in the first filter arrangement A, while in the second filter arrangement B, the cleaning process of the fourth filter unit F4 begins. Therefore, the fourth input valve unit V4 closes and the third output valve unit 13 closes. In this case, unfiltered water NV enters the third filter unit F3 through the third input valve unit V3. Filtered water FV then flows out of the third filter unit F3 into the fourth filter unit F4 and exits through the fourth outlet valve unit 14 as purged water OV.

After a certain time interval, the process of water filtration is still running in the first filter arrangement A, while in the second filter arrangement B, the cleaning process of the third filter unit F3 begins. Therefore, the third input valve unit V3 closes, the fourth input valve unit V4 opens, the third output valve unit 13 opens and the fourth output valve unit 14 closes. In this case, unfiltered water NV enters the fourth filter unit F4 through the fourth input valve unit V4. fil- The first water FV then flows out of the fourth filter unit F4 into the third filter unit F3 and exits through the third outlet valve unit 13 as flushed-out water OV.

After a certain time interval has elapsed, the process of flushing the filter units F1, F2 begins in the first filter arrangement A and therefore the first outlet valve unit 12 opens, the second outlet valve unit 12 opens and the first central valve unit CA closes. In this case, unfiltered water NV enters the first and second filter units F1, F2 through the first and second input valve units V1, V2. From the first and second filter unit F1, F2 then exits the flushed water OV through the first and second output valve unit 11, 12 from. Meanwhile, the second filter assembly B starts to perform the water filtering process and therefore the third input valve unit V3 opens, the third output valve unit 13 closes and the second central valve unit CB opens. In this case, unfiltered water NV enters the third and fourth filter units F3, F4 through the third and fourth input valve units V3, V4. From the third and fourth filter unit F3, F4 then filtered water FV exits through the second central valve unit CB.

After a certain time interval has elapsed, the process of cleaning the second filter unit F2 begins in the first filter arrangement A. Therefore, the second input valve unit V2 closes and the first output valve unit 11 closes. In this case, unfiltered water NV enters the first filter unit F1 through the first input valve unit V1. Filtered water FV then flows out of the first filter unit F1 into the second filter unit F2 and exits through the second outlet valve unit 12 as purged water OV. In the second filter arrangement B, the process of water filtration still continues during this time.

After a certain time interval has elapsed, the process of cleaning the first filter unit F1 begins in the first filter arrangement A. The first input valve unit V1 closes, the second input valve unit V2 opens, the first output valve unit 11 opens and the second output valve unit 12 closes. In this case, unfiltered water NV enters the second filter unit F2 through the second input valve unit V2. Filtered water FV then flows out of the second filter unit F2 into the first filter unit F1 and exits through the first outlet valve unit 11 as flushed-out water OV. During this process, the process of water filtration still proceeds in the second filter arrangement B.

After the first cycle of the alternating water filtration and the cleaning of the filter units F1, F2, F3, F4 between the two filter assemblies A, B is completed, the process of water filtration with automatic filter cleaning is repeated in the same order.

Claims

claims 1 . Device for continuous water filtration with automatic filter cleaning consists of a first filter unit (F1), a second filter unit (F2), a third filter unit (F3), a fourth filter unit (F4), a first input valve unit (V1), a second input valve unit (V2) a third input valve unit (V3), a fourth input valve unit (V4), a first output valve unit (11), a second output valve unit (12), a third output valve unit (13), a fourth output valve unit (14), a central valve unit (CA) second central valve unit (CB), a control unit (K) and a communication link (L1). 2. An apparatus for continuous water filtration with automatic filter cleaning according to claim 1, characterized in that the unfiltered water (NV) enters the filter units (F1, F2, F3, F4) through the input valve units (V1, V2, V3, V4). 3. A device for continuous water filtration with automatic filter cleaning according to claim 1 or 2, characterized in that the flushed water (OV) from the filter units (F1, F2, F3, F4) through the outlet valve units (11, 12, 13, 14) emerges , 4. A continuous filtration apparatus with automatic filter cleaning according to one of claims 1 to 3, characterized in that the filtered water (FV) exits the filter units (F1, F2, F3, F4) through the central valve units (CA, CB) , 5. An automatic filter cleaning continuous water filtration device according to any one of claims 1 to 4, characterized in that program commands for a free flow or for the interruption of the water flow from the control unit (K) to the valve units (V1, V2, V3, V4, 11, 12, 13, 14, CA, CB) via wire or wireless communication link (L1). 6. An automatic filter cleaning continuous filtration apparatus according to any one of claims 1 to 5, characterized in that it is automatically executed in a cyclical 6-phase sequence; in the first phase, the first filter arrangement (A) filters the water and the second filter arrangement (B) flushes out the water, in the second phase the first filter arrangement (A) filters the water and the third filter unit (F3) cleans the fourth filter unit (F4), in the third phase, the first filter assembly (A) filters the water and the fourth filter unit (F4) cleans the filter unit (F3), in the fourth phase, the first filter assembly (A) flushes out the water and the second filter assembly (B) filters the water, in the fifth phase the first filter unit (F1) cleans the second filter unit (F2) and the second filter assembly (B) filters the water and in the sixth phase the second filter unit (F2) cleans the first filter unit (F1) and the second filter assembly (B) filters the water.