WO2014177241A1 - Filter unit for a rainwater reservoir arrangement - Google Patents

Abstract

The invention relates to a filter unit for a rainwater reservoir arrangement (11), said filter unit comprising a filter housing (21) with an inlet opening (22) for untreated water and an outlet opening (24) for clean water. A screening body (30) for filtering the untreated water, said body comprising at least one screen (29), is arranged in the flow path of the water between the inlet and the outlet opening (22, 24). The filter unit is provided with an insect and rodent barrier (38) for preventing the entry of insects and rodents into a water tank (12) associated with the rainwater reservoir (11).

Description

 Filter unit for a rainwater storage device

The invention relates to a filter unit for a rainwater storage device, comprising a filter housing, which has an inlet opening for untreated water, for example Re genwasser, and an outlet for purified water, wherein in the flow path of the water between the inlet and outlet openings equipped with at least one screen body to Filtration of unpurified water is arranged.

Rainwater storage facilities for storing rainwater have been known for a long time. The purpose of such rainwater storage facilities is to channel and collect accumulating rainwater and to initiate storage in a water tank or a cistern. On Dachflä chen impinging rainwater is generally through a rainwater collection device with multiple collecting troughs melted and then discharged through at least one downpipe. The downpipe is coupled to the water tank, allowing rainwater to flow through the downpipe. For removal of water from the water tank is a drain system, for example, located directly on the water tank faucet or a withdrawal line, which is connected to the suction side of a pump, whereby water can be pumped out of the water tank. Rainwater storage facilities have a need to keep the stored water fresh for a long time so that it can also be used as water for personal use. There are already numerous measures known. For example, underground water tanks, so-called cisterns are known in which the stored water is stored dark and cool. Furthermore, filter units are already known, which are connected upstream of the entry into the water tank and separate the dirt from the rainwater.

However, the measures described above are not sufficient to use the stored water as water for personal use.

Especially in areas where mosquitoes occur in large numbers, there is a risk that the mosquitoes penetrate via the attached to the filter unit rainfall pipe into the water tank and multiply there. The water is then contaminated by the eggs and larvae of the mosquitoes and can no longer be used.

The object of the invention is therefore to provide a filter unit for a rainwater storage device, which ensures that stored by means of the rainwater storage device water has a higher quality compared to the prior art and therefore can be used as water for personal use.

This object is achieved by a filter unit for a rainwater storage device having the features of independent claim 1. Further developments of the invention are shown in the subclaims. The filter unit according to the invention is characterized in that an insect and rodent barrier is provided to protect against the ingress of insects and rodents in a water tank belonging to the rainwater storage device.

The function as an insect barrier prevents insects, especially mosquitoes, for example, mosquitoes penetrate into the water tank, multiply there and thus can contaminate the water with their larvae, eggs or otherwise. The water stays fresh longer and can therefore be used as water for personal use. Furthermore, it is prevented by the function as a rodent barrier that rodents move, for example, by a filter unit coupled to the rainfall tube filter unit and damage them, such as damage the screen of the screen body so that a reliable filter function is no longer guaranteed, causing unrefined water unfiltered example in a water tank of the rainwater storage device can flow.

In a further development of the invention, the insect and rodent barrier on the sieve with a mesh size <1 mm. Since adult insects, especially mosquitoes are usually greater than 1 mm, this is reliably prevented that they pass through the sieve.

In a particularly preferred manner, the insect and

Rodent barrier a sealing the passage between the wall of the screen and the sieve seal.

Particularly preferably, the seal is designed as a sealing joint. Here, for example, rubber material, preferably silicone rubber, can be used. The seal reliably prevents the ingress of insects and small ones Rodent over the passage between wall of the sieve body and the sieve.

In a further development of the invention, the screen body is received transversely to the flow direction of the inflowing water in the filter housing such that the screen body narrows the cross section of the filter housing only so far that water can be flown past at least one side of the screen body. In heavy rainfall events, it is thus possible that water flows past the screen body and is discharged, for example, via an outlet connection. Conveniently, the excess water for the irrigation of plants and can therefore be channeled accordingly available for irrigation.

In a further development of the invention, the screen body is a separate from the filter housing and removable from the filter housing component. As a result, the strainer body can be replaced without the need to disassemble the complete filter unit.

Conveniently, the screen body is tubular, in particular in the form of a hollow cylinder. The screen body may be formed, for example, as a cartridge.

In a further development of the invention, the screen body on its lateral surface on a flow-through section, at least one through-opening passes through the wall of the screen body, whereby water passes through the screen into the interior of the screen body and from there to the outlet opening.

It is possible that the sieve covers the flow opening. Conveniently, the screen is integrated into the flow opening. For this purpose, the flow-through opening can be For example, be configured frame or window-like. The sieve can be designed, for example, as a curved insert component. Conveniently, stainless steel is used as sieve material. However, other materials can be used.

In a further development of the invention, the screen is arranged downstream of the flow opening in the flow direction of the water. The sieve can for example be designed like a drum and inserted interchangeable as an insert in the screen body.

In a particularly preferred manner, the strainer body is rotatably mounted in the filter housing so that it selectively passes between an inlet position, in the water through the sieve into the nere of the screen body and a blocking position in which the entry of water is blocked and water to the screen body by-passed, is movable. This makes it possible to actively control the inflow of particular rainwater in a downstream water tank, namely by the screen body is moved to the inlet position. At the beginning of a rain event, it is often undesirable to trap the so-called first flash loaded with much dirt load, so that the screen body is positioned in the locked position in this case.

In a particularly preferred manner, the strainer has an insertable via an insertion into the filter housing and rotatably mounted there, equipped with the sieve in particular hollow cylindrical sieve section and connected to the sieve section, mounted on the filter housing handling section via which a rotational movement on the sieve section can be introduced , The handling section is positioned easily accessible and can manu in a simple manner be pressed quickly, whereby the sieve section between the inlet and the locking position can be rotated.

Appropriately, the handling section for fixing the inlet or locking position on the filter housing is releasably fixed. For example, it can be locked on the filter housing. The latching can be achieved, for example, by pulling the screen body a little way out of the insertion opening and then grasping the handling section and twisting it with the screen section, and then pushing the screen body back again.

The handling portion may be plate-shaped, with a diameter larger than the diameter of the insertion opening.

Conveniently, the handling portion has a handle, in particular in the form of a recessed grip.

In a further development of the invention, the screen section of the screen body has at least one overflow hole, via which water flowing into the screen section from the outlet opening can escape radially outward from the screen body. The overflow holes ensure that, for example, at a maximum level of water in a water tank connected to the filter unit, water can run back into the filter unit and from there via the strainer body and the overflow holes.

Conveniently, the screen is arranged in the overflow direction in front of the at least one overflow hole, so that filtering takes place here as well. Conveniently, the filter housing has an overflow opening, from which overflows the overflow holes water or unpurified water can flow, bypassing the screen body.

In a further development of the invention, the inlet opening and / or overflow opening and / or outlet opening hen with a connection sleeve for connecting a pipeline verse.

In a particularly preferred manner, the connecting sleeve assigned to the outlet orifice is configured as a diffuser-type adapter part, and therefore suitable for connecting a pipeline of larger diameter than the diameter of the outlet opening.

In a further development of the invention, the connection sleeves have connection means for connecting pipes of different diameters.

The connection means may have radially inwardly standing, elastically bendable tongues of different lengths.

A preferred embodiment of the invention is illustrated in the drawing and will be explained in more detail below. In the drawing show:

FIG. 1 shows a perspective, schematic representation of a rainwater storage device,

Figure 2 is an enlarged view of the detail X from

FIG. 2, FIG. 3 is an exploded view of the filter unit of the present invention used in the rainwater storage device;

Figure 4 is an enlarged view of the water tank

 Figure 1 with inlet element and floating removal and

Figure 5 is an enlarged view of the water tank

 Figure 1 with floating removal and coupled pump.

Figure 1 shows a preferred embodiment of the rainwater storage device 11, as they could be used, for example, in a poor, infrastructural little developed, subtropical or tropical area in which mosquitoes occur in large numbers.

The rainwater storage device consists of several components, each of which is simple in construction and kostengüns tig produced. The operation of the entire rainwater storage device 11 is feasible without electricity.

The rainwater storage device 11 has a water tank 12 for storing rainwater or other beige mixed water. The water tank 12 may be buried as a cistern rich in earth or as shown in Figure 1, at least partially placed above ground. As a rule, the water tank 12 holds several thousand liters of water, which ensures the water needs of a family for personal use for a long time.

The water tank 12 is according to preferred embodiment of plastic material, which is weather resistant. The water tank 12 is a Kunststoffblas- molding, which is relatively easy and inexpensive to produce.

The water tank 12 has an inlet 13, via the rainwater or possibly fresh water can be supplied in the manner described in more detail below. Furthermore, the water tank has a drain 14, via which water 14 stored from this tank 14 can be removed, and likewise in the manner described in more detail below.

Both inlet 13 and outlet 14 are provided with sieves (not shown), which have a mesh size of <0.5 mm, so that neither insects nor eggs or larvae of insects from the outside via inlet and outlet 13, 14 in the water tank can penetrate.

The rainwater storage device 11 further includes a egg ner roof surface 15 associated rainwater collection device 16, which here according to Figure 1 in an exemplary manner hori zontal along the roof gutter guided gutter 17 and connected to the gutter 17 rainwater pipe 18 Darge ^¬ represents. Rain gutter 17 and rainwater pipe 18 may for example also consist of plastic. In the transition region between the gutter 17 and the drainpipe 18, a strainer basket (not shown) for separation of coarse dirt - carriage such as leaves, branches or rough Partikulärfracht be introduced ^¬.

An important component of the rainwater storage device 11 is a filter unit 19 for cleaning the water flowing into the tank water. The filter unit 19 provides the first of several cleaning stages for optimum cleaning and treatment of the water stored in the water tank 12 As shown in particular in Figure 2, the filter unit 19 is connected to the end of the downpipe 18. The filter unit 19 acts as a connecting piece between the downpipe 18 and a supply pipe 20, which is guided in the flow direction after the filter unit 19 via the inlet 13 into the water tank 12.

FIG. 3 shows the structure of the filter unit 19. The filter unit 19 has a filter housing 21 in the form of a T-piece. The filter housing 21 is expediently also made of plastic. The filter housing 21 has an inlet opening 22, which is provided with a connection sleeve 23, on which the end of the downpipe 18 can be plugged. The filter housing 21 further has an outlet opening 24, which is arranged substantially at right angles to the inlet opening 22, so that inflowing water is deflected in the manner described in more detail below and then leaves the filter unit 19 at the outlet opening 24.

The filter housing 21 further has an overflow opening 25 which is arranged coaxially with the inlet opening 22. Also on the overflow opening 25 is a connection sleeve 26th

attachable, whereby the overflow opening 25 can be provided if necessary with an overflow pipe (not shown) or the like. As shown in particular in FIG. 3, both the connecting sleeves 23, 26 provided at the inlet opening 22 and at the overflow opening 25 can be provided with tongues 27 which project radially inwardly and narrow the opening cross-section. The tongues 27 have different lengths, whereby the connection of pipes with different diameters to one and the same connection sleeve 26 is possible. The outlet opening 24 is provided with an adapter piece 28 which expands the diameter of the outlet opening 24 to a desired level. As shown particularly in FIG. 3, a tubular sieve body 30 equipped with at least one sieve 29 is received in the filter housing transversely to the flow direction of the rainwater such that the sieve body 30 only narrows the cross section of the filter housing 21 to such an extent that rainwater from the inlet opening 22 arrives the side of the screen body 30 can flow over to the overflow opening 25 without it thus exiting at the outlet opening 24 and thus is introduced into the water tank 12.

The screen body 30 is formed as a separate from the filter housing 21 and removable from the filter housing, cartridge-like component.

The filter housing 21 has to introduce the Siebkörper- cartridge an insertion opening 31, via which a drum-shaped screen section 32, this screen body 30 is inserted into the flow path and that transverse to the flow direction. The drum-like screen section 32 is rotatably mounted on the filter housing 21. As shown in particular in Figure 3, the screen section 32 is provided with a sieve 29, which is also configured in the example drum or cylinder-like and within the hollow wire section 32 of the screen body 30 example meadow interchangeable added.

The screen section 32 is provided on its lateral surface with a Durchflutungsabschnitt 33, at least one through-opening 34 passes through the wall of the screen section 32, whereby rainwater from the downpipe via the screen 29 into the interior of the screen body 30 and the Siebabschnitts 32 and from there into the Supply pipe 20 can flow. The flow-through section 33 has a large window-like throughflow opening 34, to which the sieve 29 adjoins downstream in the direction of flow. On the screen section 32 are Furthermore, slot-like overflow holes 35 are provided, which ensure that water can overflow at a maximum level in the water tank 12 via the feed pipe 20 back into the filter unit 21 and from there via the screen body 30 and the overflow holes 35 and overflow opening 25. An important aspect is that the screen 29 is arranged in the overflow direction in front of the overflow holes 35, so that there is also a filtering here.

An important aspect is that the screen body 30 between an inlet position in which the rainwater on the through-flow opening 34 and the screen 29 into the interior of the screen section 32 and from there into the inlet tube 20 passes, and a blocking position in which the inlet is blocked by rainwater and rain water flows past the portion 32 to the overflow opening 35, is rotatably mounted. In order to move the screen body 30 between said inlet and locking position, a provided with a grip 61 handling portion 36 is provided which is integrally attached to the screen portion 32 and opposite this has a larger diameter. The handling portion 36 is mounted in the region of the insertion opening 31 on the filter housing 21 and can be locked there to selectively fix the blocking or the inlet position. In order to rotate the screen body 30, the latching can be released and the screen body 30 can be pulled out a bit from the insertion opening 31, so that the rotational movement can be performed. In the blocking position, the sieve is in a position offset from the position shown in FIG. 3 by 180 °, ie, in this position, the sieve is associated with the overflow opening 25, while it is associated with the inlet opening 22 in the inlet position. The filter unit 19 also has an insect and rodent barrier 38, which protects the water tank 12 and thus the stored water from the ingress of insects and rodents 38. One component of the insect and rodent barrier 38 is the sieve 29 with a mesh size of <1 mm. Since mosquitoes, mosquitoes in particular, are larger than 1 mm, they can not pass through the sieve 29, so the mosquito remains blocked by the rainfall tube and the filter unit 19 in the water tank 12. Another component of the insect and rodent barrier 38 is a seal 60 sealing the passage between the wall and the screen section 32 and the screen 29. For this purpose, for example, a silicone rubber seal, for example in the form of a joint, is used. Thus, it is excluded that mosquitoes pass through the passage between the wall of the screen body 30 and the screen 29 in the inlet pipe 20 and from there into the water tank 12.

The insect and rodent barrier thus prevents contamination of the water stored in the water tank 12 with insects, especially mosquitoes, which represents a significant quality ^¬ tätsverbesserung of the stored water. Only through the insect and rodent barrier of the filter unit 19 can such rainwater storage devices 11 also be reliably used in areas in which a large number of mosquitoes occurs.

The second purification stage is a so-called calmed inflow of the water into the water tank 12. As already mentioned, the inlet pipe 20 is connected to the filter unit 19. Conveniently, the filter unit 19 is located outside of the water tank, so that the maintenance of the filter unit 21 and the operation of the screen body 30 to change the active position in simple and schnei- ler way is feasible. The inlet pipe 20 has a projecting into the water tank 12 via the inlet 13 horizontal pipe section 39, which merges into an aligned to the tank bottom feed section 40. At the free end of the inlet section 40 is an inlet element 41, which has a calming section 42 for the supplied water. As shown in particular in Figure 4, the inlet element 41 is box-shaped and has an inlet opening 43 which is coupled to the free end of the inlet section 40 of the inlet pipe 20. Water flowing in via the feed pipe 20 thus passes into the feed element 42 via the inlet opening 43 and bounces there against a baffle section (not shown), in particular at the bottom of the feed element 42, where a swirling and thus a supply of oxygen takes place.

An essential aspect is that the calming section 42 connects to this baffle section, where the

Turbulences are calmed down again. Appropriately, are in the inlet element grooves, indentations or guide elements, which ensure a long residence time of the water in the calming section 42. The calming section is therefore relatively long. As guide elements can serve, for example, integrally formed on the bottom of the feed element 42 guide webs.

The arrangement of the grooves and indentations or guiding elements creates an optimized flow regime which forces a sedimentation of suspended matter and solids still in the water. A deflection section adjoins the calming section, to which an outlet opening 44 adjoins. The cross-section of the outlet opening 44 is approximately twice as large as the cross-section of the inlet opening 43. Thus, a diffuser effect is produced, ie the expansion of the cross-section calms the water. ser. The calmed inlet avoids that water over the inlet of the water tank relatively hard on the water surface of the stored water in the water tank 12, which leads to large turbulence and whirling up of already sedimented dirt particles. This is avoided by the calmed inlet. At the same time oxygen is supplied in the lower part of the storage water, which prevents anaerobic degradation in the water tank. The water stays fresh longer.

The third cleaning stage is the so-called floating withdrawal. There is a drainage system 45 is provided, can be removed via the water from the water tank if necessary, the drainage system 45 has at least one, a little way below the water surface of the water in the water tank 12 floating withdrawal line 46. As shown in particular in Figures 4 and 5, the extraction line 46 is held by a floating ball 47 a short distance below the water surface. At the free end of the sampling line 46, a sampling piece 48 is coupled, which is provided with a suction port 49. The sampling piece has a filter 50 whose mesh size is <1 mm, so that also here the sucking of mosquitoes is prevented. Conveniently, a check valve (not shown) is arranged in the sampling piece 48.

The rainwater storage device 11 further comprises at least one pump 51 for pumping water from the water tank 12. Conveniently, the pump 51 is designed as a hand-operated diaphragm pump, which differs from conventional

Rotary pumps characterized by a higher performance. The extraction line 46 is led out of the water tank 12 via the drain 14 and coupled to the suction side 52 of the pump. By operating the hand lever of the pump Water is sucked and transported via a spout 53 into the open, where it can then be tapped as water for personal use or, where appropriate, as useful water for the irrigation of plants or impregnation of animals. Alternatively, it is possible to connect the pressure side of the pump with a pumping line 54, which conveys water into a arranged on the roof surface 15 high tank 55.

In a rain event, the rain hits the roof surface 15 and runs from there via the gutter 17 in the downpipe 18. At the beginning of the rain, the screen body 30 should be in the blocking position, since the first downpour usually the largest dirt load of the Roof surface 15 entrains, which should then not be filtered off, but is passed to the screen body 30 over to the overflow opening 25 and there is available as service water. Optionally, the attached to the overflow opening 25 connecting sleeve 26 also be ver ^¬ see with an insect or rodent barrier, so that the hot water is substantially free of insects, especially mosquitoes. Is the large ^¬ be polluting load washed away from the roof surface 15, the screen body is rotated in the running position, so that the screen 29 passes rainwater via the downpipe 18 in the filter unit 19 and from there through the flow opening 34 and into the interior of the forming section 32 from where it enters the inlet pipe 20. In the inlet pipe, water is passed in the run section 40 to ^¬ and transported towards the tank bottom of the water tank 12th There it runs into the inlet element 42, is swirled and anschießend calmed in the calming ^¬ stretch 42 again, deflected and then exits through the outlet opening 44 in the lower part of the water tank. To remove water from the water tank 12, the hand lever of the pump 51 is actuated, whereby water over the Entnahmestück 48 and the extraction line 46 is sucked. The water can then drain at the pump via the spout or optionally be pumped via a pump line 54 into a high tank 55 if necessary.

Claims

claims

1. Filter unit for a rainwater storage device

(11), comprising a filter housing (21) having an unpurified water inlet opening (22) and a purified water outlet opening (24), wherein in the flow path of the water between the inlet and outlet openings (22, 24) is at least one a screen (29) equipped sieve body (30) for filtering the unpurified water, characterized by an insect and rodent barrier (38) for protection against ingress of insects and rodents in a rainwater storage device (11) belonging to the water tank

(12).

2. Filter unit according to claim 1, characterized in that the insect and rodent barrier (38) has the sieve (29) with a mesh size <1mm.

3. Filter unit according to claim 1 or 2, characterized in that the insect and rodent barrier (38) has a passage between the wall of the screen body (30) and the screen (29) sealing gasket (60).

4. Filter unit according to claim 3, characterized in that the seal (60) is designed as a sealing joint.

5. Filter unit according to one of the preceding claims, characterized in that the screen body (30) is received transversely to the flow direction of the inflowing water in the filter housing (21) that the screen body (30) narrows the cross section of the filter housing (21) only so far in that water is present on at least one side of the sieve body (30).

is flown past.

6. Filter unit according to one of the preceding claims, characterized in that the screen body is a separate from the filter housing (21) and from the filter housing (21) removable component.

7. Filter unit according to one of the preceding claims, characterized in that the screen body (30) is tubular.

8. Filter unit according to one of the preceding claims, characterized in that the screen body (30) is designed as a cartridge.

9. Filter unit according to one of the preceding claims, characterized in that the screen body (30) on its lateral surface has a flow-through portion (33) on which at least one throughflow opening (34) passes through the wall of the screen body (30), whereby water over the sieve

(29) into the interior of the screen body (30) and from there to the outlet opening (24) passes.

10. Filter unit according to claim 9, characterized in that the sieve (29) covering the throughflow opening (34), in particular in the throughflow opening (34) is integrated.

11. Filter unit according to claim 9 or 10, characterized in that the sieve (29) in the flow direction of the inflowing water behind the flow-through opening (34) is arranged.

12. Filter unit according to one of the preceding claims, characterized in that the screen body (30) in the Filterge housing (21) is rotatably mounted such that it selectively between an inlet position, in the water through the sieve (29) into the interior of the screen body (30) passes and a blocking position in which the ingress of water is blocked and rainwater flows past the screen body (30) is bewegba.

13. Filter unit according to claim 12, characterized in that the screen body (30) via an insertion opening (31) in the filter housing (21) insertable and there rotatably gela siege, equipped with the sieve (29), in particular hollow cylindrical sieve section (32). and a with the screen section (32) connected to the filter housing (21) mounted handling portion (36), via which a rotational movement on the wire section (32) can be introduced.

14. Filter unit according to claim 13, characterized in that the handling portion (36) for fixing the inlet or locking position on the filter housing (21) releasably fixed, in particular can be latched.

15. Filter unit according to claim 13 or 14, characterized in that the handling portion (36) is plate-shaped, with a diameter larger than the diameter of the insertion opening (31).

16. Filter unit according to one of claims 13 to 15, characterized in that the handling portion has a handle, in particular in the form of a recessed grip (61).

17. Filter unit according to one of claims 13 to 16, characterized in that the screen section (32) of the screen body (30) has at least one overflow hole (35) via the from the outlet opening (24) forth in the screen section (32) inflowing water can emerge radially outward from the screen body (30).

18. Filter unit according to claim 17, characterized in that in the overflow direction in front of the at least one overflow hole (35), the sieve (29) or another sieve is arranged.

19. Filter unit according to claim 17 or 18, characterized in that the filter housing (21) has an overflow opening (25) from which via the overflow holes (35) überströ Mendes water or unpurified water, bypassing the screen body (30) can flow out.

20. Filter unit according to claim 19, characterized in that the inlet opening (22) and / or overflow opening (25) and / or outlet opening (24) is provided with a connection sleeve (23, 26) for connecting a pipeline.

21. Filter unit according to claim 20, characterized in that the outlet orifice (24) associated with connection muff is equipped as a diffuser-like adapter piece for connecting a pipe larger diameter than the diameter of the outlet opening (24).

22. Filter unit according to claim 20 or 21, characterized in that the connection sleeves (22, 26) has connection means for connecting pipes of different diameters.

23. Filter unit according to claim 22, characterized in that the connection means have radially inwardly standing, elastically bendable tongues (27) of different lengths.