WO2017060473A1 - Filter system - Google Patents

Abstract

The invention relates to a filter system for cleaning a fluid in a jacuzzi and/or a swim spa, the system comprising a filter element that consists of a fibrous nonwoven and that is substantially rotationally symmetrical. A filter housing is provided for receiving the filter element and said filter housing has: a housing cover, which delimits a receiving space for the filter and has a plurality of openings; and a tubular section comprising at least one passage for the fluid. The fluid entering through the housing cover flows through the filter element and is then discharged via the tubular section.

Description

 filter system

The invention relates to a filter system for cleaning a fluid in a whirlpool and / or a Swimspa with a filter element made of a non-woven fabric, which is formed substantially rotationally symmetrical.

It is known from the prior art that a filter is required for cleaning a fluid, namely a liquid or an aqueous suspension in a whirlpool and / or a swim spa. In general, the fluid is circulated, the fluid is routed regularly through the Ffltersystem. For the regular passage of the fluid through the filter system, a pump is required, which is integrated in the fluid circuit.

The filter element is used in this regard in the Fluidkreisiauf, so that it is ensured that the entire fluid flows through the filter element. Such a filter element may for example consist of a filter sand.

In addition, DE 20 2011 106 515 U1 discloses a filter body for use as a filter medium for cleaning a fluid. In this filter body for use as a filter medium for cleaning a fluid, in particular a liquid or an aqueous suspension, a nonwoven fabric is provided which is formed from a plurality of synthetic fibers. The filter body has a geometric shape which is approximately ellipsoidal. Such filter bodies may for example be formed substantially spherical and are arranged in larger numbers in a non-dimensionally stable fluid-permeable element. This may be, for example, a bag or bag-shaped receiving element made of a textile material. Such a receiving element filled with a plurality of spherical filter elements is integrated in the prior art in the Fluidkreisiauf, wherein it has proved to be disadvantageous that when switching on the pump Receiving element can be sucked deep into the filter circuit, so that a regular change of the filter system is expensive to perform.

Based on this prior art, the invention has the object, a filter system of the generic type such that it can be used in a simple manner in many ways and in particular (eicht mountable or disassembled, so that a replacement of the filter system easily and without SpezialWerkzeug also is possible for the layman.

The solution of this problem provides for a filter system according to the invention a filter housing for receiving the filter element, wherein the filter housing a, a receiving space for the filter element limiting housing shell with a plurality of openings and arranged in the receiving space of the housing shell pipe section of the at least one passage opening for the fluid and wherein the fluid entering through the filter jacket flows through the filter element and is then removed via the pipe section.

It is thus provided a dimensionally stable filter housing, which serves to receive the filter element, usually several filter elements. The filter housing thus provides a receiving space for the filter element or the filter elements, wherein the receiving space is limited by a housing jacket of the filter housing. Above the receiving space thus the required number of filter elements can be determined. Furthermore, the housing jacket ensures that the filter elements are arranged in order in the filter system. For the passage of the fluid, the housing shell has a plurality of openings. Furthermore, a pipe section is arranged in the receiving space of the housing shell, which has at least one passage opening for the fluid, so that the fluid entering through the jacket flows through the filter element or the filter elements and is then removed via the pipe section.

The filter system according to the invention is integrated into the fluid circuit. For example, the filter system may have a diameter that matches a pipeline through which the fluid is delivered by a pump. Here, the filter system is detachably arranged at one end of the pipe section, so that the entire fluid flowing through the pipe section flows through the filter system. The flow direction is in this case on the Gehäusemantet, through the filter elements in the pipe section, from where the cleaned over the filter elements fluid the other Circulation is supplied.

In the filter system according to the invention of the embodiments described above, it is thus advantageous that the entire filter system, namely the filter housing with the filter elements in a simple manner can be disassembled and replaced by another filter system. This is necessary, for example, if the filter elements in the filter housing no longer have the adequate cleaning effect. It is therefore not necessary to remove the individual filter elements from the filter housing, but the entire Rltergehäuse can be dismantled with the filter elements and replaced by a new, prepared filter housing. But there is also the possibility that the filter housing is opened to remove the filter elements and replace them with new, unused filter elements. Following this, the filter housing is closed again and integrated into the fluid circuit. The spent element elements can be cleaned and reused.

According to a further feature of the invention, it is provided that the filter housing has a connecting element in order to be connectable to a line carrying the fluid, wherein the connecting element is designed, for example, as a thread or bayonet. The filter system according to the invention is thereby used in a simple manner in a line carrying the fluid and positively connected in the case of a bayonet closure via a rotational movement with the line. The same applies to a thread on the filter housing, which serves to screw the filter housing into the line leading to the ruid. A corresponding corresponding thread or a corresponding corresponding bayonet closure is therefore provided in the line.

It is provided according to a further feature of the invention that the filter housing end has two lids, which are connected to the housing shell, wherein the pipe section engages through a lid. In this embodiment, for example, the pipe section may be formed with an external thread, which serves to be screwed into a corresponding line with matching diameter and formed thereon internal thread. At least one cover can be detachably arranged on the filter housing, so that the filter housing can be opened by removing the cover. As a result, for example, the element or the filter elements can be exchanged. Of course, it is also possible that both covers are removable from the filter housing, for example, to clean the filter housing and the lid in a simple manner, as far as these dirt particles be contaminated.

In order to ensure a uniform flow, it has proved to be advantageous to design the openings in the housing shell identical and / or to arrange them at identical distances from one another. Preferably, a perforated plate made of stainless steel can be used, which has a uniform pattern of openings, in particular bores and is formed into a hollow cylinder. The hollow cylinder is then closed with the two covers, wherein a lid has the pipe section, which preferably extends over the entire axial length of the hollow cylinder.

According to a development, it is provided that the pipe section has distributed over its lateral surface a plurality of openings, which are preferably identical and / or arranged at identical distances from each other. This embodiment also serves in particular to allow a uniform flow of the filter system and in particular to prevent the flow is obstructed by blockage of a single opening.

For easy handling of the filter system is provided that the filter system has a hand approach. By way of example, the filter system can be screwed into the line leading the rudder by way of this manual approach.

Preferably, the filter housing is formed of a transparent plastic, so that the degree of contamination or consumption of the filter element or the filter elements without disassembly is recognizable Alternatively, it can be provided that the filter housing is formed of a material impermeable to sunlight, in particular plastic. This embodiment, in which although the degree of contamination is not readily apparent has the advantage that in particular a Veralgung in the filter system is prevented or reduced. Such a configuration is particularly recommended when the whirlpool and / or the swim spa is located outside a building and is regularly exposed to sunlight

Preferably, the filter element consists of a plurality of substantially spherical elements. These elements can be used in a variety in the filter housing. Depending on the diameter of the spherical elements, a more or less dense filter pack can be achieved in the filter housing. By a big one Number of such spherical elements, the filtering effect is significantly increased.

Alternatively it can be provided that the filter element consists of a hollow cylindrical support and thereon radially extending flat elements made of non-woven fabric »wherein the support is the pipe section receiving mountable. In this embodiment, the sheet-like elements are arranged like a lamella and serve to filter the fluid. About the lamellar sheet-like elements, the impurities of the fluid are absorbed. These adhere to the sheet-like elements, whereas the freed of these impurities fluid is discharged through the sheet-like elements and through the pipe section of the filter system in the fluid circuit.

Preferably, the carrier is formed of nonwoven fabric to use this area for the purification of the fluid. It has proved to be advantageous to form the carrier of nonwoven fabric with a relation to the planar elements higher basis weight in order to achieve a higher filtering effect in the region of the carrier and at the same time form the carrier dimensionally stable, so that this in a simple manner, for example via the pipe section can be pushed.

Finally, according to a further feature of the invention, it is provided that the filter element is formed from inorganic fibers which are agglomerated into spheres or deposited into fiber webs.

Further features and advantages of the invention will become apparent from the following description of the accompanying drawings. In the drawing show:

Fig. 1 shows a filter system in side view;

Fig. 2 shows the filter system of FIG. 1 in a sectional view along the

 Section line II-II in Fig. 1;

Fig. 3 shows a filter system according to FIGS. 1 and 2 in sectional view along the line

 III-III in Fig. 1;

4 shows a cover according to a first embodiment in top view; Fig. 5, the lid of Figure 4 in a bottom view. Fig. 6, the lid according to FIGS. 4 and 5 in side view;

Fig. 7, the lid according to FIGS. 4 to 6 In supervision;

Fig. 8 shows a cover according to a second embodiment in perspective

 View;

FIG. 9 the cover according to FIG. 8 in a perspective view; FIG.

Fig. 10, the lid according to FIGS. 8 and 9 in side view,

Fig. 11, the lid according to FIGS. 8 to 10 in supervision;

FIG. 12 is a perspective view of a plurality of modular filter housings; FIG.

Fig. 13 modular filter housing of Figure 12 in side view.

Fig 14 modular filter housing according to FIGS. 12 and 13 in supervision;

Fig. 15 modular pipe sections in a perspective view;

16 modular pipe sections according to FIG. 15 in side view '

Fig. 17 modular pipe sections according to FIGS. 15 and 16 in supervision;

Fig. 18 adapter according to a first embodiment in a perspective view;

FIG. 19 adapter according to FIG. 18 in a further perspective view; FIG.

Fig.20 adapter according to FIGS. 18 and 19 in side view;

Fig. 21 adapter according to FIGS. 18 to 20 in supervision;

Fig. 22 adapter according to a second embodiment in a perspective view;

Fig. 23 adapter of Figure 22 in side view. Fig. 24 adapter according to FIGS. 22 and 23 in supervision;

A filter system 1 shown in FIGS. 1 to 3 for the purpose of cleaning a fluid into a whirlpool consists of a filter housing 2 and a filter element (not illustrated in detail in FIGS. 1 to 3) of a multiplicity of spherical elements. In Fig. 2 it can be seen that the filter housing 2 has a receiving space 3, which is bounded by a housing shell 4.

Oer housing shell 4 defines as a dimensionally stable element the receiving space 3 for a certain number of Rlterelementen. The housing shell 4 is also formed as a hollow cylindrical portion and may for example consist of a high-tempered steel, for example, a perforated plate is used as the starting material.

Accordingly, the housing shell 4 has a plurality of diametrically identical openings 5, which are arranged in rows with each other, wherein the distances of the individual openings in each row are also formed identical, as the spacings of the openings 5 in adjacent rows.

The end of the housing shell 4 is formed with two covers 6 and 7, wherein the cover 6 completely closes the housing shell 4 at this end. The lid 7 has centrally a nozzle 8, which has an external thread, an internal thread or a part of a bayonet closure to arrange the nozzle 8 in a non-illustrated line of a circulatory system for the guidance of the fluid in a whirlpool and with the not shown To connect line form-fitting.

In the nozzle 8, a pipe section 9 is inserted, which extends over the entire axial length of the housing shell 4 and with its end facing away from the nozzle 8 on a projection 10 of the lid 6 is supported in such a way that the pipe section 9, the projection 10 engages over ,

The pipe section 9 is formed as a hollow cylinder and has in its lateral surface 11 a plurality of openings 12, which in turn are formed identical in diameter. Again, the openings 12 are arranged in rows, wherein the distances of the individual openings 12 within a row are also identical, as are the spacings of the openings 12 of adjacent rows. In addition, it can be seen that the diameter of the openings 12 in the pipe section 9 with the diameter of the openings 5 in the housing shell 4 match. As a result, a uniform flow through the housing shell 4 and pipe section 9 is possible.

The pipe section 9 is formed open at its protruding through the nozzle 8 from the filter housing 2 section, so that also flow to be cleaned fluid through the openings 5 in the housing shell 4 in the receiving space 3 and then through the openings 12 of the pipe section 9 with the open End in the region of the lid 7 of the filter housing 2 can flow. About the filter elements, not shown, then the cleaning of the fluid takes place.

These filter elements consist of inorganic fibers that have been agglomerated into spheres. Preferably, the receiving space can be opened by removing a cover 6, 7 to remove the filter elements and replace them with new filter elements. But it is also possible to form the filter system as a complete replacement component, so that it does not depend on an exchange of the filter elements In this case, the filter system 1 is completely filled with filter elements and is integrated into the fluid circuit. After a certain period of time or a certain degree of consumption of the filter properties, the entire filter system 1 is replaced by a new filter system 1.

FIGS. 4 to 7 show the cover 7 in different views. The lid 7 has the center of the nozzle 8. Cover 7 and nozzle 8 are present in one piece with each other. For this purpose, the cover 7 is formed from plastic and produced by injection molding.

The nozzle 8 has in the embodiments according to figures 4 to 7, an external thread 13 to arrange the nozzle in a non-illustrated line of a circulatory system for the guidance of the fluid in a whirlpool and connect positively to the line not shown.

The cover 7 has filter housing on the side a circumferential groove 14 for partially receiving a einendseitigen edge of the Fiitergehäuses 4. According to this embodiment, it is provided that lid 7 and filter housing 4 are materially connected to one another, preferably by gluing or welding.

As is apparent from Figure 5, the cover 7 below the nozzle 8, a lid opening 15 ready. This has a larger inner diameter than the Stub 8. In the intended use, the pipe section 9 is guided in the lid opening 15 and is supported on the lid side on a support surface 8 provided by the nozzle 8 from.

Figures 8 to 11 show the lid Θ, which completely closes the housing shell 4 at its, the lid 7 opposite end arranged. It is circular and has a filter housing side circumferentially circumferentially formed groove 17. The cover 6 has four parts of a bayonet closure, which cooperate with their corresponding counterparts in the housing shell 4 in the intended use case. In the present case, the bayonet closure parts are arranged inside the groove 17 and are each formed by a bridge 18 connecting the two side walls of the groove 17. Two bridges 18 are arranged opposite each other. The two connecting shafts 19, 20 of each opposing bridges 18 intersect in the axis of rotation of the lid 6 and stand in a 90 ° angle to each other.

The cover 6 has, on the housing side, a receptacle 21 for receiving the pipe section 9 in its initial position. The receptacle 21 is circular and arranged coaxially to the axis of rotation of the lid 6. It has a receiving space 22, whose inner diameter is formed corresponding to the outer diameter of the pipe section 9. The pipe section 9 is guided in the intended use case on the side walls 23 of the receiving space 22 and is supported on the lid side on the surface 21 of the lid 6 enclosed by the receptacle 21.

The receptacle 22 has a reinforcing element 24. The reinforcing element 24 is designed as a receiving portion 22 encircling, obliquely extending from the receptacle 22 in the direction of the lid surface extending annular portion.

Figure 9 shows the outside of the lid 6. The lid 6 has on the outside a substantially star-shaped element 25 on. The star-shaped element 25 in the present case has 5 rounded points in the manner of a pentagram. It provides a circular space and arranged coaxially to the axis of rotation of the lid 6 receiving space 26 ready. It is envisaged that the star-shaped element 25 can wave over its outer star shape and / or through the circular interior with various, not shown, additional and / or connection elements. Figures 12 to 14 show as an alternative embodiment to the embodiment according to Figures 1 to 3 modular housing shells 27, 28, 29. The housing module is formed from three Gehäusemänteln 27, 28, 29. They are in the height direction to each other, wherein the housing shell 28 are connected at one end with the housing shell 27 and the other end with the housing shell 29 via respective connecting portions 31. In this way, it is advantageously possible to adapt the filter performance of the filter system to the volume of fluid to be cleaned and / or to extend the life of the filter system.

The terminal housing shells 27 and 29 are formed substantially identical. Irrespective of the provision of bayonet slots 30, it is of course also possible to glue the housing shells 27 and 29 at the ends with the respective lids and / or on their respective lid-side end via bayonet slots 30 for bayonet slots 30 or to weld.

The central housing shell 28 also has bayonet slots 30 on one end. Furthermore, the housing shell 28 has slots 32. The slots 32 are preferably used for fastening the filter system in the whirlpool. For this purpose, not shown fasteners are used, which engage in the slots 32. It has been found that in such comparatively long filter systems, there is a risk that they are exposed to excessive force due to dynamic, given in particular in a spa, flow conditions and can be damaged as a result. By the additional attachment by means of the slots 32 this is prevented, however.

15 and 16 show a two-part pipe section 33 for arrangement within the (nodular housing jacket according to FIGS 12 to 14. The pipe section 33 is formed from the two sections 34 and 35. Both sections are formed as a hollow cylinder and have in their respective lateral surface 36, 37 have a plurality of openings 38, which in turn are of identical diameter, the openings 38 are arranged in rows in the circumferential direction, rows arranged sequentially in the longitudinal extension of the pipe section 33 are arranged offset in the circumferential direction, the bisectors of a connecting line between two directly adjacent openings 38 within a row thereby cuts the center of an opening 38 of an immediately adjacent Row, so that the centers of two circumferentially immediately adjacent openings with the center of an opening 38 of an immediately adjacent row form an equilateral triangle.

Each partial section 34, 35 has three opening sections 39, 40, 41, which are separated from one another by closed regions 42, 43 in the longitudinal direction of the tube section 33. The opening sections 39, 40, 41 each have a different number of rows with openings 38. The opening portion 41 disposed at each end of the sections 34, 35 has the fewest rows in most rows and the opening portion 40 disposed between the opening portions 41 and 39. The opening portion 41 has 33 rows in the present example, the opening portion 40 has 4 rows, and the opening portion 39 has 10 rows of openings 38. It has been found that the particular configuration of the opening sections with respect to row number and arrangement on the respective section 34, 35 provides for particularly good flow conditions of the fluid to be filtered

The sections 34, 35 are arranged along a common axis of rotation and connected to each other in the connecting region 44. The pipe section 33 is constructed mirror-symmetrically with respect to the arrangement of the two sections 34, 35.

FIGS. 18 to 21 show an adapter 45 according to a first embodiment. The adapter is hollow cylindrical and has an internal thread 46 on the one hand and a threadless receiving space 47 on the other hand, which are arranged one above the other in the direction of the axis of rotation of the adapter.

By the adapter 45 according to the invention, it is advantageously possible to connect the filter system 1 via the nozzle 8 with different connection systems of a line of a circulatory system for the guidance of a fluid in a whirlpool. In the present case, the adapter 45 is adapted to screw a nozzle 8, which has an external thread in the female thread part 46 of the adapter 45 and the so connected to the filter system adapter 45 aufzustecken with its threadless on receiving space on a threadless tube.

The adapter 45 is preferably made in one piece, as an injection molded part It is also conceivable that such an adapter 45 can serve to connect a plurality of filter systems 1 in such a way that the nozzle 8 of the lid 7 is screwed into the female threaded portion of the adapter 45 and a correspondingly formed with the threadless portion of the adapter 45 plug-in element on the lid 6 is inserted into the unthreaded part of the adapter 45. In principle, this makes it possible to connect any number of filter systems 1.

Figures 22 to 24 show an adapter 48 according to an alternative embodiment. The adapter 48 is presently designed as a hollow cylinder, which provides an internal thread 49. In contrast to the embodiment according to Figures 18 to 21, the internal thread extends over the entire inner surface of the adapter 48. This allows the connection of two terminals with external thread. In each case, a connection part, for example, the nozzle 8 einendseitig screwed into the adapter and the other connector, for example, the end of a pipe with external thread other end screwed into the adapter. Also by means of this adapter, the connection several filter systems 1 is possible. For this purpose, it is necessary that both cover 7, and cover 6 have an external thread. As a result, in principle any number of filter systems 1 can be connected to one another.

3

Claims

 claims

A filter system for cleaning a fluid in a whirlpool and / or a swim spa with a filter element made of a nonwoven fabric, which is essentially rotationally symmetrical,

 marked by

 a filter housing (2) for receiving the filter element, the filter housing (2) having a, a receiving space (3) for the filter element limiting housing shell (4) with a plurality of openings (5) and one in the receiving space (3) of the housing shell ( 4) arranged pipe section (9) having at least one passage opening for the fluid and wherein the through the housing shell (4) entering the fluid flows through the filter element and is then discharged through the pipe section (9).

 2. Filter system according to claim 1,

 characterized,

 in that the filter housing (2) has a connecting element in order to be connectable to a line carrying the fluid, wherein the connecting element is designed, for example, as a thread or bayonet.

 3. Filter system according to claim 1 or 2,

 characterized,

 in that the fifter housing (2) has at the end two covers (6, 7) which are connected to the housing jacket (4), wherein the pipe section (9) engages through a cover (7).

 4. Filter system according to one of claims 1 to 3,

 characterized,

 the openings (5) in the housing shell (4) are of identical construction and / or are arranged at identical distances from each other.

5. Filter system according to one of claims 1 to 4,

 characterized,

that the pipe section (9) distributed over its lateral surface (11) has a plurality of openings (12), which preferably formed identically and / or in identical Distances are arranged to each other.

8. Filter system according to one of claims 1 to 5,

 characterized,

 that the FiJtergehäuse (2) has a hand approach.

 7. Filter system according to one of claims 1 to 6,

 characterized,

 that the filter housing (2) is formed of a transparent plastic.

8. Filter system according to one of claims 1 to 6,

 characterized,

 the filter housing (2) is formed from a material which is impermeable to sunlight, in particular plastic.

 9. Filter system according to one of claims 1 to 8,

 characterized

 that the filter element consists of a plurality of substantially spherical elements.

 10. Filter system according to one of claims 1 to 8,

 characterized,

 in that the filter element consists of a hollow-cylindrical carrier and non-woven elements extending radially thereon, the carrier being able to receive the tube section in such a way that it can be mounted.

 11. Filter system according to claim 10,

 characterized,

 that the carrier is formed from non-woven fabric and preferably has a relation to the sheet-like elements higher basis weight.

 12. Filter system according to one of claims 1 to 11,

 characterized,

 the filter element is formed from inorganic fibers which have been agglomerated into spheres or deposited into fiber webs.