EP1353074A2 - Centrifugal pump with integrated magnetic filter - Google Patents

Abstract

The turbine pump (1) for heating water has a pump housing (9) defining a chamber (12) for a turbine wheel (13). The pump housing has a magnet (19) integrated into it in the turbine wheel chamber, the spiral chamber (15) or an annular chamber (16) between these chambers. The magnet can be formed as a spacer between the magnetic bearing (19,22) of the rotor (3).

Description

The present invention relates to a centrifugal pump with a pump housing, in which a pump impeller rotates in an impeller space, the Impeller space is surrounded by a spiral space.

Such pumps are generally known. You will be particularly interested in Heating systems used to promote the heating water, if necessary can also be provided with glycol additives. The heating water is often included with ferromagnetic particles, for example with iron, nickel or cobalt particles contaminated, which arise in part from oxidation of the system components and which are distributed in the heating circuit.

To avoid damage to the pump or the heating system, the by abrasion due to the ferromagnetic particles or by mixtures of ferromagnetic and non-magnetic brackets Solid particles can occur, you can filter in the heating system or the pump. However, conventional filters are only conditional for this suitable because they are already in a clean state, but especially with represent a considerable flow resistance for increasing duration of use and therefore require an increased pumping capacity.

For filtering ferromagnetic abrasion or mixtures of ferromagnetic Particles and associated non-magnetic metallic, ceramic, textile or other solid particles Liquids are also known as magnetic filters. A problem with such Magnetic filters, however, lies in the fact that they are particularly useful of permanent magnets either not at all, or only under large ones Difficulty cleaning or backwashing or flushing without the To interrupt the filtering process. For this cleaning are always very complex Construction required.

For example, a magnetic filter is known from DE 31 23 229 A1, in which the filter element must be washed if there is a large amount has pulled ferromagnetic particles out of the fluid. There is a first step in demagnetizing the filter element. As a next step becomes water with compressed air in an opposite to the fluid flow to be filtered Directed past the filter element. Because the filter element is no longer magnetized, the accumulated particles from the Filter element removed and taken along by the flow of water and compressed air. This type of cleaning does not only require a high level of construction Effort, but it is particularly with an interruption of the Pumping process of the fluid connected.

From DE 31 34 861 A1 a magnetic filter is also known, in which the Magnetic bodies are movably mounted for cleaning. For this, the Magnetic body moves along an envelope in an end position in which the magnetic body partly in the filter room and partly in a dirt chamber is located, on the enveloping body at least one surrounding locking device is arranged, which in the return movement of the magnetic body its initial position scrapes adhering particles from the magnetic body. This device is also associated with a very complex design. So it is not only expensive to manufacture, but it is due to the Friction on the moving parts also prone to wear and thus to Dysfunction.

Furthermore, DE 31 46 858 describes a continuously operating magnetic filter is known in which an endless magnetic ring tube is provided, which is only too part of its circumference is in the liquid to be filtered and that is rotated over driving rollers, being in an upper area outside of the filtering liquid wipers are arranged on the magnetic ring tube wipe off adhering ferromagnetic particles. This device is also structurally complex and associated with high costs. Because of the friction The wipers can also wear and thus malfunction come.

The object of the present invention is therefore to produce an inexpensive one and easy to handle pump of the type mentioned to create the in a structurally simple manner and with low flow resistance continuous filtering of ferromagnetic particles from the conveyed Liquid allows and easy cleaning of the filter takes place.

This object is achieved by a pump according to claim 1 solved. Advantageous refinements and developments of the invention result from the dependent claims.

It is essential in the solution according to the invention that in the pump housing at least one magnet is integrated, which is arranged in an area is that directly or indirectly to the impeller space and / or to the spiral space and / or to one between the spiral space and the impeller space located annulus adjacent.

The main advantage is that the ferromagnetic particles in one Area of the pump housing can be collected in the relatively high Flow velocities of the delivered fluid prevail. That is why the forces transferred from the flow to the particles are particularly large here. As soon as after some time a certain amount of ferromagnetic Has accumulated dirt particles due to the shear forces of the Flow carried away with the flow and into the pressure port of the pump rinsed. The force exerted by the flow on the dirt particles leads thus for flushing out the adhering particles from the pump. There they can be collected in suitable filters if necessary can be made relatively coarse.

In this structurally particularly simple way, a pump with a Integrated magnetic filter created that is not only stable with a continuous Filtering can be operated, but also at the given Automatic cleaning or flushing of the magnetic filter he follows. The filtering process is not interrupted during cleaning.

The centrifugal pump according to the invention is inexpensive with a simple construction to manufacture and easy to assemble and handle.

It when the magnet is radially outside the pump impeller is particularly advantageous is arranged at the level of the spiral space or the annular space. Here there are particularly high flow rates, so that the Flow transferred to the dirt particles for cleaning the Filters are particularly large.

According to a first embodiment, a magnet can be ring-shaped be trained and spread over the entire scope of the Extend pump housing. According to an alternative embodiment can also separate magnets in this area of the Pump housing may be arranged.

According to a particularly preferred embodiment of the invention Pump designed as a canned pump or can pump, with a Pump driving electric motor is provided, which with the pump impeller rotatably connected rotor rotates as a wet rotor in a wet room, the via at least one connecting channel with the impeller chamber and / or with the spiral space and / or with the annular space of the pump housing connected and in contact with the conveyed medium, the stator the engine through a can or a can from the wet room and the conveyed medium is separated. Here is the magnet (s) advantageously either directly in the area or preferably immediately arranged next to the area in which the connecting channel or Connection channels in the impeller space or in the spiral space and / or in the Open the annulus of the pump housing.

Such pumps are often used in heating systems in particular Wet rotor design used. Here, in new types of electric motors often used permanent magnetic materials, which due to the Construction of the pump to be flushed by the fluid. This could ferromagnetic particles in the medium are critical to them accumulate significant places and sustained destruction by abrasion of the pump motor or cause the motor to become blocked. That is why it is particularly important with this type of construction, the engine compartment or wet room with its sensitive permanent magnets against Contamination from the pumped medium and, if necessary, from it to protect contained impurities.

The solution according to the invention can provide effective protection for the Engine compartment can be achieved by the appropriate arrangement of magnets. The Magnets are in the vicinity of the spiral space or the annular space Pump attached so that they accumulate the ferromagnetic dirt particles, before they can get into the engine compartment. Damage the pump or a destruction of the motor by such dirt particles can therefore be prevented effectively.

It is particularly advantageous here if the connecting channel is through a Sealing gap or through a labyrinth seal with several sealing gaps is formed. As a result, the engine compartment is also against a high Liquid exchange to the pump room protected.

It is also particularly advantageous here if the magnet or magnets in a distance radially outside the mouth of the sealing gap at the spiral space and / or is or are arranged on the annular space. Because of the prevailing here high flow velocities are due to the dirt particles transferred forces so large that after a short time at a relative low accumulation of dirt particles, cleaning with the The dirt particles are flushed out of the pressure port of the pump.

The magnet or magnets is preferably arranged in an area in which enough space to collect a certain amount of ferromagnetic Particle is present. In this way, the invention Device also with a pump with a lower speed and thus with lower flow forces are used.

According to a further particularly preferred embodiment of the invention it is provided that the rotor is axially in at least one direction by means of a Magnetic bearing is mounted, on the rotor or on a fixed to the Rotor connected part rotating magnets and on the pump housing or on a part firmly connected to the pump housing interacting fixed magnets are arranged and wherein the fixed magnets either directly in the area or preferably is / are located directly next to the area in which the connecting channel or the connecting channels in the impeller space and / or in the Open spiral space and / or in the annulus of the pump housing.

The advantages of the invention can thus be obtained in a particularly advantageous manner Device with the advantages of magnetic storage of the Rotors, namely the advantages of a particularly quiet and very low-friction Rotor run and thus a particularly high efficiency of the pump, can be connected without additional magnetic components required are. The pump can therefore be particularly small and be carried out inexpensively.

It is particularly advantageous if the rotor is outside the stator revolves, the revolving magnets in the outer peripheral region of the Rotors are arranged. According to an alternative embodiment it is however, it is also possible that the rotor rotates within the stator, whereby at least one carrier element firmly connected to the rotor, in particular a disc is provided on which the rotating magnets, in particular are arranged in the outer peripheral region. In both cases they are Magnets in the area of particularly high flow velocities and thus especially large cleaning staff to tear away the dirt particles arranged.

In a structurally particularly simple and inexpensive embodiment can the magnets, especially the rotating magnets and the fixed Magnets can be formed by permanent magnets.

However, it is also particularly advantageous to use the fixed magnets Form electromagnets so as to control the axial position of the rotor or to be able to regulate.

It is also particularly advantageous if the magnet or magnets is replaced by a Wall of the pump housing from the impeller chamber and / or from the Spiral space and / or is or are separated from the annulus, which is a relative has a small thickness. Preferably a thickness between 0.3 and 5 mm, in particular proposed by 1 mm.

To make the magnetic filter device particularly effective achieve, it is particularly advantageous if the pump housing at least in the area of the magnet or in the area of the magnets, but preferably made entirely of a non-magnetic or non-magnetizable material is executed.

Further advantages and features of the invention result from the following Description and those shown in the drawings Embodiments.

Figur 1:

erste Ausführungsvariante einer erfindungsgemäßen Pumpe,

Figur 2:

vergrößerte Darstellung eines Teilbereichs aus Figur 1,

Figur 3:

zweite Ausführungsvariante einer erfindungsgemäßen Pumpe, und

Figur 4:

vergrößerte Darstellung eines Teilbereichs aus Figur 3.

Show it:

Figure 1:

first variant of a pump according to the invention,

Figure 2:

1 shows an enlarged representation of a partial area,

Figure 3:

second embodiment of a pump according to the invention, and

Figure 4:

3 shows an enlarged representation of a partial area.

The pumps 1 shown in the figures are of the wet rotor type executed, the electric motor 2 driving the pump 1 having a rotor 3 has, which rotates as a wet runner in a wet room 4 in the medium being pumped. The wet room 4 is through a can 5 (Figure 3) or other suitable Sealant 6 (Figure 1) separated from the drying room 7, in which the Stator 8 of the electric motor 2 is located.

The pump 1 has a pressure port 10 and a on the pump housing 9 Intake 11 is located in the impeller chamber 12 of the pump housing 9 Pump impeller 13 that rotates with the motor shaft 14 of the electric motor 2 connected is.

The impeller chamber 12 is surrounded radially on the outside by a spiral space 15 which increases in size over the circumference of the impeller chamber 12 and in the Pressure port 10 opens. Between the impeller space 12 and the spiral space 15 is an annular space 16, which the transition from the impeller space 12 in forms the spiral space 15.

An annular connecting channel 17 connects the annular space 16 with the Wet room 4. In the exemplary embodiment according to FIG Connection channel 17 also a labyrinth seal with two sealing gaps 18th The pumped liquid is in contact with the connection channel 17 the rotor 3 rotating in the wet area 4.

According to the invention, a plurality of magnets 19 are arranged in the pump housing 9, which are located in an area 20 which is indirect over the thin Housing wall 21 adjacent to the annular space 16 and the spiral space 15. Although a single magnet 19 is already sufficient, a particularly good one can Filter effect can be achieved in that a plurality of magnets 19 over the Circumference of the annular space or the spiral space are arranged distributed. Also a continuous, ring-shaped magnet 19 can be used.

The magnet 19 is located a short distance radially outside the Mouth of the connecting channel 17 in the annular space 16. Thus is radial enough space inside and outside around area 20 for Available, in which the ferromagnetic particles to be filtered out can accumulate. As soon as there is a certain number of dirt particles has accumulated, especially from the smallest iron, nickel or Cobalt particles can be formed, they are gravitational pumped liquid carried away and with the flow through the spiral space 15 in the pressure port 10 and thus flushed out of the pump 1.

In a particularly advantageous manner, the magnets 19 also form one at the same time Part of a magnetic axial bearing of the rotor 3 Rotor 3 in the embodiment of Figure 1 on its outer peripheral region also magnets 22, which are opposite the magnets 19 and repel them. This magnetic bearing 19, 22 supports the rotor 3 with the impeller 13 thus in Figures 1 and 2 against displacement to the left to the pump housing 9. In the other direction the rotor 3 also magnetically or by other bearing means, especially by axial Plain bearings must be stored. It is also possible to float the rotor 3 store, where between the magnetic forces of the magnetic bearing 19, 22 and the hydraulic forces balance forces. Here is in the motor housing 24 advantageously a slide washer, which the opposite the end of the motor shaft 14 facing away from the pump housing. In the radial direction, the motor shaft 14 is also in plain bearings 23 stored.

Between the magnets 19 and 22 is a fixed to the pump housing 9 and the motor housing 24 connected disc 25 arranged together with the two sealing gaps 18 forms a labyrinth seal that the wet room 4th additionally against excessive fluid exchange with the annular space 16 guaranteed.

In the embodiment variant shown in FIG. 1, the rotor 3 runs radially outside the stator 8 um. The magnets 22 can be relative large diameter, which corresponds to the diameter, on which the magnets 19 are arranged in the pump housing 9. Here is a Large diameter is an advantage because it is located radially further out Area where the liquid is flowing at a higher speed and thus larger flushing forces on the accumulated ferromagnetic Dirt particles are exerted.

In the embodiment variant shown in FIG. 3, the rotor 3 runs radially inside the stator 8 um. To ensure that the diameter is as large as possible for the magnets 19 and 22 a disk 26 can be reached on the suction nozzle 11 facing away from the rear of the pump impeller 13 on the motor shaft 14 attached. Which form part of the magnetic axial bearing Magnets 22 are located here in the outer peripheral region of this disk 26 and are therefore located in the magnet 19 arranged in the pump housing 9 across from.

In this particularly advantageous way, the advantages of a magnetic Filtering with the advantages of a particularly quiet and low-friction magnetic storage can be connected particularly easily.

Claims (15)

Centrifugal pump (1) with a pump housing (9) in which a pump impeller (13) rotates in an impeller space (12) which is surrounded by a spiral space (15),
characterized in that at least one magnet (19) is integrated in the pump housing (9) and is arranged in a region (20) which is directly or indirectly connected to the impeller space (12) and / or to the spiral space (15) and / or adjacent to an annular space (16) located between the spiral space (15) and the impeller space (12). Pump according to claim 1, characterized in that the magnet (19) is arranged radially outside the pump impeller (13) at the level of the spiral space (15) or the annular space (16). Pump according to claim 1 or 2, characterized in that the magnet (19) is annular and extends over the entire circumferential area (20) of the pump housing (9). Pump according to Claim 1 or 2, characterized in that a plurality of magnets (19) which are separate from one another are arranged in the region (20) of the pump housing (9). Pump according to one of the preceding claims, wherein the pump (1) is designed as a canned pump or can pump and comprises an electric motor (2) driving the pump (1), the rotor (3) of which is connected to the pump impeller (13) in a rotationally fixed manner as a wet rotor in one Wet space (4) circulates, which is connected via at least one connecting channel (17) to the impeller space (12) and / or to the spiral space (15) and / or to the annular space (16) of the pump housing (9) and in contact with the pumped Medium, the stator (8) of the electric motor (2) being separated from the wet space (4) and the conveyed medium by a can (5) or a can,
characterized in that the magnet (s) (19) is / are arranged in the mouth region or in a region (20) next to the mouth region in which the connecting channel (17) or the connecting channels into the impeller chamber (12) and / or open into the spiral space (15) and / or into the annular space (16) of the pump housing (9). Pump according to claim 5, characterized in that the connecting channel (17) is formed by a sealing gap (18) or by a labyrinth seal with a plurality of sealing gaps (18). Pump according to claim 6, characterized in that the magnet (s) (19) is / are arranged at a distance radially outside the mouth of the sealing gap (18) in the spiral space (15) and / or in the annular space (16) , Pump according to one of the preceding claims, characterized in that the magnet (s) (19) is / are arranged in a region (20) in which there is space for the accumulation of a predetermined amount of ferromagnetic particles. Pump according to one of Claims 5 to 8, characterized in that the rotor (3) is mounted axially in at least one direction by means of a magnetic bearing (19, 22), on the rotor (3) or on one fixed to the rotor (3 ) connected part (26) revolving magnets (22) and on the pump housing (9) interacting with them fixed magnets (19), and wherein the fixed magnets (19) are arranged in the mouth area or in a region (20) next to the mouth area is / are in which the connecting channel (17) or the connecting channels open into the impeller chamber (12) and / or into the spiral chamber (15) and / or into the annular space (16) of the pump housing (9). Pump according to claim 9, characterized in that the rotor (3) rotates outside the stator (8), the rotating magnets (22) being arranged in the outer peripheral region of the rotor (3). Pump according to claim 9, characterized in that the rotor (3) rotates within the stator (8) and that at least one support element (26), in particular a disk, is provided, which is connected to the rotor (3) and on which the rotating ones Magnets (22) are arranged in particular in the outer peripheral region. Pump according to one of the preceding claims, characterized in that the magnet (s) (19, 22), optionally the rotating and the fixed magnets, are permanent magnets. Pump according to one of claims 9 to 11, characterized in that the fixed magnets (19) are electromagnets by means of which the axial position of the rotor (3) and the pump impeller (13) can be controlled or regulated. Pump according to one of the preceding claims, characterized in that the magnet (s) (19) through a wall (21) of the pump housing (9) from the impeller chamber (12) and / or from the spiral chamber (15) and / or is separated from the annular space (16), which has a thickness between 0.3 and 5 millimeters, preferably 1 millimeter. Pump according to one of the preceding claims, characterized in that the pump housing (9) is made of a non-magnetic or non-magnetizable material at least in the region (20) of the magnets (19).

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