WO1998000610A1

WO1998000610A1 - Apparatus for collecting and/or treating and carrying away liquids, multiphase systems, or liquids containing lumpy substances, primarily waste water

Info

Publication number: WO1998000610A1
Application number: PCT/HU1997/000033
Authority: WO
Inventors: Zoltán DÁNYI; László SIPOS; István DÁNYI
Original assignee: Danyi Zoltan; Sipos Laszlo; Danyi Istvan
Priority date: 1996-06-28
Filing date: 1997-06-26
Publication date: 1998-01-08
Also published as: CZ430098A3; ATE207169T1; SK284737B6; CZ294840B6; DE59704985D1; EP0907806A1; SK180298A3; EP0907806B1

Abstract

The device for conveying multiphase media, for example waste water, has a pump engine unit which contains an electric motor and a hydraulic unit fixed to the shaft thereof, the electric motor and the shaft being sealingly separated from each other within a common housing, and contains another hydraulic unit, the hydraulic units being fixed on one end or on the two ends of the shaft of the electric motor (2). The device for collecting and/or treating and carrying away liquids, multiphase systems or liquids containing lumpy materials, primarily waste water, has a container with inflow and drainage apertures, with a pump situated in the liquids chamber and with turbulence-generating elements, the pressure supports of the pump being connected with the drainage aperture of the container, the turbulence-generating element being a mechanical agitator (4) and roughened surfaces (35) in the liquids chamber being used to break up and comminute. The device for collecting and discharging multiphase media, primarily waste water, has a container fitted with a pipe for intake of waste water and a pipe for discharge of waste water and has inside the container a pump engine unit that contains an electric motor and a hydraulic unit fixed to the shaft thereof, the electric motor and the shaft being sealingly separated from each other within a common housing. The pump engine unit (1) has two hydraulic units which are fixed at one end or at the two ends of the shaft of the electric motor (2), and the shaft of the electric motor (2) is disposed horizontally or at an acute angle to the horizontal.

Description

Devices for collecting and / or treating and forwarding liquids, multi-phase systems or liquids containing particulate substances, primarily waste water

The invention relates to a device, primarily for discharging waste water, which has a pump which is arranged in a common housing and separated from one another in a sealed manner and contains an electric motor and a hydraulic unit fastened to the shaft of the electric motor, a device for collecting and / or treatment of liquids, multi-phase systems or liquids containing stucco substances, primarily waste water, which has an inlet and an outlet, furthermore a pump arranged in the liquid chamber and a container provided with turbulence-generating elements, the pressure port of the pump having the outlet Opening of the container is connected, and finally a device for discharging multiphase media, primarily wastewater, which device for collecting and discharging multiphase media, primarily wastewater, via a with a wastewater discharge and a wastewater discharge pipe provided container and has a pump machine unit in the container, the pump machine unit being arranged in a common housing and sealed off from one another and containing an electric motor and a hydraulic unit fastened to its shaft

It is known that the homogenization, the transport and the treatment of lumpy substances, sludge, fat-containing multi-phase systems primarily cause difficulties when collecting and conveying waste water

The liquid accumulating in sewage shafts or Ube units is a multi-phase system; it contains parts made of solids (paper, razor blades, scraps), dirty water and fats that accumulate on the surface of the liquid. The solid parts and the sludge settle on the bottom of the shaft, while the lighter components, including the grease and oil-rich substances, float up and solidify or are deposited on the wall of the shaft. Similar problems also exist in agriculture and industry , mainly in the pharmaceutical industry, when liquids of different densities are kept in emulsion, dry solids are mixed in and the dispersions are thickened and transported The machine units used to discharge wastewater are generally liquid pumps, slurry pumps or grinding pumps, which consist of an electric motor and a unit designed as a pump, which are arranged in a common housing and are separated from one another in a sealed manner.The machine units or pumps currently used can solidify and settle Do not remove the grease layer or only remove it to a small extent, and the solid parts that collect at the bottom of the shaft are deposited in dead spaces. To eliminate this, it was proposed to separate the components of the waste water in the shaft by means of a continuous swirling movement of the incoming waste water. Such a solution is described, for example, in HU 210 443, according to which the bottom part of the collecting shaft is designed as an asymmetrical rotating surface and at the same time in the pipeline connecting the pump to the waste water discharge nozzle, spray spray nozzles are used. The system according to DE 35 20 359-A also contains such an asymmetrical rotary surface. A similar arrangement is also described in the Hungarian patent application No. 2670/92 Collecting shaft initiated, and T-profiles are attached between the pump and the waste water discharge pipe, which also serve a waste water recirculation

However, all of these solutions do not allow the treatment of the sewage entering the shaft, the separation, comminution and suction of the solidified fat layer, and also the movement and loosening of the stucco materials in the bottom part of the shaft not sufficiently effective

For this purpose, in larger devices, several separately driven, immersing Ruhrwerke are generally used (see Flygt submersible pump program, 10-560654 2b fr2 0868 GR, column T *), but this is obviously associated with considerable increases in investment and operating costs

Solutions are also known in which the Ruhr elements are connected to the pump itself, generally in such a way that a Ruhr element is fastened to the shaft end of the motor which carries the pump wing. Such solutions are described, inter alia, in the patents EP 01 10562, US 3 973 866 and DE 26 43 537 described This design of the pump demanding the liquid is associated with numerous advantages, but the comminution of the stucco substances in the liquid and their further transport by means of the pump are still problematic. In these cases it is mostly required to use a grinding pump or a pump with a large suction opening that is able to transport these substances.

The aim of the present invention was to develop a solution which guarantees all the advantages of the solutions listed, but moreover enables safe, simple and cheap comminution of the medium to be conveyed, practically without the use of additional energy. Another objective was to develop a solution that would allow such devices to be operated free of deposits, self-cleaning, not requiring human intervention and operating reliably and cost-effectively. This required the creation of a pump machine unit, which, in objects used for collecting and forwarding multi-phase media, prevented the separation of the phases and the settling of the heavier phases as well as the solidification and the deposition of the lighter grease and oil-like phases.

The stated object was achieved with a device which has a pump machine unit, which is arranged in a common housing and separated from one another in a sealed manner and has an electric motor and a hydraulic unit fastened to the shaft of the electric motor, a further hydraulic unit being provided according to the invention. The hydraulic units can be pumps and / or stirrers, which are arranged on one or the other end or on both sides of the motor. The stirrer can be delimited as simple by flat and / or curved surfaces

Disc is formed on which flow-waking elements and / or crushing elements, for example ribs, projections, grooves, wings, depressions, etc., can be located.

The device, which is used to collect and discharge multiphase media, primarily waste water, has a container with an inflow and discharge opening as well as a pump arranged in the liquid frame of the container and turbulence-generating elements, the pressure port of the pump with the discharge opening of the container connected is. According to the invention, the turbulence-generating element is a mechanical stirrer and tear and comminution elements designed as roughened surfaces are present in the liquid space.

The device according to the invention, which is used to discharge multiphase media, primarily waste water, has a container provided with a waste water supply pipe and a waste water discharge pipe. where one with a pump equipped machine unit. According to the invention, the machine unit containing a pump has an electric motor which is arranged in a common housing and is sealed off from the pump and a hydraulic unit which is fastened to the shaft of the electric motor, and the shaft of the electric motor is arranged horizontally or forms an acute angle with the horizontal.

The invention is based on the knowledge that the extension of the shaft of the electric motor in both directions results in the possibility of creating a combined machine unit which enables optimal use adapted to the different individual tasks. Depending on the medium to be pumped, the nature of the system and the mode of operation, one of the different hydraulic units can be attached to either side of the motor or, if applicable, only one side of the motor, and - depending on the factors mentioned - can also be installed the machine unit can be used in a vertical or horizontal position. In this way, the solution according to the invention simultaneously ensures the suctioning off of the multi-phase media at the optimum location, the mixing at the desired location and, if appropriate, a part of the cleaning in that the lumpy materials and the sludge are stirred simultaneously with the function of the pump or at regular intervals are stirred up and loosened or, where appropriate, the extracted wastewater is mixed with a significant amount of air. The device requires practically no maintenance, it is reliable, effective and cost-saving.

The invention makes it possible to produce a machine range from modular elements, which can be operated under extremely variable conditions depending on the requirements of the user.

The container according to the invention is provided with an inlet and a discharge opening, a pump arranged in the liquid space and a turbulence-generating element, the pressure connection of the pump being connected to the discharge opening, the turbulence-generating element being formed by a mechanical stirrer, which may be with the Motor of the pump is connected and arranged at the opposite end of the pump on the pressure side, and further tear and crushing elements are present in the liquid space outside the pump. The stirrer can be designed as a stirrer disk attached to the end of the motor located opposite the turbine wing.

According to a preferred embodiment, the pump is arranged on the bottom of the container in a plane deviating from the horizontal, so that its axis rises in the direction of the suction nozzle.

The pump can be fastened on the bottom surface of the container which deviates from the horizontal or on an insert located at the bottom of the container.

The tearing and shredding elements are expediently roughened surfaces. These can be designed like a file, provided with hooks or saw teeth or designed as perforated surfaces, the perforation ridge of which faces the liquid space and can be pointed or sharp-edged.

According to a preferred embodiment, the roughened surfaces are located on the wall delimiting the liquid space. According to another expedient

In the embodiment, the roughened surfaces are attached to elements located in the liquid space, or they form the surfaces of elements arranged in the liquid space

Use.

If necessary, part of the surface of the pump can also have a roughened surface

With the solution according to the invention, it is possible to homogenize the liquid which collects and discontinuously removed multiphase, stucco substances in such containers, primarily sewage shafts, during the time they remain in the container and then to pass them on easily, cheaply and safely. It was recognized that, in the currently known solutions, the lumpy materials are shredded directly by rotating elements, blades, knives or other shredding elements and therefore the life of the devices depends on the type of medium to be shredded; these systems are prone to failure and expensive.

It was also recognized that the comminution of lumpy substances can be carried out not only directly but also indirectly, namely by the comminution of the lumpy substances by small tearing elements which are stationary with respect to the liquid, the liquid being separated from that by means of the turbulence-waking element (Ruhr disc) generated rapid flow is moved, which tears the lumpy substances with it, rinses against the tearing and crushing elements and in this way constantly crushed and crumbled This process - referred to by the authors of the present application as indirect comminution - has fundamental advantages over conventional direct comminution: significantly longer lifespan, considerable energy savings and greater operational safety, since there is no risk of being pinched, seized, or clogged. When used for wastewater treatment, there is the additional advantage that oxygen is introduced at the same time as stirring and crushing.

Further details of the invention are explained below with reference to exemplary embodiments with the aid of the drawings.

1 shows a possible embodiment of the device according to the invention, partly in section, in

FIG. 2 shows a possible variant of the operation of the device shown in FIG. 1 in an overpressure shaft, while FIG. 3 illustrates another possible variant of the operation of the device shown in FIG. 1. 4 shows the horizontally arranged embodiment of the device shown in FIG. 1, FIG. 5 shows the arrangement of the device or pump according to FIG. 4 in an overpressure shaft, FIG. 6 illustrates another embodiment of the pump, partly in section,

7 shows a further embodiment, partly in section, FIG. 8 shows an expedient embodiment of the solution according to the invention, partly shown in section, FIG. 9 shows the insert used in the embodiment according to FIG. 1 in perspective view,

10 illustrates a possible embodiment of the roughened surface,

Fig. 1 1 represents another embodiment of the roughened surface, and

12a is an illustration of another possible embodiment of the roughened surface in section, while F Fi «gg. I 122bb shows the embodiment according to FIG.

F «g ^. 13 illustrates a further possible embodiment of the roughened surface, and also FIG. 14 shows a possible embodiment of the roughened surface. In the middle part of the machine unit 1 shown in FIG. 1 there is a motor 2. The hydraulic unit is designed at the bottom as a pump 3, at the top as a stirrer 4. The pump housing 5 of the pump 3 is screwed to the housing of the motor 2, and inside is in in a known manner, an open impeller 6 is fastened on the shaft connector 7. Under the shaft connector 7 there is a sucking opening 8, while the pressure connector 9 can be found on the side part of the pump housing 5. The machine unit 1 stands on feet 10

The shaft of the motor 2 is extended from the usual upward, and on the protruding stub shaft 1 1, the disc 12 of the stirrer 4 is attached. The disc 12 is provided with Flugein 13, on its lateral jacket is the opening of a

Lid 14 adapted The Ruhrer 4 is designed so that the stucco materials in the medium do not adhere to the stub shaft 1 1 next to the disk 12 or can wind up on it. Therefore, a lid 14 adjoins the edge of the disk 12 with a narrow gap The edges of the wings 13 located on the disk 12 are rounded, if necessary. Another possibility is then that the edges as

Shredding elements are formed. Instead of the wings 13, of course, other flow-generating elements and / or shredding elements, for example

Ribs, grooves or other protrusions or depressions are used

The disk can be made up of at least one disk delimited by flat and / or curved surfaces. If necessary, a simple disk without wings or current-generating elements can also be used as a stirrer

Crushing elements can optionally also be fixed to the pump housing 5 and / or rotating on the shaft of the motor 2

Soles 15 are attached to the upper part of the machine unit 1, which enables the machine unit designed according to the invention to be used both in the position shown in FIG. 1 and vice versa. During use, the motor 2 is switched on and off by means of a Float switch 16 made

With the machine unit designed in the manner described, the multiphase medium surrounding it can be pumped and stirred simultaneously, for example in the manner shown in FIGS. 2 and 3

In the arrangement according to FIG. 2 the machine unit 1 is in the position shown in FIG. 1 in a container 17. tube 18, and the waste water can be removed through a waste water discharge pipe 19. From the pump 3 in the machine unit 1, the required medium passes through a pressure pipe 20 through a fitting 21 m, the waste water discharge pipe 19. A mud slide 22 is arranged at the bottom of the container 17, this makes it easier for the deposited substances to be stirred up and kept in a swirling motion

This arrangement has the advantage that it can be operated with very little switching on and off, ie the difference between the maximum (max) and the minimum (min 2) liquid level can be comparatively large. This is important in places where the primary aspect the fearful energy consumption is of course the system can also be operated with a low level difference (max - min 1) and frequent switching

The solution shown in FIG. 3 is similar to that shown in FIG. 2, the difference is that the machine unit 1 is set upside down, ie the stirrer 4 is at the bottom and the pump 3 is at the top. This arrangement has the advantage that the stirrer is at the bottom. while suction is being carried out at the top. This means that the substances in the shaft that are dangerous for the pump, such as rubber, razor blades, rags, etc., cannot cause any damage to the pump. In addition, the part that contains the most fat is always extracted

Another advantage is that the liquid column in the pump cannot tear off, since the motor is lower than the pump itself

It is expedient to use the system with the relatively small shown in the figure

Operate level difference so that the wall of the shaft always remains wet and the fat dries less. The frequent switching on and off, which also results from the small level difference, promotes the clarification of the waste water, and this reduces the risk of putrefaction

A further advantage of the arrangement is that the medium can also be stirred without the promotion of liquids.This eliminates a disadvantage of the conventional systems, namely that the pump in the house collection shafts is switched on relatively rarely, which means that the waste water located there is rarely stirred up, which is what leads to putrefaction and prevents the clarification process. The solution shown enables the machine unit to be switched on at certain time intervals without wastewater being pumped out of the system dry state, and the periodic stirring up significantly speeds up the wastewater treatment process

FIG. 4 shows a configuration of the machine unit according to the invention which differs from the conventional one, and FIG. 5 shows a fundamentally new form of the Ubeφump shaft, realized with the aid of this machine unit. FIG. 4 shows the machine unit 1 already shown in FIG. 1 in a horizontal arrangement, ie Sole 15 is installed parallel to the axis of rotation of machine unit 1. As a result, pump 3 and stirrer 4 operate at the same height, which on the one hand combines the advantages of the two solutions already described above and on the other hand with other advantages which have so far not been achievable with any other system connected is

As can be seen from FIG. 5, the machine unit arranged in this way can be operated continuously even at a very low liquid level (min 1), because the cooling of the motor 2 is ensured as a result of the horizontal arrangement. At the same time, part of the blades of the stirrer 4 move in the air , and as a result, an intensive mixing of the wastewater with air is also achieved with this arrangement, it is possible to switch on and off at regular intervals regardless of the liquid level, which not only ensures that the medium is stirred, but at the same time that it is aerated In comparison with the previous systems, this is a fundamental novelty and an extraordinary advantage because the Ubeφumpsystem already performs part of the wastewater treatment. The cleaning effect can be further increased by the injector 24 shown in FIG. 4. The injector 24 sucks in the medium on its widening side and prints it, accelerated by the Ruhrer 4, out on its narrower end and in this way produces, in addition to the ventilation, an extremely intensive flow of liquid. The ventilation effect can be increased even more when the injector 24 is turned on

Air inlet pipe 25 is connected. This ensures that ventilation also takes place when the liquid is at the highest (max 2) level shown in FIG. 5, because the air inlet pipe 25 always protrudes beyond the liquid level and the introduction of air at every liquid level. ie an intensive mixing of waste water and air is guaranteed

6 shows a further embodiment of the machine unit according to the invention. Here, the shaft of the motor 2 - in contrast to the solution shown in FIG. 1 - is only angled in one direction, and on this elongated shaft stub 7 is above of the impeller 6 of the pump 3, a stirrer 4 is also attached. In the plane of the impeller 26 of the stirrer 4, the housing of the machine unit 1 is provided with openings 27.

This embodiment has the advantage that only a single axis sealing point has to be attached in the machine unit 1. The stirring in this embodiment is generally softer and more uniform than in the other variants.

If the embodiment shown in Fig. 6 is used in the reverse position, stirring and suction take place in the upper part of the medium, i.e. the solidification and adherence of the fats and oils can be effectively countered.

Also shown in FIG. 7 is an embodiment in which the shaft of the motor 2 is only extended in one direction, here the pump 3 is closer to the motor 2 and the stirrer 4 is attached to the stub shaft 7 further away from it. In this case, the stirrer 4 is a rotating basket 28, on the jacket and base of which there are ribs 29. The openings 30 formed in the jacket, which at the same time form the feeding opening of the pump, filter the inflowing medium, so that the rotating basket 28 performs two functions at the same time: it stirs and filters the medium surrounding the machine unit 1. A further advantage is that the stirrer 4 keeps the lumpy material away from the baby's mouth, i. H. reduces the size of the particles flowing into the pump. This effect can be further enhanced by attaching 30 guide elements, for example inclined plates, to the front side of the openings when viewed in rotation. The casing of the rotating basket 28 can be cylindrical, but can also have a different, for example polygonal, cross-section.

If the machine unit is arranged in the shaft in the position reversed with respect to FIG. 7, pumping and stirring also take place here in the upper region of the medium and prevent the formation and adhesion of the fat layer to an increased extent. In the embodiment shown in FIG. 8, the container is as a waste water collector

Container 17 formed and provided with a lid 23. A waste water inlet pipe 18 is located in its side wall, and an inclined bottom plate 31 is attached to its bottom. On the base plate 31 there is the pump 3, the pressure connection 9 of which is connected to the sewage pipe 19 of the container 17. At the end of the pump 3 facing away from the pressure connection 9 there is a stirring disk 12 which, in this embodiment, is the turbulence-generating element which moves the liquid in the container 17. In the embodiment described here, the pump 3 is not arranged directly on the base plate 31, but on an insert located on the base of the container 17. This insert is shown in Fig. 9.

The insert 32 is essentially a container 33 provided with a cylindrical jacket, the inclined bottom plate of which is adapted to the bottom plate 31 of the container 17. The container 33 is provided with a handle 34, by means of which it can be inserted and removed. According to an expedient embodiment, the base plate of the container 33 is provided with a cutout corresponding to the shape of the pump 3, so that the container 33 can be removed without having to move the pump 3.

The inside of the jacket is provided with a roughened surface 35. The roughened surface can be of any design. Some examples are shown in Figures 10-14. Fig. 10 shows a file-like rough surface in section, Fig. 1 1 shows a sawtooth-like roughness. 12a, 12b and 13 illustrate surfaces roughened by perforation. The area depicted in FIG. 12 resembles a vegetable slicer in which the perforations are provided with cutting edges.

A pointedly perforated surface is shown in FIG. The perforated surfaces are always designed so that the sharp burr of the perforation faces the liquid space. 14 shows a surface roughened by hooks, the hooks having the same shape as the hooks of the so-called Velcro fasteners.

The roughened surface can optionally be directly the inner surface of the container 17, but it is also possible to attach the roughened surfaces to special guide elements. It is apparent that the system shown in Figs. 8-14 other than those shown

Examples can be realized in numerous other forms. The pump used can be a simple liquid pump, a slurry pump or a grinding pump. A pump with a stirring disk is particularly preferably used in sewage shafts (FIG. 8). In this case, it is advisable to arrange the pump horizontally or on an inclined plane, the stirring disk pointing downwards in the latter case. However, it is also possible to arrange a pump of this type vertically, with the stirring disk located at the bottom. In addition to the turbulence-creating elements, numerous other solutions can be used, depending on the local conditions and requirements

There are also countless possibilities for the design of the tearing and shredding elements. The roughened surfaces can be attached to the container walls that delimit the water space, but also to guide elements or other elements or to the outer surfaces of the pump

The system according to the invention works as follows

The liquid to be treated or to be pumped generally enters the container discontinuously through the inflow opening. As can be seen from FIG. 8, the pump between the maximum and the minimum level is actuated by a float switch. As long as the pump is operating, the one in the container is activated Liquid from the agitation disk is stirred intensively, and the stucco materials and impurities in the liquid are constantly crushed on the roughened surfaces.This leads to a homogenization of the liquid, a comminution of the coarse impurities, while the pump removes the liquid from the container

By means of the solution according to the invention, demands and over-pumping of multi-phase wastewater, liquids containing stucco materials can be carried out with little maintenance effort, minimal human intervention and great operational safety the system can be kept clean with a minimum of energy. Settling and sticking of fats and similar substances is prevented, the lumpy material is crushed, ie the wastewater is homogenized and treated before being pumped. The stirrer assembled or used separately with the pump is moved the liquid intensely and strikes it on the appropriately designed tearing and comminuting elements, whereby the stucco substances which are entrained by the water flowing at high speed are loosened and comminuted by using the The system according to the invention can significantly reduce the energy to be used for stirring, moving the liquid and the maintenance costs of the device. The device operates extremely reliably, since damage to the shredding, homogenizing elements is practically impossible

It can be seen from the exemplary embodiments shown in FIGS. 1-7 that the combinable device according to the invention guarantees numerous advantages in comparison with the conventional solutions. In the machine unit, the stirring, pumping and, if appropriate, also the aeration of the medium can be carried out simultaneously any arrangement can be used, ie can be attached at one end of the motor or at both ends according to the requirements, and the entire machine unit can be operated with optimum efficiency both in the vertical and in the horizontal position

The solution according to the invention thus ensures a machine unit or system which can be essentially assembled from module elements and which at the same time provides several functions with very good efficiency.The machine unit and the system containing it are self-cleaning, require practically no human intervention, are reliable, and their investment and operating costs are relatively small Use in wastewater treatment and drainage systems enables the wastewater to be pumped, over-pumped and partially cleaned at the same time. Stirring of the multi-phase medium in the collecting shaft prevents one of the phases from accumulating to an undesirable extent

With the solution according to the invention it is also possible that the machine unit containing the pump is not only put into operation when the specified level is reached, but the Ruhrer located in the machine unit can be switched on at regular intervals without the pump becoming defective the treatment of the wastewater in the shaft is decisively improved, since in this way the frequency of stirring and aeration does not depend on the speed of the wastewater supply, but can be stirred and aerated at regular intervals

The solution according to the invention makes it possible for the first time that the wastewater is additionally intensively aerated during the regular or regular stirring and pumping For all these reasons, the machine unit according to the invention or the systems containing them is significantly more effective than the previous solutions of a similar character and ensures that economically operable systems are scanned.

Of course, the exemplary embodiments described only serve to illustrate the idea of the invention. The invention itself can be implemented in numerous other variants within the scope of protection defined by the claims.

Claims

claims

1 device primarily for demanding multi-phase media, for example wastewater, which has a pumping machine unit, which is arranged in a common housing and separated from one another in a sealed manner and contains an electric motor and a hydraulic unit fastened to its shaft, characterized in that it has a further hydraulic unit Has unit, the hydraulic units being attached to one end or both ends of the shaft of the electric motor (2)

2 device for collecting and / or treating and conveying liquids, multi-phase systems or liquids containing stucco materials, primarily wastewater, which has a container with an inflow and discharge opening as well as with a pump arranged in the liquid space and also with turbulence-generating elements, whereby the pressure port of the pump is connected to the discharge opening of the container, characterized in that the turbulence-generating element is a mechanical stirrer (4), and tear and comminution elements designed as roughened surfaces (35) are present in the liquid space

3 from collecting and discharging multi-phase media, primarily waste water, which has a container provided with a waste water inlet and a waste water discharge pipe and in the container a pump machine unit, the pump machine unit being arranged in a common housing and separated from one another in a sealed manner contains an electric motor and a hydraulic unit fastened to its shaft, characterized in that the pump machine unit (1) has two hydraulic units and these are fastened on one end or on both ends of the shaft of the electric motor (2) and the shaft of the electric motor ( 2) is arranged horizontally or includes an acute angle with the horizontal. 4 Device according to claim 1, characterized in that the one hydraulic

Unit is a pump (3) and the other a Ruhrer (4)

5 arrangement according to claim 4, characterized in that the pump (3) and the Ruhrer (4) are on the same side of the motor

6 arrangement according to claim 4, characterized in that on one side of the motor (2) the pump (3), on the other side of the Ruhrer (4)

7 device according to claim 6, characterized in that the pump (3) has one or more rotating comminuting elements on the shaft of the motor (2) 8 arrangement according to claim 6, characterized in that the pump (3) is provided with one or more standing crushing elements attached to the pump housing

9 rupture according to one of claims 2-8, characterized in that the Ruhrer (4) from at least one, delimited by flat and / or curved surfaces

Washer (12)

10 rupture according to one of claims 2-8, characterized in that the Ruhrer (4) is designed as a rotating basket, on the jacket and / or bottom of which there are openings 1 1 rupture according to claim 9 or 10, characterized in that on the

Ruhrer (4) current-waking elements and / or shredding elements

12 device according to claim 11, characterized in that the current-generating elements and / or comminuting elements are ribs, projections, depressions, wings, knives or grooves. 13 Device according to one of claims 2-12, characterized in that the

Ruhrer (4) is provided with a conical injector (24), the axis of rotation of which coincides with the axis of rotation of the Ruhrer (4), and there is an annular gap between the larger diameter edge of the injector (24) and the Ruhrer (4) is 14 device according to claim 13, characterized in that an air supply pipe (25) connects to the jacket of the injector (24)

15 device according to one of claims 4-14, characterized in that the pump (3) in the direction of its pressure port (6) is arranged to rise

16 device according to one of claims 3-15, characterized in that in the container (17) as roughened surfaces (12) there are tearing and comminuting elements

17 device according to claim 16, characterized in that the roughened surfaces (12) are file-like or provided with hooks or saw teeth or perforated surfaces, the sharp burr of the perforation facing the liquid space

18 device according to claim 2 or 16, characterized in that the roughened surfaces (12) are on the wall delimiting the liquid space 19 device according to claim 2 or 16, characterized in that the roughened surfaces (12) are located on elements arranged in the liquid space

20 device according to claim 2 or 16, characterized in that the roughened surfaces (12) are located on the inner or outer surface of the pumping machine unit (1)