DE102016200909A1 - vent - Google Patents

Abstract

The invention relates to a system comprising a container (1) and an assembly (9). The arrangement (9) has a centrifugal pump (10) which is arranged in the container (1). The centrifugal pump (10) conveys a medium into a conduit element (14). Between the conduit member (14) and a component (27), a gap (29) is arranged for venting.

Description

The invention relates to a system comprising a container and an arrangement having a centrifugal pump which is arranged in the container, wherein the centrifugal pump promotes a medium in a conduit element.

Such systems may be designed in particular as sewage lifting systems. These drain water, which accumulates below the backflow level, from the backflow. They are used to extract sewage-free and faecal wastewater from cellars in residential buildings. In a container, the wastewater is collected. The level is usually detected by a level sensor. If a certain limit is reached, a centrifugal pump turns on, which promotes the waste water from the container.

The container has a receptacle for an arrangement. The assembly, which includes a centrifugal pump driven by a motor, dips into the wastewater. The engine protrudes from the container. The impeller of the centrifugal pump is surrounded by a housing part.

The DE 10 2007 008 692 A1 shows a wastewater lifting plant with a container in which collects wastewater. At the top of the container an opening is provided into which projects an assembly having a centrifugal pump with a motor. The centrifugal pump comprises a housing part in which an impeller is arranged. The housing part with the impeller projects into the wastewater. The wastewater is sucked in via a suction nozzle and conveyed out of the container by the centrifugal pump. The motor of the assembly is connected to the impeller via a shaft.

The arrangement, consisting of the pump housing with the impeller and the motor connected via a shaft, forms a unit. The engine part protrudes from the container. The arrangement is supported by flange rings or plates. Between the flange rings or plates and the container sealing devices are arranged so that neither sewage nor unpleasant odors from the container to escape outside.

In the DE 199 13 530 A1 a wastewater lifting plant is described with a container that receives liquid that flows at irregular intervals and with different amounts of the container. The system comprises an arrangement with a pump and a drive part. By the pump liquid is transported from the container into a sewer network. The pump housing with the suction nozzle protrudes into the container. The drive part of the pump protrudes out of the container.

In systems with self-priming pumps, which are integrated into a container, often accumulates in the air pump. Therefore, a vent is required, which serves for the removal of gas or air accumulation and thus allows the necessary filling with a pumped medium before starting the centrifugal pump.

In conventional sewage pumps venting is ensured for example by open lines with a correspondingly large diameter The occurring leakage water flow is accepted or returned to the inlet chamber. If centrifugal pumps are installed above the suction-side water level and their suction line has a foot valve, they are filled manually by means of a hopper on the pump suction nozzle or via a ventilation system, provided they are not self-priming.

Especially at the first start-up and at low levels of the container, the pump room can partially or completely fill with air. The accumulated air must be removed before or during the start of the system.

In conventional systems of the prior art, for example, this is achieved by means of bores which are arranged so that they either lie inside the container or are connected to the container via a hose or the like.

In the DE 29 13 967 A1 a wastewater lifting plant is described, in which a bore is arranged in a main chamber cover plate, which is followed by a nozzle, which is connected to a pump vent hose. The pump vent hose opens into a manifold screwed to the pressure flange of the centrifugal pump.

In the DE 29 13 970 A1 a wastewater lifting plant is described with a container for the storage of irregular wastewater. The sewage lifting unit comprises a pump that is driven by a vertical shaft. The pump housing includes a venting device that provides protection against solids plugging of the wastewater.

Frequently, bores for venting are installed in the pressure line in conventional systems. This can lead to clogging of the vent holes, especially with fibrous solids.

If the vent is placed in the room behind the impeller, backfill impellers may create a negative pressure, drawing air.

The object of the invention is to provide a system which has a reliable operation and the highest possible efficiency, even in the promotion of solids-containing, especially fibrous media. The system should be characterized by the simplest possible construction and be less susceptible to interference. Furthermore, the system should be as inexpensive to produce and have only the lowest possible operating costs.

This object is achieved by a system with the features of claim 1. Preferred variants can be found in the subclaims, the descriptions and the drawings.

According to the invention, a gap for venting is arranged between a line element of the system and a component. Thus, no additional vent holes are required to vent the centrifugal pump in the construction of the invention. The gap between the conduit element and the component is preferably annular. It proves to be particularly advantageous if the conduit element and the component have a circular cross-section or are formed like a hollow cylinder.

Through the annular gap for venting enters a leakage current that creates a liquid carpet.

In the construction according to the invention no seal is required between the conduit member and the component. As a result, a simple and reliable construction is created, which ensures reliable ventilation of the system, thereby ensuring a high efficiency of the system. Compared to conventional systems, no bores can be clogged with solids in the annular gap venting device according to the invention.

In a particularly favorable variant, the line element and the component are arranged at a distance from one another. For this purpose, the transition of the line element and the component is used, so that a defined annular gap is formed.

Preferably, they have an axial and / or radial distance from one another. The distance is in a favorable embodiment less than 2 mm, preferably less than 1 mm, in particular less than 0.5 mm. It proves to be particularly advantageous if the distance is more than 0.01 mm, preferably more than 0.05 mm, in particular more than 0.08 mm.

It proves to be particularly advantageous if the conduit element and / or the component has a surface delimiting the gap, which is not flat. For this purpose, for example, recesses can be introduced into the abutting end faces of the conduit element and / or component. Such a construction ensures a reliable venting, without it being possible for the capillary action of the medium or the surface tension to reduce the venting effect of the gap. In a variant of the invention, the annular gap has one or more notches. The notches are formed by the introduction of recesses in the conduit element and / or the component immediately adjacent thereto.

The recesses in the conduit element and / or the component immediately adjacent thereto may have different shapes, for example angular, round, half, triangular and / or rectangular.

In a variant of the invention, the line element is designed as a discharge nozzle into which the centrifugal pump delivers the medium. The component can be designed as a flange bearing plate. The flange bearing shield includes a passage that is used as a pressure line. The transition of the two parts is designed as a blunt impact of two cylindrical pipe sections and is located inside the container. This creates an annular gap that can be used as a vent and at the same time generates a planar flow in the manner of a fluid carpet. In a particularly advantageous embodiment of the invention, the gap is aligned so that a leakage flow from the gap flows against an element which is arranged in the container. This may, for example, be the float of a level control. The liquid carpet is used to prevent or remove deposition on the level measuring device.

Preferably, the arrangement is designed as a pump unit, in particular centrifugal pump unit, and forms a unit that can be completely assembled or disassembled.

It proves to be advantageous if the engine is at least partially disposed outside of the container. In one variant, the engine is completely positioned outside the container.

The impeller of the centrifugal pump is connected via a vertical shaft arrangement with the motor.

Further features and advantages of the invention will become apparent from the description of an embodiment with reference to drawings and from the drawings themselves.

Showing:

1 a perspective view of the container of the plant,

2 a side view of the arrangement,

3 a perspective view of the arrangement from below,

4 a sectional view of the plant,

5 an axial section through the container,

6 shows a partial enlargement of the area B from 5 ,

1 shows a container 1 a wastewater lifting plant. In the exemplary embodiment is a plastic container, which is designed for a non-pressure operation. Accumulating wastewater is in the container 1 cached and then transported to a sewer.

The container 1 has a higher trained in its height range with two inlets 2 on and one of the height trained lower area. Furthermore, the container 1 a drain connection 3 and a hand hole 4 which is closed by a lid which in 1 not shown

In 1 is the one out of the container 1 outstanding part of a sensor module 5 to recognize, which is executed in the embodiment as a level measuring device for detecting the level. For example, a float switch is used.

Furthermore, the container 1 a vent port 6 on. About one on the container 1 arranged sequence is that in the container 1 collected wastewater conveyed out.

The height of its lower part of the container 1 has a recording 8th for an in 2 illustrated arrangement 9 on. The recording 8th is in the embodiment as a circular opening at an upper side of the container 1 executed.

In the 2 illustrated arrangement 9 includes a motor 13 and a centrifugal pump 10 with a first housing part designed as a spiral housing 11 as well as a pressure cover designed as a further housing part 12 ,

To a conduit element 14 closes a pipeline 15 for the removal of the in the container 1 collected medium. The pipe element 14 is designed as a discharge nozzle.

At the in 2 variant shown, the arrangement has a further vent 30 on, which is provided in addition to the annular gap. The vent 30 is above or at the height of an impeller 24 in the first housing part 11 arranged. The vent 30 is executed in the embodiment as a aligned arrangement of openings in an area 25 of the first housing part 11 and in a region of the further housing part 12 are introduced, which is designed as Druckdeckeleinpass.

Gases in the pump escape through the vent 30 and thereby flow through the first opening in the first housing part 11 and then through the parallel thereto aligned second opening in the outer further housing part 12 in the container 1 ,

3 shows a perspective view of the arrangement from below. The order 9 has a cutting unit 16 for comminuting solid components of the medium. Through openings 17 in a housing part 18 the medium flows into the centrifugal pump 10 , The housing part 18 is designed as an impeller body. The further housing part 12 has areas 19 on, with which the arrangement rests on the upper container wall.

4 shows a longitudinal section through the sewage lifting unit. The order 9 lies with area 19 , which are formed by the further housing part, on an upper container wall. With fasteners 20 is the arrangement 9 with the container 1 connected. At the fasteners 20 For example, it can be screws.

The motor 13 is from a motor housing 21 surround. At the engine 13 it is an electric motor that has a stator and a rotor. The motor 13 drives a wave 22 on, by a bearing assembly 23 is supported.

The wave 22 is with an impeller 24 connected.

Through openings 17 the medium flows into the impeller 24 to. The impeller 24 is from a first housing part 11 surrounded, which is designed as a spiral housing. The first housing part 11 has an area 25 on, which is formed in the embodiment as Laufradeinpass. Furthermore, the first housing part 11 a suction area 26 on. The intake area 26 is formed like a hollow cylinder and at least partially surrounds the cutting unit 16 ,

The impeller 24 is designed as a radial impeller and promotes the medium Upper an angled conduit element 14 in a pipeline 15 ,

5 shows an axial section through the container 1 , The trained as a spiral housing first housing part 11 is with the line element designed as a pressure nozzle 14 connected. In the exemplary embodiment, the discharge nozzle is cast on the volute casing.

To the pipe element 14 closes downstream a component 27 at. The component 27 is part of a flange bearing plate in the embodiment 28 , The component 27 is designed as a passage, which is used as a pressure line.

6 shows a partial enlargement of the area B from 5 , Between the pipe element 14 and the component 27 becomes a gap 29 educated. The transition between the conduit element 14 and the component 27 is formed in this embodiment after the manner of a blunt impact. The pipe element 14 and the component 27 are spaced from each other. Preferably, they have an axial and / or radial distance from one another. The distance is in a favorable embodiment less than 2 mm, preferably less than 1 mm, in particular less than 0.5 mm. It proves to be particularly advantageous if the distance is more than 0.01 mm, preferably more than 0.05 mm, in particular more than 0.08 mm.

In the area of the transition point the conduit element 14 and the component 27 hollow cylindrical pipe sections, which form an annular gap to each other by an axial and / or radial spacing.

LIST OF REFERENCE NUMBERS

1

container

2

inlets

3

drain connection

4

cover

5

sensor module

6

exhaust port

8th

admission

9

arrangement

10

rotary pump

11

first housing part

12

further housing part

13

engine

14

line element

15

pipeline

16

cutting

17

openings

18

housing part

19

areas

20

fastener

21

motor housing

22

wave

23

bearing arrangement

24

Wheel

25

Area

26

suction

27

component

28

the flanged

29

gap

30

vent

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102007008692 A1 [0004]
• DE 19913530 A1 [0006]
• DE 2913967 A1 [0011]
• DE 2913970 A1 [0012]

Claims (17)

Plant with a container ( 1 ) and an arrangement ( 9 ), which is a centrifugal pump ( 10 ), which in the container ( 1 ), wherein the centrifugal pump ( 10 ) a medium into a conduit element ( 14 ), characterized in that between the conduit element ( 14 ) and a component ( 27 ) A gap ( 29 ) is formed for venting. Plant according to claim 1, characterized in that the gap ( 29 ) is annular. Plant according to claim 1 or 2, characterized in that the conduit element ( 14 ) and the component ( 27 ) by axial and / or radial spacing to each other the gap ( 29 ) form. Plant according to claim 3, characterized in that the axial and / or radial distance between the conduit element ( 14 ) and the component ( 27 ) is less than 2 mm, preferably less than 1 mm, in particular less than 0.5 mm. Plant according to claim 3 or 4, characterized in that the axial and / or radial distance between the conduit element ( 14 ) and the component ( 27 ) is more than 0.01 mm, preferably more than 0.05 mm, in particular more than 0.08 mm. Installation according to one of claims 1 to 5, characterized in that the conduit element ( 14 ) and / or the component ( 27 ) one the gap ( 29 ) has a limiting surface that is not flat. Installation according to one of claim 6, characterized in that recesses on the line element ( 14 ) and / or on the component ( 27 ) are introduced. Installation according to one of the claims 6 or 7, characterized in that the gap ( 29 ) Has notches. Installation according to one of claims 1 to 8, characterized in that the conduit element ( 14 ) is designed as a discharge nozzle. Installation according to one of claims 1 to 9, characterized in that the component ( 27 ) Part of a flange bearing shield ( 28 ). Installation according to one of claims 1 to 9, characterized in that the conduit element ( 14 ) and / or the component ( 27 ) have tubular regions. Installation according to one of claims 1 to 11, characterized in that the gap ( 29 ) is aligned so that a leakage flow from the gap ( 29 ) an element flows into the container ( 1 ) is arranged. Installation according to one of claims 1 to 12, characterized in that the gap ( 29 ) is aligned so that a leakage flow from the gap ( 29 ) an element of a level measuring device flows against. Installation according to one of claims 1 to 13, characterized in that the vent acts in the radial direction. Installation according to one of claims 1 to 14, characterized in that the engine ( 13 ) at least partially, preferably completely, outside the container ( 1 ) is arranged. Installation according to one of claims 1 to 15, characterized in that the engine ( 13 ) via a vertical shaft ( 22 ) with the impeller ( 24 ) of the centrifugal pump ( 10 ) connected is. Installation according to one of claims 1 to 16, characterized in that the container ( 1 ) a recording ( 8th ) for the arrangement ( 9 ) having.

Images