EP1068407B1 - Method and device for cleaning sewers continuously - Google Patents

Abstract

The invention relates to a device for cleaning a sewer or similar, especially a sewer-cleaning vehicle. The aim of the invention is to make the device as efficient as possible. To this end, a separating and cleaning device is provided. This separating and cleaning device takes up a mixture of dirt and water into the device whilst simultaneously discharging from the device sediments which have been separated off and cleaned.

Description

The invention relates to a method for cleaning a channel, wherein the channel is rinsed with water, containing the mixture of floating and suspended matter Dirt and water is sucked up, the suspended matter is separated from the water, cleaned and drained and the water containing floating substances in the channel is returned.

a) einer Spülvorrichtung zum Spülen des Kanals mit Wasser,

b) einer Ansaugvorrichtung zum Ansaugen eines Gemisches aus Schwimm- und Sinkstoffe enthaltendem Schmutz und Wasser,

c) einer Trenn- und Reinigungsvorrichtung zum Abtrennen und Reinigen der Sinkstoffe aus dem Gemisch aus Schmutz und Wasser,

d) einer Kammer zum Aufnehmen des die Schwimmstoffe enthaltenden Wassers,

e) mindestens einer Austragsöffnung für Sinkstoffe und

f) mindestens einer Auslaßöffnung für Schwimmstoffe enthaltendes Wasser.

The invention also relates to a device for cleaning a channel or the like

a) a flushing device for flushing the channel with water,

b) a suction device for sucking in a mixture of dirt and water containing floating and sinking substances,

c) a separating and cleaning device for separating and cleaning the suspended matter from the mixture of dirt and water,

d) a chamber for receiving the water containing the floating substances,

e) at least one discharge opening for suspended matter and

f) at least one outlet opening for water containing floating substances.

The dirt transported through the sewage system is a mixture of suspended matter in the essentially in the form of sand and floating materials, also known as organics such as faeces, sludge, paper, etc. The sediments settle on the channel floor and narrow the channel cross-section. Therefore, it is necessary to remove the sediments from the sewer.

The conventional sewer cleaning methods are very expensive. In a conventional process for sewer cleaning with a sewer cleaning vehicle, the sewer is first flushed with water under high pressure. The water used to rinse the sewer can be carried in a chamber of the sewer cleaning vehicle provided for this purpose or can be removed from the public supply network via a hydrant. The mixture of water and dirt in the sewer is sucked up by the sewer cleaning vehicle and received in a first chamber of the sewer cleaning vehicle. This first chamber is separated from a second chamber by an overflow weir. As soon as the water level in the first chamber exceeds the height of the overflow weir, the floating substances floating on the surface of the water flow into the second chamber. So there is a separation between sinking and floating materials.
Both chambers are provided with a water outlet so that the water can be drained from the chambers. The suspended matter and remaining floating matter are retained by sieves. When the chambers of the sewer cleaning vehicle are filled, the dirt picked up is taken to a landfill and disposed of there. Emptying the chambers into open containers at the site of the sewer cleaning vehicles is out of the question, since there is considerable odor nuisance due to the sediment contaminated with faeces.
This type of sewer cleaning is complex and expensive. On the one hand, high costs arise from the fact that the dirt cannot be stored as simple landfill material due to the contamination with faeces, but usually has to be disposed of as special waste. On the other hand, a sewer cleaning vehicle cannot be used permanently for sewer cleaning because it has to be emptied regularly at the landfill or at a depot.

In order to avoid these disadvantages, a method has been proposed in which the suspended matter is not only separated out but also cleaned, so that the cleaned suspended matter, in particular sand, can be emptied into a container at the place of use of the sewer cleaning vehicle.
For example, EP 0 769 593 A1 discloses a method and a device for carrying out this method, in which the loosened dirt is sucked up after the channel has been rinsed. The mixture of dirt and water is sucked up until the designated chamber of the sewer cleaning vehicle is filled. After the absorption process has ended, the water that has been sucked up is returned to the sewer. After this dewatering, a cleaning process is carried out in which the suspended matter is separated from the floating matter mixed with it in the form of faeces, paper, sewage sludge, etc. using water and air. The floating substances are discharged into a second chamber via an overflow weir. After cleaning is complete, there is only water and sand in the first chamber. This sand can then be emptied through a discharge opening, for example into a container at the location of the sewer cleaning vehicle.

This process has the major disadvantage that the cleaning process is comparatively complex and time-consuming. It is not possible to clean the dirt that has already been sucked in during sewer flushing and simultaneous suctioning, or to suck dirt out of the sewer during cleaning.
Since the sewer cleaning vehicle must first be completely filled with the mixture of water and dirt, a large part of the dirt sediments on the bottom of the chamber and solidifies. This makes subsequent separation and purification of the sediments considerably more difficult and the cleaning process is considerably extended. A cleaning of the sediments in such a way that at the end of the cleaning process they can either be disposed of in an inexpensive landfill or even recycled for building materials is not achieved in practice.
Another disadvantage is that a complex hydraulic system is necessary which rocks the container holding the chamber up and down in order to loosen the dirt which is fixed on the chamber floor during suction and is compressed after the suction has ended.

Compared to this prior art, the object of the invention is a device to create an efficient sewer cleaning with the lowest possible operating costs enables and with which in particular the disadvantages mentioned are avoided. It is also an object of the invention to provide a corresponding method for efficient To provide sewer cleaning, which is economical is significantly increased.

The object on which the invention is based is also achieved by a method of the type mentioned in the introduction, in which, simultaneously with the suction of the mixture of dirt and water containing floating and sinking substances, the sinking substances are continuously or intermittently separated, cleaned and removed in a separating and cleaning device ,
This ensures that a channel section to be cleaned can be carried out without any interruptions. This creates a considerable speed and cost advantage over the previously known methods.

This object is achieved in a device of the type mentioned in the the separation and cleaning device a cleaning container with an inlet for the mixture of dirt and water with one in the bottom area arranged outlet for cleaned sediments and with an overflow for Water containing floating substances.

A separator operating in this way becomes continuous or intermittent fed with the mixture of water and dirt through the suction device. During the loading process, the previously placed into the separation and cleaning device introduced dirt has already been separated into sinking and floating materials. At the same time, the sediments are cleaned and the cleaned ones Suspended matter continuously or intermittently from the separation device in, for example removed a container.

The floating substances separated from the sediments during the separation and cleaning are discharged together with the water into the sewage system. The water and the floating substances can also be drained off at the same time as the separating and cleaning device is loaded.
It is thus possible to continuously carry out the sewer cleaning at a place of use of the device until the sewer section is completely cleaned. This results in considerable time savings compared to sewer cleaning with previously known sewer cleaning vehicles.

An agitator is preferably arranged in the cleaning container and at least one inlet for fresh water is provided on the cleaning container.
The mixture of dirt and water is sucked up by negative pressure and, if necessary, reaches the cleaning container via an insertion funnel. As the suspended matter sinks in the cleaning tank, the floating matter collects on the water surface and is discharged via the overflow. The agitator mixes the suspended matter, whereby organics adhering to the suspended matter are detached from the suspended matter. The suspended matter is flushed out by fresh water that enters the cleaning tank through an inlet, the detached organics also being removed via the overflow.

In order to achieve an optimal cleaning effect, it is advantageous if the agitator is designed so that it extends to the discharge opening of the cleaning container. The inlet for the fresh water should also preferably be arranged in the bottom area of the cleaning container.
Alternatively, an air nozzle can be used in the area of the floor, the sediment being circulated by the air flow emerging from it. As a result, the floating substances are transported upwards and washed out via fresh water, which is additionally introduced into the cleaning container, via the outlet.

With this separation and cleaning device, a very high degree of purity can be achieved Achieve sediments, so that the discharged sediments on the landfill as building rubble can be deposited or used for building materials or in road construction.

It is also advantageous if a discharge conveyor is arranged obliquely upwards between the outlet for the cleaned sediments and the discharge opening, the discharge opening being above the maximum height of the water level in the cleaning container. As a result, the water present in the cleaned sediments can flow off during discharge, so that the sediments are dry to the touch after discharge.
A controller is preferably provided for such a discharge conveyor, which controls the drive of the discharge conveyor as a function of the amount of sediment deposited in the cleaning container. Such a quantity determination can take place, for example, via the force absorption of the agitator drive. The conveying speed of the discharge conveyor can also be set via the control so that the sediments are continuously discharged.

Furthermore, it is advantageous if the cleaning and separating device has a calming chamber for the mixture of dirt and water to be cleaned, with an inlet for the mixture of dirt and water connected to the suction device and with a conveying device for conveying sediment at the bottom of the calming chamber Has dirt at the inlet of the cleaning container. The mixture of water and dirt sucked in with high vacuum can be collected in this sedimentation tank before it reaches the cleaning tank. This is where the first separation of sediments that settle at the bottom of the sedimentation tank and floating substances that flow through the overflow can take place.
If the inlet of the cleaning container is arranged above the maximum water level of the calming container, the screw conveyor is directed obliquely upwards from the bottom of the calming container. In this case, the inlet of the cleaning container must be arranged above the overflow of the cleaning container so that the water to be discharged from the cleaning container runs over the overflow of the cleaning container and does not flow back into the sedimentation container. The screw conveyor can also be arranged essentially horizontally. In this case, the inlet of the cleaning container should be located above the area in which cleaned sand is sedimented and below the overflow of the cleaning container so that the mixture of dirt and water introduced into the cleaning container does not contaminate the cleaned sediments again. The overflow of the cleaning tank should also be above the overflow of the still tank.

The conveyor can be a screw conveyor. The conveyor can but also a substantially vertically arranged paddle wheel with at least have a blade that along the course of one revolution of the blade wheel the bottom of the calming chamber and via the inlet of the cleaning container is led away. A paddle wheel with two blades has proven to be practical proved.

In a further preferred embodiment, the device has an organic chamber on, with the overflow of the cleaning container opening into the organic chamber. The organic chamber is then separated from the calming chamber by a partition. Organics contained in the floating substances can be found in the organic chamber Water are contained, retained and discharged separately into the sewage system be, while the rest of the water containing floating substances through openings in the partition, which have a corresponding filtering effect, in the Calm chamber can cross. The organics collected in the organic chamber can either via an outlet opening, if necessary with the help of a pump, or with overpressure via a pipe system and the suction hose into the sewage system be returned.

It is also advantageous if the chamber and the cleaning and separating device are arranged in a container, where the container has a lid at one end has, and the cleaning container is held by the lid. Will the lid of the car is opened, the cleaning container from the inside is simultaneously pivoted out of the container so that the inner region of the container is freely accessible is.

Finally, the device for cleaning channels as an integral part of a Sewer cleaning vehicle mobile, preferably located on a vehicle his. However, it can also be designed as a detachable attachment for a carrier vehicle, so that it can be brought to the operational area and parked there and that Vehicle can be used for other purposes during the cleaning work. It is also conceivable that in addition to the sewer cleaning device, a container for Absorbing the sediments carried on the sewer cleaning vehicle or to the Sewer cleaning vehicle is attached.

Figur 1

zeigt ein Kanalreinigungsfahrzeug gemäß einer bevorzugten Ausrührungsform in Seitenansicht mit einem Teilschnitt;

Figur 2

zeigt eine andere Ausgestaltung des Kanalreinigungsfahrzeuges ebenso in Seitenansicht mit einem Teilschnitt.

The device according to the invention is explained below on the basis of a preferred exemplary embodiment.

Figure 1

shows a sewer cleaning vehicle according to a preferred embodiment in side view with a partial section;

Figure 2

shows another embodiment of the sewer cleaning vehicle also in side view with a partial section.

The sewer cleaning vehicle shown in FIG. 1 has a container 1 . This container 1 serves on the one hand as a chamber for receiving the water containing the floating substances and has an outlet opening 2 . Another outlet opening 3 is provided, which is provided with a filter drum 4 .

A separating and cleaning device is arranged in the container 1 . It comprises a calming tank 5 and a cleaning tank 6.
The calming container 5 can be fed via an inlet 7 arranged in its upper region. It has an outlet 8 for the dirt in its base area. In addition, an overflow 9 is provided for water containing floating substances.
The cleaning container 6 has an inlet 10 which is connected to the outlet 8 of the sedimentation container 5 via a conveyor device, here a screw conveyor 11 driven via a bevel gear with a hydraulic motor 32 . The conveyor can protrude into the inlet 10 of the cleaning container 6 , wherein it is not firmly connected to the cleaning container 6 . The cleaning container 6 also has an outlet 12 for cleaned sediments and an overflow 13 . Both the overflow 13 of the cleaning container 6 and the overflow 9 of the calming container 5 are arranged lower than the inlet 10.
In the cleaning container 6 , an agitator 14 with a centrally and vertically arranged shaft 15, which is driven by a bevel gear with a hydraulic motor 33 , is arranged. The shaft 15 carries a sieve 16 and stirring finger 17. In the area of the bottom of the cleaning container 6 , inlets for fresh water 18, 19 are provided.

At the outlet 12 of the cleaning container 6 , a discharge conveyor 20, here a screw conveyor is connected, which is directed obliquely upwards and protrudes beyond the container 1 . The discharge conveyor 20 is arranged in a tubular channel 21 and thereby separated from the container 1 . The channel 21 has a discharge opening 22 at its upper end. The discharge opening 22 can be closed by a closure flap 31 . The discharge opening 22 lies above the inlet opening of a container 23 arranged on the sewer cleaning vehicle. The discharge conveyor 20 is driven by a hydraulic motor 24 .

A suction hose reel 25 , which carries a suction hose 26, is arranged on the container 1 . One end of the suction hose 26 is connected on one side to an insertion funnel 27 which correlates with the inlet 7 of the calming container 5 . A flushing hose reel 28 for a high-pressure flushing hose 29 is arranged on the front side of the container 1 facing the driver's cab.

The side of the container 1 facing away from the driver's cab is closed with a pivotable cover 30 , the cover 30 carrying the cleaning container 6 .

After the high-pressure flushing hose 29 and the suction hose 26 have been drained side by side into the channel to be cleaned, the channel is flushed with water. At the same time, the container 1 is evacuated via a pump, not shown, so that a mixture of water and dirt is sucked up from the duct via the suction hose due to the negative pressure. The discharge opening 22 is initially closed by the closure flap 31 .
The mixture of water and dirt passes through a coarse sieve, not shown, in which larger stones or the like which have been sucked up are retained in order to protect the separating and cleaning device from damage. The water laden with dirt is then introduced into the sedimentation tank 5 via the funnel 27 and the inlet 7 . While the sediments sink in the sedimentation tank 5 , the floating substances collect on the water surface and are washed away via the overflow 9 . The suspended matter is conveyed by the screw conveyor 11 from the outlet 8 of the sedimentation tank 5 via the inlet 10 into the cleaning tank 6 .
In the cleaning container 6 , the sediments are stirred through the agitator 14 , the sediments rubbing against one another. The cleaning is enhanced by the fact that the stirring fingers 17 reach down to the bottom of the cleaning container 6 . The floating substances adhering to the suspended matter are separated off. In addition, the suspended matter by water which flows in through the inlets for fresh water 18, 19 in the cleaning tank 6, be flushed out. As a result of this flushing out, the separated organics are discharged as floating substances via the overflow 13 of the cleaning container 6 . When introducing the water into the cleaning container 6 , care must be taken that the upward component of the water flow does not exceed the sinking rate of the sinking substances.

As soon as a certain layer height of the settled sediments or a certain density of the sediments is exceeded and as long as it is not fallen below again, the cleaned sediments are transported with the discharge conveyor 20 from the outlet 12 of the cleaning container 6 to the discharge opening 22 , from where the sediments into the Container 23 are removed. During the discharge, the closure flap 31 is open. The control necessary for the operation of the discharge conveyor 20 can be dependent, for example, on the force absorption of the motor for the agitator 14 , provided the agitator fingers 17 extend to the bottom of the cleaning container 6 .

The sieve 16, which is arranged on the shaft 15 of the agitator 14 and is located within the settled sediments during operation, prevents the formation of a hopper by the discharge of the sediments.

The flowing over the overflow 13 from the cleaning tank 6 mixture of separated from the suspended matter floating materials and water is returned from the tank 1 through the outlet opening 2 or with overpressure via a pipe system, not shown, and the suction hose 26 directly into the sewage system. However, some of the water from container 1 can also be supplied to the inlets for fresh water 18, 19 after cleaning by the filter drum 4 as water for flushing out the floating substances from the sediments.

If the container 23 is full, it is completely emptied in a very short time using a hydraulic mechanism (not shown).

To clean or maintain the container 1 or the separating and cleaning device, the cover 30 of the container 1 is opened and, together with the pivoting of the cover 30, the cleaning container 6 is pivoted out of the container 1 . The calming container 5 remains in place, but can also be released from a locked position and removed from the container 1 .

The sewer cleaning vehicle shown in FIG. 2 differs from the previously described exemplary embodiment, inter alia in that the chamber 34 for receiving the water containing floating substances and the calming chamber 35 are arranged differently in the container 1 . The chamber 34 for receiving the water containing float lies in a front region of the container 1 and is only separated from the calming chamber 35 by a vertical partition 37 , the wall of the container 1 also being the wall of the calming chamber 35 . The partition 37 between the chamber 34 and the calming chamber 35 is provided with small holes so that water containing floating substances can pass from the calming chamber 35 into the chamber 34 , dirt being retained in the calming chamber 35 and sedimenting there.

The cleaning container 36 is arranged inside the container 1 in the area of the calming chamber 35 . So that sedimented dirt can be conveyed into the cleaning container 36 at the bottom of the settling chamber 35 , a vertically arranged paddle wheel 38 is provided which is rotatably mounted about an axis parallel to the longitudinal axis of the container 1 . It is driven by a motor system 44 , the rotational speed of the blades 39, 40 being adjustable. The blades 39, 40 of the blade wheel are arranged such that they are guided over the bottom of the calming chamber 35 and over the upwardly open inlet 41 of the cleaning container 36 when the blade wheel 38 is rotated under the cleaning container 36 which is formed in a funnel shape in its lower region. so that the sedimented dirt can be taken up from the bottom of the calming chamber 35 and introduced into the cleaning container 36 via the inlet 41 .

An organic chamber 42 is provided in the container 1 , which is separated from the calming chamber 35 by a partition wall 43 . The overflow 43 of the cleaning container 36 opens into this organic chamber 42 . In the organic chamber 42 , organic substances contained in the water containing floating substances are retained and discharged separately into the sewerage system, while the rest of the water containing floating substances passes into the calming chamber 35 via openings in the partition wall 43, which have a corresponding filtering effect can. The organics collected in the organic chamber can either be returned to the sewage system via an outlet opening, possibly with the aid of a pump, or with excess pressure via a pipe system (not shown) and the suction hose.
The container also has a fresh water chamber 45 arranged in front of the chamber 34 , which is separated from the chamber 34 by a partition wall 47 and is only connected to the latter via a filter (not shown). Through this filter, the water containing floating substances from chamber 34 can be processed in such a way that it can be reused from the fresh water chamber 45 either as fresh water in the cleaning tank 36 or via a high-pressure pump (not shown) for channel flushing. In order to protect the high-pressure pump from increased wear, the fresh water then passes through an additional filter 46.

With the exemplary embodiments described above, it is possible to use a sewer cleaning method perform, in which the channel is essentially flushed the dirt loosened by the sewer flushing is sucked out from the Soiled dirt, the sediments, especially sand, are separated and cleaned and the cleaned sediments are discharged into a container and the To return floating substances and the organics detached from the suspended matter to the sewer.

LIST OF REFERENCE NUMBERS

1

container

2

outlet

3

outlet

4

filter drum

5

surge tank

6

cleaning tank

7

Soak tank inlet

8th

Calm tank outlet

9

Calm tank overflow

10

Cleaning tank inlet

11

Auger

12

Outlet of the cleaning container

13

Overflow of the cleaning container

14

agitator

15

wave

16

scree

17

Agitator

18, 19

water supplies

20

discharge conveyor

21

channel

22

discharge

23

Container

24

hydraulic motor

25

suction hose reel

26

suction

27

feeding hopper

28

Spülschlauchhaspel

29

Hochdruckspülschlauch

30

cover

31

flap

32, 33

hydraulic motor

34

chamber

35

settling chamber

36

cleaning tank

37

partition wall

38

paddle wheel

39, 40

shovel

41

Inlet

42

Organikkammer

43

partition wall

44

motor activity

45

Fresh water chamber

46

filter

47

partition wall

48

objection

Claims (14)

1. A process for cleaning a sewer or the like, having the process steps:

   a) the sewer is rinsed with high-pressure water;

   b) a mixture of dirt and water containing floating and sinking materials is drawn out of the sewer into a tank of a tank arrangement;

   c) the sinking materials are separated from the mixture of dirt and water and cleaned in the tank arrangement;

   d) the cleaned sinking materials are removed from the tank arrangement; and

   e) the water containing the floating materials is fed back into the sewer;

   characterised in that the process steps b) and c) proceed simultaneously, and the process steps d) and e) proceed parallel thereto or intermittently therewith.
2. A device for cleaning a sewer or the like according to the process according to Claim 1, having

   a) a rinsing device for rinsing the sewer with water,

   b) a suction device for drawing off a mixture of dirt and water containing floating and sinking materials,

   c) a separating and cleaning device arranged in a tank (1) for the purpose of separating and cleaning the sinking materials from the mixture of dirt and water,

   d) a chamber for receiving the water containing the floating materials,

   e) at least one discharge opening (22) for sinking materials, and

   f) at least one outlet opening (2) for water containing floating materials,
   characterised in that

   g) the separating and cleaning device has a cleaning tank having an inlet (10, 41) for the mixture of dirt and water, an outlet (12) arranged in the base region for cleaned sinking materials and an overflow (13) for water containing floating materials.
3. A device according to Claim 2, characterised in that an agitator (14) is arranged in the cleaning tank (6, 36), and at least one inlet (18) for fresh water is provided on the cleaning tank (6, 36).
4. A device according to Claim 3, characterised in that the agitator (14) extends to the bottom of the cleaning tank (6, 36).
5. A device according to Claim 3 or 4, characterised in that the inlet for fresh water is arranged in the base region of the cleaning tank (6, 36).
6. A device according to one of Claims 2 to 5, characterised in that a discharge conveyor (20) directed obliquely upwards is arranged between the outlet (12) for the cleaned sinking materials and the discharge opening (22), the discharge opening (22) being located above the maximum water level in the cleaning tank (6, 36).
7. A device according to Claim 6, characterised in that a control means is provided for the discharge conveyor (20), said control means controlling the drive of the discharge conveyor (20) in dependence on the quantity of sinking material deposited in the cleaning tank (6, 36).
8. A device according to one of Claims 2 to 7, characterised in that the separating and cleaning device has an equalising chamber (5, 35) having an inlet, connected to the suction device, for the mixture of dirt and water and having a conveyor device for conveying dirt which has sedimented at the bottom of the equalising chamber (5, 35) to the inlet (10, 41) of the cleaning tank (6, 36).
9. A device according to Claim 8, characterised in that the conveyor device is a screw conveyor (11).
10. A device according to Claim 8, characterised in that the conveyor device has at least one substantially vertically arranged paddle wheel (38) having at least one paddle (39, 40), which, in the course of one revolution of the paddle wheel (38), is guided along the bottom of the equalising chamber (36) and past the inlet (41) of the cleaning tank.
11. A device according to Claim 10, characterised in that the paddle wheel has two paddles.
12. A device according to one of Claims 2 to 11, characterised in that an organic chamber (42) is provided, and the overflow of the cleaning tank (36) leads into the organic chamber (42).
13. A device according to one of Claims 2 to 12, characterised in that the chamber and the cleaning and separating device are arranged in a tank (1), the tank (1) has a cover (30) at one end, and the cleaning tank (6, 36) is supported by the cover (30).
14. A device according to one of Claims 2 to 13, characterised in that it is mobile, preferably located on a vehicle.

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