DE19647820C1 - Dewatering sludge from vehicle using skip - Google Patents

Abstract

Dewatering sludge from vehicle washing plant sedimentation tank comprises using a skip (1) and pump to extract waste from the tank below. The skip is filled to a maximum level (H). Here separation takes place under gravity and water containing a low proportion of solids is recycled back to the settling tank. A line is fed up and over, and into the skip. In this arrangement, the terminal section (4a) of the line (4) reaches into the upper filling region (1b) during operation. Before taking the skip away, the line is removed from it. The discharge (5) point of the end section is below the maximum filling level (H). When the pump is switched off, reverse flow can take place, siphoning water from the upper level (1b), back into the settlement tank. This leaves a minimum level (T) at the same height as the end section discharge (5).

Description

The invention relates to a device for drainage of sludge, especially sludge from settling tanks of vehicle washes, with a transport con tainer and with a pump, by means of which the Mud from the deeper than the container Sedimentation container via a line into the container is pumpable to a maximum level at which the festival separation of substances takes place by gravity and from the separated backwater with a lower solids Share is recyclable in the settling tank, wherein the line runs over the top of the container.

When separating solids in wastewater pretreatment plants produce aqueous sludges due to operation different consistency, e.g. B. from the mud trap or the separator of vehicle washing systems. For Redu Decorating the amount of residue is a drainage of this Sludges for recycling or disposal necessary. Solids are usually separated off by filtration. With this filtration the Separation of water mostly by gravity, since the Use of gravity filters the technically simplest Type of sludge dewatering is. With a known Device for dewatering sludge at the beginning mentioned type (see offer drawing "system diagram" Kugler GmbH, D-71149 Bondorf, dated May 15, 1995, as well as DE 23 20 350 C1 and DE 32 31 186 C1) comes in Transport container (standard container) as usual way to collect and transport any residual and Waste is used. In this transport container is a filter basket that from a tubular steel frame, welded perforated sheets  and a filter cloth attached to it. At the Container bottoms are one or more, through valves lockable drainage connection provided over which the resulting filtrate (backwater) from the Container can be pulled off. This is about a separate return line returned to sludge trap. To drain the sludge, this is done using a Submersible pump from the sludge trap in the in the container pump basket located. When you reach one predetermined maximum levels in the container switches on Float switch the submersible pump and thus the other Sludge supply. The water contained in the mud penetrates the filter fabric and the perforated plates of the Filter basket and gets to the container floor from where from the water continuously through the drainage pipe is subtracted. If after a while that Has lowered the liquid level in the container again sludge pumped into the filter basket and the before Repeat the described process until the filter basket is essentially only filled with mud, that still contains small amounts of water. The container including the filter basket using a Drove the container transport vehicle to the landfill, emptied there and back to its installation site brought back. Such a special sludge however, watering container is required because of the Filter basket that can also be cleaned from time to time must, relatively expensive. Besides that is also the Container made to order, because it has to be on the ground have the mentioned drainage pipe, which with Valves must be provided so that during the Transportes can be closed. Furthermore are also the transport costs for sludge dewatering Container relatively high, since the container from  Installation site to the landfill and from there back to the site location must be returned. Subsequently the empty transport vehicle drives to another Customers. Through these empty runs, the transportation costs increased.

SU 1 182 000 A is a wastewater treatment plant known for car washes, in which the Pumping sludge from two settling tanks into one high-level dirt settling bunker is required. In the solid particles sink to the dirt settling bunker Bottom of the same. The debris hopper has one closable bottom opening through which the stepped Sludge can be emptied into a transport vehicle. Furthermore shows the waste bunker in its upper area an overflow over the separated backwater with a lower solids content in a return line can flow, which leads to one of the settling tanks. However, this known wastewater treatment plant has the Disadvantage that due to the required dirt settling bunker, which can be arranged above the transport vehicle must incur additional investment costs.

The invention is therefore based on the object Device for dewatering sludge at the beginning mentioned kind of creating that particularly easy in their structure is special and therefore mud can be drained inexpensively.

This is achieved according to the invention in that the Container-side end section of the line in operation state in the upper filling area of the container is sufficient and before the container is removed from it is removable that the mouth of the end section with Distance is arranged below the maximum level and  that the pump will flow back when switched off of liquid against the pump direction, such that when the pump is turned off, return water from the upper Filling area according to the suction lifter principle via the line can flow back into the settling tank until in the container a lowest level at the mouth of the end section is reached.

The new device is particularly simple to open construction. A standard container can be used as a container ner, as usual for collecting and transporting of waste or valuable materials is used, ver be applied. In addition to the usually anyway existing suction pump, with which the sludge from the Ab can be pumped into the container it only required that from the pump to the container leading line on the container side with a special designed end section to be provided when commissioning the device simply hung on the edge of the container can be and before transporting the container from Container edge is removed. Using the submersible pump from time to time sludge will come out of the settling tank pumped into the container until the liquid in it has reached the highest level. The coarser and heavier solid parts of the sludge sink after that turn off the submersible pump to the bottom of the container where through the water in the upper part of the container has a lower solids content than that of the previous Submersible pump water-sludge pumped into the container mix. This water with a lower solids content can now do the same with the pump off Pipe with which the water-sludge mixture was previously in the container was pumped to the bottom of the settling tank flow back where due to gravity again the solid parts at the bottom of the settling tank  settle and then pumped back into the container later will. However, since only backwater with a small amount Ren solids content from the upper filling area of the Containers flows back into the settling tank sets gradually more and more solid builds up in the container, until the solid has almost reached the lowest level and almost to the mouth of the end section extends. After removing the end section, the The container is moved away and its contents are disposed of. However, since the transport vehicle has a new standard container can put in the place of the filled container, before the filled container is moved away Avoid empty runs of the transport vehicle and the Sludge disposal can be done more cheaply be than before. Should that still be with mud filled containers with existing residual water during the Ent problems, then this could be before the Removal removed by additional measures by, for example, ver a few days can evaporate without again a water-sludge mixture to pump into the container. Maybe the rest could water also through that in the German patent application 195 45 633.5 described method by capillary be removed by force.

Advantageous refinements of the invention result from the subclaims.

The invention is in the following, based on in the drawing tion illustrated embodiments explained in more detail. Show it:

Fig. 1 is a schematic representation of a first imple mentation of the invention,

FIG. 2 is a variant of this,

Fig. 3 shows the design of the container-side Endab section.

In the drawing, 1 denotes a transport container, which is advantageously a standard container. In the settling tank 2 , the sludge-containing waste water, for. B. a car wash. The sludge can settle in the bottom area of the settling tank. In order to pump the sludge from the deeper than the container 1 arranged settling tank 2 into the container, a submersible pump 3 is easily seen, to which a line 4 is connected. This line 4 can advantageously be a hose line. The line 4 has a container-side end section 4 a, which is guided over the upper container edge 1 a. In the operating state, the container-side end section 4 a extends into the upper filling area 1 b of the container 1 . The mouth 5 of the end section 4 a is arranged below half the maximum level H, which the water-mud mixture can take in the container 1 . The level which is at the level of the mouth 5 is designated by the lowest level T. The end section 4 a is designed so that it can be removed from the container edge 1 a before the container is transported away. The pump 3 must be selected so that it allows a backflow of liquid against the Pumprich device P in the switched-off state.

As can be seen from FIG. 1, but in particular from FIG. 3, the container-side end section 4 a of the line 4 is formed as a U-shaped tube section. As can be seen from FIG. 3, it can be composed of several plastic pipe pieces and elbows. The end section 4 a is appropriately hooked on the edge of the container 1 a.

Furthermore, a removable from this float switch 6 can be advantageously provided in the container 1 , which switches off the pump 3 when the maximum level T is reached. This float switch 6 is expediently connected to the end section 4 a so that it can be removed together with this from the container 1 or reattached to the container.

Furthermore, a valve 7 can advantageously be provided, which is expediently arranged in the container-side end section 4 a. A pneumatically or hydraulically actuated pinch valve 7 is advantageously used as the valve, as shown in FIG. 3. Such a pinch valve contains a rubber hose, the through opening of which is completely closable when the nozzle 7 a is pressurized with compressed air or pressurized water.

The operation of the device according to the invention is as follows:
By means of the submersible pump 3, a What ser-sludge mixture is pumped from time to time via the line 4 in the container 1, until the liquid level has reached the maximum level H. The float switch 6 then switches off the pump 3 . Already during the Einpumpens and even after the pump switch off 3, coarse sinking and heavy solid particles b to the bottom of the container 1 and in the upper filling region 1 of the same is then EXISTING water containing the lower solids content than the water required in advance in the container 1 - sludge mixture. This water with a lower solids content can flow back after switching off the pump 3 according to the siphon principle through the end section 4 a and via the line 4 into the settling tank 2 until the liquid level in the container 1 reaches the lowest level T at the mouth 5 of the end section 4 a has reached. The pump 3 can be switched on once a day or, depending on the amount of sludge, several times a day, for. B. after a certain number of vehicles. The pump can also be switched on and off manually, if necessary, or depending on the time, provided the pump output is known. If you switch on the pump 3 over a period of time only for a certain time, then the container 1 is filled with water and sludge mixture until the maximum level H is approximately reached. You can also do without the float switch 6 in this way.

So that after switching off the pump the solids settle better in the container 1 before the water from the upper filling area 1 b of the container flows back into the settling container 2 , the valve 7 can be provided. This is closed after the pumping has ended and is delayed or only opened shortly before the pump is switched on again. However, in practical tests it was found that the device works well even without such a valve. At the latest when the sludge in the container has approximately reached the lowest level T, the end section 1 a is removed together with the float switch 6 from the container edge 1 a, so that the full container 1 can be replaced by an empty one, at the upper edge of which the end section then again 4 a is hooked in. The full container is then transported away for the disposal of the sludge. It is also possible to evaporate excess water that has accumulated above the settled sludge before being removed by not operating the pump 3 for a few days. However, practice has shown that the disposal of the largely water-free sludge presents no problems, even if there is still some water above the sludge layer.

That also various dene variations are possible to be shown with reference to FIG. 2. The components of the device according to the invention shown in the right half of FIG. 2 correspond to the previously described exemplary embodiment, which is why the same reference numerals have been used for parts of the same function and the above description applies mutatis mutandis. In addition to the first settling tank, a second settling tank 2 'is provided here, from which sludge is also to be removed and dewatered in container 1 . In this case, however, the container-side end section 4 'a of the line 4 ' ends above the maximum level H, so that the mouth 5 'is always above the water level. As a result, no siphon effect can occur. The drainage of the sludge contained in the container 1 is carried out exclusively by means of the pump 3 , the line 4 and its end section 4 a in the manner previously described. In this embodiment, the settling tank 2 is expediently used for settling the coarse sludge, while the water is finely cleaned in the settling tank 2 '. Here, similar to that described in European patent application 96 112 405.4, pre-cleaned water, which has accumulated in the upper part of the first settling tank 2 , can be transferred via an overflow line 8 into the second settling tank 2 'for subsequent cleaning. The two pumps 3 and 3 'are each switched on and off together so that only a single float switch b is required to control the pumps 3 and 3 '. Since no contaminated water can flow back into the settling tank 2 'via the line 4 ', the water accumulating in the upper part of the settling tank 2 'has a better quality overall and can be cleaned without further cleaning, e.g. B. non-contact washing devices of the vehicle wash are again leads.

Claims (11)

1. Device for dewatering sludge, in particular sludge from settling tanks of vehicle washing systems, with a transport container and with a pump, by means of which the sludge can be pumped from the settling tank arranged lower than the container via a line into the container to a maximum level is in which the solids are separated by gravity and can be returned from the separated backwater with a lower solids content to the settling tank, the line being led over the upper edge of the container, characterized in that the container-side end section ( 4 a) of the line ( 4 ) in the operating state extends into the upper filling area ( 1 b) of the container ( 1 ) and can be removed from the container before it is transported away, that the mouth ( 5 ) of the end section ( 4 a) is at a distance below the maximum level (H) is arranged and that the pump ( 3 ) in the switched-off state, a reverse flow n of liquid speed against the pump direction (P) allows such that when the pump ( 3 ) backwater from the upper filling area ( 1 b) according to the siphon principle via the line ( 4 ) in the settling tank ( 2 ) can flow back until in the container ( 1 ) a lowest level (T) is reached at the level of the mouth ( 5 ) of the end section ( 4 a). 2. Device according to claim 1, characterized in that the distance between the highest level (H) and the lowest level (T) at the level of the mouth ( 5 ) is approximately 15 to 20 cm. 3. Apparatus according to claim 1 or 2, characterized in that the container-side end portion ( 4 a) of the line ( 4 ) is a U-shaped tube section. 4. Apparatus according to claim 1, 2 or 3, characterized in that the end portion ( 4 a) on the upper container edge ( 1 a) can be suspended. 5. Device according to one of claims 1 to 4, characterized in that the end section ( 4 a) via a hose line ( 4 ) is connected to the pump ( 3 ). 6. Device according to one of claims 1 to 5, characterized in that a removable float switch ( 6 ) is provided in the container ( 1 ), which switches off the pump ( 3 ) when reaching the maximum level (H). 7. The device according to claim 6, characterized in that the float switch ( 6 ) with the end portion ( 4 a) is connected. 8. Device according to one of claims 1 to 7, characterized in that a valve ( 7 ) is arranged in the line ( 4 , 4 a). 9. The device according to claim 8, characterized in that the valve ( 7 ) in the container-side end section ( 4 a) is arranged. 10. The device according to claim 8 or 9, characterized in that the valve ( 7 ) is a pneumatically or hydraulically actuated pinch valve. 11. Device according to one of claims 1 to 10, characterized in that the transport container ( 1 ) is a standard container.