EP0959187A1 - Device for receiving and treating sludge - Google Patents

Abstract

The device is for sludge, collected during sewer cleaning. It has a barrel-shaped container (2) with collection chamber (4), and solids discharge with discharge device. Longitudinal conveyors (13) on either side of the device extend over the length of the chamber, and are activated independently of the device. Each conveyor has an associated channel (12) in the base of the chamber, and the channels are connected at the ends by cross-shafts. The length of the discharge device corresponds at least to the width of the cross-connection shaft next to the solids discharge.

Description

The invention relates to a device for recording and Treating a dirt substrate, especially when cleaning sewers absorbable sludge, with one with the dirt substrate actable, preferably in a barrel-shaped Container-housed, drainable dirt holding space, the solid outlet arranged near the ground in the area of one side has to which a dispensing member is assigned, by means of the solids of which can be transported out of the protective receiving space are.

A device of this type, by means of which in the dirt substrate contained sediments from the contaminating them Floating substances freed and discharged in a cleaned state can be found in German patent application 195 38 848 known. In this known arrangement, one is in the lower Apex area of the barrel-shaped dirt holding space continuous over the length of the dirt holding space screw conveyor assigned to the solids outlet provided when the solids outlet is open as a spreading device and otherwise as Mixing and movement organ acts through which the mixing and movement of the dirt substrate are supported. The lower vertex area of the barrel-shaped dirt holding space is here as a channel assigned to the screw conveyor educated. The side flanks of this gutter have a comparatively flat slope to a given clear width of the Dirt receiving room does not have a predetermined clear height exceed. The result of this is that on the side flanks Deposits can form, which is bad when mixed Mixing effect results and when spreading to the formation of vaulted Bridges can cause complete emptying is hindered.

It would be conceivable in the area of the flat side flanks Gutter vibrators should be provided to prevent the formation of deposits counteract. Such vibrators prove but proved to be very complex and prone to wear.

Based on this, it is therefore the task of the present one Invention, a device of the type mentioned with simple and to improve cost-effective means so that a high Operational safety and freedom from interference can be achieved.

This object is achieved in that the Discharge device independent of at least two in operation of which can be activated over the length of the dirt holding space continuous, lateral longitudinal conveyors flanked is, each one in the area of the floor of the dirt holding space arranged gutter is assigned, the gutters in front and rear end portions of the dirt holding space are interconnected by cross-connection shafts, and that the length of the discharge member is at least the width of the Solid exit corresponds to the adjacent cross-connection shaft.

This eliminates the disadvantages of the generic type described above State of the art while maintaining its basic advantages and mode of action avoided. There several, preferably two, over the length of the dirt holding space continuous longitudinal conveyors are provided, result in an advantageous manner without disadvantage for the capacity the dirt holding room is comparatively steep Side flanks of the longitudinal conveying members mentioned Channels, which counteracts the formation of deposits is used without the need for vibrators or the like would. In addition, the required drive torques are lower than with only a medium longitudinal conveyor. In mixed operation can promote the lateral longitudinal conveyors in opposite directions. in the The area of the end cross-connection shafts is the funded Transfer well from one longitudinal conveyor to the other, so that overall there is good mixing and intensive Movement of the content of the sludge receiving space results. Dead nests and the like not covered by the movement not to fear. When spreading, the two side Convey longitudinal conveyors in the same direction as the dispenser and act as a feeder for this.

Advantageous refinements and practical training of overriding measures are specified in the subclaims. So to create the cross-connection shafts simply in the front and rear end portions of the dirt holding space along the remaining length between the adjacent channels existing limit is missing. This is useful as a roof-shaped Tunnel bridge designed. This results in a receptacle housing in which the dispensing member is displaceable in the axial direction can be moved. This can ensure be that in mixed operation any hindrance to material movement is omitted. For spreading the cleaned solids can be extended so far that the assigned cross-connection shaft and far into one spreading nozzle that can be attached to the solids outlet, so that a reliable application is guaranteed.

Another appropriate measure may be that Discharge device and the lateral longitudinal conveyors as shaftless Screw conveyors are formed. This ensures that even comparatively large stones without the risk of constraining forces be promoted. There is also a shaftless screw no danger of infiltration, making the one to be overcome Resistance remains comparatively low, so that comparatively low drive torques are sufficient.

The lateral longitudinal conveying elements can expediently form Screws are driven at both ends, causing the Distortion and thus the stress even with a light construction can be kept within permissible limits.

Another advantageous measure can be that the the conveyor screws forming the lateral longitudinal conveyor elements Spreading operations are driven so that their upper peripheral halves towards the cross-sectional center of the dirt holding space rotate. This ensures that the outer flanks of the assigned channels are reliably cleared.

Further advantageous refinements and practical training the overriding measures are in the rest Subclaims specified and from the example description below can be seen from the drawing.

Figur 1

einen Querschnitt durch die Behälteranordnung eines erfindungsgemäßen Kanalreinigungsfahrzeugs,

Figur 2

einen Horizontalschnitt durch die Behälteranordnung gemäß Figur 1 bei Mischbetrieb und

Figur 3

einen Horizontalschnitt durch die Behälteranordnung gemäß Figur 1 bei Ausbringbetrieb.

In the drawing described below:

Figure 1

3 shows a cross section through the container arrangement of a sewer cleaning vehicle according to the invention,

Figure 2

a horizontal section through the container arrangement according to Figure 1 in mixed operation and

Figure 3

a horizontal section through the container arrangement according to Figure 1 during spreading operation.

The sewer cleaning vehicle on which the drawings are based contains a container arrangement accommodated on a vehicle chassis 1. This contains a middle, barrel-shaped container 2, the box-shaped one that extends across the entire width of the vehicle Container 3 is partially embedded. The box-shaped container 3 serves as a water tank for holding rinse water, by means of one of which is not shown here, is to be cleaned Channel lowerable clearing hose can be acted upon.

As shown in FIGS. 2 and 3, the barrel-shaped container 2 contains a dirt receiving space 4, in which the sewer cleaning Thrown-in dirt-water mixture thrown in from the sewer and a return chamber separated from it by an overflow weir 5 6, whose function is described in more detail below becomes. The container 3 acting as a rinsing water tank can also be used Water from the sludge receiving space 4 can be reloaded, if one is equipped with an appropriate cleaning device Reloading device is provided. How it works and the components of a sewer cleaning vehicle required for this are known per se and therefore need this Connection no longer explains.

The dirt introduced into the dirt holding space 4 is in Floating substances that are contaminants like Feces and the like, and in sediments where it are sediments such as sand, stones and the like, Cut. The floating substances that pose no danger to you Clogging a channel represent will be in the channel system returned. That of those formed by the floating substances Contamination frees sediments that clog a channel would be held back. These can be the result of their cleaning easily deposited on a landfill or as recycling material, for example, used in road construction, etc.

The dirt-water mixture introduced into the dirt-receiving space 4 is first drained. For this, the water drained through a water outlet 7. This water can either unexplained in the canal or after appropriate cleaning can be used as rinsing water. Then the remaining dirt is cleaned with a clean one Rinsed water, set in motion and preferably additionally charged with air. Through the movement and preferably exposure to air results in a flotation effect. Here, the floating substances separate from the suspended matter and float upwards, as indicated by arrows 8 in FIG. 1. The floating floating substances form one on the water surface overlying floating layer 9. If this level has reached the overflow edge of the overflow weir 5, the container 2 or here the whole container arrangement on the overflow weir opposite end slightly raised so that the Floating layer 9 over the overflow weir 5 into the return chamber 6 flows off. This can be seen from FIGS. 2 and 3 is provided with an outlet 10, the opening for Floating substances are permeable. Via the outlet 10, the content the return chamber 6 run or depressed and suitable Lines are returned to the channel.

The tilting process described above to remove the Floating layer 9 can be repeated several times. The flush with clean water is maintained until only clean water overflows into the return chamber 6.

For tilting the container arrangement, as FIG. 1 further shows, Lifting units 11 are provided, by means of which the entire Container arrangement can be raised. Expediently can on the front and rear end of the container assembly lifting units 11 are provided be so that a rocking movement can be achieved by which the movement of the contents of the dirt holding space 4 is supported. As another mixing and moving device are in the dirt holding space 4 two over its entire length continuous, in upwardly open, bottom-side channels 12 arranged screw conveyors 13 are provided. The two of each other are spaced channels 12, as in FIGS. 2 and 3 can be removed in the area of the front and rear ends of the Dirt receiving space 4 through cross-connection shafts 14 with each other connected and in between by one according to FIG. 1 roof-shaped tunnel web 15 separated from each other. This is through end plates 15a further shown in FIGS. 2 and 3 locked. To form the cross-connection shafts 14 is the Tunnel web 15 simply ends at the width of the cross-connection shafts shortened. The lateral flanks of the channels 12 rise comparatively steeply, as in Figure 1 by the angle α is indicated. At the same time, there is a comparatively large one lower width of the container 2, so that for a given clear height a comparatively large capacity is achieved.

The longitudinal conveyor screws 13 are designed as shaftless screws, that are driven at both ends, as by the indicated in Figures 2 and 3 drive units 16 is. These can be hydraulic motors. The shaftless design of the longitudinal screw conveyors 13 ensures that stones up to one corresponding to the screw pitch Diameters are easy to transport. It also ensures that the snails cannot be infiltrated what would increase the resistance.

The longitudinal screw conveyors 13 are reversibly drivable. To the Mixing and moving the contents of the dirt holding space 4 the two longitudinal screws 13 are driven so that opposite directions of funding arise. In the area of the cross-connection shafts 14 the conveyed goods are handed over, so that there is all-round funding. For introducing rinse water and air in the dirt holding space 4 are in one arranged in the upper container area manifolds 17, 18 outgoing, led down along the container wall Stub lines 19, 20 are provided, the ends of which also run into the channels 12 directed into it, tangentially affecting the screw conveyors 13 Provide nozzles or can be designed as such. By loading the channels 12 with rinsing water and / or air results in a particularly high degree of turbulence the content of the goods moved by the longitudinal screw conveyors 13 and therefore a particularly good flotation effect.

After the cleaning process is complete, the Dirt storage room 4 still clean water and that of the Sediments cleaned of floating materials. The water is over the Outlet 7 drained. This can be like the original dirty water used to recharge the rinse water tank or in the Channel can be returned. The cleaned sediments are via one at the rear, opposite the overflow weir 5 End of the dirt-receiving space 14 provided solid outlet 21 carried out. To form the solids outlet 21 is the Overflow weir 5 opposite end wall of the container 2 with provided a central hole near the floor, which is connected by means of a slide 22 can be closed. The slide 22 is inside the dirt receiving space 4 arranged and by means of an outside pivoting device 23 arranged therefrom can be actuated. The the hole forming the solids outlet 21 is an outwardly projecting hole Assigned connecting piece 24 to the for emptying the Dirt receiving space 4 an extension piece 25 can be attached is as shown in Figure 3.

To act on the solids outlet 21 is one between the two continuous over the entire length of the dirt holding space 4 Longitudinal screw conveyors 13 arranged, shorter discharge screw 26 provided. This is in mixed operation, as Figure 2 shows, sunk in the roof-shaped tunnel web 15 and becomes Emptying the dirt holding space 4, as shown in FIG. 3 the tunnel bridge 15 extended so far that it over the exit Cross-connection shaft 14 goes away and into the solids outlet 21 reaches into it. 3 For example, the spreading screw 26 passes through the solids outlet 21 forming hole, the connecting piece adjoining this 24 and the extension piece 25 attached to it. This forms a reliable pre-conveyor.

To accommodate the spreading screw 26 can in the tunnel web 15 limited space, a tube 27 may be arranged, which is connected to a corresponding Opening of the output end plate 15a of the Tunnel web 15 connects. The spreading screw 26 is useful also designed as a shaftless screw into which the Drive is initiated at the inner end. This is the inside End of the spreading screw 26 into the receiving tube 27 engaging rod 28, the outer length of which is approximately axially displaceable corresponds to the spreading screw 26, with a Drive motor 29 connected, which is also a Hydraulic motor can act. This is on a console 30 added, which is designed here as a hydraulic cylinder Shift unit 31 is attached. With the help of the sliding unit can the spreading screw 26 in the axial direction in the receiving tube 27 indented or extended from this become.

When removing the cleaned sediments from the dirt holding area 4 convey both lateral longitudinal screw conveyors 13 towards the solids outlet 21. The longitudinal conveyor screws 13 are designed so that their upper circumferential half in this mode of operation from the outer flank flank to Container cross-section center rotates, creating the outer flank flank is reliably cleared. The two longitudinal screw conveyors 13 act as feeders for the extended, co-feeding screw 26.

The invention is not limited to the embodiment shown. For example, it would be possible for the dispensing member to be dispensed the solids via the solids outlet from the outside into the Drive in the dirt holding space.

Claims (10)

Device for receiving and treating a dirt substrate, in particular sludge that can be sucked up during sewer cleaning, with a drainable dirt holding space (4) that can be loaded with the dirt substrate and is accommodated in a preferably barrel-shaped container (2) and that has a solid outlet (21) arranged near the floor in the area of one side ), to which a discharge element (26) is assigned, by means of which the solids can be transported out of the dirt holding space, characterized in that the discharge element (26) extends over the length of the dirt holding space (4) at least when at least two independently activated ones are in operation flanking, lateral longitudinal conveying elements (13) is flanked, each of which is assigned a channel (12) arranged in the region of the bottom of the dirt holding space (4), the grooves (12) in the front and rear end region of the dirt holding space (4) by means of cross-connecting shafts (14 ) connected to each other s and that the length of the discharge member (26) corresponds at least to the width of the cross-connection duct (14) adjacent to the solids outlet (21). Apparatus according to claim 1, characterized in that in the front and rear end region of the dirt holding space (4) there is no delimitation, preferably in the form of a roof-shaped tunnel web (15), over its remaining length between the adjacent channels (12). Device according to one of the preceding claims, characterized in that the dispensing member (26) is designed as a drivable and longitudinally displaceable screw. Device according to one of the preceding claims, characterized in that the dispensing member (26) extends between two channels (12) flanking it into the tunnel web (15) which contains a receiving tube (27) associated with the screw forming the dispensing member (26). retracted rest position can be moved into a working position crossing the cross-connection shaft (14) adjacent to the solids outlet (21) and projecting into the solids outlet (21) and vice versa. Device according to one of the preceding claims, characterized in that the solids outlet (21), which can be closed by means of a slide (22) arranged in the dirt holding space (4) and to which a swivel device (23) arranged outside the dirt holding space (4) is assigned A closable hole is formed in the area of an end wall of the dirt-receiving space (4) and is aligned with the dispensing element, to which an outlet connection (24) connects. Device according to one of the preceding claims, characterized in that the lateral longitudinal conveying elements (13) flanking the dispensing member (26) can be operated with opposite dispensing directions when the dispensing member (26) is inactive and in the working position of the dispensing member (26) with the conveying direction corresponding to its conveying direction . Device according to one of the preceding claims, characterized in that the lateral longitudinal conveying members (13) flanking the dispensing member (26) are designed as screw conveyors which can preferably be driven at their two ends, the upper circumferential halves of which rotate towards the center of the cross-section when the dirt-receiving space (4) is emptied. Device according to one of the preceding claims, characterized in that the dispensing member (26) and the lateral longitudinal conveying members (13) are designed as shaftless screws. Device according to one of the preceding claims, characterized in that the dirt holding space (4) is designed as a treatment space which is provided with a flotation device, to which the lateral longitudinal conveying members (13) belong, and which can be acted upon with clean water and preferably air when the flotation device is activated Water outlet (7) is provided and on the side opposite the solids outlet (21) is separated by an overflow weir (5) from an adjacent return chamber (6) from which a water outlet (10) which is permeable to floating substances leads out, preferably the Dirt receiving space (4) can be pressurized with compressed air by the side longitudinal conveying elements (13) and blasting nozzles can be acted upon with clean water via the lateral longitudinal conveying elements (13). Device according to one of the preceding claims, characterized in that the container (2) containing the dirt holding space (4), preferably the entire container arrangement, can be raised and lowered at least at the end remote from the overflow weir (5), preferably at both ends.

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