EP0761894B1 - Flushing device for a liquid storage space - Google Patents

Abstract

The device has a flushing chamber, which discharges a flushing surge, when the reservoir is empty. The chamber is formed by a tank (9), open at the bottom, and may be lifted and lowered partially or completely. When in lowered position, the tank is sealed by the base of the reservoir (5), and is at least partially lifted off the base, when raised. The container may have a base, resting on the reservoir base, with a liftable container wall. It may also have a damper device to dampen the lowering movement, and an automatic filler device.

Description

The invention relates to a Liquid storage space with one in the area of a Bottom high point of the storage space arranged, with liquid fillable rinsing chamber is provided, which when empty Storage space through a flushing opening the liquid as a flushing surge suddenly leaks.

EP 0 211 058 B1 describes a liquid storage space, known in particular rain basin or sewer storage space, with a arranged in the area of a bottom high point of the storage space, with rinsing chamber that can be filled with storage liquid empty storage space through a flushing opening the storage liquid as a flushing surge towards the outlet of the storage space leaks. The rinsing surge is issued from the rinsing chamber, by suddenly a hinged flap that is opened above the liquid level in the storage space is controlled. There is also a circular one from this font Known storage space in which provided with flaps Rinsing chambers are arranged radially on the outside and towards the middle of the storage space is washed out.

From CH 590 980 one is located above the sole Rinse tip known to be filled with water from above and through Changes in their center of gravity when filling tilts, with which the in liquid collected in the rinse tip emerges as a surge.

From DE-AS 29 02 983 is a central in a circular Storage space arranged flushing device known to the outside washes away. The flushing device is a rotating water wheel or as a pump for conveying and distributing the rinsing liquid educated.

Against this background, it is an object of the present invention Liquid storage spaces with differently designed devices for rinsing and specify a rinsing container itself.

A first inventive design of the aforementioned Liquid storage space provides that the rinsing chamber one below has open container which can be lifted and lowered overall or at least lift a lower section of the container - and is lowerable, with the container in its lowered Position of the storage space floor is closed and in its raised position at least partially from the floor of the storage room is lifted off. The one used for rinsing is thus in the container Liquid collected, when lifting the container or lower container section an opening between the lower edge and the storage space floor is formed, through which the Flushing liquid can leak out of the container. In the sense of a Flushing water should be aimed at that the container rinses itself suddenly lifts.

A second inventive design of the aforementioned Liquid storage space provides that the rinsing chamber with a container a container floor resting on the storage space floor and. is a stored in the bottom of the container wall, the Container wall can be raised and lowered overall or at least one lower section of the container wall can be raised and lowered, and the container wall or its lower section in its lowered Position of the container bottom is closed and in their raised position at least partially from the bottom of the container is lifted off. While in the aforementioned first invention Designing the floor of the storage space quasi the floor of the Represents container and this with the container lowered below closes, is in the second design according to the invention a separate container bottom is provided, the placed on the storage space floor or connected to it becomes. The advantage of this design is that the Flushing device as a whole can be prefabricated and used for the functioning of the flushing device is only necessary this to place in the storage space or its container bottom with the To connect the storage space floor so that the flushing device is stationary in the storage space.

A third inventive design of the aforementioned Liquid storage space provides that the rinsing chamber has an open top Containers that open at the bottom and by means of the storage space floor is closed or closed at the bottom, the Containers as a whole or at least an upper container section in the area of at least part of the upper edge of the container or part of the upper edge of the upper container section lowering and rinsing when lowering. With this design, the output takes place the rinsing liquid not through the between the container and the storage space floor or the container wall and the container bottom formed opening but it will after filling the Container with the liquid of the container or the upper one Container section in the area of at least part of it Lowered upper edge, which means that the washing liquid is above the Container radially or when using several straight segments can flow away radially.

The object is also achieved by an inventive one Rinsing container according to claim 22 solved.

Based on the basic design of the liquid storage space A wide variety of further training is conceivable:

A device for filling the container can be very different Way. So it is from In principle conceivable to close the container with storage liquid fill. On the other hand, it is conceivable to use rinsing liquid externally supply. Especially when the storage fluid Rinsing chamber to be fed, it will be advantageous viewed when the device for filling the container as non-return valve integrated in the container or as a feed pump, which is also liquid from a dry weather inflow or Pumps groundwater or process water into the tank is. Basically, it is conceivable to flush the rinsing liquid to supply a usual supply line that is above the Container is arranged so that the liquid due normal flow gradient gets into the container. The variant with The integrated check valve has the advantage that the Container according to the storage level of the storage liquid fills itself in the liquid storage space, which goes without saying is also possible by means of a pump that over Sensors a certain liquid level in the storage space is detected and switched on. After all, it is conceivable that Fill the rinsing tank itself through the outlet opening and only from a certain water level, which is the maximum level in the Flushing container corresponds to close. Filling can continue also over an overflow edge, for example with integrated Diving wall, which is floating if necessary.

The lifting movement of the container or the container section or the container wall is expediently carried out by means of a float.

It is also conceivable, the container, the container section or the Lift the container wall with or without a counterweight and / or lower. A ballast tank can also be provided be the one with liquid, especially storage liquid is fillable. The lifting movement of the filled ballast tank is advantageously achieved in that when the largely empty storage space in the ballast tank liquid present through a connected to the ballast tank Line can leak and reduce weight the ballast tank in connection with the one in the tank Flushing liquid to raise the ballast tank hydraulic pressure surfaces or by means of a spring leads.

If necessary, a holding device should be in particular for locking the container or the container section or the container wall in its lowered or in be provided in its raised position. This facility is advisable about the level of storage liquid in the Storage space controlled. When the liquid is jammed in the Storage space, the retention means are activated and at again empty storage space solved. The control can for example, in the area of the storage space drain arranged float or take place via sensor means that the Determine the liquid level in the storage space and directly or via actuating means, for example via an electrical, hydraulic or pneumatic motor, the components causing the locking actuate.

The design of the liquid storage space according to the invention is not limited to that the container, the container section or the container wall can be moved perpendicular to the floor. this will may be the rule, but it is also possible that Container or the container section or the container wall in Storage space floor to be tilted. In this case the Container or container section or the container wall only partially lifted off the storage space floor or container floor, see above that there is a directional flow of the liquid as it exits from the container, in that it extends in all directions, except for by the support of the container or container section or the container wall on the storage space floor or The bottom of the container is blocked. Especially in the case the tiltable mounting of the container or the container section or the container wall, it is conceivable to add one or to provide several panels, which when lifting or lowering the Container, container section or the container wall between formed the bottom edge of the container and the storage space floor Cover the opening to the side. This also results in a directional flow, since the orifice has an outflow of the flushing liquid prevented in their area of the container. The the respective panel is preferably anchored in the floor of the storage space, but can also be pivoted in the container.

The container or the container section or the container wall is usually rigid. But it is also the same conceivable to make these parts flexible, especially in Kind of a bellows. The height of the container can be so shorten to a relatively small extent, which means that with fixed lower container section or fixed upper container section lowering the top edge of the container or lifting it up the bottom edge of the container almost completely on the fixed one Area of the container is possible. Because of the large formed in this way The rinsing liquid can enter the opening within a very short time Storage space are issued.

The flushing device is designed so that the Container or the container wall in one or more, with the storage space floor connected storage elements is lowered. The container wall can, for example be provided with bearing bushes, each bearing bushing in one stand-shaped bearing element is raised and lowered. It it is also conceivable to use the container or the container wall to connect radially inwardly extending webs with a bearing bush (s) are provided in a single stand-shaped bearing element is raised and lowered (are).

The rinsing described above is particularly suitable for rinsing in a round pool. But it can also be used with anyone else Basin type can be used. In addition to the rinse, one is intended Rainbow also to a canal storage space or a canal, in particular the use of the container in the area of a manhole. The design of the container, particularly in Bearing elements which are connected to the storage space floor, is stored, allows the flushing device without large Retrofitting effort. It is particularly simple Subsequent installation possible if the container is a structural unit represents, with container bottom and stored in this, hollow cylindrical arranged container wall, so that the container bottom only needs to be attached to the floor of the storage space. at Round basin enables the flushing device to clean the Round basin after each build-up of the deposited contaminants. This cleaning is particularly withheld Water performed. The actuation or is preferably carried out Operation of the flushing device without external energy. Nevertheless optional operation is motorized, especially with a electrohydraulic system, possible. The construction is simple and robust, their manufacturing costs are extremely high Life span minimal. The system is also with extreme pollution of the mechanical parts fully functional. she is easy to assemble. It does not require any to be created on site Fasteners, but can with appropriate profiling of the structure are mounted on the sole. An equipment of rectangular tanks, for example, will also be added later possible.

Further features of the invention are in the claims, the Description of the figures and the figures themselves, it being noted that all individual features and all combinations of individual features are essential to the invention.

In the figures, the invention is based on various embodiments for example, without being limited to this his.

Figuren 1a bis 1d

einen Flüssigkeitsspeicherraum mit Spülvorrichtung, für unterschiedliche Betriebszustände der Spülvorrichtung,

Figuren 2a und 2b

eine mit Dämpfungselement ausgestattete Spülvorrichtung mit anhebbarem Behälter in unterschiedlichen Betriebszuständen,

Figuren 2c und 2d

Detaildarstellungen des Dämpfungselementes in unterschiedlichen Betriebszuständen,

Figur 3

eine Draufsicht eines mit der Spülvorrichtung versehenen Rundbeckens,

Figur 4

eine Spülvorrichtung mit dieser zusammenwirkendem Hydrauliksystem zum Betätigen der Spülvorrichtung,

Figuren 5a und 5b

die in Figur 4 veranschaulichte Variante der Spülvorrichtung in vergrößerter Darstellung, in unterschiedlichen Betriebszuständen,

Figuren 6a und 6b

eine modifizierte Ausführungsform der Spülvorrichtung, in unterschiedlichen Betriebszuständen,

Figuren 7a und 7b

eine weitere Ausführungsform der Spülvorrichtung mit kippbarem Behälter, in unterschiedlichen Betriebszuständen,

Figuren 8a und 8b

gegenüber der Ausführungsform nach den Figuren 7a und 7b modifizierter Spülvorrichtungen in unterschiedlichen Betriebszuständen,

Figuren 9a bis 9e

eine Spülvorrichtung, die über einen Ballasttank gesteuert wird, in unterschiedlichen Ansichten und für unterschiedliche Betriebszustände,

Figuren 10a und 10b

eine gegenüber den Figuren 5a und 5b geringfügig modifizierte Gestaltung der Spülvorrichtung, für unterschiedliche Betriebszustände,

Figuren 11a und 11b

eine Ausführungsform der Spülvorrichtung, bei der der Behälter zum Spülen abgesenkt wird, für unterschiedliche Betriebszustände und

Figuren 12a und 12b

eine gegenüber der Ausführungsform nach den Figuren 11a und 11b modifizierte Gestaltung der Spülvorrichtung, für unterschiedliche Betriebszustände.

In a schematic representation:

Figures 1a to 1d

a liquid storage space with a flushing device for different operating states of the flushing device,

Figures 2a and 2b

a flushing device equipped with a damping element with a liftable container in different operating states,

Figures 2c and 2d

Detailed representations of the damping element in different operating states,

Figure 3

a plan view of a round basin provided with the flushing device,

Figure 4

a flushing device with this interacting hydraulic system for actuating the flushing device,

Figures 5a and 5b

4 shows the variant of the flushing device illustrated in an enlarged view, in different operating states,

Figures 6a and 6b

a modified embodiment of the flushing device, in different operating states,

Figures 7a and 7b

another embodiment of the flushing device with tiltable container, in different operating states,

Figures 8a and 8b

compared to the embodiment according to FIGS. 7a and 7b modified flushing devices in different operating states,

Figures 9a to 9e

a flushing device, which is controlled via a ballast tank, in different views and for different operating states,

Figures 10a and 10b

5a and 5b a slightly modified design of the flushing device, for different operating states,

Figures 11a and 11b

an embodiment of the flushing device, in which the container is lowered for washing, for different operating conditions and

Figures 12a and 12b

a design of the flushing device modified compared to the embodiment according to FIGS. 11a and 11b, for different operating states.

FIGS. 1a to 1d show a liquid storage space 1, which is designed as a round pool, with an inflow 2 to Liquid storage space 1 and an opposite drain 3 from the liquid storage space 1. The bottom high point 4 of the Pelvic floor 5 of the liquid storage space 1 is located in the middle of the round pool. Along the outer wall 6 of the Round basin runs a rinsing sump with dry weather channel 7. In the middle of the basin, i.e. in the area of the bottom high point 4, is a vertically oriented stand 8 with the pelvic sole 5 connected, the stand carries a container 9, the top and open at the bottom, i.e. by a circular arrangement Ring wall is formed. Inside the container has struts 10 on that with a guided in the stand 8 bearing bush 11 are connected. A locking element 12, the more specific Structure to be described later is stored in the stand 8 and engages behind the bearing bush 11 when the container 9 is lowered, as shown in Figures 1a to 1c. One in the area of Drain 3 and the sump with dry weather channel 7 arranged control float 13 controls via a hydraulic device 14 with hydraulic line 15 the locking element 12 on.

Figure 1a shows the conditions in dry weather. By the Basin 16 runs along the sump with dry weather channel 7 the water generated in dry weather. This is in the Drawing of Figures 1a to 1d in the area of the inflow 2 and the drain 3 and the sump with dry weather channel 7 Shown in dashed lines for better visibility. How can be seen from the illustration in FIG Container 9 with its lower edge on the pelvic floor 5 and the control float 13 is lowered. With a minor Damming liquid into the liquid storage space 1, that is, before the liquid enters the area of the container 9 arrives, the control float 13 is raised slightly and actuates the locking element 12, which thus the container 9 holds in this position. If there is another water jam, As shown in Figure 1b, storage fluid flows through a check valve 17 in the lower region of the container 9 in this, which is for the storage liquid in the liquid storage space and the rinsing liquid in the container 9 the same Liquid level. The control float 13 is further raised and overflowed. The liquid level in the Storage space again, for example after a rain event the liquid storage space 1 empties and it becomes the Liquid retained in container 9 as it rises is hindered by the locking element 12. Figure 1c shows the conditions in almost dry weather and lowered again Control float 13. Control float 13 is in its lowered position, it controls via the hydraulic device 14 of the locking element 12, with which this in his unlocked position is transferred and it becomes the Container 9 suddenly raised. This is because he is in in its lower area a step-widened surface section 18 has, with a force component resulting therefrom upwards, which lifts the container 9. The result is, that the inside of the container 9 abruptly as a flushing surge pours radially to the surrounding container wall 6. Then sinks the container 9 off again and when it is stowed again Liquid locked in the liquid storage space 1.

Figures 2a to 2d show a variant in which a damping element 20 is provided, the sudden lowering prevents the container 9 from its maximum raised position, so that the outflow of the container contents at optimal Flush of water can take place. Figure 2a shows the filled Container 9 shortly before emptying. The damping element 20 engages between the upper end of the stand 8 and one of the Bearing struts 10. Figure 2b shows the raised container 9 and the flushing surge leaving it 19. The structure of the Damping element 20 is shown in detail in FIGS. 2c and 2d illustrated. A piston rod connected to the bearing strut 10 21 penetrates an opening in the upper end of the Stand 8 connected cylinder 22. The arranged in the cylinder 22 Piston 23 is double-leaf, the two Wing 24 hinged to the upper end of the piston rod 21 and in Direction of the piston rod 21 are pivotable. One in the area of the end of the piston rod 21 arranged plate 25 represents one Stop for the wing 24 represents. This design requires that when lifting the container 9 fold the wings 24 and that Damping element 20 is ineffective while lowering the Container 9 pivot the wings 24 into their extended position, with which the container 9 can only sink slowly because only a small volume flow between the free ends of the Wing 24 and the cylinder wall can flow through. in principle any damping elements are possible, for example Shock absorbers, springs etc.

Figure 3 shows a plan view of the round pool 16. Die there the illustrated embodiment is intended in particular to illustrate that the container 9 any, for example rectangular May have cross-section.

Figure 4 illustrates the in an enlarged view Hydraulic device 14 in the only for the edge and the center shown liquid storage space 1. There the movement the control float 13 via the float arm 25, which in two Positions is shown on a piston rod 26 of a hydraulic cylinder 27 transmitted from which via hydraulic lines 15 hook-shaped locking elements connected to the pelvic sole 5 12, which are also hydraulic cylinders 28 are assigned. The hook-shaped locking elements 12 reach behind in their locking position hook-shaped, upward-facing lugs 29, the lower Area of the container 9 are arranged. In the pelvic floor 5 are in the contact area with the lower edge of the container 9 Flat iron 30 or similar a smooth surface for that Components that achieve the seal are embedded. In this variant is the container in contrast to the embodiment according to the Figures 2a and 2b not with pronounced, generating the buoyancy Surface sections 18 provided, but instead it is in the guided on the bearing strut 10 bearing bush 11 a Bearing bush 11 surrounding float 31 attached to the Buoyancy of the container 9 causes. Basically, instead of a hydraulic control also uses a pneumatic control become.

Figures 5a and 5b show the one shown in Figure 4 Container in an enlarged view and for two operating states. FIG. 5a also illustrates the filled container 9 locking elements 12 in the locking position. Figure 5b illustrates the locking elements 12 in their unlocked position, and by means of the float 31st raised container 9 with the flushing water emerging from it 19. In the representation of the previous figures and the following figures are largely dispensed with been to draw the means for filling the container 9 with. In the explanation of the representation of Figures 1a to 1d already pointed out that this is each one in the bottom Check valve 17 arranged in the region of the container 9 can, which will be explained in detail below. The Filling can also take place in that when Liquid into the liquid storage space 1 of the container 9 is flooded so that the storage fluid through the above open container 9 gets into this. It is also conceivable that Filling containers from above using a supply line, if possible in the free flow gradient.

Figures 6a and 6b show one compared to the embodiment modified container variant according to Figures 5a and 5b. There the container 9 is formed in two parts, with an upper one Container section 32, the struts 33 stationary in the Pelvic floor 5 is stored, and with a lower container section 34, a bellows 35 the two container sections 32 and 34 connects together. As before for Embodiment according to Figures 5a and 5b described is at the embodiment of Figures 6a and 6b the lower Container section 34 via the struts 10 and the bearing bush 11 can be raised and lowered in the stand 8 connected to the pelvic floor 5 out and has the same locking mechanism. figure 6a shows the filled container 9. With the liquid storage space empty 1, the locking elements 12 in their Opened position pivoted and it raises the bearing bush 11th enclosing float 31 the lower container section 34 so until a bellows 35 is maximally compressed, due to the sudden lifting of the container section 34 the flushing surge 19 is again output below the container 9 becomes what is illustrated in Figure 6b.

The embodiment of Figures 7a and 7b illustrates a round or angular container 9 in cross section, which articulated on one side and can thus be tilted. The container 9 is connected to the pelvic sole 5 on one side Bearing 36 pivotally mounted. On the opposite side are one or more locking elements 12 for locking of the container 9 arranged. The locking elements are corresponding to those according to the embodiment according to the Figures 6a and 6b are formed and are controlled accordingly. Inside is in the area of the locking element or elements 12 at the greatest possible distance to the bearing 36 of the float 31 with the Container 9 attached. This embodiment therefore requires no stand 8 for storing the container 9. Figure 7a shows the filled container 9 with the one in the locked position Locking element 12. Figure 7b shows the open Locking element 12 and by means of the float 31 to the Axis of the bearing 36 pivoted container 9 and from the Container 9 emerging flushing surge 19th

Figures 8a and 8b show one compared to the embodiment Modified design according to Figures 7a and 7b. The container has side panels 38. Figure 8a shows the filled Container 9 with the side panels 38. Figure 8b illustrates the unlocked, swiveled up container with the corresponding apertures 38, which with their lower edges 39 on the Pelvic sole 9 rest and with their upper edges 40 the side Cover openings of container 9. With such a pivotable arrangement of the container 9 pours the flush targeted in one direction. Basically, there would also be the possibility of dispensing with one of the panels 38.

Figures 9a to 9e illustrate one by means of a Stand 8 guided variant of the container 9, which none Has float 31 and not by means of a control float 13 is controlled and also no locking elements 12 needed. There is the container wall of the container 9 double-walled, so that between the two container walls 41 and 42 a ballast tank 43 is formed. This is provided at the top with an opening into which a check valve 44 is used, which flows out of the ballast tank 43rd allowed. Through the ballast tank is in its lower area Stub 45 guided, the opening protruding into the interior of the container can be closed by means of the non-return flap 17. On the Spigot 45 takes place as for the embodiment according to FIGS. 1a described to 1d, the filling of the container with storage space liquid. The leads from the lower end of the ballast tank further a water line 46 and above this an air line 47 to the sump with dry weather channel 7 in the area of Drain 3. Figure 9b illustrates that in this embodiment the ballast tank 43 has a circular cross section having. FIG. 9c shows the conditions when the Storage liquid in the liquid storage space 1 and the Container 9. The storage liquid passes through the nozzle 45 and the check valve 17 into the container 9 at the same time enters the storage liquid through the water line 46 in the Ballast tank 43, the air in the ballast tank can escape upwards through the check valve 44. It thus arises in the liquid storage space 1, in the container 9 and in the ballast tank 43 the same level of liquid when stowed on. If the liquid level in liquid storage space 1 drops, the rinsing liquid in the container 9 and further the Liquid retained in the ballast tank 43 because neither Water line 46 still the air line 47 in connection with air stand, and the check valve is closed. Only, if the liquid level in the liquid storage space 1 so has dropped far that, as shown in Figure 9d, it air has dropped below the level of the air line 47 via the air line 47 into the ballast tank 43, with which the Liquid from this flow out through the water line 46 can. This makes the container 9 lighter overall and it can the rinsing liquid in the container 9 over the already to the embodiment described in Figures 2a and 2b, in Area of the lower end of the container 9 arranged surface section 18 lift the container 9, which is shown in Figure 9e is. This allows the rinsing liquid retained in the container 9 run out as a flushing surge 19.

In the embodiment according to FIGS. 10a and 10b Container through a cylindrical, thin-walled container wall 90 and a container bottom 91 is formed. The container bottom is 91 as a circular plate with a peripheral edge section 92 trained, which rests on the storage space floor. Is central in the container bottom 91 that extends perpendicular to this Stator 8 mounted on which the bearing bush 10 slidably guided is, which receives the container wall 90 via the struts 10. The embodiment according to FIGS. 10a and 10b differs differs from the embodiment according to FIGS. 5a and 5b only in that instead of closing the container 9 by the pelvic floor 5 is now a container bottom 91 is arranged. In the embodiment according to FIGS. 10a and 10b Approaches 29 are attached to the container wall 90 accordingly and the locking elements 12 with the hydraulic cylinders 28 in Bottom of the container stored, which also brings about the sealing effect Flat iron 30 picks up. Figure 10a shows the container wall 90 in the lowered position when the container is full, figure 10b the container wall 90 in its from the container bottom 91st raised position in the final phase of the rinsing process.

Figures 11a and 11b show an embodiment in which the Container 9 is not raised for rinsing, but is lowered. There, the pelvic floor 5 has a pedestal-like raised high point 4, which serves to store the container 9. By doing Socket 48 are locking elements 12 in its upper region arranged, such as to the embodiment according to 1a to 1d described, extended radially outwards can be. The is supported in its extended position Container 9 on this. The container is in the area of his surrounded by an annular float 31. at a liquid build-up in the liquid storage space 11a in its lowered position Container 9 raised by the float 31, being at Reaching the raised position shown in Figure 11b of the container 9 disengage the locking elements 12, for example due to spring force. Stops not shown prevent the container 9 from further jamming Liquid into the liquid storage space 1 even further can increase. About the top of the container 9 occurs damming liquid into the container 9. It sinks Liquid level in the liquid storage space 1 to the level of the float 13, which in Figure 4 with dashed lines is illustrated, the locking elements 12 in their Open position transferred, with which the container 9 abruptly in the position shown in Figure 11a falls down and here the flushing liquid in the container 9 as a flushing surge flows radially outwards. The lower area of the container 9 penetrates one in its lowered position as a ring trained depression in the pelvic sole 5. Does that increase Liquid level in the liquid storage space 1, then if the float 13 is the same as that shown in FIG. 4 solid position has reached the unlocked position of the Locking elements 12 lifted so that they are under the Apply force of the springs to the inner wall of the container 9 and then when the container 9 is raised far enough, under it rastieren. The cross section of the container base 48 is, for example, like that of the container interior, circular.

Figures 12a and 12b show, similar to the representation in the Figures 11a and 11b, a container 9, in which the in this held rinsing liquid is dispensed by lowering the container becomes. There the container 9 is designed as a bellows, connected to the float 31 in the area of its upper end is, the float 31 outside or inside in guide rods 49 is guided vertically. The management staff are in the area that does not serve the management with bearing approaches for locking elements 12 provided the float 31 in its raised position in which the bellows container 9 is elongated, reach under the float 31. Figure 12a shows the lowered float 31 with the between this and the pelvic sole 5 arranged bellows container 9 sealed, which is folded up. In the lowered position of the Container 9 surrounds the container base 48, which is due the foldable design of the container 9 has a lower height as the container base 48 according to the embodiment according to Figures 11a and 11b. With a liquid jam in the Storage space 1, the float 31 rises and lengthens the bellows container 9. As soon as the float 31 in Figure 12b shown level reached, reach under the hydraulics controlled locking elements 12 the float 31. Since the Container 9 is fixedly connected to the container base 48 no stop to limit the stroke movement of the container 9 necessary. With a corresponding liquid jam in the Liquid storage space is flooded the container and it arrives, as for the embodiment of Figures 11a and 11b described, liquid in the container 9. The level drops in Liquid storage space 1 in the sense described above the locking elements 12 unlocked and it falls Float together with the contracting bellows container 9 abruptly downward, so that the rinsing liquid in Rinsing surge emerges.

It is within the scope of the invention that the individual Variations described features can be combined. The combination option applies in particular with regard to hydraulic control of the container or its parts, the Damping the lowering movement of the container to close it, and the possibility of variants in which the container or Parts of the container are raised to flush the rinse issue, instead can also be lowered to the Output flushing surge. The invention is not limited to round or limited curved designs of the container or its parts, but also includes angular designs.

Claims (22)

1. Liquid storage space (1) provided with a flushing chamber (52) which is arranged in the region of a high point (4) of the bottom of the storage space (1), can be filled with liquid, and lets the liquid gush out through a flushing opening as a flushing surge when the storage space (1) has run empty, characterized in that the flushing chamber (52) is a container (9) open at the bottom which can be wholly or partly raised and lowered, and is closed off by the bottom (5) of the storage space in the containers lowered position, and at least partly lifted off the bottom (5) of the storage space in its raised position.
2. Liquid storage space (1) provided with a flushing chamber (52) which is arranged in the region of a high point (4) of the bottom of the storage space (1), can be filled with liquid, and lets the liquid gush out through a flushing opening as a flushing surge when the storage space (1) has run empty, characterized in that the flushing chamber (52) is a container (9) with a container-bottom (91) resting on the bottom (5) of the storage space and a container-wall (90) mounted in the container-bottom (91), wherein the container-wall (90) can be wholly or partly raised and lowered, and the container is closed off by the container-bottom (91) in the lowered position of the container-wall, and at least partly lifted off the container-bottom (91) in its raised position.
3. Liquid storage space (1) provided with a flushing chamber (52) which is arranged in the region of a high point (4) of the bottom of the storage space (1), can be filled with liquid, and lets the liquid gush out through a flushing opening as a flushing surge when the storage space (1) has run empty, characterized in that the flushing chamber (52) is a container (9) open at the top and closed at the bottom by the bottom (5) of the storage space or by a container-bottom, wherein the container-wall as a whole or an upper section thereof or at least a part of the top rim (54) of the container (9) or a part of the top rim of the upper section of the container can be raised and lowered, with flushing effected upon lowering.
4. Liquid storage space according to Claim 1 or Claim 2, characterized in that the container (9) is open at the top.
5. Liquid storage space according to Claim 1 or Claim 2, characterized in that a damping element (20) is provided which cushions the lowering action of the container (9), lower container-section (34) or container-wall (90).
6. Liquid storage space according to any one of Claims 1 to 5, characterized in that a device for filling the container is provided.
7. Liquid storage space according to Claim 6, characterized in that a non-return valve (17) fitted to the container (9) or a line dispensing stored liquid into the container (9) by downflow or a filling device which pumps liquid into the container (9) in particular from an inflow (7) of the liquid storage space (1) is provided for automatic filling of the container (9).
8. Liquid storage space according to any one of Claims 1 to 7, characterized in that the container (9) or as the case may be the container-section (34) or container-wall (90) can be raised by means of a float (31).
9. Liquid storage space according to any one of Claims 1, 2, or 4 to 8, characterized in that the container (9) is tiltably mounted in the bottom (5) of the storage space, or as the case may be the container-wall (90) is tiltably mounted in the container-bottom (91).
10. Liquid storage space according to any one of Claims 1 to 9, characterized in that at least one screen (38) is arranged at the side or sides of the container (9), container-section (34) or container-wall (90), which screens on at least one side the container-opening formed upon the raising, or as the case may be lowering, of the container (1), container-section (34) or container-wall (90).
11. Liquid storage space according to any one of Claims 1 to 10, characterized in that the container (9), container-section (34) or container-wall (90) is rigidly formed.
12. Liquid storage space according to any one of Claims 1 to 10, characterized in that the container (9), container-section (34) or container-wall (90) is flexibly formed, in particular in the fashion of a bellow.
13. Liquid storage space according to any one of Claims 1 to 12, characterized in that a ballast tank (43) fillable with stored liquid is connected to the container (9), container-section (34) or container-wall (90).
14. Liquid storage space according to any one of Claims 1 to 13, characterized in that a device (12) is provided for holding fast, in particular locking, the container (9), container-section (34) or container-wall (90) in its lowered or raised position.
15. Liquid storage space according to Claim 14, characterized in that the locking device (12) is controlled by the level of stored liquid.
16. Liquid storage space according to any one of Claims 1 to 15, characterized in that the container (9), container-section (34) or container-wall (90) is provided with buoyancy surfaces (18).
17. Liquid storage space according to any one of Claims 1 to 15, characterized in that the container (9), container-section (34) or container-wall (90) is raised and/or lowered by means of a motor, counterweights, or external floats, or a combination thereof.
18. Liquid storage space according to any one of Claims 1 to 17, characterized in that the container (9) or container-wall (90) is mounted on one or more guide elements (8) connected to the bottom (5) of the storage space or to the container-bottom (91) respectively.
19. Liquid storage space according to Claim 18, characterized in that the container (8) or container-wall (90) is connected to bearing bushes (11) each raisably and lowerably mounted on a guide element.
20. Liquid storage space according to Claim 18, characterized in that the container (9) or container-wall (90) has webs (10) extending radially inwards that are connected to a bearing bush or bushes (11) raisably and lowerably mounted on a column-like guide element (8).
21. Liquid storage space according to any one of Claims 1 to 20, characterized in that the container (9) is arranged in a central region of the storage space (1) and flushes outwards.
22. Flushing container, characterized in that it has a container-bottom (91) and a container-wall (90) to hold flushing liquid, and the container-wall (90) or as the case may be a lower section is closed off by the container-bottom (91) in its lowered position and is at least partly lifted off the container-bottom (91) in its raised position, the container-wall (90) or as the case may be the lower section (34) of the container-wall (90) being provided with a float (31) inside the container (9) or with a buoyancy surface formed by a portion (18) of the container-wall (90) so that, when the container (9) is filled, an upward force acts on the container-wall (90) or on the lower section (34) of the container-wall (90) whereby the container-wall (90) as a whole, or a section thereof, can be raised and lowered, or at least a part of a lower or upper section of the container-wall (90) can be raised and lowered.

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