NL1039753C2 - MULTIFUNCTIONAL OE PUBLIC SPACE PUBLIC SPACE. - Google Patents

Description

SHORT DESCRIPTION

Multifunctional public space system

DESCRIPTION

The purpose of the bank system is to temporarily store inflowing excess (rain) water to or in the waterways (1) in urban areas and / or to serve as a temporary intermediate buffer (2) within another water system. An additional advantage is that the bank system gives better stability to the adjacent roadside (3).

The riverbank system is used as a basis in watercourses within urban areas with the function of water storage (2) and / or water compensation (4) and soil defense (5).

The profile of a waterway (6) in existing urban areas is bound to the available space. Water storage (2) and water compensation (4) cannot be realized due to this limited available space.

In, on and around watercourses in urban areas, many bottlenecks are found in water quality, water quantity, management, maintenance and construction. The bottlenecks can be attributed to changes in legislation and standards, requirements and criteria of responsible organizations, climate changes and developments in technology within the public space.

The method of design by applying the bank system removes many bottlenecks and can be used for the future.

20 The bank system can be assembled at its own discretion or by hydraulic calculation from separate sustainable prefab elements (figure 2 up to and including figure 12) into a multifunctional liquid-tight bank system. The bank system is designed in such a way that many applications and possibilities in public spaces are made possible with few elements.

The bank system consists of separate prefab elements (figure 2 up to and including figure 12). The bank system can be constructed from bank vents (fig. 2 and fig. 3) with a shape change (fig. 8 and fig. 9), intermediate pieces (fig. 10) with a fixed shape, compensation inlet pieces (fig. 5 to and with fig. 7), integration piece (fig. 5 to fig. 7), corner pieces (to be determined), end pieces (fig.

11) and transition piece (Fig. 12) water storage / water compensation. The elements can be provided with connection points for supply and discharge pipes.

30 The riverbank enters surplus water from the waterway through inlet holes (7). The shoreline has the possibility to maintain the shoreline system through the existing hatch (8). Various applications can be installed in the shoreline in a mobile shoreline basket (9 and Fig. 4). The "shoreline basket" can be installed permanently in the shoreline or gives the possibility to move to another shoreline.

The bank vents are connected at variable distances to the intermediate pieces (fig. 10) and variable corner pieces, whereby a closed ring bank system for water storage is created.

The bank system intermediate piece (Fig. 10) has a different shape. This shape (10) is chosen to allow air in or out when filling and emptying the bank system so that no overpressure or underpressure is created in the system. The deviating shape (10) has been chosen to better protect this slope against shear when placed in the slope. The different shape has the advantage in the various applications that the upright tube (10) can be used for many purposes within the public space.

A non-closed ring water storage system (2) can be closed on both sides with an end plate (Fig. 11) or by a transition piece (Fig. 12) coupled to the water system with the function of water compensation (4).

Divers, fresh water outlets and dirty water overflow points are integrated into a riverbank (fig. 2 and fig. 5 up to and including fig. 7) within the bank system.

The compensation inlet piece (fig. 5 up to and including fig. 7) is the shoreline (fig. 2 and fig. 3) without inlet holes but with an underwater inlet (11) in the form of a piasberm. The upper side and the sloping side are provided with gratings (12) to provide access to underwater ecology and as safety when entering the waterway.

The elements are applied to the existing floor. The elements are connected by a watertight joint connection so that a watertight bank system is created. The resulting tube is provided on the water side in the recesses (13) with posts to reinforce the lateral locking and to prevent pushing up by groundwater.

The bank system integration piece (fig. 5 up to and including fig. 7) is a bank gully (fig. 2 and fig. 3) in which larger connections or passages in and for the water can be included in the bank system. The bank system integration part is based on the bank system bank gully (fig. 2 and fig. 3) and bank system compensation inlet piece (fig. 5 up to and including fig. 7) with some adjustments to realize an improved management of the watercourses.

With the bank system corner pieces (based on Fig. 10) it is possible to provide curves in the waterway with the bank system to realize a closed ring.

The bank system end pieces are end plates that can be placed on any desired piece where it is necessary to stop the bank system.

In order to use the water storage system in combination with the water compensation system, a water system transition piece is possible as a transition. The bank system transition piece is provided with an adjustable water level level to allow excess water in the bank system to overflow into the bank water storage system.

Rainwater is collected and collected in various ways. The rainwater is eventually drained to the watercourses. The waterways in urban areas generally have a fixed water level. The water level will rise due to the excess amount of rainwater. There is room for a certain amount of water storage in the watercourse. When this amount of water storage is exceeded, the excess water flows into the waterway via inlet holes in the bank of the bank of the bank system. Depending on the choice, the surplus water can be safeguarded in the system and pumps can optionally be extended with telemetry at a desired moment to the waterway or 3 depending on the choice of the water manager is drained to possibilities for reuse of water or infiltration in the bottom.

The bank system with the function water compensation (4) is directly connected to the watercourse by underwater inlets (11) with the shape of the piasberm. The same water level prevails in the bank system as in the watercourse, whereby the underwater ecology is maintained. The water surface in the bank system provides extra surface water. The bank system with the function water storage (2) can be linked to the bank system with the function water compensation (4).

The bank system can be used multifunctionally. The bank system can be used with a dual use function and a double land use. The shoreline system can be used with the function or a maximum of 2 combinations as water storage, water compensation, overflow edge and filter unit for fish and / or swimming water, independent seating element, ground retainer, mini integral pipe tunnel, replacement or additional clean water sewer, storage settling pipe and as confinement along carriageways.

15 The bank system offers the possibilities to apply filters, measuring equipment, equipment for adding substances, transporting water and other techniques. These possibilities are built into or on the “bank tank basket” (9 and Fig. 4) in the bank tank (Fig. 2 and Fig. 3), whereby the choice is possible to use this mobile or fixed. Monitoring and control for the possibilities can be realized remotely.

20 4

ADVANTAGES / DISADVANTAGES

The bank system has advantages and disadvantages. The bank system with all its applications and possibilities removes many bottlenecks in, on and around the waterways, so that the management of waterways can function well due to little monitoring and can comply with all applicable laws and standards.

The bank system has the following recognizable advantages: - More stable soil barrier, so that adjacent roadsides and roads receive better support; - Dual user function and basic function due to the many possible applications; 10 - Extra water storage or water compensation, which makes it possible to meet the water requirements in an urban area; - No obstacles to the maintenance of adjacent verges in the absence of draining pipes through the banks to the waterway; - All rainwater collected is collected early by the bank system, whereby a regular, fixed water level can be maintained in the watercourse; - The bank system is made of durable material, which ensures a long service life;

By applying external possibilities in the riverbank, the bank system provides good controllable management and maintenance on waterways, whereby water quality and the underwater ecology can be brought to a desired level; - Maintenance on the bank system is possible through the hatches in the bank chamber; - The bank system protects the underwater banks against carp and / or bream and underwash;

The bank system has the possibility to connect to other (pipeline) systems; 25 Inlets and outlets on the waterway are integrated in the bank system; - Water level is maintained with limited water storage in the watercourse; - Maintenance costs within the disciplines are reduced.

The bank system has a number of disadvantages: - Water surface ecology in bank system with the function water compensation cannot be guaranteed; - Limited maintenance in the bank system is required.

1 03 97 53

Claims (34)

01. The bank system as a whole with the characteristic that the multifunctional can be used in public spaces; 02. The bank system according to claim 01, characterized in that the bank system is a liquid-tight system; 03. The bank system according to claim 01 and claim 02, characterized in that the bank system can be assembled from slightly different prefab elements; 04. The bank system according to claim 03, characterized in that the elements are made of composite; 05. The bank system according to claim 04, characterized in that the total bank system is a light construction; 06. The bank system according to claim 01, in particular as water storage and / or water compensation, characterized in that it is used along watercourses in urban areas within the public space; The shoreline system according to claim 06, characterized in that it comprises a dual user function, water retention / water compensation and flood defense and a double soil function, verge and water; 08. The bank system according to claim 01, characterized in that the bank system can be used for several applications in the public space; 09. The bank system according to claim 04, characterized in that the bank system has a long service life; The bank system according to claim 06 as a light construction, characterized in that the bank system is secured by piles; 11. The shoreline in particular as part of the shoreline system with a housing of bottom with front and rear wall and top wall with access hatch, characterized in that the side wall on the water side is provided with inlet holes above the water line; 12. The shoreline according to claim 11, characterized in that the shoreline is provided with an optionally fixed or mobile frame for providing various options for improving the management of water on the basis of water quality and water quantity; The riverbank vortex according to claim 11, characterized in that it can integrate pipes leading into the waterways into the riverbank system; The shoreline vault as claimed in claim 11, characterized in that the inlets are provided with grilles to prevent dirt and vermin; The bank compensation piece identical to claim 11, characterized in that the bank compensation piece contains an underwater inlet piece and no inlet holes; The bank compensation piece as part of the bank system according to claim 15, characterized in that the bank compensation piece is only used as an element in the bank system with the function of water compensation; 1 03 97 53 The riverbank compensation piece according to claim 15, characterized in that the riverbank compensation piece is continuously connected to the waterway, thereby guaranteeing an equal water level in the riverbank system as a function of water compensation as in the waterway; The shore compensation piece according to claim 17, characterized in that the underwater ecology can be guaranteed; 19. The mobile frame as part of the ridge with a shape of a beam consisting of box section; The mobile frame as part of claim 11 and according to claim 19, characterized in that different applications for the quality and quantity for and of the water can be built in; The mobile frame as part of claim 11 and according to claim 19, characterized in that the frame can be used as desired in any bank of the bank within the bank systems; 22. The bank integration system as part of the bank system with the feature according to claims 11 and 15; The bank integration piece according to claim 22, characterized in that all types of pipes can be connected so as to integrate into the bank system; 24. The bank integration piece according to claim 22, characterized in that facilities are provided in the bank integration piece to simplify the management and maintenance of the watercourses; The bank integration part according to claim 22, characterized in that integration part serves in the bank to guarantee the flow in the watercourse; The shore inlet piece as part of claim 15, characterized in that it has a housing with a bottom and side walls in the form of an underwater piasberm; 27. The shore inlet piece as part of claim 15 and claim 22, characterized in that it is provided with a grid as safety in the watercourse to guarantee water and fauna an exchange with the adjacent watercourse; 28. The bank piece as part of the bank system with a housing of a bottom with front and rear wall and an upper wall in the form of a tilted incomplete lowercase 30 letter b; The bank piece according to claim 28, characterized in that it contains a different profile; The bank piece according to claim 28, characterized in that the deviating upper wall is intended to aerate and vent the bank system; 31. The bank end plate as part of the bank system, characterized in that it has a housing of bottom, 32. The bank transition piece as part of the bank system, characterized in that it has a housing of bottom with side walls and top wall; The bank transition piece according to claim 33, characterized in that it is used between the bank system with the function water storage and the bank system with the function water compensation; 34. The bank transition piece as claimed in claim 33, characterized in that a partition is placed in the housing as an overflow edge with a variable part for adjusting the water level in case of overflows. 1 0 3 9 7 53