EP1865116A2 - Seepage and drainage body made of individual system elements - Google Patents

Abstract

The body has system units (1) with outer walls, where each unit is designed as a plate section. Each unit is designed from four frame parts that are separated from each other, where each part forms a frame section with the respective wall. The units are located on top of each other or together, where each section has a recess (2). The units are connected with each other and/or the parts are connected together with connecting units.

Description

The invention relates to a seepage and drainage body of individual system elements, each having outer walls, each system element is designed as a disc section.

Such infiltration and drainage bodies are made of plastic and are used for ecological and economic rainwater management in the private sector, commercial area, sports field area, for communal areas and traffic areas. Increasing surface sealing resulting in increased load on sewer systems and sewage treatment plants, as well as groundwater formation for drinking water through a natural water cycle, requires the use of decentralized infiltration and retention systems for rainwater. A seepage and drainage body is for example from the DE 299 24 050 U1 known.

The seepage and drainage body (trench) is not considered to be a solid body when it is to be transported by a manufacturer or a dealer to a construction site. In the prior art, it is already provided to form the infiltration and drainage body from disk-like system elements. These disk-like system elements are characterized by a smaller depth than the width and height of the system element. Each individual disk section can not be used as a seepage and drainage body per se, only by using a plurality of disk sections is a seepage and drainage body formed. Each disk section can be formed, for example, cuboid.

The assembly to a seepage and drainage body can be done directly on the construction site. The individual system elements can still be transported in their disk form, wherein they are e.g. be flat stacked on the back of a truck. Compared to the application of a finished seepage and drainage body on a loading area, which may need to be cumbersome secured with ropes or other tools, space advantages.

The invention has the object of disclosing a seepage and drainage body of the aforementioned type, with a cost-effective, decentralized infiltration and retention system is created, the transport costs for the seepage and drainage body to be further reduced.

This object is achieved in that each system element is formed from at least two separate frame parts.

According to the invention, it is provided that each system element of at least two separate frame frames form. The frame-like configuration of the system element is thus formed from individual frame parts. These frame parts are assembled, e.g. to provide a breakthrough enclosing frame-like design. It can be provided in this case two, three, four or more frame parts. The frame parts can each be the same design, but it can also find different frame parts application.

For transport, this makes it possible to put the individual frame parts into one another so that the overall height of superimposed frame parts is reduced by an offset arrangement. When transporting the frame parts, these can thus be tightly stacked, without a large volume of air is transported.

An inventive infiltration and drainage body can still hold an inspection opening. Thus, it can be provided according to a first embodiment of the invention that each system element has a frame-like configuration, wherein frame sections include an opening. The aperture may be sized to form an inspection port. In this case, the aperture may have a circular cross-section, while the outer contour of each disc portion may be rectangular. A seepage and drainage body is then made by placing a plurality of disc sections adjacent to each other or directly adjacent to each other. The seepage and drainage body is formed in layers, by the selection of a corresponding number of disc elements are ultimately the dimensions of the seepage and drainage body determined. Due to the present in each system element breakthrough no closed infiltration and drainage body is formed, but one at its front sides opener.

The frame parts and also the system elements can be connected to each other by means of connecting means. These connecting means may be integrally formed on the frame parts catches or projections, which serve to mate the frame parts or the system elements. Additional connecting means, which would be carried along in addition to the system elements, are advantageously not required.

According to a development of the invention can be provided that each frame part forms half of the frame-like configuration. A system element is then quickly assembled from two frame parts. By providing the breakthrough, each frame part on the design of a C on.

Each frame part can also form a quarter of the frame-like configuration. The frame shape is then formed from four frame parts, too Here, a space-saving stacking is possible by establishing a displacement of superimposed parts.

In the provision of four frame parts, the free ends of the individual frame parts can be miter-like superimposed. The dividing lines between two adjacent frame parts then run in the corner region of the frame-like configuration. Each frame part rests with two oblique or interlocking surfaces on two adjacent frame parts. Now occurs when a pressure from the outside on the frame part, for example, by adjoining soil, so this frame part wedged due to the inclined surfaces of the other two frame parts. As a result, an additional stabilization of the arrangement of the frame parts occurs in addition to the connecting means.

Fig. 1:

eine perspektivische Ansicht eines ersten Systemelementes für einen Sicker- und Drainagekörper,

Fig. 2:

eine perspektivische Ansicht eines zweiten Systemelementes für einen Sicker- und Drainagekörper,

Fig. 3:

eine perspektivische Ansicht eines Sicker- und Drainagekörpers,

Fig. 4:

eine perspektivische Ansicht eines aus Rahmenteilen zusammengesetzten Systemelementes für einen Sicker- und Drainagekörper gemäß Fig. 3 und

Fig. 5:

eine perspektivische Ansicht aufeinandergelegter Rahmenteile für ein Systemelement gemäß Fig. 4.

Embodiments of the invention, from which further inventive features result, are shown in the drawing. Show it:

Fig. 1:

a perspective view of a first system element for a seepage and drainage body,

Fig. 2:

a perspective view of a second system element for a seepage and drainage body,

3:

a perspective view of a seepage and drainage body,

4:

a perspective view of a composite of frame members system element for a seepage and drainage body of FIG. 3 and

Fig. 5:

a perspective view of superimposed frame parts for a system element of FIG .. 4

The system element 1 in Fig. 1 is formed in two pieces. It has outer walls, which form a frame-like configuration. This frame-like configuration is rectangular. The system element 1 includes a breakthrough 2, which is circular and can serve as an inspection shaft.

The system element 1 has a small depth. It is designed like a disk.

Fig. 2 shows another system element 1, which is formed again in two pieces. This system element has a greater depth than the system element in FIG. This cuboid shape is still seen as a disk section, since the depth of the system element is less than the height or width of the system element.

Fig. 3 shows that a plurality of packages of system elements of Fig. 1 can be assembled into a larger percolating and drainage body. This seepage and drainage body has a total of a cuboid configuration, four trained from apertures 2 tubes enforce him. The division of the system elements 1 in frame parts is not shown in Fig. 3.

In Fig. 4 it is shown that the system element 1 is formed of four frame parts 3. Each frame part 3 forms a frame section with an outer wall of the system element 1. The individual frame parts 3 are miter set together. They lie with each arranged in the corner of the system element 1 surfaces 4 to each other. In the surfaces 4 connecting means, detents and / or positive connections can be arranged.

The breakthrough 2 facing surfaces of the frame parts 3 may be formed flüssigkeitkeftsdurchlässig or liquid impermeable. About liquid-permeable surfaces can through the opening 2 passed water into the system elements 1 and thus enter the seepage and drainage body. But if a flow sole is to be formed, for example, the breakthrough 2 facing surfaces of the lowermost frame part 3 and the vertically aligned frame parts 3 may be formed closed. Then a high-walled outsole is formed in which sediments can settle. Even with a high-pressure flushing of this outsole, the sediments are not pressed into the seepage and drainage body but are removed from the sole along it.

The various open or closed frame parts 3 can be produced from a mold by injection molding. From an injection molding shot, for example, all four parts are malleable.

In the frame parts 3 also Stapelausformungen may be introduced, as indicated by dashed lines in the underlying frame part in Figure 4. The transport volume, for example, a truck is better utilized, added a transport-safe stacking.

Fig. 5 shows frame parts 3 in a transport position, e.g. on the back of a truck not shown. The frame parts 3 are in four layers one above the other. The surfaces 4 are in turn utilized to abut individual frame parts 3 on adjacent frame parts 3. A compact pack size is the positive result.

Claims (10)

Seepper and drainage body of individual system elements, each having outer walls, each system element is designed as a disc section,
characterized,
in that each system element (1) is formed from at least two separate frame parts (3). Seepage and drainage body according to claim 1, characterized in that each system element (1) has a frame-like configuration, wherein frame sections include an opening (2). Seepage and drainage body according to claim 2, characterized in that the opening (2) has a circular cross-section. Seepage and drainage body according to one of the preceding claims, characterized in that the outer contour of the system element (1) is rectangular. Seepage and drainage body according to one of the preceding claims, characterized in that a plurality of system elements (1) lie on one another or against one another. Seepage and drainage body according to one of the preceding claims, characterized in that system elements (1) are interconnected with each other and / or frame parts (3) with connecting means. Seepage and drainage body according to claim 6, characterized in that the connecting means comprise notches and / or projections. Seepage and drainage body according to one of the preceding claims, characterized in that each frame part (3) forms half of the frame-like configuration. Seepage and drainage body according to one of the preceding claims, characterized in that each frame part (3) forms a quarter of the frame-like configuration. Seepage and drainage body according to claim 9, characterized in that the free ends of the individual frame parts (3) are miter-stacked.

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