NL9302290A - Shaft - Google Patents

Abstract

The invention relates to a shaft comprising at least one module which is composed of a base element, a linking element joined thereto, and means for fixing the module in a layer of earth surrounding the module. Preferably, sealing means are accommodated between the modules, said sealing means being made of flexible material. In an advantageous embodiment of the invention, the fixing means are formed by a flange which surrounds the linking element and is supported by reinforcement elements running radially.

Description

SHAFT

The present invention relates to a shaft, for example to be used as a pumping station in landfills, as an escape shaft in mining, at sewage pumping stations and the like.

The current shafts used in the above places are generally made of concrete or steel. Steel shafts, for example, consist of a long round tube that has a bottom and is coated with a coating to prevent corrosion.

Such a tube is loaded from various sides. First, there is the radial load from the soil surrounding the pipe. Furthermore, the soil tends to pull the tube down, as it were, whereby its walls are additionally subjected to a shear load, which is referred to as an adhesive load. Both types of load will vary over time, because the soil layers surrounding the shaft can be in constant motion, for example, by settling of the soil through the action of microorganisms or by water seeping through the soil.

In addition, for example in the case of a landfill by compacters and the like driving over it, additional, uneven loads occur. The disadvantage of a 'rigid system' as described above is that the load differences cannot be absorbed, so that deformation or even breakage of the pipe can occur.

Concrete shafts are generally built up from loose elements, which are joined together by means of joint material. The disadvantage of concrete is that it is very susceptible to corrosion. In addition, such concrete elements are difficult to handle due to their weight. In addition, the seams between the elements are a weak link in the system, on which leaks and the like can easily occur. A concrete shaft also has limited flexibility.

The present invention aims to avoid the above-mentioned drawbacks of existing shafts.

This is achieved by the invention by a shaft comprising at least one module, which is built up from a base element, a connecting element connected thereto and means for fixing the module in a base layer surrounding the module.

The shaft according to the invention has great flexibility due to the modular construction. The different modules can not only slide into each other, but can also move transversely relative to each other. Because the fixation means ensure that a module moves along with a surrounding ground layer, shifts of such a layer or subsidence thereof result in a lateral and downward movement of the module, respectively. The shaft is no longer loaded in its entirety but per module. Such a shaft is therefore no longer bound to a straight, rigid shape, but can also start to bend over time.

By properly sealing the modules together, such a change in shape will not be a problem for the functioning of the shaft. Such seals are preferably made of flexible material, so that with each movement of the modules, their sealing effect is optimally retained.

The fixation means are preferably formed by a flange surrounding the connecting element. By means of such a flange, the module floats in the surrounding soil layer, as it were, and will thus be able to follow the movements of the soil layer. Preferably, the flange is supported by radially extending reinforcing elements.

It is preferred that the base member be provided with reinforcement bands running along its inner circumference. In addition, the connecting element can optionally be provided with reinforcing bands running along its outer circumference.

The connecting element preferably has a larger diameter than the base element, as a result of which this element slides around the next base element. However, it is also conceivable to provide a connecting element, the cross section of which is smaller than that of the basic element, so that the connecting element can slide into a subsequent basic element.

The shafts according to the invention can be made of any desired material, but advantageously they are made of plastic. Plastic has the advantage that it is light and corrosion resistant.

The modules preferably have a hexagonal cross section. It has been found that this shape is particularly advantageous in absorbing the different types of load and is also advantageous in manufacturing.

The shaft according to the invention can for instance be used as a pumping station in a landfill. Such a landfill usually consists of a foil-lined hole in the ground, on the bottom of which there is a sand layer with a drainage system incorporated therein. The water collected by the drainage system may contain leached harmful substances that must be removed. This is done by means of a so-called pumping station. The advantage of the modular construction of the shaft according to the invention is that it can grow along with the landfill when used on a landfill. When the landfill is only partially filled, a full pumping station will not be needed either. The shaft will then be composed of only a limited number of modules. It is also possible to extend the shaft at a later stage.

Preferably, when the shaft is used as a pumping station, the leach water is collected in the bottom module. By sealing this module airtight to the shaft, odors and any harmful gases cannot be released into the shaft. The pump located above it contains the pump with which the water is pumped up. Preferably, the top module is a control module, which contains control equipment for the pump and the like. The access to the shaft, for example for maintenance work and the like, also takes place via the top module.

The present invention will be further elucidated with reference to the annexed drawings, in which like reference numerals refer to like parts and in which: figure 1 shows a shaft according to the invention applied to a landfill; figure 2 shows a partly broken away perspective view of a shaft according to the invention; figure 3 is a partly broken away perspective view of the lower module; * figure 4 is a partly broken away perspective view of the coupling between two modules; figure 5 is a partly broken away perspective view of a base element; and figure 6 shows a partly broken away perspective view of the top module.

Figure 1 shows a landfill, which is formed by a hole in the ground covered with foil 1, on the bottom of which a sand layer 2 with drainage system 3 is received. Waste 5 is located on the drainage layer. The drainage system drains via a shaft 4 according to the invention.

The shaft 4 is shown in more detail in Figures 2-6. The shaft 4 is built up from a number of modules 6, which in turn consist of a base element 7, a connecting element 8 and means for fixing the module in the base layer 9 surrounding the module.

In the shown embodiment, the means for fixing the module are formed by a flange. The flange is supported by radially extending reinforcing elements 10. Reinforcing bands 11 are arranged on the inside of the base element 7. Such reinforcing straps 12 can also be provided on the outside of the connecting element 8 (see also Fig. 4).

The lower module 13 (see Fig. 3) consists of only one basic element. The water entering it via drainage pipes 3 is pumped up by means of the pump 14 placed in the module above it (see Fig. 2) and via pipes 15, which are connected to each other by means of flexible spacers 16, via a discharge pipe 17 removed. The module 13 is preferably airtight, so that odor and any harmful gases cannot enter the shaft. The module can be vented via a vent pipe 21, which is in contact with the outside air. For maintenance work, the bottom module is also provided with a manhole at its top side. 18. Because the pump, which is the most maintenance-sensitive, is placed in the module above it, it will only occur sporadically that work must be carried out in module 13 itself.

The upper module 19 in the embodiment shown is provided, inter alia, with control equipment 20. In this way it is very simple to control the operation of the pump and the like from the upper module of the shaft. Module 19 is accessible from the outside via access openings 25.

In modules 19 and 6, ladders 22 and 6, respectively. 23 arranged for descending into the shaft. To this end, the modules 6 ± n on their top also contain a manhole 24.

The mutual sealing of the modules is provided by a flexible seal 26 which is protected by a cover plate 27 (see Fig. 4).

The shaft according to the invention is very flexible due to its modular construction and will therefore be able to follow the movements in the surrounding soil much better. This prevents deformation and breakage in the shaft.

Claims (13)

Shaft, comprising at least one module, which is built up from a base element, a connecting element connected thereto and means for fixing the module in a base layer surrounding the module. Shaft according to claim 1, characterized in that sealing means are included between the modules. Shaft according to claim 2, characterized in that the sealing means are made of flexible material. Shaft according to any one of claims 1 to 3, characterized in that the fixing means are formed by a flange surrounding the connecting element. Shaft according to claim 4, characterized in that the flange is supported by radially extending reinforcing elements. Shaft according to any one of claims 1 to 5, characterized in that the base element is provided with reinforcement bands running along its inner circumference. Shaft according to any one of claims 1 to 6, characterized in that the connecting element is provided with reinforcing bands running along its outer circumference. Shaft according to any one of claims 1 to 7, characterized in that the cross section of the connecting element is larger than the cross section of the base element. Shaft according to any one of claims 1 to 8, characterized in that the modules are made of plastic. Shaft according to any one of claims 1 to 9, characterized in that the shaft has a hexagonal cross section. Shaft according to any one of claims 1 to 10, characterized in that the bottom module is only built up from a base element and is provided with a pumping device for pumping drainage water from a landfill. Shaft according to any one of claims 1-11, characterized in that the top module is a control module. 13. Module, comprising a base element, a connecting element connected thereto and means for fixing the module in a base layer surrounding the module, to be used in a shaft.