NL2003267C2 - METHOD AND SYSTEM FOR BUILDING AN UNDERGROUND SPACE. - Google Patents

Description

NL13438-ZO / mr

METHOD AND SYSTEM FOR BUILDING AN UNDERGROUND SPACE

The invention relates to a method and a building system for building an at least partially underground space, such as a basement, a sunken garage or basement, for example as an extension to an existing building, such as a dwelling.

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European patent application EP 1 348 812 A discloses a method for building a basement, wherein a hollow sidewall construction without a bottom is pulled into the ground with the aid of jacks which are connected to. with the help of tie rods 10 against grout anchors placed in the ground. The tie rods are located on the inside of the basement wall. This creates strong bending forces on the walls.

A similar system is known from Japanese publication JP 10131210, wherein tension cables are used on either side of the walls.

It is an object of the invention to provide a building system and method for sinking an at least partially underground space, such as a basement, in a quick, uniform and controllable manner.

The object of the invention is achieved with a method for building an at least partially underground space, wherein a floorless side wall construction of one or more side walls for enclosing the space to be built is placed at the desired location after which tension members are placed on the side wall construction placed which are then coupled via anchoring cables or rods to anchors placed in the ground, whereafter the pulling members 2 press the side wall structure into the ground by pulling on the anchors. The pull cables or rods are guided through internal vertical channels in the side wall construction.

In this context, sidewall construction is understood to mean a construction of one or more sidewalls that open up a space without a floor and usually without an upper or intermediate deck. The side wall construction may, for example, consist of a single, round side wall or of. four side walls that form a rectangular or square chamber, or from several side walls that, for example, border L-shaped or polygonal chamber,

The anchors can for instance be folding anchors which are introduced into the ground via one of the vertical channels in the side wall construction. Folding anchors have a hinged anchor head that is forcefully driven into the ground and then folded out. Suitable folding anchors are, for example, the Duckbill®, Mataray © and Sting Ray® folding anchors, available from JLD International BV and described on the website www.klapanker.nl 20

After the side wall structure has sunk, the vertical channels can then be filled with a hardening building material, such as a mortar.

In order to make it easier for the side wall construction to be drawn into the ground, the lower edge thereof may, for example, be wholly or partially provided with an incisor.

The ground can be dug off from the side wall construction during just pulling downwards. However, before the side wall construction is pulled down, it is also possible to dig a first part of the ground. A second part of the ground can then be dug off during the sinking of the side wall.

After pulling down the side wall construction, a floor 5 can be laid, for example by applying a reinforcement, after which concrete can be poured.

The side wall construction can for instance be assembled from prefabricated wall elements. This can be done on site or at another location. It is also possible to prefabricate the side wall construction as a whole or to deposit it at the construction site.

The invention relates to both the method described above and to the side wall construction as such wherein the one or more of the side walls are provided with one or more internal channels extending between an upper edge and a lower edge of the relevant side wall.

The invention also relates to a prefab wall element with.

Two parallel side edges provided with coupling elements for connection to a corresponding side wall, a lower edge and an upper edge, wherein the wall element is provided with one or more internal channels extending between the upper edge and the lower edge. With such prefab wall elements, a side wall construction according to the invention can be assembled quickly and easily.

The described method can be effectively carried out with. a building system according to the invention for building an at least partially underground space. The system may, for example, comprise hydraulic pull members. A central control can be used for controlling and coordinating the pulling members.

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The hydraulic tension members can for instance consist of two or more hydraulic cylinders between a bottom plate that can be mounted on the top edge of the side wall construction, and a top plate, to which the ends of the piston rods are attached. The top plate can then be coupled in the middle to the tie rod of the anchor in question. The drawbar can be provided with a screw thread, so that the top plate can be coupled to the drawbar by means of an adjusting screw in a height-adjustable manner. An intermediate plate can be attached to the upper ends of the cylinder jackets to fix and stabilize the two cylinders relative to each other. The cylinders can be activated to compress the top plate and the bottom plate. The cylinders then deposit via the top plate against the tie rod and the anchor and the side wall construction is pressed down via the bottom plate. After making a stroke, the height of the top plate relative to the drawbar can be adjusted so that the piston rods of the cylinders can be retracted and a new stroke can be made. In this way, as many strokes can be made as necessary for bringing the side wall construction to the desired height.

The system can also comprise provisions for permanent measurement of the height of two or more points on the upper edge of the side wall construction. The control of the pulling members can then be adjusted if necessary. settle any height differences between the two or more highlights. The facilities for it. height difference monitors can for instance consist of two or more liquid containers which can be placed at different points on the upper edge of the side wall construction, for instance each on or immediately next to one of the tension members, and which are connected as communicating vessels, the liquid containers being provided with sensors for measuring the height of the liquid level. When the wall is skewed, the liquid rises in the lowest-lying liquid container. When the liquid level rises above a certain point, the sensor sends a signal to the control of the nearby traction member, which is activated to exert a pulling force, or a greater tensile force, on the side wall construction, so that the difference in height is removed again.

Alternatively, other means can be used to monitor and correct undesired height differences between the different points of the side wall construction, such as, for example, electronic height meters.

By applying the method according to the invention, it is possible to build very close to the foundation of the associated house or building. Furthermore, with the system and the method according to the invention, larger basement rooms can be realized than was previously possible. Parking garages and basement rooms of comparable dimensions can for instance also be realized in this way.

The invention will be further elucidated with reference to the drawing. Herein: Figure 1 shows in perspective a side wall construction for a basement to be placed according to a method according to the invention;

Figure 2A: a folding anchor from Figure 1 in detail before it has been folded out; Figure 2B: the folding anchor of Figure 2A after it has been folded out; 6

Figure 3: in front view the side wall construction from Figure 1 for sinking provided with a system for monitoring height differences.

Figure 1 shows a floorless side wall construction 1, consisting of two opposed long side walls 2 and two shorter opposite side walls 3 which together define a basement to be placed. The side wall construction 1 can be assembled on site, for example from prefab wall elements. The side walls 2, 3 are provided with internal vertical channels 4 near the corner points 5 of the side wall construction 1. The long side walls 2 are also provided with internal vertical channels 6 in the middle.

Steel profiles 7 are arranged on the inside of the walls 2, 3, between which stamping stamps 8 are clamped in order to form a stamping frame.

From the upper edge 9 of the side walls 2, 3, folding anchors 10 have been forcefully shot into the ground via the vertical channels 4, 6 in the side walls. The folding anchors 10 are shown in more detail in Figures 2A and 2B. The folding anchors 10 comprise a pull rod 11 with a hinged anchor head 12 at the end, which comprises on one side a tubular part 13, in which the end 14 of a connecting rod 15 can be placed. The other side of the anchor head 12 comprises a cutting surface 16. When the connecting rod 15 is placed in the tubular part 13 of the anchor head 12, the folding anchor 10 can be driven into the ground with great force. The connecting rod 15 can then be removed. By pulling on the tie rod 11, the anchor head 12 then tilts, so that it fixes itself in the ground.

After arranging the folding anchors 10 via the vertical channels 4, 6, tension members 16 7 are coupled to the upper edges 9 of the side walls 2, 3, each at the end of one of the tension rods 11. The tension members 16 are shown in more detail in Figure 3 and each comprise two hydraulic cylinders 17 between a bottom plate 18, which rests on the upper edge of the side wall 2, 3 and a top plate $ 19, to which the ends of the piston rods 20 are attached. The top plate 19 is in the. center coupled to the drawbar 11.

Between the lower plate 18 and the upper plate 19, an intermediate plate 21 is attached to the upper ends of the cylinder runners to fix and stabilize the two cylinders 17 relative to each other.

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When the cylinders 17 are activated, they deposit against the top plate 19, pull rod 11 and folding anchor 10, thus pushing down the side wall structure 1. After making a stroke, the pull rod 11 is disconnected from the top plate 19, so that the cylinders 10 can be retracted again for the purpose. make a new move.

The cylinders 17 are jointly controlled and coordinated from a central control 25, schematically shown in Figure 20.

Figure 3 shows the side wall construction 1 in front view, wherein the cylinders 17 are provided with means 26 for permanent monitoring of the height differences between two points on the upper edge 9 of the side wall construction 1. If desired, such means 26 can be arranged at several points. The means 26 for monitoring differences in height consist in this embodiment of two liquid containers 27 which are each attached to one of the cylinders 17. The two liquid containers 27 are connected to each other via a liquid line 28 as communicating vessels. Both liquid containers 27 are partially filled with a liquid, such as water. The liquid containers 27 are each provided with sensors for measuring the height of the liquid level.

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When the side wall structure 1 is skewed, the liquid rises in the lowest-lying liquid container 27. When the liquid level rises above a certain point, the sensor issues a signal to the control of the associated cylinder 17, which I is subsequently activated to release a downward force. to practice on the side wall construction 1, so that the difference in height is removed again. Alternatively, or additionally, electronic height meters can be used, for example.

After each stroke of the cylinders 10, soil is dug away inside the side wall construction 1, in particular near the lower edges of the walls 2, 3. The lower edges of the walls 2, 3 are provided with a cutting edge (not shown) around the facilitate the pressing of the side walls into the ground.

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When the side wall structure 1 has reached the desired depth, the tension members 16 are removed and the part of the tie rods 11 that protrudes above the side wall structure 1 is sawn off. The vertical channels 4 are then sealed with a mortar. Subsequently, a reinforcement is applied to the floor in the side wall construction and a floor is poured. After the floor has hardened, the struts 8 are removed and the basement room can be completed, inter alia by providing an entrance, for example from the house or building where the basement room is placed. The basement room can then be covered with a cobblestone deck.

Claims (15)

Method for building an at least partially underground space, wherein a floorless side wall construction of one or more side walls for enclosing the space to be built is placed at the desired location, whereafter tension members are placed on the side wall construction which are then placed via tension cables or Rods are coupled to anchors arranged in the ground, after which the pulling members push the sidewall structure into the ground by pulling on the anchors, characterized in that the pulling cables or rods are guided via internal vertical channels in the side walls of the side wall construction. Method according to claim 1, characterized in that one or more of the anchors consist of a folding anchor that is introduced into the ground via one of the vertical channels in the side wall construction. 3. Method as claimed in claim 1 or 2, characterized in that the vertical channels, after pressing the sidewall construction into the ground, are filled with a hardening building material. 4. Method as claimed in any of the foregoing claims, characterized in that the side wall construction comprises a lower edge which is at least partially provided with a cutting edge. 5. Method as claimed in any of the foregoing claims, characterized in that before the side wall construction is pulled down, a first part of the ground surrounded by the side wall construction is excavated and a second part of the ground is excavated during the sinking of the side wall construction. 6. Method as claimed in any of the foregoing claims, characterized in that a floor is laid after pulling down the side wall construction. 7. Method as claimed in any of the foregoing claims, characterized in that the side wall construction is assembled from prefabricated wall elements. 8. Side wall construction of contiguous side walls without floor, the one or more of the side walls being provided with one or more internal channels extending between an upper edge and a lower edge of the relevant side wall. 9. Side wall construction as claimed in claim 9, characterized in that the bottom edge of at least a part of the side walls is provided with a cutting edge. 10. Prefab wall element with two parallel side edges provided with coupling elements for connection to a corresponding side wall, a bottom edge and a top edge, the wall element being provided with one or more internal channels extending between the top edge and the bottom edge. 11. System for building an at least partially underground space according to one of the claims 1-8, characterized in that the system comprises hydraulic pulling members and a central control for controlling the pulling members. 12. System as claimed in claim 11, characterized in that the hydraulic pulling members consist of. two or more hydraulic cylinders between a bottom plate that can be mounted on the upper edge of the side wall structure, and a top plate to which the ends of the piston rods are attached, the top plate being coupled in the middle in a height-adjustable manner to a drawbar coupled to the relevant anchor. 1.0 A system according to claim 12, characterized in that the drawbar is provided with a screw thread, and in that the top plate can be adjusted in height relative to the drawbar by means of an adjusting screw cooperating with the screw thread. 15 14. System as claimed in claim 12 or 13, characterized in that an intermediate plate is attached to the upper ends of the cylinder jackets under the top plate. A system according to claim 12, 13 or 14, characterized in that the system comprises two or more height meters for permanent measurement of the height of two or more points on the upper edge of the side wall construction.