NL1009998C2 - Method and device for installing interconnected vertical pipes in the ground. - Google Patents

Abstract

The invention relates to a method and an installation for vertically introducing a number of vertical, parallel pipes (15, 16) connected to one another into the ground, for example in order to form an underground heat exchanger or to form a pipe system for ground heating for the purposes of sterilisation or clean-up of the soil. The method comprises the following steps: a) anchoring a free end (8) of an uninterrupted pipe in or close to the ground surface, (b) guiding the pipe over a rounded insertion element (4), c) inserting the insertion element vertically into the ground while at the same time feeding the pipe form a stock holder (6), d) withdrawing the insertion element, leaving the pipe behind in the ground, e) moving the insertion element in a direction away from the anchoring point, and f) repeating steps b to e. An element for absorbing tensile forces or a support element is fixed to each horizontal pipe section to prevent the horizontal pipe section from kinking and to prevent the horizontal pipe section from being pulled into the substrate. The invention also comprises an installation (1) having a vertical guide (2) and an insertion element (4) which has a curved guide surface and is movable up and down along said vertical guide.

Description

Method and device for installing interconnected vertical pipes in the ground

The application relates to a method and an apparatus for arranging a number of vertical, interconnected parallel liquid transport paths vertically in the ground, comprising the steps of :.

a) guiding the liquid transport path along a rounded insertion member, b) inserting the insertion member vertically into the ground while simultaneously supplying the liquid transport path from a storage container, 10 c) withdrawing the liquid transport path leaving the conduit in the ground, d ) displacement of the introducer, and f) repetition of steps b to d.

Dutch patent application no. 1007903 in the name of the applicant describes a solar collector in the form of a pipe system arranged in a road surface. A part of the pipe system extends vertically on either side of the edges of the road surface for heat exchange with the groundwater located under the road surface. Other applications of a vertically oriented pipe system in the ground are bottom heating for sterilization purposes or for removing contaminants. A heat transporting medium such as, for example, water is passed through the pipe system.

From JP-59 041509 A it is known to apply loops of drainage material in the ground by means of a reciprocating application rod, wherein the strip-shaped filter material is supplied from a supply roll. This method has the drawback that the horizontal filter material webs are subject to relatively great stresses during insertion and can be drawn into the substrate. It is an object of the present invention to provide a method for the rapid, efficient and economically sound installation of a system of a number of vertical, interconnected parallel pipes.

To this end, the method according to the invention is characterized in that the liquid transport path comprises a pipe, wherein a free end of the pipe is anchored in or near the ground surface, and in which a substantially horizontal pipe part adjacent to a first vertical pipe part, a voting member or pull - .100 9 9 9 8 2 receptacle is fitted prior to inserting a second vertical pipe section adjacent to the horizontal pipe section. By passing the conduit under a rounded or curved conductor surface which is then introduced into the substrate, successive loops of conduit material are applied in the soil with a "stitching movement". Because the free end of the pipe is anchored, the end of the pipe is kept in a precisely determined position, without it being pulled into the ground. In order to prevent the adjacent horizontal pipe section from kinking or being pulled into the ground when the vertical pipe section is introduced, the pull-receiving member 10 is attached thereto or a support member is arranged below, such as, for example, a rounded beam, so that pressure distribution over the substrate takes place and the horizontal pipe section is not pulled into the ground.

The method according to the present invention can be carried out in a simple manner with an adapted hydraulic crawler crane, known per se, provided with a leader for inserting vertical drainage strips into the ground.

The device for carrying out the method comprises a vertical guide (broker) and a reciprocally movable insertion member with a curved guide surface. The insertion member may, for example, have a diameter of 15 cm and may be provided with a sharp cutting edge for cutting the bottom. In an embodiment, the insertion member is at least semicircular in shape, so that a gradual curvature of the pipe is obtained. Preferably, a supply roll for the conduit is mounted on the device, for example suspended from the broker and provided with means for supplying the conduit to the introducer. The feeder can be formed by two free-running guide rollers, the line being unrolled by the tensile force exerted upon insertion of the supply roll. The feeder may also be electrically powered for active feed of conduit material to the conduit insertion position into the substrate.

An embodiment of the method and the device according to the present invention will be further elucidated with reference to the annexed drawing. In the drawing shows:

Fig. 1 is a side view of a device according to the present invention, and 10 0 9 9 9 8 3

Fig. 2 a schematic representation of a vertical pipe system arranged at a certain depth below ground level.

Figure 1 shows a crawler crane 1 with a vertically oriented broker 2. An insertion member 45 is attached to a pressure rod 3 which can be moved hydraulically in the broker 2. A flexible pipe 5, for example, formed from a plastic underfloor heating pipe with an outer diameter of 20 mm and a wall thickness of 3.4 mm, as available from WTH Vloerverwarming B.V. in Dordrecht, NL is unwound via a supply device 7 from a supply roll 6 when the insertion member 4 is introduced into the ground. The pipe 5 is anchored at a first end 8 near the bottom surface 9 by means of a schematically indicated anchoring block 10. The substantially horizontal pipe sections 11,12 are supported by support members 13,14 to prevent the horizontal parts 11,12 of the pipe from being pulled into the substrate when the insertion member 4 is inserted. The length of the vertical pipe sections 15,16 is between 1 and 40 meters, preferably about 10 meters. The distance 15 between the vertical pipe sections 15, 16 is, for example, 15 cm. For good heat transfer from the pipe sections 15, 16 to the substrate, these can be ribbed. If the conduit 5 is formed of a relatively flexible material, it can be closed on one side during insertion and filled with a pressure medium such as water or compressed air, so that the conduit is pressed shut.

As shown in figure 1, a nozzle 17 can be attached to the insertion member 4, which is supplied via a pipe (not shown) with a rinsing liquid for rinsing the insertion member 4. The insertion member 4 can also be connected to a vibrating device for the insertion the ground vibrates, depending on the resistance of the ground.

Figure 2 shows an embodiment in which the conduit 19 is connected via tension elements 22, 23, such as for instance a cable or a chain, to tension-receiving members 20, 21 which are placed on the ground 24. The depth at which the vertical pipe sections 19 'lie below the substrate 24 is herein determined by the length of the pull-receiving members 22, 23. After the pipe 19 has been fitted in the substrate, the pull elements 22, 23 and the pull receptacles 20, 21 are removed.

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Although the invention has been described with reference to a crawler crane 1 with a single broker, several brokers can also be used to simultaneously install a number of vertical pipes in the ground.

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Claims (4)

A method for vertically applying a number of vertical, mutually connected, parallel liquid transport paths (15, 16) in the ground, comprising the steps of: a) guiding a liquid transport path along a rounded insertion member (4), b) vertically insertion of the insertion member into the soil with simultaneous supply of the liquid transporting path from a storage container (6), 10 c) withdrawing the insertion member leaving the liquid transporting path in the bottom, d) horizontal displacement of the insertion member, and e) repetition of steps b to d., characterized in that the liquid transport path comprises a pipe, wherein a free end (8) of the pipe is anchored in or near the ground surface, and wherein a substantially horizontal pipe part (11, 12) adjacent to a first vertical conduit section, a support member (13, 14) or pull-up member (20,21,22,23) is provided prior to being grounded installing a second vertical pipe section adjacent to the horizontal pipe section. 20 Device for carrying out the method according to claim 1, characterized in that the device comprises a vertical guide (2) and an insertion member (4) movable to and fro along the guide with a curved guide surface. Device according to claim 2, characterized in that the insertion member (4) is at least semicircular. Device according to claim 2 or 3, provided with a supply roller (6) for the pipe and with a supply device for supplying pipe to the insertion member. 100 9 998