DE2401569A1 - WATER GUIDE PIPE SET TO PREVENT MOUNTAIN SLIDES - Google Patents

Description

DIPL.-PHYS. ROBERT MÜNZHUBER

PATENT LAWYERS

8 MUNICH 22 Wl DENMAYERSTRASSE 6 TEL. (089) 22 25 30 - 29 51 92

A 373 73 Ml / ib. ¹ ^ - ^January

Men's

Hikoitsu WATANABE, No.5-13, 1-chome, Ebara-cho, Nakano-ku,

Tokyo, Japan

Tsuguhiko WATANABE, No.5-13, 1-chome, Ebara-cho, Nakano-ku,

Tokyo, Japan

Water pipe set to prevent landslides

The invention relates to a water pipe set for Preventing landslides, which makes it possible to remove excessive water from the soil in vulnerable areas and to keep the water content at a stable level without compromising the absorption capacity of the Lower ground for the water.

Although the causes of landslides are not fully understood, it is well known that such Landslides occur in most cases due to increased water accumulation, namely when the water content of the soil is tolerable Exceeds the limit value, which can occur through rain or melt water or the like. When landslides hit the

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This cause can be traced back to, it may be necessary to have a very high absorption capacity of the soil achieve that excessive amounts of water are automatically drained off> so that a stabilized water content is always obtained remain. It can be said that this is the best and most effective method of preventing landslides by natural means.

It will be sharp, tapered and above yours for the purpose Water drainage pipes provided with water inlet holes throughout the entire length. They become horizontal or slightly oblique driven into slopes where there is a risk of landslides, with additional pipes connected to the water intake pipes until the penetrating water intake pipe has reached a certain layer. You expect that to be there existing underground water into the water intake pipe through the Penetrates water inlet holes and is conveyed through the other pipes to the outside. However, if such a water intake pipe is driven into the ground with a number of water entry holes along its length, this will Soil, through which the water intake pipe is driven, is pressed into the water inlet holes and settles stuck there, possibly clogging the water inlet holes and also the other water drainage pipes. The consequence of this is that the entire pipe system does not work as required, even if it has been driven into the appropriate shift. For this reason, after completion of the driving process, water is pressed into the water drainage pipe with the help of a pump,

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to stimulate and wash out the soil it contains. This washing process is continued and repeated as long as until the inside of the tube is clean and the water inlet holes are open. At the same time, a reservoir cavity can be turned around have formed the drainage pipe as the solid earth during repeated washing can be destroyed. The groundwater then forming in the cavity can in this way through the entry holes, the water intake pipe and the additional Pipes are discharged to the outside. The amount of soil that is loosened up with every single wash Can be flushed out, however, is very small and it takes a considerable amount of time and effort to complete the entire flushing process perform. The washing process also becomes considerably more difficult when the depth of the earth to be reached increases lies.

In view of the listed disadvantages of conventional water intake pipes, the object of the invention is to provide an improved To create water intake pipe for preventing landslides, in which it is avoided with certainty that soil through penetrates the water entry holes during the driving process, and this is precisely established in the groundwater layer by. the amount of groundwater flow is determined at the required level.

To solve this problem, a water intake pipe with a head at one end, a number of water entry holes

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used along its length and a connector base at the other end in conjunction with a set of additional pipes that be connected to one another by connecting bases to form a pipe section, with the additional pipes having a larger bore diameter than the water pick-up tube, while a set of connecting rods is provided, which with its diameter then fits into the bore of the water intake pipe, the individual connecting rods to one another by means of Screw connection can be connected. During the driving process, both the additional pipes and the drive rods connected to each other at the rear end of the respective preceding element as required and then the whole thing by propulsive blows driven onto the last drive rod. The water inlet holes of the water intake pipe are through in this way the drive rod inserted into the pipe closed so that no soil can penetrate while the water intake pipe can then be used exactly in the groundwater layer, with the drive rod out. is occasionally pulled out of the water intake pipe to determine whether the groundwater layer has already been reached and whether the water has passed through the water intake pipe and the cavity between the other pipes and flows through the rods.

In conjunction with the drawing, the invention will now be described below using an exemplary embodiment. Show it:

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Pig. 1 is a view of the water intake according to the invention he ear it;

Pig. 2 the head removed from the front end of the receiving tube;

3 shows the view of an additional pipe section; .

Fig. 4 is a view of the arrangement in which the water intake pipe with an additional pipe section is coupled;

5 shows the view of the drive rod;

6 shows a partially cut-away view of the combination of one for driving into the water receiving tube driving rod inserted into the ground; and

7 is a partially cut-away view showing the water intake pipe driven into the ground and an additional tube placed on top as well as the drive rod that runs through both tube lengths shows.

Fig. 1 shows a water intake pipe 10 according to the invention. It consists of a body part 12, a head 14, which is attached to one end of the body part 'is attached, as well as one at the, the other .End attached base 16. The body part 12 is for example a steel pipe of a predetermined bore diameter, length and strength and has a number of water entry holes l8, which are drilled in over the entire length. Fig. 2 shows that the head 14 is a ring 20, the inner diameter of which able to overlap the body part 12. The ring is provided with grooves at its front end into which cross-chisel blades 24 with sharp chisel edges are inserted. The head is thereby connected to the body part 12 that the ring 20 is firmly placed on its front end. The base 16 is used

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this means that additional tubes 28 can be connected to the body part in a manner to be described later. As well as the head 14, the base has a larger inner diameter than the outer diameter of the body part 12 and is on its rear -End provided with an internal thread 26 so that the front ends of further pipe sections 28 can be screwed in here. The base j is connected to the body part 12 in that it is pushed halfway onto the body and fastened.

This further pipe 28 can be connected to the water intake pipe 10 through the base 16. In addition, it can with still further pipes are assembled to form a pipeline when the water intake pipe 10 is deeper into the ground is driven. For this purpose, a number of additional pipes are provided as a set for each water intake pipe 10 ready. Fig. 3 shows such an additional tube 28, which consists of steel, for example, a certain length and a Has diameter which is greater than the inner diameter of the body part 12 of the water receiving tube 10. It is at its one End equipped with an external thread 30, so that it is screwed into the internal thread 26 of the base 16 on the water receiving tube 10 can be. In addition, the additional tube has at its other end a socket 34 with an internal thread 32, the screwed over the external thread 30 of the same additional pipe can be. In this way it is possible to connect several additional tubes 28 together and the front one with the water intake tube 10 with the help of the internal thread 26 or 32 of the socket

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kel 16 or 34 and the external threads 30 at the front end of the additional To screw tubes 28 together. The pipeline can thus by connecting additional pipes 28 to the water intake pipe 10 can be screwed together to a certain length as shown in FIG.

In Fig. 5, a drive rod 36 is now shown, those made of a very rigid material such as a round steel rod consists and with the help of which the composed of the water intake pipe 10 and the additional pipes 28 pipeline in the subsoil is driven. The drive rod can be assembled with the help of threaded connections 38, and their Length is such that the rear end is always a suitable piece from the rear end of the water intake pipe 10 or of the following additional pipe 28 looks out when the drive rod in the water receiving pipe 10 or the entire pipeline is used. Since each drive rod 36 has an outer diameter that closes into the bore of the water intake pipe 10 fits into it, the water inlet holes l8 are closed by the peripheral surface of the drive rod 36 when this is in the Water receiving tube 10 is inserted, while a distance between the inner wall of the additional tube 28 and the drive rod 40 exists because its inner diameter is larger than that of the water receiving tube 10 (see FIG. 7).

When driving the water intake pipe 10 into the ground, the foremost driving rod 36 is first pushed into the water

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receiving tube used, with its end face against the rear edges of the cross chisel 24 of the head 14 is pending while

de a striking cap 42 on the rear * of the drive rod by means of a thread 36 is attached, from the water intake pipe 10 at the rear protrudes so that the drive rod is not damaged when striking with the hammer. The chisel cutting edges 24 are then placed on the slope 44, where there is a risk of landslides, while the water intake pipe is held horizontally or slightly downwards and is driven in by impacts on the impact protection cap 42. The water intake pipe 10 thus penetrates into the ground and push this aside. The soil surrounding the water intake pipe 10 normally tries to pass through the water entry holes 18 to get into the pipe, but it is effectively prevented from entering, since these water entry holes 18 be closed by the drive rod 36, which is in the water intake pipe 10 is inserted, and there the resistance between

the body part 12 and the soil is significantly reduced, the

penetrates through / the body part 12 and that already from the previous one Head 14, which has a larger outer diameter than the Body part 12 of the water intake pipe has been driven apart.

The driving is interrupted before the rear end of the water receiving pipe 10 is covered by the soil, and the Impact protection cap 42 is removed from drive rod 36. then an additional pipe 28 is connected to the rear end of the water intake pipe 10, as shown in Fig. 7, while the propulsion

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• 3.

rod J> 6 is also extended and the impact protection cap 42 is screwed onto the now rear end. The driving process is then continued. By repeating this process, the water intake pipe 10 is advanced to the desired depth, further additional pipes 28 and connecting rods 36 being added. After the water intake pipe 10 has reached a certain depth, the driving process is occasionally interrupted, if this appears sensible, in order to clear the water inlet holes 18 by pulling the drive rod out of the water intake pipe 10 and to determine whether the water intake was already through the open water inlet holes 18 ear 10 and the space 40 between / additional tubes 28 and drive rod 36 flows. If groundwater flows out, this indicates that the water receiving pipe 10 is already in the groundwater layer, so that the drive rods 36 are then completely pulled out and the driving process is ended. If no water runs out yet, this indicates that the water intake pipe 10 has not yet reached the groundwater layer. The drive rod 36 is then completely reinserted and the driving process is continued. In this way, driving is carried out with repeated checks as to whether the groundwater layer has already been reached. With the aid of the invention it is thus possible to introduce the water intake pipe 10 with certainty into the groundwater layer and to determine this fact in a very simple manner.

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Claims (4)

PATENT CLAIMS 1.1 Set of water pipes to prevent the risk of landslides, characterized in that the set consists of a water intake pipe (10) with a head (14) at one end and a number of water inlet openings (18) distributed over its entire length, a number of additional pipes (28), whose inner diameter is larger than that of the water intake pipe (10) and which can be connected to one another, and a set of connecting rods (J> 6), the outer diameter of which fits into the water intake pipe (10) and can be coupled to one another in the same way. 2. Pipe set according to claim 1, characterized in that the length of the drive rod (36) is dimensioned so that the respective Rear end of the drive rods inserted into the water intake pipe (10) or the additional pipes (28) connected to it (36) protrudes from the rear end of the pipe. 3.. Pipe set according to claim 1 or 2, characterized in that that the outer diameter of the head (14) of the water intake pipe (10) is greater than its outer diameter. 509818/1024 - 11 - 4. A method for driving a water guide pipe set to prevent the risk of landslides, which consists of a water intake pipe with a head at one end and a number of water inlet openings over its entire length, one Set of additional pipes, the bore diameter of which is larger than that of the water intake pipe, and a set of connecting rods, the diameter of which fits into the bore of the water intake pipe and which can also be connected to one another, characterized in that the tube set by hammer blows on the rear end of the drive rod, which is in the water receiving tube is used, is driven in, so that the water inlets are kept closed, that the driving is continued until the water receiving tube a predetermined Depth, irvdem additional pipes and corresponding connecting rod pieces are connected one after the other, and that to open the inlet openings of the water intake pipe the drive rod is occasionally pulled out of the water intake pipe to determine whether groundwater has entered the water intake openings flows into it, which indicates that the water intake pipe is already in the groundwater, whereby the The water intake pipe is safely inserted into the groundwater layer can be. 509818/1024