DE1634488A1 - Device for driving piles, beams or pillars into the ground - Google Patents

Description

Device for driving piles, girders or pillars into the Soil The invention relates to a device with which piles, girders or Pillars are driven into the ground, and particularly relates to a facility of this type, which is provided with a guide frame, which is removable on a Underframe is attached in such a way that it is by means of a support member that one having pressure-actuated cylinder, adjustable in the lateral direction as well can be raised and lowered, with a drive device on the guide frame and up is movable and wherein a screw drill at the end of a telescopic rod is arranged, which has expandable blades and on the front end is provided with a receptacle. With this facility, a prefabricated stake, Beam or column with a large diameter and a thick wall in the earth are driven.

Numerous methods for driving piles or pillars into the ground have already been developed, which can basically be divided into two groups: First, the pile-driving method, which works by means of vibrations or a ram, and then a method in which a static load is applied and a Grinding is carried out. The first method can be used when the pile has a relatively small diameter or only a shallow depth, as a result of which the method, which is associated with considerable noise, is very limited in its application. The second method involves digging up the ground so that there are no restrictions on the dimensions of the pile or column; nor is this method associated with noise, so that it is preferable to the first method. However, the efficiency is unfavorable here. The invention avoids the disadvantages of the known methods and creates a novel 3inrichtungg with which piles and columns are driven into the ground, which are prefabricated and have a relatively large diameter and large slopes, without noise being generated. Furthermore, the present invention has the advantage that the pile or column is anchored completely firmly in the ground without having to pour liquid concrete, as is customary in the known methods.

The invention is shown in the accompanying drawing, for example and is explained in detail below.

Fig. 1 is a partially sectional side view of a device according to the invention.

FIG. 2 shows an enlarged part of FIG. 1. FIG. 3 is enlarged Scale a section through part of the figure: 2.

FIG. 4 is a top plan view of FIG. 1 According to fig. 1 is a guide device at the upper, front end of an underframe l by means of an axis 3 2 attached. A. the two sides of the back. Direct end of the underframe 1 are attached by ball joints 6 support members 4, the other ends of which on a console 5 are attached to the guide frame 2. In the lower part of the support members 4 are a piston 7 and a cylinder 8 are provided, which. a printing medium can be fed can. to enable raising and lowering.

At the top. At the end of the F, i.hrungsgerüsts 2 a bracket 10 is provided for a pulley 19, over which a rope 11 runs. At the. A telescopic rod 20 is attached to the end of this rope. The guide frame 2 serves as a vertical guide .. on which by means of a rope 12s which is guided over a oarlock seated on a console 9 .. a displaceable drive slide 13 can be moved up and down, which can be stopped in any desired position. The slide 13 has a tickle 15 which is seated on the output shaft of a drive motor 14 and which meshes with a toothed wheel 16 which is provided with a square hole 1? In the middle. A telescopic tube 18 with a square cross-section is slidably inserted into this square hole. This tube 18 is formed by three or two elements which fit into one another, the rope being attached to the upper end of the smallest element, namely the rod 20, in order to be able to lift the rod in this way.

At the lower end of the square rod 20, the axis 22 of a screw drill 21 is attached, which runs in a receptacle 23 which is attached to the axis 22. On the outer surface of a guide tube 24 for the rod 20, a plate 26 is provided, the outer circumference of which is inserted into an annular channel 25 which is provided in the upper part of the container 23. From the surface of the plate 26 two brackets 27 protrude, at the upper ends of which two levers 28 are mounted, which are pressed upwards by springs 29. The other ends of the levers 28 engage through openings 31 ′ into a guide channel 31 which is provided in the guide tube 24. The release of the levers 28 from stops 30 is carried out in the following way: A clamping device 32, which is controlled by an oil cylinder 32 ', clamps the upper end of the container, whereupon the outer ends of the levers 28 are actuated by parts 33 which are provided on the lower surface of the carriage 13. In this way , the inner ends of the levers are released from the stops 30. The square rod 20 and the screw drill 21 can then be removed from the container 23 in the axial direction.

The screw drill 21 is provided with expandable blades 35, which are attached to the outer edges in such a way that they spread outwards where the top view of the screw is a circle. The spreadable ones Blades 35 are designed so that their outside diameter can be smaller than the inner diameter of the column 37, while in operation it has a larger diameter than it corresponds to the outside diameter of the column.

If now the carriage 13 along the guide frame 2 when rotating the telescopic rod 18 is lowered, come the expandable Shovels 35 in contact with the ground and are driven by the resistance of the ground pushed up. In this way they are spread apart so that they become larger in outside diameter than column 37.

The drill bit 38 and the expanded blades 35 dig when the screw drill 21 i rotates. the soil ei: the dredged soil is collected in the container 23. After the container 23 has fallen, it is through. the .olding of the telescopic rod 18 is raised, the spread blades collapse under their own weight so that their diameter is smaller than the inner diameter of the column 37. As a result, the blades 3. could also be read i. the. Pull in container 23. The soil contained in the container 23 is brought to a desired location, wherein. it is prevented from falling out by the screw drill. After the container is placed in the desired location _ through this been. is, becomes the bottom. from the container, 4entfe = t, that the drilling screw rotates in the opposite direction: - '.

In the present i: a @ .äu-og, the slide is not only along the Guide frame can be moved up and down, but can also i. any position you want be stopped. Accordingly, a height adjustment can be made as a function on the length of the column to be set easily, making a versatile Application of: facility is possible - - The container runs at the device according to the invention does not have to, so that the resistance of the telescopic formed tube can be smaller than in known devices. Through the Self-drilling screw can easily picked up the dredged soil including clay because the expandable blades have a diameter that is slightly larger is as the diameter of the column.

The device according to the invention works noiselessly and allows the insertion of any type of prefabricated piles, pillars or girders.

Claims (1)

Device for driving piles, columns or girders into the ground, characterized by a movable underframe (1) with a guide frame (2) which can be pushed out or pushed in by means of support members (4) which can be pushed out or pushed in via hydraulic cylinders (7, 8) - and can be lowered by a slide (13) which can be freely pushed up and down along the guide frame and is provided with a displaceable, telescopic tube (18, 20), at the upper end of which a receiving air filter (23) is attached, and by a drilling screw (21) which is provided with expandable blades (35) on the screw surface.