NO140835B - PROCEDURE AND ADDITIONAL UNIT FOR EXCAVATOR OR EQUIVALENT TO AA REDUCED ELEGANT ELEMENTS IN GROUND CONTAINING BLOCKS AND STONES - Google Patents

Abstract

Procedure and additional unit for excavator or equivalent to reduce elongated elements in ground containing blocks and stones.

Description

The present invention relates to a method

and devices for lowering elongated elements, e.g. studs' or posts and/or casing for such in ground containing blocks and stones.

In previously known methods for this purpose, as a rule, a rock drilling unit of standard design with a downhole drilling machine and compressor is used. When such an aggregate is used for drilling in soil, difficulties often arise as a result of falling soil as well as cavitation in the walls of the drilled hole due to the air flushing.

This can be avoided by using cohesive soils that are repeatedly lowered in an appropriate manner into the borehole after the drill bit has been pulled up. However, this entails great difficulties, both administratively and technically, above all as appropriate soil material must be acquired and apportioned. The result of each drilling must be visually inspected. The work has a poor rhythm, and unnecessarily complicated and expensive equipment must be used for the work.

DOS No. 2,300,036 and No. 1,930,079, DAS No. 1,129,116 and Swiss Patent No. 462,047 describe other methods and devices that cannot be used where the ground contains blocks and stones.

US Patent No. 3,543,524 and US Patent No. 3-306,054 show a technique that involves knocking down a hollow element,

such as a metal pipe or a pile using a lower "head", which after the impact is intended to remain in the ground. This is a method that can only be used for good reasons. If this method were to be used in ground with coarse stone, the work would be very expensive, as the drive-down tips would have to be made much stronger.

In US patent no. 1,579,164, a method is also shown in which piles are driven into the ground which are provided with

a lower conical head. This head also remains in the ground.

The present invention aims to provide

a method and devices which enable a cheap and simple lowering of elongated bodies, e.g. studs or posts and/or casing for such in ground containing blocks and stones.

The method according to the invention is characterized essentially by the fact that a massive stick with a straight cut off bottom is placed in one of the hammers carried by an excavator or equivalent, in such a way that the stick follows the hammer's movement, and with the help of the hammer is driven into the ground to the desired depth, whereupon the spit is pulled up and the element is guided down into the formed hole.

The method according to the invention eliminates the disadvantages of previously known methods and entails a large reduction in costs. At the same time, more than doubling the capacity can be achieved by lowering posts or posts, possibly also casing for such in the ground.

As the pick is designed with a straight cut-off bottom, blocks and stones that are in the ground and which may be split when the pick is driven down, can hardly produce an inclined position or displacement of the occupied hole, which, on the other hand, is easily the case if a tool with a conical tip is utilized. By the fact that the hammer that carries the spike is arranged on an excavator or similar, the spike can, if necessary, be moved across the driving direction, i.e. horizontally in the case of vertical driving in and vertically in the case of horizontal driving in, also in the case of down or recovered position. When the unit is working, as a result of the hammer blows, the spike is exposed to a vibrational movement which "in practice causes the ground around the spike to soften. If the spike, for example, in the first part of the lowering or driving in, has received a somewhat incorrect position - for example a few cm too far to the right or left t then there is now a simple possibility to correct this simply by utilizing the hydraulics of the excavator™ or similar that carries the unit. the vibrations are softened, the spike can be moved a few cm in the desired direction across the drive-in direction. This of course applies especially at the beginning of the descent or drive-in process, where, for example, a stone or other obstacle in the substrate can mean that the spike has received a somewhat incorrect position, which can thus be corrected in the above-mentioned simple way. In such a case, there is a clear difference in relation to using a skewer with sp ice lower end. As a result of its conical shape, the pointy lower end of the spike will become wedged in the substrate and it is not possible to carry out a corresponding correction of position or direction.

In practice, it is preferred that the woodpecker is driven in

together with a casing that surrounds the spud, however at least with the exception of the spud's lower part, and that the casing is held back when the spud is pulled up. When the casing is driven down or in, this prevents the walls of the hole from collapsing when the spat is pulled out of the ground. Demolition of an elongated element, e.g. a stud or post or a permanent casing for such can then be done simply by the element being passed down into the outer casing for the spat, which is then removed. In certain cases, it is also possible to first pull up the casing, after which the elongated element is inserted into the occupied hole.

The casing can conveniently be removed after the element has been inserted. The casing can then be used again.

When using the method, it is preferred that the feeding tube is given a diameter that only slightly exceeds that of the spit. However, the casing must not be tight-fitting, as difficulties may then arise in pulling up the casing as particles can cause clogging between the spat and the casing.

It is preferred that the casing is brought to surround the spigot in such a way that the lower edge of the casing ends at a certain distance above the lower edge of the spigot, which distance is at most half the diameter of the spigot. This reduces the risk that the casing will partially take over the role of the woodpecker and contribute to crushing rock and similar in the ground, whereby the feed pipe would quickly be destroyed. Instead, the casing is only going to help move harder material to the side.

In practice, it is further preferred that the spigot is provided with a shoulder that engages against the casing. The attachment can optionally be made up of a separate collar-shaped ring.

The invention also relates to an additional device

an excavator or equivalent, for carrying out the method according to the invention, which device comprises a feed beam that can be attached to the excavator or equivalent with a slide, on which a hammer is movably arranged, and which is characterized in that the hammer carries a massive skewer with a straight cut lower end.

The invention will be explained in more detail below with reference to the drawings, which show some embodiments of the invention. Fig. 1 is a perspective view of an excavator equipped with a device according to the invention. Fig. 2A is a side view of the feed beam of the excavator according to fig. l, with a row stand lowered into a guide pipe previously driven into the ground. Fig. 2B is a section along the line B-B in fig. 2A. Fig. 3 shows a first embodiment of a woodpecker and with it a co-operating feeding pipe. Fig. 4 shows an alternative design of a spit with cooperating casing.

An excavator 1 carries a feed beam 2 provided with straightening means 2a. A hammer 4 of a known type is movably mounted on a slide 3 on the feed beam. In this, a massive skewer 5 with a straight cut lower end has been introduced. The spike 5 has a shoulder 5a against which in the one in fig. 1 showed the embodiment in which a casing pipe 6 rests, the lower edge of which ends at a distance corresponding to half the diameter of the skewer above the lower edge of the skewer.

When in use, the spat is controlled by a mali 7 provided with a spat holder 8 open in one direction. The diameter is variable to allow the uptake of casings of different sizes.

The skewer holder 8 is provided on its underside with a horizontal cylindrical edge or mark 7 whose center coincides with the center of the skewer, and which is used to determine the distance of an occupied hole from an exposed or marked line or from a previously made hole.

The feeding beam is further provided with means to hold the casing 6 when the spit is pulled up.

Fig. 2 shows how a row stand 11 is lowered into the hole occupied by the woodpecker, after the woodpecker has been pulled up. The casing 6, which previously surrounded the spit with the exception of the lower part of the spit, has been left in the ground. After the row stand 11 has been set down, the casing 6 is pulled up using a winch 9 under breaker discs 10.

The spike 5 engages the spring tube 6 over a shoulder 5a. In fig. 3 shows an embodiment where the abutment 5a is surrounded by a separate ring 14 to increase the contact surface of the casing. To prevent the danger of large blocks tilting the woodpecker, the lower edge of the woodpecker is straight cut, as mentioned above.

Alternatively, spits and casings can be designed

in the manner shown in fig. 4. The casing 6' is here provided with a lower, inwardly directed flange 15 which cooperates with a lower shoulder on the spigot 5'. When the casing is pressed down into the substrate by the spud, this happens in this embodiment in a way that provides better protection of the lower edge of the casing.

The slide 3 located on the feed beam 2 is driven

by means of a telescopic double-acting cylinder 13.

The feed beam and the hammer 4 can also be arranged at right angles to the boom of the excavator, so that the work can be more easily observed from the driver's seat. The equipment can also be advantageously used for driving casing under roads, i.e. essentially horizontally. The feed pipe and the spigot must then be joined in an appropriate manner

Claims (14)

1. Procedure for lowering/driving in elongated elements, e.g. poles or posts and/or spring pipes for such, in ground containing blocks and stones, characterized by a massive spike with a straight cut bottom being placed in one of an excavator or similarly carried hammer in such a way that the spike follows the hammer's movements, and with the help of the hammer, the soil is driven in to the desired depth, after which the spike is pulled up and the element is lowered into the formed hole. 2. Method according to claim 1, characterized in that the spud is driven in together with a casing that surrounds the spud, with the exception of at least the lower part of the spud, and that the casing is held back when the spud is pulled up. 3. Method according to claim 2, characterized in that the casing is removed after the element has been placed. 4. Method according to claim 2 or 33, characterized in that the feed pipe is given a diameter which only slightly exceeds the diameter of the woodpecker. 5. Method according to one or more of the claims from 2 to 4, characterized in that the guide tube is brought to surround the woodpecker in such a way that its lower edge ends at a distance above the woodpecker's lower edge which is a maximum of half the woodpecker's diameter. 6. Method according to one or more of the claims from 2 to 5, characterized in that a spit is used which has a shoulder (5a, 14) which engages against the casing. 7. - Method according to claim 6, characterized in that a skewer is used which is provided with a separate collar-shaped attachment in the form of a ring, which engages against the guide tube. 8. Additional apparatus for an excavator or equivalent for carrying out the method according to one or more of the claims from 1 to 7, comprising a feeding beam (2) attached to the excavator (1) with a slide (3), on which a hammer (4) is movable arranged, characterized in that the hammer carries a massive spike (5) with a straight cut lower end, which is intended to attack directly against the ground. 9. Apparatus according to claim 8, characterized in that the spike (5) exhibits a shoulder (5a) for engaging a casing (6) which surrounds the spike, which casing is arranged to be driven in together with the spike. 10. Apparatus according to claim 9j, characterized in that the attachment (5a) is arranged to engage the opposite casing (6) via an annular element (14) separate from the spigot. 11. Apparatus according to one or more of claims 8-10, characterized in that the lower edge of the guide tube (6) ends at a distance above the lower edge of the skewer which, at most, goes up to half the diameter of the skewer. 12. Apparatus according to one or more of claims 8-11, characterized by a skewer holder (8) with a variable diameter that can be opened in one direction and is equipped with a malle (7), which is designed to control the skewer (5). 13. Apparatus according to one or more of claims 8-12, characterized in that the feeding beam (2) has means for retaining the casing (6) during the spit's withdrawal. 14. Apparatus according to one or more of claims 8-13, characterized by means (9, 10) for pulling up the casing.