NL9101507A - TOOL FOR MAKING HOLES IN THE GROUND. - Google Patents

Description

TOOL FOR MAKING HOLES IN THE GROUND

It is known to make holes in the ground using an earth auger. Use is also made of pneumatic or hydraulic tools with a hammer or chisel point, which are driven vibrating or impact.

The object of the invention is to provide means by means of which a hole in the ground of preselected dimensions can be made in a very simple manner, wherein, unlike a auger, the material from the hole does not come to lie on the ground and It is an object of the invention to provide facilities which make it possible to make use of known driving devices for this purpose, but which remain in the ground and in which the environment of the hole has undergone a strong compaction.

A further object of the invention is to provide facilities by means of which holes can be manufactured with a very high degree of precision, even by unskilled personnel.

The invention now provides a tool for making holes in the ground, comprising a ramp point and coupling means for coupling to a driving device, for instance a hydraulic or pneumatic working tool machine or a vibrator operating with eccentrically mounted, rotatably drivable masses, for successively, vibrating or impacting, excite the ramp point towards the free end.

Preferably, the tool has the feature that the free end of the ram point has a first part with a substantially conical shape. This results in a highly effective power transmission to the soil with, on the one hand, a desired displacement and, on the other hand, a desired compaction of the soil with the displaced soil material.

In a preferred embodiment, the tool further has the feature that a second, truncated-conical part with a smaller apex angle than the first part connects to the conical free end. This further pushes the soil effectively in combination with the aforementioned compaction.

An embodiment which has the feature that a third, truncated-conical part with a smaller tip angle than the second part connects to the second part, has the great advantage, that it can easily be removed therefrom after making a hole by withdrawing. Due to the conical shape, which in practice can deviate relatively little from a cylindrical shape, for instance a few degrees, it is achieved that the air can easily enter the space between the shaped hole wall and the tool.

In order to make the ram point as light as possible, that embodiment is preferred in which the ram point is hollow.

In order nevertheless to provide the ram point with sufficient mechanical strength necessary to withstand the occurring excitation forces, use is preferably made of reinforcing ribs incorporated in the hollow ram point. It may be useful to mechanically separate the transmission of forces from the coupling means to the free end of the ram point from the force transmission through the wall of the ram point. To this end, the tool may show the characteristic that the ribs rest against the wall of the ram point, but are not connected thereto.

In a particular embodiment, the tool has the feature that extends between the coupling means and the free end of the ram point for transmitting excitation forces from the coupling means to that free end.

A possibly even increased effectiveness of the processing is achieved with an embodiment in which a mass which is freely movable in the longitudinal direction is included in the point of the ram. This mass does not slow down the downward excitation of the ramp point but, due to its inertia, can make an additional contribution to the generated impact forces.

For example, this variant can be designed such that the ram point is partly filled with more or less finely divided material. This material can contain, for example, sand or iron, generally preferably a cheap and heavy material.

The tool preferably has the feature that at least the outer surface of the free end consists of a hard, wear-resistant and tough material, such as manganese steel. Other steels, in particular steels rich in carbon, are also eligible.

Less extremes are imposed on the second and third parts than on the first part. For example, the outer surfaces of the second and third parts may consist of display 52.

An embodiment for use with a drive device of which the drive end comprises a hinge can preferably be characterized in that the coupling means comprise a hinge, the axis of which is substantially perpendicular to the axis of the hinge forming part of the drive device. Thus, under all circumstances, the freely suspended tool achieves a vertical hole on the ground. To this end, the center line of the ram-point hinge shafts must intersect. When the ram point encounters an obstacle, for example a stone, when making a hole in the ground, it can avoid this obstacle by means of the gimbal.

In the case where no drive device with hinge is available, use can be made of a variant, in which the coupling means comprise two hinges with mutually perpendicular hinge axes.

In a preferred embodiment, the tool has the feature that the coupling means can be coupled to the driving device by means of a coupling block which is mechanically connected, for example by pressing, crimping or welding, with a tool to be coupled to the driving device, such as a hammer or a chisel. With this embodiment, the tool according to the invention can very easily be made suitable for use with any suitable drive device. For example, the manufacturer of the tool itself can provide, for example, a hammer or chisel that fits into a drive device that a customer has. This hammer or chisel is then suitably connected to the coupling block and the coupling block in turn has suitable coupling means for coupling to any tool according to the invention. In this way, a universal coupling of the ram points according to the invention is ensured with any suitable drive device.

In a particular embodiment, the tool has the feature that the block has a transverse storey, and the ram point in the corresponding zone also has a transverse storey, in which floors, after mutually registering, a coupling pin can be inserted from the outside. This coupling is very reliable and inexpensive has the advantage, if desired, that it can be easily disconnected in parts, for example for changing tools.

In a particular embodiment, the tool has the feature that at least one of the two floors axially has a greater length than the coupling pin, such that the ram point is movable to a limited extent relative to the coupling block. This embodiment can have the advantage that the registration of the floors takes place easily, so that coupling can be effected more quickly. A mechanically looser coupling can also provide the advantage that various parts of the drive device undergo a lower mechanical load.

In the same context, it may be advantageous that the cooperating contact surfaces of the ram point and the torque block rotation are symmetrical and that one of the said recesses extends over the entire circumference. This ensures that the tool can rotate around its longitudinal axis if desired.

The invention further extends to the coupling means as specified in the above claims 18-20.

The invention also relates to a method for making holes in the ground. This method is characterized by the following steps, in appropriate order: (1) providing a tool according to any one of claims 1 to 20; (2) providing a drive device as specified in claim 1? (3) coupling the tool to the drive device; (4) choosing a site for making a hole in the ground; (5) placing the tool there; (6) actuating the drive device such that the tool is excited vibrating or impacting at a selected frequency toward the free end of the ram point; and (7) selecting said frequency such that the penetration of the ram point into the soil takes place with the highest possible efficiency, i.e. with the greatest speed or with minimum energy consumption.

Claims (12)

Tools for making holes in the ground, comprising a ram point and coupling means for coupling to a driving device, for instance a hydraulic or pneumatic operating machine tool or, for example, with an eccentrically placed, rotatably drivable mass-operating vibrator, for successively, vibrating or impacting, in the towards the free end excite the ram point. 2. Tool according to claim 1, characterized in that the free end of the ram point has a first part with a substantially conical shape. Tool according to Claim 2, characterized in that a second frusto-conical part with a smaller top angle than the first part connects to the conical free end. 4. Tool as claimed in claim 3, characterized in that a third, truncated-conical part connects to the second part with a smaller top angle than the second part. Tool according to claim 1, characterized in that the ram point is hollow. Tool according to claim 5, characterized by interconnected reinforcing ribs accommodated in the hollow ram point. Tool according to claim 6, characterized in that the ribs rest against the wall of the ram point, but are not connected thereto. A tool according to claim 5, characterized by a central elongated element, such as a rod or a tube, which extends between the coupling means and the free end of the puncture point for transmitting excitation forces from the coupling means to that free end. 9. Tool according to claim 5, characterized in that a mass freely movable in the longitudinal direction is received in the ram point. Tool according to claim 18, characterized in that the mating contact surfaces of the ram point and the coupling block are rotationally symmetrical and that one of said recesses extends over the entire circumference. Coupling means as specified in one of the sub-claims 18-20. 22. Method for making holes in the ground, characterized by the following steps, in an appropriate order: (1) providing a tool according to any one of claims 1-20? (2) providing a drive device as specified in claim 1; (3) coupling the tool to the drive device; (4) choosing a site for making a hole in the ground; (5) placing the tool there; (6) actuating the drive device such that the tool is excited vibrating or impacting at a selected frequency toward the free end of the ram point; and (7) selecting said frequency such that the penetration of the ram point into the soil takes place with the highest possible efficiency, i.e. with the greatest speed or with minimum energy consumption. EXTRACT · A tool for making holes in the ground, includes a ram point and coupling means for coupling to a drive device, for example a hydraulic or pneumatic machine tool or, for example, an eccentrically mounted, rotatably driven mass-operating vibrator, for the successive, vibrating or jerking, in the direction of the free end exciting the point of the ram.