DE1284385B - Device for breaking rocks - Google Patents

Description

The invention relates to a device for crushing rock by dielectric heating using high frequency energy.

It is known to induce pieces of ferromagnetic minerals by high frequency induction to be separated from a larger block. The frequency used for this is in the Of the order of about 5 MHz. In this process, it causes the inside of the block Local heating generated internal stresses caused by the individual pieces of the block be blasted off. Is it a matter of rock that has little or no magnetic If it contains material, a magnetic substance must be used for the purpose of breaking it up bring in. Since the ferromagnetic substance heats up due to the HF induction, it is of importance for one that, the substance intimate contact with the one to be cleaved Material '. That means more work or more energy consumption due to the only indirect connection with the rock. It is also disadvantageous that the introduced ferromagnetic substance, for example concrete, in which the sand is replaced by magnetic iron ore, also shattered when the stone was blasted so that you always have to make a new filling.

Furthermore, a method is known in which by means of dielectric Heating causes a cleavage of the material. According to this invention is used as an injector in an inlet opening recessed in the material to be split trained beam device, introduced, which is due to the vibrations ultra-high Frequency is fed and these ultra-high frequency oscillations by injection of the Injectors are concentrated inside the material to be cleaved, the injected vibrations due to internal dielectric heating in places of the material to be cleaved bring about a cleavage of the same.

The ultra-high frequency vibrations generated by magnetrons are said to be have a wavelength of 12 cm (decimeter waves); which corresponds to 2450 MHz. Such a frequency can be transmitted in waveguides or coaxial lines, since these decimeter waves can be shaped into bundles of rays that consist of corresponding Blasting devices can escape and penetrate into rock. This high frequency Energy causes heating without a counter electrode. Waveguides are only for forwarding suitable for decimeter waves. Decimeter waves with the required performances but are only with unfavorable degrees of efficiency with the current state of the art to create. The device itself is due to its structure and the associated Impact sensitivity not very suitable for use in quarries.

The present invention has set itself the task of a device to create the breaking up of rocks in a more favorable frequency range causes, the device against external influences, such as shocks, is very insensitive.

The invention is characterized in that for the destruction of Rock by dielectric heating using high frequency energy with an in one Borehole introduced rod-shaped electrode the counter electrode the soil or is a plate. In order to warm up inside the stone in the shortest possible time, - depends on the depth of the drill hole provided for the electrode on the size of the stone. An electrically conductive rod is used as the electrode Material with a diameter of 10 to 40 mm. When the electrical voltage is applied an asymmetrical field line course arises at the electrode, and one obtains a concentration in the vicinity of the rod-shaped electrode due to the concentration of the field lines the heat development. Since the heat transfer does not take place on a heat conduction between Electrode rod and stone is based, there is a form fit between the rod-shaped electrode and the material to be cleaved is not required.

A rod can also serve as the counter electrode. Another beneficial one Embodiment is the use of additional rod-shaped electrodes, which are shown in Boreholes are introduced in the rock, creating two or more spots result in the stone, where a concentration of the heat development takes place. Here two electrodes are switched to the same potential.

About changes in capacity caused by size and material properties of the stone are to be kept within acceptable limits, it is advisable to use a To connect auxiliary capacitance parallel to the stone. The size of the capacity became like this chosen to be large, so that small changes in the above-mentioned capacity reduce the total capacity affect the oscillation circuit only a little.

A frequency is expediently used for dielectric heating between 4 and 40 MHz.

The individual arrangements are illustrated using the drawings.

In FIG. 1, a rod is used as the electrode and as the counter electrode a plate, thereby creating an asymmetrical electric field and thus a concentration of the field lines. The ground can also serve as a plate. This simplifies and shortens the workflow.

In Fig. 2 two rods are used as electrodes. Here arises a homogeneous field lines. In Fig. 3 several electrodes are used, this makes it possible to split off several pieces from a rock block at the same time.

Claims (4)

Claims: 1. Device for breaking rock through dielectric heating by means of high frequency energy with a rod-shaped electrode, which is introduced into a borehole, characterized in that the counter electrode the soil or a plate. 2. Device according to claim 1, characterized in that that the counter electrode is a rod. 3. Apparatus according to claim 1 and 2, characterized characterized in that additional rod-shaped electrodes in boreholes in the rock are introduced, with at least two electrodes connected to the same potential and an adjustable auxiliary capacitance are the electrodes of different potential connects. 4. Apparatus according to claim 1 to 3, characterized in that the applied alternating voltage for dielectric heating has a frequency of 4 to 40 MHz has.