RU23905U1 - SHOCK DRILL - Google Patents

Description

rocks from the bottom to the surface, due to this there are significant costs of material and technical resources. The same thing happens when digging a trench or foundation pit under the ground electrodes by any type of excavator.

In addition, it is necessary to repair partially damaged grounding devices, which cannot be performed using traditional methods in all places, since it is not possible to work with crane machines near the ground; its devices.

The utility model is based on the task of increasing the productivity and efficiency of the process of creating wells for electrodes due to the original design of an impact drill.

The design of the percussion drill proposed by the authors consists of a rod with a tip at the end having the shape of a “heart, which is fastened to the rod by means of a threaded connection, the rod being detachable and equipped with a set of interchangeable sections that build up the rod as the hole deepens.

The fundamental difference between drilling a pit with this device is that during drilling, it is not necessary to remove the rock from the bottom due to the original shape of the tip, which has the shape of a "heart." The traditional method of drilling involves the formation of a mine, the destruction of the rock at the bottom with a drilling tool and its removal from the bottom using water, compressed air or augers with rods.

The figure shows the design of the impact drill, where 1 is a rod, 2shift section, 3 is a heart-shaped tip, while tip section A acts as a piston, and tip section B creates pressure on the ground under the tip and on the pit walls.

An impact drill with a tip at the end is made of steel and acts as a chisel, which mechanically punches a hole in the soil while being a piston that creates pressure on the soil under the tips 2 // s g /

com and on the walls of the well, which, using a solution consisting of mixed soil and water, forms wells without carrying soil to the surface.

Using this device, the well is drilled as follows. A hole is dug out at the site for mounting the electrode, a small amount of water is poured, and by means of percussion tripping operations, which are performed manually by one worker, the well is deepened. Water during hammer drilling is added as needed. The energy spent directly on shock drilling is the sum of the energy transmitted to the shock drill and the hydraulic energy transmitted to the drilling fluid spent on the destruction of the soil and the formation of pit walls.

The parameters of the pit - its diameter is 25 mm and a length of up to two and a half meters is optimal for percussion drilling of the percussion drill design proposed by the author.

An increase in the further diameter of the pit and, accordingly, the diameter of the impact drill requires the removal of soil from the well, since with a further increase in the diameter of the pit for wall compaction without rock removal from the bottom, drillability significantly decreases.

It has been experimentally established that, on local soils, the maximum drillability of this device is in the range of 10 to 30 millimeter diameter and a depth of 2.5 m.

The device allows drilling one hole for one worker in 20 minutes, repairing partially failed grounding devices, mounting grounding devices in places where it is not possible to work with equipment. It allows to significantly reduce material and technical costs, as well as to reduce the time for organizational activities during the installation of grounding devices.

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Claims (1)

An impact drill for drilling pits, for example, for vertical grounding electrodes, consisting of a rod with a tip located at its end, characterized in that the tip has a "heart" shape, which is attached to the rod by means of a threaded connection, and the rod is detachable with a set interchangeable sections, which increase the rod as the pit deepens, while this design allows you to drill pits with a diameter of up to 30 mm and a depth of 2.5 m without removing the destroyed rock from the face.