SU1756476A1 - Device for drilling wells - Google Patents

Abstract

SUMMARY OF THE INVENTION: The device comprises a rotary driven body, a working tool and a punch breaking tip. The work tool is housed in the housing with the possibility of rotation around its longitudinal axis. Breeding tips are placed on the side working surface of the working tool. The working tool is installed with the intersection of its longitudinal axis and the longitudinal axis of the body inside the side working surface of the working tool. The working tool is kinematically connected with the body to ensure joint rotation with it around the longitudinal axis of the body. 4 hp f-ly. 2 Il.

Description

The invention relates to the mining industry, in particular, to devices for drilling wells, preferably in rocky soil.

A device for drilling wells is known that comprises a drive and a drill head that receives rotation from the drive. Cutting elements are placed on the bumpy head to destroy the ground, made in the form of rotatably mounted disks, which rotate as the head rotates.

This device provides the drilling of wells in the soil of a low fortress.

It is also known a device for drilling wells, comprising a housing, an actuator, and a working tool in the form of a rotating body with a working surface equipped with rock-breaking tips, in which the housing and the working tool are rotatably mounted respectively around their longitudinal axes.

This device provides for drilling wells in rocky soils, but with a large strength of drilled rock, it requires the application of high axial loads and, moreover, its use leads to a high energy intensity of destruction, since this provides a rotary method of bumpy that is not rational. high fortress.

The aim of the invention is to increase the drilling rate by reducing axial loads.

The goal is achieved by the fact that the working tool is installed with the intersection of its longitudinal axis and the longitudinal axis of the body inside the side working surface of the working tool and is kinematically connected with the body to ensure joint rotation with it around the longitudinal axis of the body, the working tool is made

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in the form of several cylindrical bodies fixed on one shaft, cylindrical bodies are made with different lengths along the longitudinal axis of the working tool, rock-breaking tips are fixed to the side working surface by means of elastic elements, rock-breaking tips are fixed in groups, and in each of the groups rock-breaking tips are installed in series one after another with an increase in their height from the longitudinal axis of the working tool.

Figure 1 shows a device for drilling wells, a longitudinal section; figure 2 - diagram of the working tool.

The device for drilling wells includes a housing 1 in which a drive (not shown) is placed, kinematically connected with a working tool representing a working surface 2 equipped with rock-breaking tips 3 placed on a shaft 4. The working tool (FIG. 1) is made in the form of several cylindrical bodies 2, which have different lengths along the longitudinal axis of the working tool shaft 4. The longitudinal axis of the working tool intersects with the longitudinal axis of the body 1 0-0 inside the side working surface of the working tool. The rock-breaking tips 3 (FIG. 2) are fixed on the lateral working surface of the elastic elements 5. The rock-breaking tips can be fixed in groups, and in each of the groups the rock-breaking tips are installed in series with each other increasing their height from the longitudinal axis of the tool.

The device works as follows.

When the housing rotates around an axis coinciding with the axis of the borehole, the working tool simultaneously receives rotation around the longitudinal axis of the shaft 4 with a frequency approximately equal to the order of higher frequency of rotation of the housing 1. To clarify the process of rock destruction at the bottom of the borehole, consider tips of working surfaces A and B (figure 1).

When the working tool rotates around its axis, the rock-breaking tip of the working surface A strikes at one of the bottom points at an angle to the bottom surface and 8 direction tangentially. When the device's body rotates around its axis by 180 °, at the same point the rock-breaking tip of the working surface B. will be at the same point. This tip strikes at the same point of the face, but

at an angle and in the direction turned at an angle relative to the direction of the first strike. This is due to the fact that the direction of rotation of the tool for this bottom point will be reversed.

Thus, two shock loads from two different and opposite directions will be applied successively at the same point of the bottom. Such an application is a blow:

Claims (5)

1. A device for drilling wells, including a rotationally driven housing, A working tool in the form of a body of rotation with a side working surface placed in the housing for rotation around its longitudinal axis, and rock-breaking tips placed on the side working surface of the working tool, characterized in that, in order to increase the drilling speed by reducing axial loads, The tool is installed with the intersection of its longitudinal axis and the longitudinal axis of the body inside the side working surface of the working tool and is kinematically connected with the body to ensure joint Naturally rotation around the longitudinal axis of the housing. 2. Device pop. 1, characterized in that the working tool is made in the form of several cylindrical bodies mounted on the same shaft. 3. A device according to claims 1 and 2, characterized in that the cylindrical bodies are made with different lengths along the longitudinal axis of the working tool. 4. A device according to claims 1-3, characterized in that the rock-breaking tips are fixed on the lateral working surface by means of elastic elements. 5. The device according to squares 1–4, differing from the fact that the rock-breaking tips are fixed in groups, and in each and the groups rock-breaking tips are installed sequentially one after the other with an increase in their height from the longitudinal axis of the working tool. 0 with 0vfcb | pzsq .U / CHUU / H.1 H / CHA. % r. f.  t VMfJl i d F, -2