SU899834A1 - Telescopically extensible drilling rod - Google Patents

Description

(54) SLIDING TELESCOPIC DRILLING

one

The invention relates to the mining industry and can be used in the drilling of wells and the excavation of minerals to maintain an optimal distance or contact of the rock-cutting tool with a moving bottom.

A telescopic sliding boring bar is known, comprising an outer and an inner boom section, a mechanism for fixing them and a feeding unit 1.

The disadvantage of this rod is that it does not ensure the fixation of the rods in any mutual position of the sections, which causes a large number of unproductive operations when drilling wells with a depth greater than one section of the rod.

The closest to the technical essence of the invention is an expandable telescopic drill rod, including an inner and an outer boom section, mounted with the ability to interact with the inner boom section, hydraulic clamping elements located in a sealed chamber connected to the lower end of the outer boom section and a cable located in the inner strip

tee inner section of the rod. In the absence of pressure in the hydraulic system and the release of the cable, the rods 2 move apart. A disadvantage of the known construction is that it does not provide the ability to transmit reversible torque.

 moment regardless of the speed and feed force.

The purpose of the invention is to provide the ability to control the speed and force of the boom extension while simultaneously giving torque.

This goal is achieved by the fact that the mechanism for expanding the rod is made in the form of a piston mounted on the end of the inner section of the rods, opposite to the location of the sealed chamber with clamping elements, and forming a cavity hydraulically connected with the outer section of the rod.

FIG. Figure 1 shows an expandable telescopic drill rod; in fig. 2 shows section A-A in FIG. one.

20 An expandable telescopic drill rod consists of an outer section of rods 1, an inner section of rods 2, a sliding mechanism made in the form of a piston 3,

mounted at the lower end of the inner section of the rods and forming a cavity 4 with the outer section connected by channel 5 to the control hydraulic system (not shown).

The tightness of the cavity 4 is achieved by seals 6 and 7. The clamping elements are made in the form of cylindrical rollers 8 and are located in an airtight chamber 9 connected to the upper end of the outer section shtang. The cylindrical rollers 8 are provided with clamping elements 10 and mounted in shaped grooves 11 made in the walls of the chamber 9. At the upper end of the inner section of the shaft there is a shank 12 with a quick lock 13.

Sliding telescopic drill shtanga works as follows.

Pressurized water moves along the inner section of the rods 2 and exerts the inner section of the valve from the outer section of the valve 1 with pressure on the piston 3. The speed of movement of the internal section of the valve 2 depends on the rate of flow of fluid from the cavity 4 through channel 5 into the capacity of the hydraulic system. The transfer of the reverse torque takes place due to the seizure of the rollers 8 in the grooves 11. The clamping elements 10 create a preliminary contact of the rollers 8 with the wedged surfaces of the outer and inner sections of the rod, reducing their mutual slippage.

Thus, by transferring the rotational moment, the cylindrical rollers allow relative longitudinal movement of the cylindrical rod with a certain voltage along the contact lines.

The inner section of the rod 2 is returned to its original (pushed) position.

with off pressure water by supplying the working fluid (oil) through the hydraulic control system to the hermetic cavity 4.

Technical and economic efficiency is to increase the drilling speed at the corners of the medium and high strength, reduce the energy intensity of drilling, as well as increase the safety of work.

Claims (2)

1. USSR Author's Certificate No. 539138, cl. E 21 C 15/00, 1974. 2. USSR author's certificate for application number 2855232/03, cl. E 21 V 17/07, 1979 (prototype). IG