RU1784062C - Rotary-percussion drilling bit - Google Patents

Description

wear of the side surface of the feathers during operation.

The purpose of the invention is to increase the resistance of the crown by eliminating the formation of an inverse cone on the side surface of the feathers by uniform wear of the body behind the carbide inserts during drilling.

This goal is achieved by the fact that in the crown containing the housing, on the head part of which there are several feathers for carbide inserts separated by radial channels and a core-forming cavity and a shank with a system of longitudinal channels and a blown hole with an exit to the core-forming recess, while on the side the surface of each feather is made a recess located below the base of carbide inserts, the smallest diameter of which is determined from the ratio: Omin (0.9-0.96) 0 Max: and its cross section This is made variable with a vertex in the central part, and the contour is made along a curve with a smooth bend or in the form of a cdina.

Fig. 1 shows a crown made in accordance with the invention; figure 2 is a view along arrow a in figure 1; in Fig.3 is a view along arrow B in Fig.2; figure 4 is a section along aa in figure 2.

As shown in FIG. 1, the proposed drill bit comprises a shank 1 and a head part 2, on which several feathers 3 are reinforced with carbide inserts 4, the feathers being separated by radial channels 5 and 6, which connect the core-forming cavity 7 with side cutouts 8 and 9. At the end of the core-forming recess, pins 10 are fixed and the outlet of the purge hole 11 is located. The side surface 12 of each of the feathers 3 is made inclined at an angle of 3 °, on which a recess is made below the base 13 of the plates 4 14 in the form of grooves with an Irregular cross section in width and depth (t), the diameter of this recess being determined from the ratio Omin (0.9-0.96) 0max, i.e. is equal to the maximum wear along the diameter of the crown and this crown cannot be further drilled. The shank 1 is equipped with a channel system 15 for fixing the crown in the axle box.

The work of the proposed root is similar to the known ones, i.e. with the shank 1, it is installed in the axle box of the hammer and is secured against falling out due to the grooves 15. The end of the shank 1 is hit, under

the energy of which the plates 4, pins 10 are embedded in the rock and destroy it. Due to the rotation of the crown around the longitudinal axis, drilling is carried out

the entire area of the bottom of the well. The drill bit is captured by a stream of compressed air leaving the hole 11 and through the cavity 7, channels 5 and b, cutouts 8 and 9 are removed into the well. Burova trifle, passage

0 between the wall of the borehole and the side surface 12, it enters the groove 14 and, due to the speed of movement and rotation, abrades the side surface 12. Thus, the more the crown will be in the process of drilling, the side surface 12 will be proportionally worn out.

Using the invention, i.e. Due to the presence of a recess 14, the drill bit is allowed to linger on the side

0 surface and wear it in proportion to the wear of the lateral surface of the plates 4.

So for example, with a diameter of drilling wells, Omax 110 mm, the depth of the groove.

5 should be t 2.5 mm. When the drilling surface of the feathers is inclined 3e, and the minimum diameter is Omin 99-105.6mm, i.e. smaller than this diameter, wells of a given size cannot be drilled, because

0 a submersible hammer located in the well behind the crown will not allow the removal of drill fines and the drilling process will stop.

Using the invention will allow

5 to ensure uniform abrasion and self-sharpening of the lateral surface of the feathers of the crown during drilling, and thereby increase the life of the crown by 2–3 times in comparison with known objects.

Claims (2)

0 Claims 1. The crown for shock-rotary drilling, comprising a housing, on the head of which is made a feather with carbide inserts, divided between 5 a core-forming cavity and radial channels and a shank with a system of longitudinal channels and a purge hole with access to the core-forming cavity, and the side surface of the feathers 0 of the housing is made inclined, characterized in that, in order to increase the resistance of the crown by eliminating the formation of an inverse cone, on the side surface of each feather is made 5 grooves located below the base of carbide inserts, the smallest diameter of which is determined from the ratio Omin (0.9-0.9 6) 0 max, where Omin is the greatest depth of grooves on the feathers of the hull; Omax is the largest diameter of the crown of the crown. 2. The crown according to claim 1, characterized in that the grooves are made with a variable cross section in width. Fe / g / 4 View A Riga 2 Compiled by A. Kurdyukov Editor M. Kuznetsova Tehred M. Morgenthal Z. Koronka according to claim 2, characterized in that the grooves are made along a curve with a smooth bend, with a vertex in its middle part. 4. The crown according to claim 2, characterized in that the grooves are in the form of a wedge. 5 ig 4 Proofreader N.Keshel