RU134569U1 - THREE-FIRST BORED SCREW CUTTER - Google Patents

Abstract

Three-feather pedigree screw cutter for rotary drilling by mining machines, including a cast body and three carbide inserts mounted in the body around a circle through 120 ° relative to each other, characterized in that the tool body has three helical grooves with a helix angle of 45 ° ± 10 ° and this corresponds to a step approximately equal to two lengths of the cutter body, while the carbide inserts have the shape of an irregular pentagon, on three sides the plate has a sharpening angle of 15 ° from the upper working angle of the plate and perpendicular to the base, the plate is thinning.

Description

The utility model relates to mining, and more particularly to cutters designed for rotary drilling by mining machines in rock masses.

Currently, the closest analogue of the inventive cutter is the THREE-FIRST CUTTER FOR DRILLING HOLES (RF Patent for Utility Model No. 53702 of December 22, 2005). A three-feather cutter for drilling holes includes a body and three carbide inserts that are installed relative to each other at the same distance around the circumference, while the cutting walls of the hole of the carbide blade blade form the flanges of the three-auger screw with a pitch of at least three lengths of the cutter body, and the working blades of the plates are made in the plan in the form of wedges directed by the tips in the direction of rotation.

The disadvantage of this cutter is the large step of the turn of the body, which affects the slow removal of the cut rock, and as a result, low productivity. The second disadvantage is the difficulty of installing and removing the cutter from the rod due to the lack of surface for installing the tool, for replacing the cutter.

The technical task is to eliminate the shortcomings and create the design of a three-feather pedigree screw cutter, which contributes to an increase in the drilling speed, as well as a reduction in the time for installing the cutter and replacing it.

The technical solution is aimed at eliminating the above disadvantages and is achieved due to the fact that the proposed three-feather rock screw cutter for drilling holes consists of a housing and three carbide inserts that are installed in the housing around the circumference through 120 ° relative to each other, followed by helical grooves with a helix angle of 45 ° ± 10º (at this angle, the pitch is approximately equal to the two lengths of the tool body). This provides a quick removal of the destroyed rock from the cutting zone. The hexagon made on the housing allows you to install and remove the cutter, while it does not go beyond the dimensions of the cutter body, and the smooth transition of the helical line into the hexagon does not complicate the removal of destroyed rocks from the cutting zone. Carbide inserts have the shape of an irregular pentagon, on three sides the plate has a sharpening angle of 15 °, this sharpening angle leads to an increase in the resistance of the plate, from the upper working angle of the plate and perpendicular to the base of the plate goes to thinning, which contributes to a better removal of the bayonet from the center of the cutter.

The technical result provided by the claimed utility model is the creation of a three-feather pedigree screw cutter design, which contributes to an increase in the drilling speed, as well as increases the tool life and facilitates its installation and removal from the rod.

The utility model is illustrated in the drawing.

Figure 1, figure 2, shows the appearance of a three-feather pedigree screw cutter from two different sides.

Figure 3 shows a view of a three-feather pedigree screw cutter from above. The inventive cutter contains: 1 - body; 2 - three flushing holes; 3 - three screw grooves; 4 - hexagon; 5 - shank; 6 - carbide inserts; 7 - working faces of the plates; 8 - the angle of sharpening of the plates; 9 - thinning plate.

The cutter shown in the figures by the shank 5 is attached to the drill rod, flushing fluid is supplied through the holes 2 to the bottom when drilling, the housing 1 has three screw grooves 3 according to the number of cutter feathers, which begin to form at the places where the plates are installed 6. By the hollows of the housing screw all cuttings drilled by a cutter are easily removed.

The cutter works as follows: the cutter is set to rotate and at the same time axial movement to the bottom. In this case, carbide inserts 6 begin to cut off the rock at the bottom, moving the tips in the direction of rotation. All the cuttings easily move along the helical grooves of the body and then removed from the hole.

The design of the three-feather pedigree screw cutter allows to increase the drilling speed, increases the tool life and facilitates its installation and removal from the rod.

Three-feather pedigree helical cutters are successfully used when drilling holes in rock masses for fastening the roof of coal mines using electro-hydraulic installations.

Claims (1)

Three-feather pedigree screw cutter for rotary drilling by mining machines, including a cast body and three carbide inserts mounted in the body around a circle through 120 ° relative to each other, characterized in that the tool body has three helical grooves with a helix angle of 45 ° ± 10 ° and this corresponds to a step approximately equal to two lengths of the cutter body, while the carbide inserts have the shape of an irregular pentagon, on three sides the plate has a sharpening angle of 15 ° from the upper working angle of the plate and perpendicular to the base, the plate is thinning.

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