SU1040141A1 - Rock breaking tool - Google Patents

Abstract

, BORN-DETERMINED UNSTRUMEIT including a spring-loaded tool holder, installed with the possibility of axial rotation and a reciprocating post. in the rotary and stationary bushings located coaxially in the hole of the cam and mutually acting with each other by means of a locking mechanism which has teeth located on the end of the rotary bush, —that l and h with the fact that, in order to ensure tool durability, the tool holder is provided with protrusions in the form of pins, and the rotary sleeve is made with internal spiral grooves for the pins, while the stopper mechanism is provided with elongated elements in the form of pins, one end of which replay on the stationary sleeve and the other is arranged to contact with the teeth of the rotatable sleeve.

Description

The invention relates to the mining industry, in particular to rock cutting tools of the executive bodies of mining machines.

Known rock cutting tools, including the body of the cutter with a shank located in the fist hole with the possibility of axial rotation and longitudinal movement, the sleeve and the elastic element "[1].

A disadvantage of the known tools is the low intensity of rotation of the cutter during operation.

Closest to the invention in technical essence is a rock cutting tool, including- | a spring-loaded toolholder mounted with the possibility of axial rotation and reciprocating movement in the rotary and stationary bushings located coaxially in the fist hole and interacting with each other by means of a locking mechanism that has teeth located on the end of the rotary sleeve [2].

The disadvantage of this device is the large cyclical rotation of the cutter during operation, which increases the unevenness of its wear.

The purpose of the invention is to increase the wear resistance of the tool.

This goal is achieved by the fact that in the rock-cutting tool, including a spring-loaded tool holder, mounted with the possibility of axial rotation and reciprocating movement in the rotary and stationary bushings located coaxially in the fist hole and interacting with each other through a locking mechanism that has teeth, the tool holder is equipped with protrusions in the form of pins, and the rotary sleeve is made with internal spiral grooves for the pins, while the locking mechanism is provided with an elastic elements in the form of levers, one end of which is fixed to the fixed sleeve and the other is arranged to contact with the teeth of the rotary sleeve.

In FIG. 1 shows a rock cutting tool, general view; in FIG. 2, section AA in FIG. 1.

A- And I’ll take it / tgo. [F

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The rock-breaking tool includes a fist 1, a holder 2 of a rotary cutter with a conical carbide working head 3, a cylindrical shank 4 and protrusions in the form of pins 5 included in the internal spiral grooves b of the rotary sleeve 7, made with teeth 8 interacting with elastic elements in the form of levers 9 , one ends 10 of which are attached to the end of the stationary sleeve 11, a spring 12 holding the cutter in its highest position, a support ring 13. for the spring. The fixed sleeve 11 has an external thread, with the help of which it is fixed in the fist hole, and the fixed sleeve is fixed by a bolt 14.

The device operates the next 2Q times.

In the process, when meeting with an array of rock or mineral, the cutter 2 is fed back, y ,, compresses the spring 12 and the shank 4 rests against the bottom of the fixed sleeve, while the pins 5, interacting with the spiral grooves b, turn the rotary sleeve 7 to the left, and the elastic levers 9 are compressed and. Do not hinder her turn. At the end of the compression cycle, the elastic arms enter the other ends 15 into engagement with the teeth 8 at the end of the sleeve, preventing it from moving to the right. At the next moment, 35 when the cutter does not experience resistance from the bottom side, the spring 12, unclenching, pushes it forward. Moving its protrusions along the spiral grooves, the cutter locked by spring elements of the sleeve rotates around its longitudinal axis. Due to the repetition of the compression-unloading cycle of the spring and the movement of the cutter pins along the spiral grooves 45 of the rotary sleeve, the cutter makes a reciprocating and rotational ’ΗΟ β movement.

The use of the proposed rock-cutting tool provides uniform rotation of the cutter around its axis, which reduces one-sided wear of the working head of the cutter.

VNIIIPI Order 6849/35

Circulation 603 Signature ⁴ jq Fig. 2

Branch of PPP Patent,.

Uzhhorod, st. Project, 4

Claims (1)

, ΠΟΡΟ BEFORE THE DESTRUCTIVE TOOL, which includes a spring-loaded toolholder, a cutter mounted with the possibility of axial rotation and reciprocating movement in the rotary and stationary bushings, located coaxially in the fist hole and acting with each other by means of a locking mechanism that has teeth, located at the end of the rotary sleeve, it is important that, in order to increase the wear resistance of the tool, the tool holder is provided with protrusions in the form of pins, and the rotary sleeve is made with an internal E spiral grooves for the pins, wherein the locking mechanism is provided with elastic elements in the form of levers, one end of which is secured to _a stationary sleeve and the other is located on the WHO-f possibility of contacting with the teeth of the rotary sleeve. V ΊΤΤ0101 ΤΪ5