RU2672071C1 - Self-aligning cutter with fastening device on machine executive body - Google Patents

Abstract

FIELD: machine building; mining.SUBSTANCE: invention relates to the field of engineering for mining and construction industries, in particular to a self-aligning cutter with a fastening device on the machine's executive body. Self-aligning cutter with the fastening device on the machine's executive body includes a rotary cutter consisting of a cylindrical shank with a circular groove and a head part with anterior cutting edge. Front cutting edge is offset relative to the axis of the cylindrical shank by a value of some positive eccentricity. Cutter is installed in the toolholder rigidly fixed on the executive body of the mining machine through a bearing bush and fixed by the circular groove of the shank by a spring check, which is installed in the grooves of the tool holder over the inter-septum partition. During operation, the cutter is rotated by a certain angle under the action of external forces and self-aligned along the cutting line.EFFECT: technical result consists in reducing the energy intensity of rock destruction with simplification of the device design, in increasing reliability and efficiency.1 cl, 5 dwg

Description

The invention relates to the field of engineering, in particular, to the mining and construction industries. It can be used in planetary-disk or crown-shaped executive bodies of tunneling shears for the destruction of the massif.

Known tool holder, mounted on the executive body, including a rigidly fixed cutter in it. The tool holder is made in the form of a base in which the hollow extension holding the cutter is fixed, in the direction of supply of the tool the tool holder in front of the extension holding the cutter has a protrusion. The base has a chipbreaker. In the front area there is a plug-in element installed in the actuator and the base of the tool holder in blind holes and is rigidly fixed to them. The surfaces of the executive body and the base of the tool holder without a gap are in contact with each other, tightly joining each other (RF patent No. 2347907 of 02.27.2009).

A disadvantage of the known device is: the rigid attachment of the tool holder to the actuator through the insertion element and at the same time, the rigid connection of the tool with the tool holder, which leads to an irrational cutting process, due to the fact that during the destruction of the rock cutters move in space in accordance with the path defined kinematics of the drive of the machine on which the executive body is mounted and, respectively, tool holders with cutters in them, and their design parameters. In this case, the cutters and the tool holder in the process of destruction of the rock mass do not change their position relative to the originally set position on the executive body, only the cutting path changes, which leads to irrational cutting due to bending forces on the cutter head, reducing the resource of the device, and increasing the energy intensity of destruction.

The closest device of the same purpose to the claimed invention in terms of features is a device for attaching cutters, including a tool holder housing mounted on an executive body, made with a protruding part in front of the tool, with a hole for the tool, a tool fixed to the tool holder and a hole for an insert element , an insertion element connecting the actuator to the tool holder housing. The tool holder housing is made integral, in the protruding part of the tool holder housing protruding in front of the cutter, there is a through hole with a plug from above, into which the bearing sleeve is pressed. As a plug-in element, a cross-shaped axis is made in longitudinal section, the horizontal component of which is an emphasis rigidly fixed to the actuator by welding. The tool holder housing is mounted on a cross-shaped axis in cross section with the possibility of rotation relative to the axis by a predetermined angle in a vertical through hole. The cross-shaped axis is installed in the tool holder body with eccentricity relative to the edge of the tool. On the lateral surface of the axis above the horizontal component, a circular groove is made under the retainer in the form of a spring check, rigidly fixed in the grooves of the tool holder housing. This device is selected as a prototype (patent No. 2602435 from 10.24.2016).

Signs of the prototype, which coincides with the essential features of the claimed device, is the tool holder housing mounted on the executive body of the machine, made integral with a through hole for the cutter and grooves; a spring check-latch installed in the grooves of the housing; bearing sleeve pressed into the through hole of the housing; a cutter installed in the tool holder housing with the possibility of self-installation during the cutting process without deviations from the cutting line.

The disadvantages of the known device adopted for the prototype are: the design complexity of the tool holder, due to the variable cross section of the housing and the presence of two through holes in it; the probability of jamming of the tool holder housing as a result of the hit of a block from the broken rock between the tool holder and the executive body, as well as the effect of significant bending loads on the axis of rotation of the tool holder and the bearing sleeve. Jamming of the tool holder body can cause an irrational cutting process, due to the fact that during the destruction of the rock, the tool will move in space in accordance with the path determined only by the kinematics of the executive body. The result of jamming of the tool holder body is the occurrence of significant lateral loads on the head part of the tool, irrational cutting due to the impact of bending stresses on the tool, reducing the resource of the device, increasing the energy consumption of the fracture process.

The objective of the invention is to reduce the energy intensity of the process of destruction of rocks while simplifying the design of the device, and increasing reliability and availability.

The problem was solved due to the fact that in the known device, including the tool holder housing fixed on the executive body of the machine, made in one piece with a through hole for the cutter and grooves, a spring pin-retainer installed in the grooves of the housing, a bearing sleeve pressed into the through hole of the housing, a cutter installed in the tool holder housing with the possibility of self-installation during cutting without deviations from the cutting line, according to the invention, the cutter consists of a cylindrical shank with a circular groove for a spring pin-retainer and a head part with a front cutting edge that is offset relative to the axis of the cylindrical shank by the value of some positive eccentricity, while the cutter is installed with the possibility of self-alignment by rotation relative to the axis of the cylindrical shank, the cutter is fixed in the tool holder through the bearing bush and fixed for the circular groove of the shank with a spring pin-clamp installed in the grooves of the tool holder divided by the inter-groove partition la, while the tool holder housing is rigidly fixed to the executive body of the machine.

Signs of the proposed technical solution, distinctive from the prototype - the cutter consists of a cylindrical shank with a circular groove under the spring pin-retainer and a head part with a front cutting edge that is offset relative to the axis of the cylindrical shank by the value of some positive eccentricity; the cutter is installed with the possibility of self-installation by rotation about the axis of the cylindrical shank; the grooves of the tool holder housing are separated by an inter-groove partition; the cutter is fixed in the tool holder through the bearing sleeve and is fixed to the circular groove of the shank by a spring pin-clamp installed in the grooves of the tool holder on top of the interstitial septum; the tool holder housing is rigidly fixed to the executive body of the machine.

The use of a rotary cutter and a fixed, rigidly mounted tool holder reduces the risk of jamming of the device with a bayonet, simplifies the design of the device, improves the conditions for self-installation of the cutter along the cutting line, which reduces side loads on the head of the cutter, reduces the specific energy consumption of the rock destruction process, increases working capacity and reliability devices.

The proposed device is illustrated by the circuits shown in FIG. 1-6.

In FIG. 1 shows a self-aligning cutter with a radial head placed in a mounting device (tool holder) on the executive organ of the mining machine, side view.

In FIG. 2 shows a self-aligning cutter with a radial head placed in a mounting device (tool holder) on the executive organ of the mining machine, top view.

In FIG. 3 shows a self-aligning cutter with a tangential head placed in a mounting device (tool holder) on the executive organ of the mining machine, side view.

In FIG. 4 shows a self-aligning cutter with a tangential head placed in a mounting device (tool holder) on the executive organ of the mining machine, top view.

In FIG. 5 schematically shows the moments and forces that determine the self-alignment of the cutter in the attachment device (tool holder) on the executive body of the mining machine in accordance with the specified cutting path:

I - in the direction coinciding with the direction of the trajectory of the executive body of the mining machine until the cutter interacts with the massif;

II - in the direction coinciding with the changed trajectory of movement of the executive body of the mining machine at the moment of interaction of the cutter with the massif.

In FIG. 6 schematically shows a cross-section of the tool holder housing with a cutter and a latch installed in it in a plane coinciding with the plane of a circular groove on the cylindrical shank of the cutter.

A self-aligning cutter with a mounting device on the executive body of the machine contains a cutter 1, the construction of which includes a cylindrical shank 2 and a head part 3. The cutting edge 4 of the head part 3 of the cutter 1 is made with some positive eccentricity "ε" (Fig. 1, 3, 5) relative to the axis of the cylindrical shank 2. In the cylindrical shank 2 of the cutter 1, a circular groove 5 is made. The cutter is inserted into the through hole 6 of the tool holder 7 through the pressed-in bearing sleeve 8 and secured to the groove 5 in the cylindrical the shank 2 with a pin-retainer 9, which is inserted into the grooves 10 of the tool holder body 7 over the inter-groove baffle 11. The tool 1 is self-adjusting by turning about the axis of the cylindrical shaft 2. The tool holder 7 is rigidly connected to the actuator 12 of the mining machine, for example, by welding. The tool holder housing is made monolithic. The head part 3 of the cutter 1 can be structurally tangential (Fig. 1, 2) or radial 1 '(Fig. 3, 4).

The device operates as follows.

After the arrangement of the device (1-9) (Fig. 1-4), a mining machine (not shown) approaches the rock mass. In this case, the cutter is in its original position (before the cutter interacts with the rock) on the O-O axis ”(Fig. 5), and the actuator (not shown) is in the position, for example, indicated by the arrow“ P ”.

At the moment of interaction of the cutting edge 4 of the cutter 1 or 1 'with the rock (not shown), when the cutter is installed in the direction of the arrow "P", a cutting force appears - the arrow "Z ₃ " (Fig. 5). The presence of positive eccentricity (the cutting edge 4 of the cutter is located at a distance "ε" (Fig. 1, 3, 5) from the axis of the cylindrical shank 2 of the cutter) causes the occurrence of the shoulder "l" of the cutting force "Z ₃ " and, as a result, the occurrence of the turning moment equal to M _P = Z ₃ × l. Under the action of the moment M _P , the cutter-vane is rotated relative to the axis of the cylindrical shank 2 by a certain angle y and the cutter 1 or 1 'is installed along the cutting line in the direction of the tool feed along the arrow “P” (Fig. 5) (axis “O-O” "). The consequence of the installation of the cutter 1 or 1 'along the cutting line is the balancing of the lateral forces acting on the cutting edge 4.

A spring check pin 9 is installed in the grooves 10 of the tool holder body 7 over the inter-groove baffle 11. The bearing sleeve 8 is made of a material with a low coefficient of friction, for example, brass, reduces friction when the cylindrical shaft 2 of the cutter 1 or 1 'is rotated by some angle γ.

Thus, the proposed device provides rational cutting conditions, eliminating lateral bending loads on the head of the cutter and reducing the specific energy consumption of the rock destruction process. Compared with the prototype, the design of the tool holder is significantly simplified, which leads to a reduction in the cost of manufacturing the device and increase its reliability. Significantly reduces the likelihood of jamming of the device as a result of the hit of a pin, which increases the reliability and performance of the proposed device.

Claims (1)

A self-aligning cutter with a mounting device on the executive body of the machine, including a tool holder housing mounted on the executive body of the machine, made integral with a through hole for the cutter and grooves, a spring pin-retainer installed in the grooves of the housing, a bearing sleeve pressed into the through hole of the housing, and a cutter, installed in the tool holder housing with the possibility of self-installation during the cutting process without deviations from the cutting line, characterized in that the cutter consists of a cylindrical of the shank with a circular groove under the spring pin-retainer and the head part with a front cutting edge that is offset relative to the axis of the cylindrical shank by the amount of some positive eccentricity, while the cutter is installed with the possibility of self-alignment by rotation relative to the axis of the cylindrical shank, the grooves of the tool holder are divided by an inter-groove partition , the cutter is fixed in the tool holder through the bearing sleeve and fixed to the circular groove of the shank with a spring check-fix ATOR installed in the slots on top of the tool holder mezhpaznoy septum, the housing of the tool holder is rigidly fixed on the executive board of the machine.

Images