RU2689938C1 - Method of accelerated stone cutting and semi-automatic stone cutting machine for its implementation - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: group of inventions relates to stone processing technology and can be used for cutting and processing of samples of rocks, mainly ornamental stones, marble tiles and other types of non-metallic materials. Method of accelerated cutting of stone on a stone cutting machine is characterized by the fact that a stone workpiece is exposed to a diamond disc to which self-vibration-rotary movement is imparted by its installation in a bushing-eccentric fitted on the shaft of the rotation engine of the diamond disc. Semiautomatic rock cutting machine for accelerated stone cutting comprises a table, a liquid placed under the tank table, which is cooling the diamond disc installed on the rotation motor shaft, a vice for fixing the workpiece, equipped with a device for its installation and movement into the cutting zone, wherein diamond disc is fitted on rotation motor shaft with eccentric bush fitted on engine shaft.EFFECT: higher efficiency of stone cutting operations and stone cutting machine.4 cl, 2 dwg

Description

The group of inventions relates to the technology of stone processing and can be used for cutting and processing samples of rocks, ornamental stones, marble tiles and other types of non-metallic materials.

The general principle of methods for processing natural stone and the work of well-known stone-cutting machines is to influence the workpiece with a rotating diamond cutting disk installed in the coolant. In this case, the workpiece is fixed in the carriage, which is moved along the working table to the area of the rotating diamond disk. During the cutting process, the diamond disc engages the coolant and wets the material to be cut abundantly in the cutting area.

For example, a machine for cutting non-metallic materials is known that includes a frame, a bath with a coolant and a disk knife placed in it, a knife rotation drive and a fastening assembly for the material being cut (ed. St. USSR N 837890, B28D 1/04). In order to improve performance in this technical solution, the attachment point for the material being cut is mounted on the frame, and the bath with the coolant and the disk knife is mounted on the carriage. At the same time, the circular knife is made with radial channels for more efficient supply of coolant to the cutting zone, which speeds up the cutting process and improves the cutting quality.

Known circular saw, the use of which is provided in the designs of circular saws of woodworking, metal-cutting and stone-cutting machines, consisting of a disk with teeth, clamping washers and damping pads sandwiched between the end surfaces of the disk and clamping washers (RF patent No. 2026167, В27В 33/08). In order to increase reliability and improve vibroacoustic properties, at least one end surface of the disk has a conical groove having a dovetail shape in cross section, and the damping plates have a truncated cone shape, the lower base of which is located in the groove. The heights of the cone of the damping plate and the recess are chosen so that the plane of the upper base of the cone of the damping plate does not protrude beyond the plane of the surface through the protrusions of the teeth of the disk. The improvement of the vibroacoustic characteristics of this circular saw is due to the fact that a part of the vibration energy of the cutting disk is converted into thermal energy and dissipated in the environment.

Also known machine for cutting stone, containing the frame, the mechanism for fixing the workpiece, a device for attaching the tool and the tank with coolant. At the same time, the machine is equipped with a lead screw mounted on the frame and an on / off coupling of automatic and manual cutting modes placed on one end, made in the form of a cup with slots (RF Patent No. 2024396, B28D 1/04, prototype). At the other end of the screw, there is a mechanism for securing the workpiece and its feeding to the cutting disk made in the form of a movable reciprocating along the carriage frame, two flat sponges are installed perpendicular to the plane of which. One of these jaws is rigidly fixed on the carriage, and the other is fixed so that it can be moved, rotated and fixed in a plane perpendicular to the axis of movement of the carriage. The coolant tank is placed under the frame and is made in the shape of a truncated rectangular prism, in the inclined part of which the cutting disc drive is installed.

A common disadvantage of the known technical solutions is the low productivity of stone-cutting works when using them on stone-cutting machines.

The objective of the invention is to improve the performance of stone-cutting work.

The technical result of the group of inventions is the provision of accelerated cutting of stone due to the implementation of a self-vibration-rotational mode of operation of a diamond disc (circular saw) in a stone-cutting machine. The technical result of the group of inventions is also the fact that in the process of cutting, in addition to the self-vibration-rotational movement of the diamond disk, the stone harvest is reported to oscillate along the axis parallel to the axis of rotation of the engine.

This technical result is achieved by the fact that, according to the invention, in the method of accelerated stone cutting on a stone cutting machine, a stone disk is exposed to a diamond disk, which is reportedly self-vibrating-rotating by installing it in an eccentric sleeve mounted on the shaft of a diamond disk rotating motor.

This technical result is also achieved by the fact that in the process of cutting, in addition to the self-oscillating-rotating movement of the diamond disk, the stone blank is reported to oscillate along the axis parallel to the axis of rotation of the engine.

According to the second point of the group of inventions, this technical result is achieved by the fact that in a stone-cutting machine containing a table, a tank with liquid placed under the table, cooling a diamond disc mounted on the motor shaft of rotation, a vice for securing the workpiece, fitted with a device for its installation and movement into the zone cutting according to the invention, said diamond disc is mounted on the shaft of a rotating motor using an eccentric sleeve mounted on the motor shaft.

This technical result is also achieved by the fact that said vise is rigidly connected with a metal rail located along the machine table, equipped with a toothed plastic tape, while the notched edge of the said plastic tape is in contact with a metal bracket mounted on the machine table parallel to the axis of the rotation motor.

The principle of shock - or vibration rotational impact on the rock is widely used in drilling operations. Their essence lies in the fact that the drill string is affected by various types of percussion mechanisms located either at the top of the drill string or at the bottom near the drill bit. Usually, these are pneumatic or hydraulic hammers, which transmit these blows to the drill bit, and this, thanks to this, accelerates the drilling of rocks at the bottom of the borehole.

This principle of accelerating the cutting of rocks with the use of frequent blows of a working tool is proposed by the author to be used in stone-cutting, with the aim of accelerated cutting of stone on stone-cutting machines. To solve this problem, a new method of stone cutting has been developed, which the author called “a self-vibration-rotation method of accelerated stone cutting on stone-cutting machines”. Its principal difference from other methods of cutting rocks is that small frequent blows to a working tool, in this case on a diamond disc, are not created due to external shock-vibration mechanisms, but due to the cutting tool itself in the form of an eccentric diamond disc nozzle on the working shaft of the engine, which causes the diamond disk in the vibration-rotational motion.

To this end, the landing slot of the diamond cutting disc is manufactured with a slight eccentricity so that its axis of rotation is somewhat deflected (enough, for example, 1 mm) from the axis of rotation of the engine, which causes the diamond disk to rotate. Such a fit of the working tool creates the effect of a self-vibration-rotational movement of the diamond disc and thus accelerates the cutting of the stone.

To further accelerate the cutting of the stone, the clamping mechanism (vice) of the machine is manufactured, according to the invention, so that it can deviate by several first angular degrees on an axis parallel to the axis of rotation of the diamond disc. These deviations, according to the invention, are created by an elongated toothed plate, which is rigidly fixed to the clamping mechanism - a vise, which together with it can freely rotate on an axis parallel to the axis of rotation of the engine. When cutting a stone, this plate together with the clamping mechanism slides along the bracket which is separated from the grip at a certain distance, which creates small oscillatory movements (up and down) of the entire fastening mechanism, causing the cut stone to rotate during its cutting by one or another edge or and a few angular degrees. Due to this, the area of the simultaneously cut stone surface is reduced and, thus, the specific pressure of the diamond saw on the stone increases and its cutting is further accelerated. The thrust of the stone on the diamond disc is created by sliding the entire clamping mechanism along the guide rods under the action of the rope and the load attached to it, thrown over the pulley.

The method of accelerated cutting of stone, according to the invention, was developed by the author in the process of manual cutting of stone on a stone-cutting machine, when it was visually found that with an eccentric diamond disk nozzle onto the motor shaft, the cutting speed of the stone is significantly accelerated, and small turns of the stone angular degrees when cutting further increase the cutting speed.

FIG. 1 shows a general view of a stone-cutting machine according to the invention; FIG. 2 illustrates the installation on a motor shaft of a cutting machine (diamond disc), according to the invention.

The stone-cutting machine according to the invention includes an engine 1, driving a diamond disk 2, a table (frame) 3 of the machine, a clamping vice 4 with a rotation axis 5. The axis of rotation 5 is rigidly connected with the device for installing and moving the vice 4 with the stone 6, into the cutting zone, made in the form of the mechanism 7 of the initial installation of the vice 4 fixed on the movable table 8. The movable table 8 is equipped with guides, metal rods 9 and a cable 10, thrown over the pulley 11 and supplied with a sinker 12, which together provides the necessary installation of the vice 4 to the diamond disc 2 and their movement together with the processed stone 6 along the cutting line. A metal rail 13 located along the table 3 is rigidly attached to the vice 4. It is provided with plastic toothed tape 14. The said metal rail 13 together with the plastic tape 14 contacts the metal bracket 15, respectively, mounted on the table 3, parallel to the axis of rotation 1 of the machine. also a cooling water tank 16, a protective flap 17 over the diamond disc 2, edges 18 around the perimeter of the table 3 for returning the sprayed water to the water tank 16, which prevents water ingress from machine limits.

Fig 2. shows the cutting unit of the machine according to the invention, where 2 is a diamond disc, 19 is the shaft of the rotation engine 1, 20 is an eccentric sleeve, which is a nozzle on the shaft 19 of the engine 1 with an eccentrically machined fit socket 21 for the diamond disc 2, offset from the axis of the shaft 19 of the engine 1; 22 - the clamping washer, clamping the diamond disc 2, 23 - the nut that secures the clamping washer 22, 24 - the axis of the sleeve - the eccentric 20, 25 - the axis of the shaft 19 of the engine 1 rotation.

Work on a stone-cutting machine, according to the invention, is as follows.

The stone 6 to be processed is clamped in a vice 4. Mechanism 7 mounted on the movable table 8 provides the necessary installation of the stone 6. By moving the stone 6 along the guide rods 9 of the movable table 8, the stone 6 is mounted against the diamond disc 2. The cable 10 is thrown over and the load 12 is suspended The electric motor 1 is turned on, the diamond disk 2, starting to move, begins to cut the stone 6. At the same time, the diamond disk 2, thanks to its fixation, according to the invention, in an eccentrically machined seat 21, bushings 20, lips In addition to the traditional rotational movement, an engine-mounted (shock) movement is reported on the shaft 19 of the engine 1, which ensures an enhanced effect on the stone being cut 6.

At the same time under the action of the load 12, the movable table 8 moves along the metal guides 9, and the vice 4 rigidly mounted on the metal rail 13 with the stone 6 moves along the cutting area of the diamond disc 2. At the same time, due to the presence of a metal rail 13 with a toothed plastic tape 14 sliding jagged edge on the bracket 15, the clamping vice 4 and, accordingly, the stone 6, is additionally reported oscillatory movement, contributing to a decrease in the area of simultaneous cutting of the stone, that is, an increase in the specific pressure I rock on the diamond blade at the point of the cut, which further increases the cutting speed.

After completing the necessary cutting stone 6, the electric motor 1 is turned off, the weight 12 is removed.

Thus, the technical solution, according to the group of inventions, provides a significant acceleration of the cutting process of a stone blank, due to the impact on it by a cutting tool, which makes a self-vibration-rotational (shock) effect on the stone being processed, and also due to the fact that the very workpiece located in According to the invention, the cutting zone is additionally reported with an oscillating motion, which increases the specific pressure of the stone at the immediate point of the cut on the rotating disk.

Claims (4)

1. A method of accelerated stone cutting on a stone-cutting machine, characterized in that a stone disk is affected by a diamond disk, which is reportedly self-vibrating-rotating by installing it in an eccentric sleeve mounted on the shaft of the diamond disk rotating motor. 2. The method according to p. 1, characterized in that in the process of cutting, in addition to the self-vibration-rotational movement of the diamond disk, the stone harvesting is reported to oscillate along the axis parallel to the axis of rotation of the engine. 3. Semi-automatic stone-cutting machine for accelerated cutting of stone, containing a table placed under the table tank liquid cooling diamond disk mounted on the motor shaft rotation, vise to secure the workpiece, equipped with a device for its installation and move to the cutting zone, characterized in that the specified diamond the disk is mounted on the motor shaft rotation using an eccentric sleeve mounted on the motor shaft. 4. Semi-automatic stone-cutting machine according to claim. 3, characterized in that said vise is rigidly connected with a metal bar located along the machine table, equipped with a toothed plastic tape, and the jagged edge of the specified plastic tape is in contact with a metal bracket mounted on the machine table parallel to the engine axis diamond disk rotation.

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