RU2178080C1 - Machine with endless flexible working member - Google Patents

Abstract

FIELD: production and working of various hard materials by cutting, for instance, stone cutting and working, more specifically, machines for production and working of stone by means of endless flexible working member. SUBSTANCE: machine includes at least one endless flexible working member movable tightened with the help of tightening guide apparatus movably secured to machine frame, cutting feed drive, device for transmission of motion to endless flexible working member kinematically connected with machine main drive frame and table for installation of blank. Tightening guide apparatus has at least three sectors installed on sections of bending of endless flexible working member. Guide rollers with circular recesses rotating round their axes are secured to said sectors over curvature connecting rectilinear parts of endless flexible working member. One sector nearest to blank has at least one tie-rod with sector nearest in direction of feed for cutting which is flexibly controlled, and the other sector nearest to blank has a device for transmission of motion installed between blank and guide rollers. Endless flexible working member is movably secured in said device for motion transmission. Machine table may have mechanism for blank turning in plane of cutting. Roller displaced relative to direction of motion of endless flexible working member may be installed between blank and guide apparatus. Circular recesses of guide rollers may have layer of antifriction coating. Motion transmission device may be secured by hinging and may be self-adjusted in direction of tensioning of endless flexible working member. Motion transmission device may have apparatus for producing longitudinal ultrasonic vibrations of endless flexible working member. Flexible controlled tie-rod may be supplied to sector which is not nearest to blank. EFFECT: increased service life of endless flexible working member, reduced power consumption and amount of production wastes. 7 cl, 5 dwg

Description

 The invention relates to the field of extraction and processing of various solid materials by cutting, for example, stone mining and stone processing, and more specifically to machines for the extraction and processing of stone using a flexible endless working body.

 Currently, for the extraction and processing of various stone materials by cutting, machines with an endless flexible working body equipped with diamond-containing perlins are widely used.

 Known, for example, is a machine tool containing vertical guides connected in the upper part of a beam, on which calipers with a displacement drive are located, pulleys mounted on calipers, one of which is connected to an electric motor, covered by an endless cutting body in the form of a rope (US Patent N 2994314, cl . 125-21, 1961).

 There is also known an installation for rope sawing of stone, containing vertical guides connected at the top of the beam, on which calipers with a displacement drive are located, pulleys mounted on calipers, one of which is connected to an electric motor, covered by an endless cutting body in the form of a rope (ed. SU 1065218 A, class B 28 D 1/08; 01/07/84.; Bull. 1).

 In all known machines, the drive of the flexible working body is the drive pulley.

 The disadvantages of these machines are the creation of significant pre-tensioning of a flexible endless working body to ensure that the movement of the corresponding power is transmitted to it and the inevitable bending, followed by extension of the strained flexible working body on the drive pulleys of the machine.

 The magnitude of the pre-tensioning force is commensurate with the working force created by the main drive of the machine to carry out the technological process, and the stresses due to the action of these forces are inversely proportional to the cross-sectional area of the bearing part of the flexible endless working body of the machine. On the other hand, the stresses arising from the bending of a flexible endless working body on the drive pulleys are proportional to the ratio of the cross-sectional diameter of the bearing part of the working body to the diameters of the drive pulleys. The task is complicated by the fact that a decrease in the values of bending stresses by increasing the diameters of the drive pulleys leads to an increase in the center distance of the transmission, and for the implementation of the technological process it is necessary to increase the prestress of a flexible endless working body. A significant part of the strength resources of the bearing part of the endless working body is spent on resistance to preload and bending on drive pulleys.

 Considering that when working with diamond perlins, the cutting speed reaches values of up to 30-40 m / s, and the diameter of the drive pulley for existing machines is 1.5-2 m in order to compensate for centrifugal forces, it is necessary to provide additional tension of a flexible working body.

 Ineffective use of the strength resources of the endless working body leads to an increase in the diameter of the bearing part of the flexible endless working body, which is the reason for the increase in the internal diameter of diamond pearls attached to it. Consequently, the thickness of the diamond layer on the perlins decreases with a constant outer diameter, which reduces the durability of the endless working body, or when ensuring adequate durability, the cut width increases, which leads to an increase in the energy intensity of the process.

 The operating schemes of known machines assume almost identical angles when entering and exiting a flexible endless working tool into and out of the cutting zone. Considering that the cutting process occurs at rather high speeds (above 30 m / s), diamond perlins installed periodically on the bearing part of a flexible endless working body undergo large shock loads at the entrance to the cutting zone, which negatively affects the strength of diamond grains.

 All of the above is the reason for the unreasonably large width of the cut when using these machines, a decrease in the durability of a relatively expensive working body, an increase in the energy intensity of the technological process, and an increase in the proportion of waste relative to the finished product.

 The basis of the present invention is the creation of a machine for cutting various solid materials using a flexible endless working body with such a design that would eliminate the above disadvantages.

 This problem is solved by creating a machine, including at least one flexible endless working body, movably tightened by means of a protracted guide apparatus, which is movably fixed on the machine bed, a cutting feed drive, a motion transmission device to a flexible endless working body, kinematically connected with the main the drive of the machine, the bed and the table for installing the workpiece, characterized in that the protracted guiding apparatus consists of at least three sectors installed on the bend sections of the flexible b endless working body, on which along the arc of a circle mating the straight sections of the flexible endless working body, guide rollers are provided with rotation around their axes, provided with annular grooves, and at one of the sectors closest to the workpiece, at least one of the connections with the nearest in the direction of supply to the cutting sector is elastically controlled, and on the other sector closest to the workpiece, between the workpiece and the guide rollers, a motion transmission device is installed in which flexible endless working body is fixed.

 The use of a motion transmission device, the design of which was developed by the authors of the present invention (a detailed description of the invention is given in RF patent application N 2000119810/28), eliminates the appearance of bending stresses in the motion transmission zone, and there is no need to create a preliminary tension of a flexible endless working body for motion transmission . Therefore, a flexible endless working body is under operating voltage only in the area of the cutting zone - a motion transmission device. This allows you to significantly reduce the diameter of the bearing part of the flexible endless working body and thereby achieve both an increase in the thickness of the diamondiferous layer on the perlins and a decrease in the outer diameter of the perlins, which will increase the durability of the flexible working body and reduce the energy consumption of the process.

 Given that the flexible endless working body operates at high speeds (more than 30 m / s), the use of the motion transmission device of the design we proposed allows us, regardless of the speed, to ensure the transmission of drive power.

 Reducing the tension force of a flexible endless working body outside the zone, the workpiece is a motion transmission device that allows driving pulleys to be replaced with guide rollers mounted along an arc of a circle. In this case, the stress state of the bearing part of the flexible working body will be determined not by the radius of curvature of the rollers, but by the radius of the arc of the circle along which they are installed. This allows you to reduce the span of a flexible working body by approximately the diameter of the proposed pulleys and carry out the process with low tension.

 Giving one of the sectors closest to the workpiece an elastic-controlled connection, for example, in the direction of feed to the cutting, makes it easy to set a flexible endless working body of a certain length in the annular grooves of the rollers of the guide apparatus. Having established, by adjusting, a certain stiffness of the elastically controlled connection necessary for the implementation of the technological process, it is possible to provide a small angle (less than π / 12) of the entrance to the cutting zone of a flexible endless working body. In this case, the angle of exit of the flexible working body from the cutting zone will be greater than the entry angle and its value will depend on the feed force for cutting. The feed force for cutting over the cutting zone will be distributed unevenly. The pressure of the flexible working body on the workpiece is less at the entrance to the cutting zone and continuously changes depending on the exit angle. This will ensure smooth operation of the flexible working body and the entire machine and eliminate the possibility of shock loads on diamond hawsers. The slope of the cut along the length of the cutting zone allows you to easily remove the waste products of the cutting process with the liquid supplied to cool the diamond perlins, and thereby increase the durability of the flexible working body.

 For the final cutting of the workpiece, the machine table can be equipped with a mechanism for angular feeding by turning the workpiece to the motion transmission device in the cutting plane.

 At least one roller shifted relative to the plane of the flexible endless working body is installed between the workpiece and the guiding device to uniformly wear diamond pearls and increase the durability of the flexible endless working tool. The resultant friction forces that act on the cylindrical surface of the flexible working body from the side of the wall of the annular groove of this roller creates a torque that allows it to be twisted relative to its geometric axis. By changing the magnitude of the displacement of the roller, you can adjust the speed of twisting of a flexible endless working body.

 It is possible to provide ring grooves of guide rollers with a layer of antifriction coating (for example, EPVD 80 plastic), which will significantly increase their durability and reduce the abrasion of diamond grains.

 By securing the motion transmission device pivotally so that it can self-align in the direction of tension of the flexible endless working body, it is possible to reduce the angle of its bending and improve the functioning of the motion transmission device.

 Given that ultrasonic vibrations favorably affect the cutting process and the design of the machine allows them to be created, it is possible to provide a motion transmission device with an apparatus for creating longitudinal ultrasonic vibrations of the working body directly in the cutting zone.

 One of the sectors that are not in the immediate vicinity of the workpiece to be machined can be equipped with an elastic-controlled coupling, which makes sense when processing materials with low strength.

 To ensure uniform operation of the working body on the machine between the guide apparatus and the workpiece, at least one roller is mounted, shifted relative to the plane in which the flexible endless working body is located, for twisting it about its geometric axis.

 It is possible to use interchangeable antifriction layers in the roller of the cutting feed mechanism.

 To reduce the tension force of a flexible endless working body outside the cutting zone, it is convenient to fix it movably in motion transmitting devices on both sides of the workpiece, one of which is driven and fixed on a sector with an elastically controlled connection. This makes it possible to reduce the tension force of the flexible endless working body so much that the guiding apparatus is equipped with rollers mounted only on the bending path of the flexible working body.

 For a better understanding of the invention, schematic images of the machine are shown.

 FIG. 1 schematically depicts a machine with a flexible endless working body according to the invention.

 FIG. 2 schematically depicts a machine table during angular feed.

 FIG. 3 schematically depicts a machine with guide rollers mounted only on the bends of the trajectory of a flexible working body.

 FIG. 4 schematically depicts the proposed machine with three sectors.

 The proposed machine with a flexible endless working body includes a U-shaped bed 5 (Fig. 1), on which sectors 2,3,4,4 of the guiding apparatus are movably fixed. Using a cutting feed drive (not shown in the drawings), these sectors are moved in the vertical direction. Sector 2 with sector 3 is connected using an elastically controlled connection 7, the rigidity of which can be controlled. Rollers 6 are fixed on sectors along an arc of a circle, which rotate freely around their axes and serve as guides for a flexible endless working body 1. Moving sector 2, a flexible working body 1 is installed to sector 3 and movably fixed in a motion transmission device 8, which is fixed to the sector 4. The motion transmission device is kinematically connected with the main drive of the machine (not shown in the drawings) and reports the cutting movement to the flexible working body 1. The roller 12 is mounted on the sector 2, offset relative to the direction I am flexible infinite working body 1, and allows you to twist it about its geometric axis. In the middle of the U-shaped bed 5, perpendicular to its plane, rails are mounted on which the table 9 can move, on which the workpiece 10 is fixed. Above the workpiece 10, a device 11 for supplying coolant to the cutting zone is installed.

 In FIG. 2 schematically shows the table 9 of the machine, which with the help of the lifting mechanism carries out the angular feed of the workpiece 10 for cutting.

 In FIG. 3 shows a schematic illustration of a machine that is equipped with two motion transmission devices 8 and 12, one of which is mounted on a sector 2 having an elastically controlled coupling, and can be driven. The guide rollers 6 are installed only on the bend path of the flexible endless working body 1. The diagram also shows a roller 13, providing rotation of the flexible working body relative to its geometric axis.

 In FIG. 4 schematically shows a machine equipped with three sectors, and sectors 3 and 4 are structurally combined, and the guide rollers 6 are installed only on the bend trajectory of the flexible endless working body 1.

 The machine operates as follows.

 The coolant system is turned on. Using the main drive of the machine through the motion transmission device, a flexible endless working body is notified of the working movement. The feed for cutting is turned on and after reaching the contact of the endless working body with the processed material, the cutting process begins.

 The present invention can be used in the extraction and processing of various stone materials.

Claims (7)

 1. A machine with a flexible endless working body for processing solid materials, comprising at least one flexible endless working body, movably tightened using a protracted guiding device, which is movably fixed to the machine bed, a cutting feed drive, a flexible endless motion transmission device a working body kinematically connected with the main drive of the machine, a bed and a table for installing the workpiece, characterized in that the protracted guiding apparatus consists of at least three sectors, installed at the bending sections of the trajectory of the flexible endless working body, on which guide rollers equipped with annular grooves are fixed with the possibility of rotation around their axes along an arc of a circle mating the straight sections of the flexible endless working body, and at least one of the sectors nearest to the workpiece has at least , one of the connections with the sector closest to the direction of supply to the cutting is elastically controlled, and on the other sector closest to the workpiece, between the workpiece and guide rollers A motion transmission device in which a flexible endless working body is movably fixed.  2. The machine according to claim 1, characterized in that the table of the machine is equipped with a mechanism for turning the workpiece in the cutting plane.  3. The machine according to claim 1 or 2, characterized in that between the workpiece and the guide apparatus is installed at least one roller shifted relative to the direction of movement of the flexible endless working body.  4. Machine according to any one of paragraphs. 1-3, characterized in that the annular grooves of the guide rollers are provided with a layer of antifriction coating.  5. Machine according to any one of paragraphs. 1-4, characterized in that the motion transmission device is pivotally mounted and can be self-mounted in the direction of tension of the flexible endless working body.  6. Machine according to any one of paragraphs. 1-5, characterized in that the motion transmission device is equipped with an apparatus for creating longitudinal ultrasonic vibrations of a flexible endless working body.  7. Machine according to any one of paragraphs. 1-6, characterized in that the sector that is not closest to the workpiece has an elastically controlled connection.

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