SU1013297A1 - Apparatus for cutting construction materials - Google Patents

Abstract

A DEVICE FOR CUTTING CONSTRUCTION MATERIALS, comprising a casing, a drive disk mounted therein with a cutting diamond element along its periphery, and a device for stabilizing the disk, characterized in that, in order to reduce the diamond intensity of the saw blade, the ratio of the saw height to its diameter is 0.002- 0,003. (L with iNd CD 4j

Description

The invention relates to equipment for cutting construction materials, such as stone, concrete / metal, etc. A perceptive way to increase the efficiency of diamond saws when cutting building materials is to use stabilization devices. Using these devices allows you to reduce the oscillation of the saw blade in the direction of the minimum stiffness, reduce the noise level and increase the productivity of processing. The effectiveness of a diamond tool at MHOi; oM is also determined by its diamond color. A decrease in the diamond intensity of diamond circular saws due to a decrease in the height of the body is associated with a decrease in the stability of the flat shape of the body of the saw. Therefore, the use of thinned diamond circular saws with the use of stabilizing devices seems promising. A device for processing stones using a device for stabilizing a drive disk, containing a disk casing, with which the nozzles with the gap needed to form a gas or liquid head between the nozzles and both sides of the drive disk housing. The nozzles have central bands in which a heap of fluid is fed through the channels under pressure fl. A disadvantage of this device is that the drive disk, made at a height of 0.0050, 08 of its digeeter, is too high at heights. This leads to an increase in the diamond intensity of the saw blade, the energy intensity of the cutting process and an increase in the width of the kerf. This saw has a high flat stability, sufficient to operate without the use of stabilizing devices. When working with stabilizing devices, the vibration of the drive disk decreases during a time & e, which leads to a decrease in the level during cutting. The closest to the present invention is a device for stabilizing a diamond disk, including a drive disk with a cutting diamond element around its periphery (a disk saw) and a device for stabilizing the disk, made in the form of injectors fixed on the yokes symmetrically relative to the disk of nozzles for feeding a stabilizing agent, moreover, the axis of swing of the nozzles coincides with the axis of rotation of the disk and they are fixed on one of the arms of the rocker arms at a distance | from the axis of the swing, smaller than the radius of the saw by the amount of the radius of the nozzle 2. The disadvantage is th device is that the height used therein blade housing constructed in accordance with the standard ft / D 0,004-0,007 ratio inflated. Therefore, when such a body is loaded with forces corresponding to the actual process of cutting granite in optimal conditions and stabilizing it with a water pressure at the outlet of the nozzles equal to 8 atm, the strain propagation angle was reduced. However, the amplitude at the point of application of the load remained almost unchanged. Therefore, the stability of the disc is also overestimated. This leads to an increase in the diamond capacity of the circular saw, the energy intensity of the cutting process and an increase in the width of the kerf. The aim of the invention is to reduce the diamond capacity of the circular saw. This goal is achieved by the fact that in a device for cutting construction materials, comprising a casing, an installed drive disc with a cutting diamond elements along its periphery, and a device for c: tabilizing a disc, the ratio of the saw height to its diameter is 0.0020, 003. The drawing shows a device for cutting construction materials, a general view. The device consists of a drive disc 1 with cutting diamond elements along its periphery 2 and a device for its stabilization. The disk saw, located in the casing 4, is fixed on the spindle 3. The device for stabilizing the disk yla is made in the form of nozzles 5, installed on both sides relative to its body, through which the hydrostabilizing agent is fed under pressure. The device works as follows. Circular saw 1.2 Through the spindle 3 give the rotation with a given peripheral speed. Then, through the nozzles 5 under pressure, a stabilizing agent is supplied to it, which is protected from splashing by the casing 4, and include the longitudinal feed of the stone being cut 6. After cutting the stone 6, the stabilizing agent is fed and the longitudinal feed of the diamond 6 is studied. circular saws. Cases of circular saws (GOST 16115-78), and also thinned with a diameter of 400 mm from St, 9 HFM, hardness 39 ... 42, were subjected to tests. The discs are given a spin at a speed of 21 m / s. A stabilizing agent (water) at a pressure of 8 atm is supplied: on, a disk at a distance from the axis of its rotation, smaller than the radius of the disk, by the amount of the radius of the nozzle at the entrance and exit of the disk from the load at an angle of 75 to the point of application of the load. The disk is loaded in the radial directions in a wide range of loads of 50–230 kgf.

As indicators of the stabilization of the disk, the following factors are accepted: the angle of propagation of the deformation of the diamond disk (the central angle in the plane of the least rigidity of the disk including the zone of deformation of the disk in the flat plane from the disturbing load), the deformation of the diamond disk at the point of application of the load frequency and the amplitude of oscillation of the disk.

The test results of the dynamic rigidity of diamond circular saw blades are given in the table.

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As can be seen from the table when a standard disk is hydrostabilized, its amplitude is deformed at the point of application of loads in BCiSM. their range of change is practically unchanged compared with the deformation for an unstabilized disk. When hydraulically stabilizing the thinned disc, its deviation from the flat shape is not observed for a time, as for an unstabilized disc, the deformation is 6-24.5 mm depending on the radial load. The oscillation frequency during hydrostabilization of a thinned disk compared to the hydrostabilization of a standard disk decreases to a greater extent with almost identical amplitudes, which leads to a reduction in noise during operation with thinned saws. Since when. when the thinned disk is stabilized, its dynamic rigidity is sharply increased, it is possible to increase the cut feed, i.e. increased productivity, performance. The use of race | discs reduces the diamond intensity of the tool by more than two times.

The expected economic effect due to a decrease in the consumption of a new saw is about 50 rubles. on one saw.

The annual production of granite / marble cladding slabs currently stands at about 4 million m.

S average durability of a circular saw, equal to 100 m2, the expected annual economic effect. With a maximum amount of introduction it is about 400 thousand rubles.

Claims (1)

DEVICE FOR CUTTING CONSTRUCTION MATERIALS, comprising a casing, a drive disk mounted therein with a cutting diamond element around its periphery, and a device for stabilizing the disk, characterized in that, in order to reduce the diamond consumption of the saw blade, the ratio of the height of the saw to its diameter is 0.002-0.003 . from th ¢ 0 M