RU50147U1 - MACHINE FOR CUTTING ON PLATES OF BLOCK OF NATURAL STONE OF VALUABLE VARIETIES - Google Patents

Abstract

The utility model is aimed at reducing the heat-stress intensity in the cutting zone during the formation of gash and optimizing the size of the mortise feed rate of diamond strip saws. The technical result is achieved by the fact that the machine for sawing into plates of a block of natural stone of valuable grades includes a bed, a saw frame with the supply of diamond strips, mounted on the bed on rails with the possibility of reciprocating movement in the plane of the base, associated with a crank mechanism and drive , work table with hydraulic feed drive connected to the control unit. An additional sensor has been introduced for positioning the working table relative to the saw frame in the direction perpendicular to the plane of the base, connected to a control unit configured to control the feed speed of the working table according to the depth of the face washed equal to the height of the saw blade of a diamond diamond saw, in accordance with the dependence of the abrasion index of the stone on pressure of a saw cloth.

Description

The utility model relates to the technology of production of tiles from blocks of natural stone and can be used in the stone industry.

It is known that the performance of sawing natural stone into plates is determined by the strength properties of the material (Sychev Yu.I. Stone sawing. M .: Stroyizdat, 1989), and, moreover, economical sawing is required in the manufacture of plates from precious stones. It is desirable to ensure a small thickness of the resulting plate with a small thickness of cut, minor surface irregularities, as well as minimize the number of chips at the exit of the saw tool from the block array. The peculiarity of stones of valuable varieties, for example, jade, jasper consists in high hardness (6.0-7.0 units according to Mohs), in addition, ribbon jasper, charoites are prone to disintegrate along the boundaries of the layers, so care must be taken when processing (C. V. Prostakov, Jewelry, Rostov-on-Don, Phoenix, 2000, p. 57-58).

Typically, for the manufacture of thin tiles from blocks of natural stone, sawing a block into blanks in the form of a bar, edging it with circular saws installed in parallel, grinding with an abrasive wheel, fixing to the substrate with glue, cutting the bar with a diamond cutting wheel with an internal cutting edge, forming a package of two tiles , which is processed on double-sided grinding and polishing machines (RU 2104153 C1, Vdovenko, 02/10/1998). However, as indicated, this invention allows the manufacture of tiles up to 1 mm thick (150 × 150 mm in size) as a result of grinding, and, in addition, involves cutting with machines with an inner edge.

A device for sawing blocks of stone blocks of hard rock containing a bed, guide columns on which the guides of the feed mechanism of the saw frame and its reciprocating motion, a control unit consisting of a control device for shunting and cyclic gears and an additional control device for working vibrational uniformly accelerated and equally slow motion of the guides (SU 1468765, Miflig et al. 03/30/1989). After the formation of the washed down by the control action is carried out

multi-component movement of the saw frame. However, this device has a complex mechanism and does not involve sawing blocks into thin plates.

A device for sawing stones containing a frame with a set of saws making reciprocating motion in curved guides under the action of a crank mechanism with a drive (SU 631354, Seluyanov et al., 05.11.1978). When lifting the desktop, interacting with the stone, the saw set performs sawing of the block into plates, and the sawing is carried out at a reduced speed with the pick-up of the plates so that they do not split. However, this device does not pose the problem of obtaining thin tiles from ornamental stones, but, in addition, requires the precision execution of curved guides.

The closest in combination of features is a cutting strip machine containing a saw and support frame, a connecting rod, a hydraulic cylinder, a table, a platform, a main drive, a device for holding a stone, electrical and hydraulic equipment, as well as a cooling system (Reference book “Equipment for mining and processing of natural stone, TSNIITE Stroymash, 1984, p.176-186). The working feed and accelerated movement of the table is carried out by a hydraulic cylinder, and the working feed speed of 40-600 mm / min is infinitely variable. However, this machine is designed for sawing blocks into slabs with a thickness of 15 mm and above.

The objective of this utility model is to improve the machine for sawing blocks of natural stone of valuable grades of increased hardness into thin tiles 1-3 mm thick and 200 × 200 mm or more in size, with reduced heat strength in the cutting zone during the formation of the cut and the optimal value of the speed of cutting diamond feed strip saws.

This problem is solved in that in a machine for sawing into plates of a block of natural stone of valuable grades, including a bed, a saw frame with a set of diamond-cut blades, mounted on a bed on rails with the possibility of reciprocating movement in the plane of the base of the machine, associated with a crank by a mechanism and a drive, a table with a hydraulic table feed drive connected to the control unit, an additional table position sensor relative to the saw frame in the direction perpendicular cular base plane is connected to a control unit adapted to control the rate of supply of slaughter desktop depths washed down

equal to the height of the saw blade of a diamond strip saw, in accordance with the dependence of the abrasion index of the stone on the pressure value of the saw blade.

The machine can be characterized in that the saw blade of a diamond strip saw is a metal strip with recesses the size of metal holders having a U-shaped shape, diamond-containing plates are soldered to the shelves, and the holders on their inner surface are installed in the recesses and glued to the said strip.

The technical result of the utility model is to reduce the heat-stress intensity in the cutting zone during the formation of a saw cut and to optimize the size of the mortise feed rate of diamond strip saws.

The essence of the utility model is illustrated in the drawings, where:

figure 1 presents a block diagram of a machine,

figure 2 - the same as in figure 1, at the end of the stage of sawing the block,

figure 3 - design of the saw blade,

figure 4 is a view of the dependence "indicator of abrasion - pressure on the saw blade", figure 5 is a block diagram of the algorithm of operation of the control unit.

The process of cutting a block of stone into plates is carried out taking into account the abrasion index, the value of which for the processed stone is previously determined experimentally. The numerical indicator of abrasion is the amount of loss of the initial mass of the sample, referred to the area subjected to abrasion (for example, according to GOST 13087-81 has a dimension of g / cm ² ). If the dimensions of the tool that affect the sample (for example, the cross section of the strip, or the abrasion circle) are known, then the indicator has a dimension of cm ³ / cm ² . The specific abrasion index according to GOST 426-77 has a dimension of m ^{3 /} t.J. The abrasion index does not explicitly correlate with the elastic modulus and density of the stone and is conditional, since it depends on a large number of factors and is always tied to certain means and modes.

The dependence of the abrasion index of a stone of this grade on the pressure value of a diamond saw blade, from which the set is formed, is individual and non-linear. With a small pressure of an abrasive tool, this indicator is small, as the pressure increases, abrasion increases, and at very high values, its efficiency decreases, because the tool is excessively worn and greasy due to heat stress in the contact zone.

Using the abrasion parameter and the recommended control law in the control unit — changing the pressure of pressing the saws by changing the feed rate in the vertical direction makes it possible to ensure parallel entry of saws into the material at the stage of formation of the saw. The rise of the table with the cut block is controlled so that the introduction of the saw into the stone at the initial stage is ensured with the amount of effort necessary to ensure maximum abrasion, and the dependence "abrasion index - pressure on the saw blade" determined by the relationship. Then, when introducing the saw to its full height N, further cutting to a depth B is carried out with the feed rate of the working table, providing maximum abrasion, but not exceeding the mode of increased wear and greasing of the saw. On the contrary, if you ensure the supply of saws with a maximum feed rate in anticipation of obtaining maximum cutting, then it is possible to bend the saws and the appearance in the material (this is especially noted for jasper as a quartz-containing mineral) stress concentrators with subsequent cracking. The regime described in the application is in agreement with the well-known recommendation that when cutting valuable quartz-containing raw materials, a circular saw should be introduced more slowly at the beginning of cutting and more quickly at the end (see, for example, L.I. Glozman, Production of piezoelectric quartz resonators. Energy, M - L., 1964, p.66), however, a higher feed rate has a power and technological limit.

The machine for sawing into plates of a block of natural stone of valuable grades (see Figs. 1, 2) includes a frame 1 mounted on a horizontal base 2, a support frame 3, a saw frame 4 with a set of diamond-cut saws 5. A saw frame 4 is mounted on a support frame on guides with the possibility of reciprocating movement in the plane of the base and is connected with a crank mechanism (KShM) (not shown in Fig.) having a drive 6.

Under the saw frame 4 there is a working table 7 with a hydraulic cylinder 8 connected to the hydraulic actuator 9. On the bed 1 there is a sensor 10 for the position of the table 7 in the vertical direction connected to the control unit 11. On the table 7 is placed the false block 12, to which the block 13 of the stone to be sawn is mounted, which is cut into plates. As a raised block, any construction products made of ceramics, concrete, etc. can be used. materials. Water can be used as a cutting fluid.

When sawing using diamond strip saws 5, the design of which is shown in figure 3. The saw blade of the diamond strip saw 5 has steel

a metal strip 14 with recesses for the size of the metal holders 15 having a U-shaped. Diamond-containing plates 16 are soldered to the shelves of the holders 16. The holders 15 along their inner surface are installed in the recesses and glued (shown by arrow 17) to the strip 14. Using the assembly of strip saws on glue allows reducing the overall thickness of the saw surface while ensuring sufficient strength. Diamond-bearing elements have dimensions: thickness 1.5-2 mm, length about 20 mm, height about 7 mm. The stand is formed from a series of diamond strip saws placed parallel to each other at a distance determined by the thickness of the calibrated inserts (2-4 mm).

The control unit 11 implements the speed control V _{p of the} feed table in accordance with the dependence of the index of abrasion of the stone on the value of the applied pressure of the saw blade. The maximum depth of the face washed down, sufficient for further cutting of the stone with a set of saws, does not exceed, as tests have shown, the height H of the saw blade of a diamond saw blade. The dependence is determined on the test sample for several pressure values applied to a single saw blade, similar to the saws in set, for a given value of the stroke of the saw frame (for example, as for the closest analogue - 50 ± 5 mm). The dependence "abrasion - pressure on the tool" (see figure 4) is non-linear: at low pressure it has a small increase, then it has a nearly linear portion of proportional growth, and then with increasing pressure there is no increase in the abrasion index (saturation region ), and then fall until the saw or sample breaks. The penultimate and especially the last section is characterized by a curvature of the saw blade, which is unacceptable.

The control unit 11 implements the control of the feed speed V _{p of} the working table in accordance with the measured dependence of the abrasion index of the stone on the magnitude of the applied pressure on the saw blade in the proportional growth section (Fig. 4). The fulfillment of this condition ensures the formation of a vertical face of the cut. Further, when cutting the stone after the formation of the saw, the optimal sawing speed is maintained.

The feasibility of the utility model is confirmed by the example of manufacturing tiles from jasper - a natural mineral that is a combination of chalcedony and quartz (Mohs hardness 6.0-7.0). In a known manner (cutting and subsequent grinding), a block with a section of 200 × 300 mm and a length of 600-800 mm was contoured.

The block was glued to raised block 12, which was used as a concrete paving slab. The resulting workpiece was fixed on the table 7.

Further, by means of a hydraulic actuator 9, the table 7 was lifted until the stone block 13 was in contact with the cutting edges of the strip saws, which were in the working stress state. At the moment of reaching the contact (see Fig. 5), the readings of the table position sensor 10, which records the distance b traveled by the table in the vertical direction, were reset to zero. Then the drive 6 of the crank-crank mechanism for the reciprocating movement of the saw frame in the plane 2 of the base and the production of the cut itself was turned on. The saw blades were deepened to a depth b equal to the width H of the saw blade, at a variable feed rate V of the table 7, the value of which is determined by the mentioned dependence of the abrasion index of the mineral from which the stone block 13 was prepared. The control unit 11 provided the regulation of the entire sawing process at the highest possible feed speed V _p before receiving the plates. Upon reaching the signal from the sensor 10 about the equality of the values of B = b, that is, the transition of the saw cut to the raised block 12, the drives 6 and 9 of the machine were turned off. Tiles were obtained from a block of jasper with a thickness of 3 mm without visible deviations in thickness of 300 × 200 mm.

Due to the presence of the position sensor of the working table relative to the saw frame and the implementation of control according to the established criterion, the heat-stress intensity in the cutting zone was reduced during the formation of the saw and the optimum value of the cut-in speed of diamond cutting saws during sawing was ensured. The machine allows you to cut fine-grained cryptocrystalline natural stones into thinner plates.

Claims (2)

1. A machine for sawing into plates of a block of natural stone of valuable grades, including a bed, a saw frame with the supply of diamond strips, mounted on a bed on rails with the possibility of reciprocating movement in the plane of the base of the machine, associated with a crank mechanism and drive, working a table with a hydraulic table feed drive connected to the control unit, characterized in that an additional table position sensor is introduced relative to the saw frame in a direction perpendicular a base connected to the control unit plane, adapted to control the rate of feeding the working table by a depth equal to the height slaughter washed down shtripsovoy blade diamond saw, in accordance with the dependence of the index value from abrasion stone saw blade pressure. 2. The machine according to claim 1, characterized in that the saw blade of a diamond strip saw is a metal strip with recesses to the size of metal holders having a U-shaped shape, diamond-containing plates are soldered to the shelves, and the holders themselves are installed in the recesses along their inner surface and glued to said strip.