ITVI20100229A1 - DEVICE FOR THE SUPPORT AND HANDLING OF CUTTING THREADS IN A MULTIFILE MACHINE FOR CUTTING IN SLABS OF STONE MATERIAL BLOCKS - Google Patents

Description

DESCRIPTION

Field of application

The present invention is generally applicable in the technical sector of stone material processing, and has particularly as its object a device for supporting and moving the cutting wires in a multi-wire machine for cutting blocks of stone material, such as stone, into slabs. marble, cement conglomerates and similar.

The invention also relates to a multi-wire machine comprising this device.

State of the art

Multi-wire machines are known for cutting blocks of stone material, such as stone, marble, cement conglomerates and the like, into slabs, which comprise a portal frame on which the diamond cutting wires are mounted. As is known, the latter, translating along a substantially vertical direction, penetrate the block of stone material, reducing it into slabs. The thickness of the slabs that will be obtained from the cut is determined by the distance between two successive wires.

In a per se known way, the wires are wound on one or more supporting and moving devices, generally drums or assemblies of pulleys side by side, adapted to rotate the wires in order to facilitate their penetration inside the block.

Such support devices generally have, in correspondence with the peripheral portion, a plurality of annular grooves, suitably spaced apart, suitable for receiving a corresponding diamond wire. The distance between the grooves basically corresponds to the final thickness of the slab cut from the stone block. This type of machine is known as "fixed pitch".

To date, in such machines, the cutting wire used is 7.2 mm. This implies that the dimensions of the grooves must be such as to accommodate these wires, possibly with the minimum internal play. These dimensions are considered a standard that has been accepted on the market for many years.

As is known, in fact, the system is subjected to strong vibrations during cutting, above all due to the extreme conditions that the cutting of stone materials necessarily requires. Therefore, it is believed that both structural and technical problems could arise below these dimensions.

Presentation of the invention

The purpose of the present invention is to at least partially overcome the drawbacks encountered above, by providing a device for supporting and handling the cutting wires in a multi-wire machine for cutting blocks of stone material into slabs and / or a multi-wire machine of maximum efficiency. and relative cheapness.

Another object of the invention is to provide a device and / or a multi-wire machine which allows to maximize the yield of the block to be cut, in terms of the number of plates having the minimum tolerance with respect to the nominal value.

Another object of the invention is to provide a device and / or a multi-wire machine which allows to minimize the processing waste of the block to be cut.

Another object of the invention is to provide a device and / or a multi-wire machine which allows cutting blocks of stone material into slabs with minimum energy expenditure.

Another object of the invention is to provide a device and / or a multi-wire machine which allows cutting blocks of stone material into slabs with a minimum environmental impact.

Another object of the invention is to provide a device and / or a multi-wire machine which allows cutting blocks of stone material into slabs in a simple and economical way.

These purposes, as well as others that will appear more clearly in the following, are achieved by a device for supporting and moving the cutting wires in a fixed-pitch multiwire machine for cutting blocks of stone material into slabs in accordance with claim 1 .

On the other hand, a fixed-pitch multi-wire machine is provided for cutting blocks of stone material into slabs which includes the support device according to the invention.

Advantageous embodiments of the invention are defined in accordance with the dependent claims.

Brief description of the drawings

Further characteristics and advantages of the invention will become more evident in the light of the detailed description of some preferred but not exclusive embodiments of a device for supporting and moving the cutting wires in a multi-wire machine for cutting blocks of stone material into slabs. according to the invention, illustrated by way of non-limiting example with the aid of the attached drawing tables in which:

FIG. 1 is a schematic view of a machine for cutting blocks B in stone material which includes a device according to the invention;

FIG. 2 is a partially sectioned plan view of a first embodiment of the device according to the invention, with in FIG. 2a some enlarged details;

FIG. 3 is a partially sectioned plan view of some details of a second embodiment of the device according to the invention;

FIG. 4 is a partially sectioned plan view of a block of stone material cut by means of the device according to the invention;

FIG. 5 is a partially sectioned plan view of some details of a third embodiment of the device according to the invention;

FIG. 6 is a partially sectioned plan view of a fourth embodiment of the device according to the invention, with in FIG. 6a some enlarged details.

Detailed description of a preferred embodiment

With reference to the aforementioned figures, a fixed pitch multi-wire machine 1 for cutting blocks B of stone material into slabs is described.

The machine 1 has various parts or elements which are identical or in any case substantially similar to each other. Unless otherwise specified, these parts or elements will be described individually and / or indicated with a single number, it being understood that the characteristics described and / or illustrated are common to all the other parts or elements that are the same or in any case substantially similar.

The aforementioned machine 1 comprises, in a per se known manner, a portal frame 10, a plurality of diamond cutting wires 20 and at least a pair, preferably a plurality, of cylindrical devices 30 mounted on the frame 10 for supporting and moving the aforementioned cutting wires 20.

In a per se known manner, the cylindrical devices 30 will keep the wires 20 under tension so that, instant by instant, an active branch 21 is defined for each of them, facing the block B to be cut and intended to penetrate it, and a return branch 22, to this opposite.

In a first embodiment of the invention, illustrated in FIGS. 2, 3 and 5, one or more of the support devices 30 consist of cylindrical drums. In another embodiment of the invention, illustrated in FIG. 6, one or more of the support devices 30 consist of a plurality of pulleys 40 side by side.

Conveniently, each device 30 can comprise a central portion 31, defining a longitudinal axis X, and a peripheral portion 32 having a plurality of annular grooves 33 side by side, substantially equal and equally spaced.

The latter are each capable of receiving a respective diamond wire 20, which will have a predetermined diameter ø. In a per se known manner, each diamond wire 20 will be inserted into the respective groove 33 so that, in use, no groove 33 remains empty.

In a preferred but not exclusive embodiment of the invention, illustrated in FIGS. 2, 3 and 6, each of the grooves 33 may have a substantially U-shaped section, with two side walls 34, 35 facing each other and mutually connected by a bottom wall 36 intended to come into contact with the diamond wire 20 to accommodate. The maximum distance between the side walls 34, 35, taken at the entrance to the groove 33, is indicated with L.

In an alternative embodiment of the invention, illustrated in FIG. 5, the grooves 33 will have a substantially "V" section. Also in this case, the maximum distance between the side walls 34, 35, taken at the entrance to the groove 33, is indicated with L.

In the embodiment examples illustrated in FIGS. 3 and 5, the cutting wires 20 are housed in grooves 33 which have both the side walls 34, 35 and the bottom wall 36 of the same material in which the peripheral portion 32 is made.

Generally, both the central portion 31 and the peripheral portion 32 can be made at least partially of metallic material, for example steel or aluminum.

On the other hand, the central portion 31 can be at least partially made of metallic material, for example steel or aluminum, while the peripheral portion 32 can be entirely made of an anti-wear material, which can be of the polymeric type, for example rubber or polyurethane. .

Advantageously, one or more annular anti-wear protections 38 can be coupled to the outer surface 37 of the peripheral portion 38, which can totally or partially cover it. These protections can be made of polymeric material, for example rubber or polyurethane, and can be coupled to the external surface 37 of the peripheral portion 32 in a fixed or, preferably, removable way, to facilitate their replacement.

The annular anti-wear protections 38 may have a lower portion 38 'intended for coupling with the external surface 37 of the peripheral portion 32 and an upper portion 38 "intended to at least partially define said grooves 33.

In particular, each anti-wear protection 38 can be inserted by interference into a peripheral groove 39 of complementary shape.

Conveniently, the upper portion 38 "of each wear protection 38 can define at least the bottom wall 36 of each groove 33.

However, in a preferred but not exclusive embodiment illustrated in FIGS. 2a and 6a, the upper portion 38 "of each anti-wear protection 38 can define both the bottom wall 36 and the side walls 34, 35 of each groove 33 suitable for receiving a respective cutting wire 20.

As previously mentioned, with the same diameter of the wires 20, the thickness S of the plates obtained from the block B to be cut will be determined, essentially, by the distance between two consecutive grooves 33, 33 ', as visible in FIG. 4.

In particular, two consecutive grooves 33, 33 'will have a predetermined distance I between their respective median planes π perpendicular to the X axis. In particular, for the examples of embodiment of the invention illustrated in FIGS. 3 and 5, in which the grooves 33 have a "U" and "V" shape in plan, the distance I corresponds to the distance between the planes of symmetry of two successive grooves, or to the distance between the deepest points of the grooves themselves .

However, the Applicant has surprisingly discovered that in order to maximize the yield of the block B to be cut, understood as the number of slabs per unit of length having the minimum machining tolerance with respect to the nominal value, the maximum distance L between the facing side walls 34 must be , 35 of each groove 33 must be less than 7.2 mm.

Preferably, this distance can be comprised between 5 mm and 7 mm. A particularly preferred value for this distance L may be, for example, 6.2 mm.

Preferably, the maximum distance L between the side walls 34, 35 of each groove 33 can be substantially equal to the diameter ø of the cutting wires 20. In other words, the cutting wires 20 will be inserted in the respective "interlocking" grooves 33, with minimal play.

Thanks to these dimensions, in fact, it will be possible to minimize the production costs of the slabs, since, with the same dimensions of the block to be cut, it will be possible to produce more slabs than with state-of-the-art machines, with less processing waste.

It is evident that, since the material used for making the slabs is very expensive, this translates into a maximization of the linear yield of the block B to be cut in terms of slabs, and therefore in economic terms.

On the other hand, the particular sizing of the devices 30 will allow the use of cutting wires 20 of reduced diameter with respect to those used in the machines of the state of the art.

This will minimize the energy expenditure of the machine 1, since these threads will more easily penetrate the block B to be cut. This will also minimize the operating costs of the machine itself, as well as reduce the environmental impact of the cutting operation as a whole, thanks to the low energy consumption of the machine itself and / or to the minimization of processing waste.

On the other hand, in the technical sector of the processing of stone materials, a low processing tolerance, understood as a deviation from the nominal thickness of the slab, is an indication of its greater value.

For this purpose, the distance I in millimeters can be calculated using the formula (I):

I = A (0.8 L) (I)

in which:

- A is a coefficient, expressed in mm, which can assume values between 19.5 mm and 21.5 mm;

And

- L is the maximum distance between the facing side walls 34, 35 of each groove 33.

This discovery is surprising, since nothing in the state of the art prompts the modification of standard machines by reducing the dimension L of the grooves and / or the relative distance between them.

Furthermore, the particular selection of the values of the coefficient A allows to obtain sheets with a minimum tolerance with respect to the nominal value of 20 mm, which is one of the most requested by the market.

A particularly preferred value of the coefficient A may be 20.5 mm. Thanks to the combination of these characteristics, the device according to the invention allows the maximum yield of the block B to be cut, in terms of sheets having the minimum tolerance with respect to the nominal thickness of 20 mm.

It is reiterated that a sheet having a low processing tolerance is more appreciated on the market, and therefore has a greater economic value. It is evident that this maximizes even more the yield of block B, allowing to obtain the maximum economic benefit from it.

In light of the foregoing, it is understood that the support device and the multi-wire machine for cutting blocks of stone material into slabs according to the invention achieve the intended purposes and, in particular, overcome the drawbacks of the prior art by allowing to obtain, from a block B, the greatest possible number of sheets of nominal thickness 20 mm with the lowest possible machining tolerance with respect to this value.

The support device and the multi-wire machine according to the invention are susceptible of numerous modifications and variations, all falling within the inventive concept expressed in the attached claims. All the details can be replaced by other technically equivalent elements, and the materials can be different according to the requirements, without departing from the scope of protection of the invention.

Claims (10)

R I V E N D I C A Z I O N I 1. A device for supporting and moving the cutting wires (20) in a multi-wire machine (1) with a fixed pitch for cutting blocks (B) of stone material into slabs, comprising a substantially cylindrical support structure having a central portion (31) defining a longitudinal axis (X) and a peripheral portion (32) with a plurality of annular grooves (33) substantially equal to each other and equally spaced, each designed to accommodate a respective cutting wire (20) inside it; in which each of said grooves (33) has two facing side walls (34, 35) joined by a bottom wall (36), said facing side walls (34, 35) being placed at a first predetermined maximum distance (L); and in which two successive grooves (33, 33 ') have respective median planes (ττ, TT') perpendicular to said axis (X) placed at a second predetermined distance (I); characterized in that said first predetermined maximum distance (L) is less than 7.2 mm; And from the fact that said second predetermined distance (I) between the median planes (TT, TT ') perpendicular to said axis (X) of two successive grooves (33, 33') is sized in accordance with formula (I): I = A (0.8 L) (I) in which: - A is a coefficient between 19.5 mm and 21.5 mm; - L is the value in mm of said first predetermined maximum distance (L) between the facing side walls (34, 35) of each groove (33). 2. Device according to claim 1, wherein the value of said coefficient A in formula (I) is close to 20.5 mm. Device according to claim 1 or 2, wherein said first predetermined maximum distance (L) is substantially equal to the diameter (ø) of the cutting wire (20) to be accommodated in each groove (33). Device according to any one of the preceding claims, wherein said first predetermined maximum distance (L) is comprised between 7 mm and 5 mm, and is preferably close to 6.2 mm. 5. Device according to any one of the preceding claims, in which each of said grooves (33) has a substantially "U" section, respectively substantially "V", said median plane (TT) perpendicular to said axis (X) of each groove (33) being coincident with the plane of symmetry of said "U" section, respectively of said "V" section. 6. Device according to one or more of the preceding claims, in which both said bottom wall (36) and said side walls (34, 35) of one or more of said grooves (33) are made of the same material in which said peripheral portion (32). 7. Device according to one or more of the preceding claims, comprising one or more annular wear protection (38) coupled to the outer surface (37) of said peripheral portion (32), preferably in a removable way, each of said annular wear protection (38) presenting a lower portion (38 ') intended for coupling with said external surface (37) of said peripheral portion (32) and an upper portion (38 ") intended to at least partially define said grooves (33). 8. Device according to claim 7, wherein said upper portion (38 ") of each of said annular wear protection (38) defines the bottom wall (36) of each of said grooves (33), respectively defines both the bottom (36) and the side walls (34, 35) of each of said grooves (33). 9. Device according to one or more of the preceding claims, wherein said device (30) for supporting and moving said cutting wires (20) consists of a drum, respectively a plurality of pulleys (40) placed side by side along said axis longitudinal (X). 10. A fixed-pitch multiwire machine for cutting blocks of stone material into slabs, comprising a frame (10), a plurality of cutting wires (20) and at least a pair of devices (30) mounted on said frame (10 ) for supporting and handling said cutting wires (20), wherein at least one of said devices (30) is a device in accordance with one or more of the preceding claims.