EP2768644A1 - Apparatus and method for manufacturing tubular supports of diamond beads of a cutting wire usable for cutting stone material, and cutting wire obtained by said apparatus and method - Google Patents
Apparatus and method for manufacturing tubular supports of diamond beads of a cutting wire usable for cutting stone material, and cutting wire obtained by said apparatus and methodInfo
- Publication number
- EP2768644A1 EP2768644A1 EP13767097.2A EP13767097A EP2768644A1 EP 2768644 A1 EP2768644 A1 EP 2768644A1 EP 13767097 A EP13767097 A EP 13767097A EP 2768644 A1 EP2768644 A1 EP 2768644A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- cutting
- edges
- metal foil
- tubular
- diamond
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D1/00—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
- B28D1/02—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
- B28D1/12—Saw-blades or saw-discs specially adapted for working stone
- B28D1/124—Saw chains; rod-like saw blades; saw cables
Definitions
- the present invention is generally applicable to the technical field of the working of stone materials, and particularly relates to a method for manufacturing tubular supports for the diamond beads of a wire for cutting blocks of stone material, such as stone, marble, cement, granite and the like.
- the invention also relates to a tubular support obtainable by this method.
- the invention also relates to an apparatus for manufacturing such tubular supports.
- the invention also relates to a method for manufacturing the cutting wires that include such tubular supports.
- the invention also relates to a cutting wire that includes such tubular supports, as well as a
- wires are known for cutting blocks of stone material, such as stone, marble, concrete and the like. These wires are generally wound on drums or pulleys, which are rotatably moved to transfer a tangential motion to the wire and promote its penetration into the stone material to be 20 cut.
- cutting wires for stone material are known from JP9239721, DE3805405, JP3281118 and EP0718414.
- WO02/04160 describes a wire rope comprising a support on which are fixed a plurality of beads and a plurality of spacer elements in plastic material interposed between the beads 25 to keep them appropriately spaced apart each other.
- Each bead has a hollow cylinder fixed to the
- WO2012/052952 describes a wire for cutting stone material comprising a support rope having a plurality of diamond beads susceptible to interact with the stone material to cut it.
- Each diamond bead comprises a metal tubular support externally to which an outer annualr member
- each part of the support rope free from the diamond beads is coated by at least one spacer element of polymeric material applied by hot injection molding, having the purpose to keep unaltered the mutual distance between the diamond beads.
- Both the above known embodiments comprise a plurality of spacer elements in polymeric material, having the purpose of keeping unaltered the original position of the diamond beads. To increase the effectiveness of the spacer elements it is useful that during the molding step the polymeric material penetrates between the support rope and the diamond bead.
- the metal tubular support which according to the prior art is generally made from a metal bar suitably cut to the desired lenght, is internally threaded.
- the grooves of the thread lying on the inner wall of the metal tubular support, increase the penetration of the polymeric material between the rope and the tubular support.
- the internal thread of the tubular support of each diamond bead further promotes a spiral motion of the bead along the rope.
- This spiral motion causes an undesired shift of each bead, with consequent loss of the original distances between the beads and the reduction of the effectiveness and cutting uniformity of the wire. Therefore, the internal thread imparts to the bead a motion along the rope.
- a further drawback of the known solutions is the fact that the spiral motion of the beads cause localized and premature wear, reducing the overall duration of the cutting wire.
- An object of the present invention is to overcome at least partly the above mentioned drawbacks, by providing a method for manufacturing tubular supports for the diamond beads of a cutting wire of highly efficiencient and relatively cost-effective.
- Another object of the invention is to provide a wire with high wear resistance and which allows relatively large maintenance intervals.
- Another object of the invention is to provide cheap tubular supports for the diamond beads of a cutting wire cost.
- Another object of the invention is to provide a wire whose diamond beads keep unaltered their original reciprocal distances for long periods, thus dramatically reducing any movement thereof along the rope.
- Another object of the invention is to provide a method for manufacturing the tubular supports for the diamond beads of a cutting wire that is economically advantageous.
- a further object of the invention is to obtain a method for manufacturing the tubular supports for the diamond beads of a cutting wire that is relatively simple to implement and allows providing wires with high levels of quality construction.
- a further particular object is to provide a wire which has reduced localized wear.
- an apparatus for manufacturing tubular supports for the diamond beads of a cutting wire according to claim 17 may be provided.
- a tubular support for the diamond beads of a cutting wire according to claim 31 may be provided.
- a cutting wire may be provided according to claim 34.
- a machine for cutting slabs of blocks of stone material according to claim 35 may be provided.
- a method for manufacturing a cutting wire according to claim 36 may be provided.
- FIG. 1 is a side view of some details of a wire 1
- FIG. 2 is a sectional and enlarged view of some details of FIG.l;
- FIG. 3 is an enlarged schematic view of a first example of laminar metallic element 6 obtained in an intermediate step of the manufacturing process
- FIG. 4 is a schematic and enlarged view of a second example of laminar metallic element 6 obtained in an intermediate step of the manufacturing process
- FIG. 5 is a schematic view of a machine 14 for cutting blocks of stone material B that includes the wire 1;
- FIG. 6 is a partially sectioned and enlarged view of some details of FIG.5;
- FIG. 7 is a schematic view of an embodiment of manufacturing process of the supports 4 starting from a metal foil 13;
- FIGs. 8, 9 and 10 are schematic views of some embodiments of the supports 4. Detailed description of some preferrred embodiments
- a method and an apparatus are described for manufactuing tubular supports 4 susceptible to support the respective diamond cutting members 3 to obtain diamond beads 5 which are to be coupled to a flexible support structure 2 for manufacturing a wire 1 for cutting blocks B of stone material, such as stone, marble, granite, concrete and the like.
- the wire 1 can be manufactured by a method which comprises a first step 1) of providing a flexible support structure 2, which may be, by way of non-limiting example, a cable or a rope in metallic material, e.g. steel.
- a second step 2) of providing a plurality of diamond beads 5 may further be provided, each diamond beads 5 comprising in a per se manner a tubular support 4 and a diamond cutting member 3.
- Each cutting member 3 is susceptible to interact with the stone material to cut it.
- Each tubular support 4 may be susceptible to support a corresponding diamond cutting member 3 and to be interposed between the latter and the flexible support structure 2.
- the diamond cutting members 3 may be obtained in different ways, for example by sintering, and may include at least a part of its content derived from diamond or like material.
- each diamond cutting member 3 may be put externally to a corresponding tubular support 4, so as to obtain the diamond beads 5.
- the manufacturing method of the wire 1 may for example include a collection step of the diamond beads 5 already assembled from a storage site.
- the manufacturing method of the wire 1 may then include a subsequent step 3) of inserting the diamond beads 5 on the flexible support structure 2.
- the diamond beads 5 may be positioned at predetermined mutual distances. By suitably choosing the distances between the diamond beads 5, portions 8 of the flexible support structure 2 free from the latter diamond beads 5 may be provided, i.e. portions of the of the flexible support structure 2 not occupied by diamond beads 5.
- a further step 4) may then be provided of manufacturing spacer elements 9 in thermoplastic polymeric material around the flexible support structure 2, for example by injection molding of polyurethane. More in detail, the spacer elements 9 may be injection molded externally to the flexible support structure 2 in correspondence of its free portions 8. In this manner, the spacer elements 9 interpose between the diamond beads 5 to mutually block them. In this step, the polymeric material interposes, inter alia, between the flexible support structure 2 and the tubular support 4.
- the step 4) of manufacturing the spacer elements 9 may also include the molding of a layer 9' of polymeric material also externally to the diamond beads 5 already positioned on the support structure flexible.
- each of the tubular supports 4 may be manufactured by the sequence of steps described below.
- a first step i) may include the provision of a metal foil 13, which may be substantially flat and may have a generally rectangular elongated shape along a longitudinal axis X.
- the metal foil 13 may have a pair of edges 7, 7' on opposite sides with respect to the longitudinal axis X.
- the term "providing” and derivatives thereof designates the preparation of a relevant component for a relevant process step, including any preventive treatment designed for optimal performance of such relevant step, from simple collection and possible storage to thermal and/or chemical and/or physical pre-treatments or the like.
- the step i) of providing the metal foil 13 may include the unwinding thereof from a reel 60 on which it is wound.
- the step i) of providing the metal foil 13 may further comprise a step i") of grinding the edges
- suitable grinding means 57 for example a pair of grinding cylinders or discs or a pair of grinding tools.
- the edges 7, 7' became mutually complementary shaped, for example a substantially rectilinear or any curvilinear form, provided that the edges 7, 7' are complementary shaped.
- step i" of grinding the edges 7, 7' takes place subsequently to the unwinding of the metal foil 13 from the reel 60 on which it is wound, it is understood that the grinding step, if any, may be done at any time of the process, provided that it is accomplished before the joining step of the edges 7, 7', without departing from the scope of protection defined by the appended claims.
- the step i) of providing the metal foil 13 may also comprises a step i') of providing on its operative face 10 with a plurality of grooves or recesses 11 by suitable means 53 for manufacturing thereof.
- the manufacturing means 53 of the grooves and/or recesses 11 on the operative face 10 may include a knurling device so as to obtain a knurl thereon.
- grooves or derivaties thereof means an elongated aperture, of any size.
- the term "recesses” or derivative thereof means a recessed or empty portion of the relevant surface, of any shape or size, provided they it has is not an elongated shape.
- FIG. 8 shows an example of a tubular support 4 manufactured by a metallic foil 13 which includes exclusively grooves 11, in the form of a knurl.
- FIG. 9 shows an example of a tubular support 4 manufactured by means of a metallic foil 13 that includes only recesses 11, in the form of hexagonal openings.
- FIG. 10 shows an example of a tubular support 4 manufactured by means of a metallic foil 13 which includes both recesses and grooves 11.
- the grooves and/or recesses 11 may be manufactured in any manner on the operative face
- operative face 10 may be made by sandblasting of the operative face 10 or by treatment thereof with an acid, so as to roughen the same operative face 10.
- grooves and/or recesses 11 may already be provided on the operative face 10 of the metal foil 13, as for example previously made or otherwise originally present thereon.
- the metal foil 13 upon the next bending step ii) includes the operative face 10 with the grooves and/or recesses 11.
- a second step ii) may take place of bending the metal foil 13 around the axis X up to the reciprocal matching of the complementary shaped edges 7, 7'.
- suitable bending means 54 may be provided, for example a bending machine for metal sheet, represented in FIG. 8 with a dotted line.
- the step ii) may be accomplished by bending the metal foil 13 in correspondence of the operative face 10 provided with grooves and/or recesses 11, so that the latter defines the inner wall 12 of the tubular support 4.
- the grooves and/or recesses 11 may be manufactured on the inner wall 12 of the tubular support 4, so as to define a plurality of receptacles 11' susceptible to house the polymeric material of the spacer elements 9 during the above step 4) of manufacturing thereof, for example by injection molding of polyurethane.
- the receptacles 11' on the inner wall 12 of each tubular support 4 are annular shaped.
- the annular receptacles 11' may be non-parallel to the axis X and mutually apced apart and disconnected so as not to define a helical pattern.
- the grooves 11 may extend along one or more directions inclined with respect to the axis X.
- the grooves 11 may further have direction substantially orthogonal to the axis R, as shown in FIG. 4. In this way, the direction of the grooves 11 does not impart a motion to the tubular support 4 upon the interaction with the flexible support structure 2 during use.
- the direction of the grooves 11 allows to obtain a substantial reduction of the movement of the diamond beads 5 along the flexible support structure 2, giving the wire 1 high resistance to wear and, more in general, greater duration.
- a third stage iii) may take place of permanent joining the complementary shaped edges 7, 7' so as to obtain the tubular support 4.
- the permanent joining step iii) of the com plementary shaped edges 7 may be accom plished by welding or hot or cold pressure bonding.
- suitable means 55 for permanently joining the edges 7, 7' may be provided, which may include for example a welding or bonding device.
- a semifinished metal tube 4' may be obtained, which has substantially the same length of the metal foil 13 and may define an axis X' substantially parallel to the longitudinal axis X thereof.
- a step iii') may be provided of calibration of the diameter of the semifinished metal tube 4'.
- suitable calibration means 59 may be provided, which may include for example a drawing device.
- a fourth step iv) may take place ofcutting of the sem ifinished metal tube 4' 'in order to obtain the tubular supports 4.
- suitable cutting means 61 may be provided, for example a disc or water cutting device.
- a step iv') may take place of finishing the tubular elements 4.
- suitable finishing means 62 may be provided, which may include for example a deburring device.
- each metal foil 13 on the reel 60 all the above steps may take place continuously.
- the step i) of providing the metallic foil 13, the step ii) of bending thereof and the step iii) of permanent joining the edges 7, 7' may advantageously take place sequentially in continuous.
- the step iv) of cutting the semifinished metal tube 4' to obtain the tubular supports 4 may be accomplished in continuous after the step iii) of permanent joining of the edges 7, 7'.
- suitable means for continuously feeding the metal foil 13 on the reel 60 from the inlet 51 of the folding means 54 to the inlet of the cutting means 61 may be provided, via the possible grinding means 57, the possible grooves and/or recesses 11 manufacturing means 53, the possible calibration means 59 and/or the possible finishing means 62.
- continuous feeding means may include conveyor belts and/or rollers, motorized or driven.
- Carrier means of the metallic foil 13 through the various stations of the apparatus may further be provided.
- the step i) of providing the metallic foil 13, the bending step ii) thereof and the step iii) of permanently joining the edges 7, 7' may take place sequentially in continuous.
- the semifinished metal tube 4' at the outlet of the permanent joining means 55 may be wound on a special reel and stored for the next cutting step iv) thereof, which may for example take place in another section of the apparatus or in another apparatus separate from the one in which the first three steps have been accomplished or in the same apparatus but the next day.
- the length of the starting metal foil 13 is greatly higher than that of the tubular supports 4, for example in a ratio 100:1 or more.
- the term "length greatly higher" and derivatives thereof means a ratio between the lengths of at least 30:1.
- the production process of the finished tubular support 4 may be accomplished in a substantially continuous manner, with apparent advantages when compared to the production processes of the prior art.
- the wire 1 may comprise a flexible support structure 2 defining an axis L and a plurality of diamond beads 5 inserted on the flexible support structure 2.
- Each diamond bead 5 may include a tubular support 4 and a cutting member 3 in diamond material externally coupled to the tubular support 4 and susceptible to interact with the stone material to cut it.
- Each tubular support 4 may have a pair of edges 7, 7' with a mutual complementary shape joined by a permanent joining, for example a weld or a bonding bead, and may have an inner wall 12 with the above described receptacles 11'.
- the diamond beads 5 may be positioned on the flexible support structure 2 at predetermined mutual distances.
- the wire 1 may further comprise a plurality of spacer elements 9 in thermoplastic polymeric material, for example polyurethane, injection-molded between the diamond beads 5 to mutually block them.
- a machine 14 for cutting blocks of stone material B may comprise a frame 15, preferably of the portal-like type, at least one wire 1 for the cutting of the blocks B and at least one pair of devices 16 mounted on the frame 15 for supporting and moving the wire 1, for example drums and/or pulleys.
- the wire 1 may be obtained by the above described method and/or apparatus.
- the machine 14 may have a plurality of wires 1 mounted on respective supporting and moving devices 16 so as to be substantially parallel to each other, thus allowing the cut into slabs of the blocks B of stone material.
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- Mining & Mineral Resources (AREA)
- Mechanical Engineering (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
Abstract
A method for manufacturing tubular supports (4) designed to support respective diamond cutting members (3) to obtain diamond beads (5) coupled to a flexible support structure (2) for manufacturing a wire (1) for cutting slabs from blocks of stone material. The method comprises the following steps: providing at least one metallic laminar element (6) defining a longitudinal axis (R) that includes a pair of edges (7) at opposite sides with respect to the axis (R); bending the at least one metallic laminar element (6) around the axis (R) up to the reciprocal matching of said edges (7); permanently joining the edges (7); obtaining the tubular support (4). Upon the bending step the at least one laminar metallic element (6) includes at least one operative face (10) having a plurality of grooves and/or recesses (11) spaced apart each other susceptible to define the inner wall (12) of the tubular support (4). The grooves and/or recesses (11) are made so as to define a plurality of receptacles (11') susceptible to house the polymeric material of the spacer elements (9) upon manufacturing the cutting wire (1).
Description
TRANSLATION (RULE 12.3)
APPARATUS AND METHOD FOR MANUFACTURING TUBULAR SUPPORTS OF DIAMOND BEADS OF A CUTTING WIRE USABLE FOR CUTTING STONE MATERIAL, AND CUTTING WIRE OBTAINED BY SAID APPARATUS AND METHOD
5 Field of invention
The present invention is generally applicable to the technical field of the working of stone materials, and particularly relates to a method for manufacturing tubular supports for the diamond beads of a wire for cutting blocks of stone material, such as stone, marble, cement, granite and the like.
10 The invention also relates to a tubular support obtainable by this method.
The invention also relates to an apparatus for manufacturing such tubular supports.
The invention also relates to a method for manufacturing the cutting wires that include such tubular supports.
The invention also relates to a cutting wire that includes such tubular supports, as well as a
15 machine for cutting stone material comprising such a wire.
Background of the invention
Several wires are known for cutting blocks of stone material, such as stone, marble, concrete and the like. These wires are generally wound on drums or pulleys, which are rotatably moved to transfer a tangential motion to the wire and promote its penetration into the stone material to be 20 cut.
For example, cutting wires for stone material are known from JP9239721, DE3805405, JP3281118 and EP0718414.
In particular, WO02/04160 describes a wire rope comprising a support on which are fixed a plurality of beads and a plurality of spacer elements in plastic material interposed between the beads 25 to keep them appropriately spaced apart each other. Each bead has a hollow cylinder fixed to the
supporting rope and a peripheral annular member in diamond material for cutting the stone material.
Moreover, WO2012/052952 describes a wire for cutting stone material comprising a support rope having a plurality of diamond beads susceptible to interact with the stone material to cut it.
30 Each diamond bead comprises a metal tubular support externally to which an outer annualr member
made of metal alloy and diamond powder is mounted. During construction of the wire, each part of the support rope free from the diamond beads is coated by at least one spacer element of polymeric material applied by hot injection molding, having the purpose to keep unaltered the mutual distance between the diamond beads.
Both the above known embodiments comprise a plurality of spacer elements in polymeric material, having the purpose of keeping unaltered the original position of the diamond beads. To increase the effectiveness of the spacer elements it is useful that during the molding step the polymeric material penetrates between the support rope and the diamond bead.
In order to increase the penetration of the polymeric material, the metal tubular support, which according to the prior art is generally made from a metal bar suitably cut to the desired lenght, is internally threaded. The grooves of the thread, lying on the inner wall of the metal tubular support, increase the penetration of the polymeric material between the rope and the tubular support.
An apparent drawback of these known solutions is the fact that the thread is to be made on each tubular support only after the cutting thereof from the metal bar. The manufacturing process of the finished tubular support, which apparently must be carried out in a discontinuous manner, is therefore long and economically disadvantageous.
Due to the stresses during the cutting, the internal thread of the tubular support of each diamond bead further promotes a spiral motion of the bead along the rope. This spiral motion causes an undesired shift of each bead, with consequent loss of the original distances between the beads and the reduction of the effectiveness and cutting uniformity of the wire. Therefore, the internal thread imparts to the bead a motion along the rope.
A further drawback of the known solutions is the fact that the spiral motion of the beads cause localized and premature wear, reducing the overall duration of the cutting wire.
Summary of the invention
An object of the present invention is to overcome at least partly the above mentioned drawbacks, by providing a method for manufacturing tubular supports for the diamond beads of a cutting wire of highly efficiencient and relatively cost-effective.
Another object of the invention is to provide a wire with high wear resistance and which allows relatively large maintenance intervals.
Another object of the invention is to provide cheap tubular supports for the diamond beads of a cutting wire cost.
Another object of the invention is to provide a wire whose diamond beads keep unaltered their original reciprocal distances for long periods, thus dramatically reducing any movement thereof along the rope.
Another object of the invention is to provide a method for manufacturing the tubular supports for the diamond beads of a cutting wire that is economically advantageous.
A further object of the invention is to obtain a method for manufacturing the tubular supports for the diamond beads of a cutting wire that is relatively simple to implement and allows
providing wires with high levels of quality construction.
A further particular object is to provide a wire which has reduced localized wear.
These objects, as well as others that will appear more clearly hereinafter, are achieved by a method for manufacturing tubular supports for the diamond beads of a cutting wire according to claim 1.
In a further aspect, an apparatus for manufacturing tubular supports for the diamond beads of a cutting wire according to claim 17 may be provided.
In a further aspect, a tubular support for the diamond beads of a cutting wire according to claim 31 may be provided.
In a further aspect, a cutting wire may be provided according to claim 34.
In a further aspect, a machine for cutting slabs of blocks of stone material according to claim 35 may be provided.
In a further aspect, a method for manufacturing a cutting wire according to claim 36 may be provided.
Advantageous embodiments of the invention are defined in accordance with the dependent claims.
Brief description of the drawings
Further features and advantages of the invention will appear more evident upon reading the detailed description of some preferred, non-exclusive embodiments of a method and/or an apparatus according to the invention and of some preferred embodiments of a wire and of a machine according to the invention, which are described as non-limiting examples with the help of the annexed drawings, in which:
FIG. 1 is a side view of some details of a wire 1;
FIG. 2 is a sectional and enlarged view of some details of FIG.l;
FIG. 3 is an enlarged schematic view of a first example of laminar metallic element 6 obtained in an intermediate step of the manufacturing process;
FIG. 4 is a schematic and enlarged view of a second example of laminar metallic element 6 obtained in an intermediate step of the manufacturing process;
FIG. 5 is a schematic view of a machine 14 for cutting blocks of stone material B that includes the wire 1;
FIG. 6 is a partially sectioned and enlarged view of some details of FIG.5;
FIG. 7 is a schematic view of an embodiment of manufacturing process of the supports 4 starting from a metal foil 13;
FIGs. 8, 9 and 10 are schematic views of some embodiments of the supports 4.
Detailed description of some preferrred embodiments
With reference to the above figures, a method and an apparatus are described for manufactuing tubular supports 4 susceptible to support the respective diamond cutting members 3 to obtain diamond beads 5 which are to be coupled to a flexible support structure 2 for manufacturing a wire 1 for cutting blocks B of stone material, such as stone, marble, granite, concrete and the like.
In a per se known manner, the wire 1 can be manufactured by a method which comprises a first step 1) of providing a flexible support structure 2, which may be, by way of non-limiting example, a cable or a rope in metallic material, e.g. steel.
A second step 2) of providing a plurality of diamond beads 5 may further be provided, each diamond beads 5 comprising in a per se manner a tubular support 4 and a diamond cutting member 3.
Each cutting member 3 is susceptible to interact with the stone material to cut it.
Each tubular support 4 may be susceptible to support a corresponding diamond cutting member 3 and to be interposed between the latter and the flexible support structure 2. The diamond cutting members 3 may be obtained in different ways, for example by sintering, and may include at least a part of its content derived from diamond or like material.
In a per se known manner, each diamond cutting member 3 may be put externally to a corresponding tubular support 4, so as to obtain the diamond beads 5.
It is understood that for the purpose of manufacturing the wire 1 diamond beads 5 already assembled may be used without departing from the scope of protection defined by the appended claims. In this case, the manufacturing method of the wire 1 may for example include a collection step of the diamond beads 5 already assembled from a storage site.
The manufacturing method of the wire 1 may then include a subsequent step 3) of inserting the diamond beads 5 on the flexible support structure 2.
In particular, the diamond beads 5 may be positioned at predetermined mutual distances. By suitably choosing the distances between the diamond beads 5, portions 8 of the flexible support structure 2 free from the latter diamond beads 5 may be provided, i.e. portions of the of the flexible support structure 2 not occupied by diamond beads 5.
A further step 4) may then be provided of manufacturing spacer elements 9 in thermoplastic polymeric material around the flexible support structure 2, for example by injection molding of polyurethane. More in detail, the spacer elements 9 may be injection molded externally to the flexible support structure 2 in correspondence of its free portions 8. In this manner, the spacer elements 9 interpose between the diamond beads 5 to mutually block them. In this step, the
polymeric material interposes, inter alia, between the flexible support structure 2 and the tubular support 4.
Advantageously, the step 4) of manufacturing the spacer elements 9 may also include the molding of a layer 9' of polymeric material also externally to the diamond beads 5 already positioned on the support structure flexible.
Suitably, each of the tubular supports 4 may be manufactured by the sequence of steps described below.
A first step i) may include the provision of a metal foil 13, which may be substantially flat and may have a generally rectangular elongated shape along a longitudinal axis X. The metal foil 13 may have a pair of edges 7, 7' on opposite sides with respect to the longitudinal axis X.
It is understood that, although in this description a single foil 13 is mentioned, more metal foils may be provided, for example arranged in series or in parallel, without departing from the scope of protection defined by the appended claims.
As used herein, the term "providing" and derivatives thereof designates the preparation of a relevant component for a relevant process step, including any preventive treatment designed for optimal performance of such relevant step, from simple collection and possible storage to thermal and/or chemical and/or physical pre-treatments or the like.
The step i) of providing the metal foil 13 may include the unwinding thereof from a reel 60 on which it is wound.
The step i) of providing the metal foil 13 may further comprise a step i") of grinding the edges
7, 7' by suitable grinding means 57, for example a pair of grinding cylinders or discs or a pair of grinding tools. This way, the edges 7, 7' became mutually complementary shaped, for example a substantially rectilinear or any curvilinear form, provided that the edges 7, 7' are complementary shaped.
Although in the present description it is assumed that the step i") of grinding the edges 7, 7' takes place subsequently to the unwinding of the metal foil 13 from the reel 60 on which it is wound, it is understood that the grinding step, if any, may be done at any time of the process, provided that it is accomplished before the joining step of the edges 7, 7', without departing from the scope of protection defined by the appended claims.
Suitably, the step i) of providing the metal foil 13 may also comprises a step i') of providing on its operative face 10 with a plurality of grooves or recesses 11 by suitable means 53 for manufacturing thereof. For example, the manufacturing means 53 of the grooves and/or recesses 11 on the operative face 10 may include a knurling device so as to obtain a knurl thereon.
As used herein, the term "grooves" or derivaties thereof means an elongated aperture, of
any size.
As used herein, the term "recesses" or derivative thereof means a recessed or empty portion of the relevant surface, of any shape or size, provided they it has is not an elongated shape.
FIG. 8 shows an example of a tubular support 4 manufactured by a metallic foil 13 which includes exclusively grooves 11, in the form of a knurl.
In FIG. 9 shows an example of a tubular support 4 manufactured by means of a metallic foil 13 that includes only recesses 11, in the form of hexagonal openings.
FIG. 10 shows an example of a tubular support 4 manufactured by means of a metallic foil 13 which includes both recesses and grooves 11.
The grooves and/or recesses 11 may be manufactured in any manner on the operative face
10. For example, they may be made by sandblasting of the operative face 10 or by treatment thereof with an acid, so as to roughen the same operative face 10.
Alternatively, the grooves and/or recesses 11 may already be provided on the operative face 10 of the metal foil 13, as for example previously made or otherwise originally present thereon.
In any case, upon the next bending step ii) the metal foil 13 includes the operative face 10 with the grooves and/or recesses 11.
Subsequently to the first step i), a second step ii) may take place of bending the metal foil 13 around the axis X up to the reciprocal matching of the complementary shaped edges 7, 7'.
To this end, suitable bending means 54 may be provided, for example a bending machine for metal sheet, represented in FIG. 8 with a dotted line.
Advantageously, the step ii) may be accomplished by bending the metal foil 13 in correspondence of the operative face 10 provided with grooves and/or recesses 11, so that the latter defines the inner wall 12 of the tubular support 4.
This way, the grooves and/or recesses 11 may be manufactured on the inner wall 12 of the tubular support 4, so as to define a plurality of receptacles 11' susceptible to house the polymeric material of the spacer elements 9 during the above step 4) of manufacturing thereof, for example by injection molding of polyurethane.
If the operative face 10 includes only grooves 11, the receptacles 11' on the inner wall 12 of each tubular support 4 are annular shaped.
In this case, in order to prevent the diamond beads 5 to advance along the flexible support structure 2 upon the interaction thereof with the block B to be cut, the annular receptacles 11' may be non-parallel to the axis X and mutually apced apart and disconnected so as not to define a helical pattern.
In particular, the grooves 11 may extend along one or more directions inclined with respect
to the axis X.
Suitably, the grooves 11 may further have direction substantially orthogonal to the axis R, as shown in FIG. 4. In this way, the direction of the grooves 11 does not impart a motion to the tubular support 4 upon the interaction with the flexible support structure 2 during use.
Therefore, the direction of the grooves 11 allows to obtain a substantial reduction of the movement of the diamond beads 5 along the flexible support structure 2, giving the wire 1 high resistance to wear and, more in general, greater duration.
Subsequently to the bending step ii), a third stage iii) may take place of permanent joining the complementary shaped edges 7, 7' so as to obtain the tubular support 4.
Suitably, the permanent joining step iii) of the com plementary shaped edges 7 may be accom plished by welding or hot or cold pressure bonding.
For this purpose, suitable means 55 for permanently joining the edges 7, 7' may be provided, which may include for example a welding or bonding device.
This way, a semifinished metal tube 4' may be obtained, which has substantially the same length of the metal foil 13 and may define an axis X' substantially parallel to the longitudinal axis X thereof.
Suitably, to correct any deformation due to the permanent joining step iii), a step iii') may be provided of calibration of the diameter of the semifinished metal tube 4'. For this purpose, suitable calibration means 59 may be provided, which may include for example a drawing device.
Subsequently to the permanent joining step iii) a fourth step iv) may take place ofcutting of the sem ifinished metal tube 4' 'in order to obtain the tubular supports 4. For this purpose, suitable cutting means 61 may be provided, for example a disc or water cutting device.
Suitably, subsequently to the step iv) a step iv') may take place of finishing the tubular elements 4. To this end, suitable finishing means 62 may be provided, which may include for example a deburring device.
In a preferred but not exclusive embodiment, for each metal foil 13 on the reel 60 all the above steps may take place continuously.
In particular, the step i) of providing the metallic foil 13, the step ii) of bending thereof and the step iii) of permanent joining the edges 7, 7' may advantageously take place sequentially in continuous.
Suitably, also the step iv) of cutting the semifinished metal tube 4' to obtain the tubular supports 4 may be accomplished in continuous after the step iii) of permanent joining of the edges 7, 7'.
For this purpose, suitable means for continuously feeding the metal foil 13 on the reel 60
from the inlet 51 of the folding means 54 to the inlet of the cutting means 61 may be provided, via the possible grinding means 57, the possible grooves and/or recesses 11 manufacturing means 53, the possible calibration means 59 and/or the possible finishing means 62.
These continuous feeding means, not represented in the figures because per se known, may include conveyor belts and/or rollers, motorized or driven. Carrier means of the metallic foil 13 through the various stations of the apparatus may further be provided.
The process may further be inherently continuous without departing from the scope of protection defined by the appended claims. In other words, only some steps may be accomplished sequentially in continuous, while others may be made singularly.
For example, the step i) of providing the metallic foil 13, the bending step ii) thereof and the step iii) of permanently joining the edges 7, 7' may take place sequentially in continuous. In this case, the semifinished metal tube 4' at the outlet of the permanent joining means 55 may be wound on a special reel and stored for the next cutting step iv) thereof, which may for example take place in another section of the apparatus or in another apparatus separate from the one in which the first three steps have been accomplished or in the same apparatus but the next day.
It is apparent that in any case the length of the starting metal foil 13 is greatly higher than that of the tubular supports 4, for example in a ratio 100:1 or more.
As used herein, the term "length greatly higher" and derivatives thereof means a ratio between the lengths of at least 30:1.
Thanks to the above features, it will be possible to minimize the time and cost of production of the tubular supports 4.
In fact, the production process of the finished tubular support 4 may be accomplished in a substantially continuous manner, with apparent advantages when compared to the production processes of the prior art.
Thereafter, a wire 1 for cutting blocks B of stone material is described, which may preferably be manufactured by the above method. The wire 1 may comprise a flexible support structure 2 defining an axis L and a plurality of diamond beads 5 inserted on the flexible support structure 2.
Each diamond bead 5 may include a tubular support 4 and a cutting member 3 in diamond material externally coupled to the tubular support 4 and susceptible to interact with the stone material to cut it.
Each tubular support 4 may have a pair of edges 7, 7' with a mutual complementary shape joined by a permanent joining, for example a weld or a bonding bead, and may have an inner wall 12 with the above described receptacles 11'.
The diamond beads 5 may be positioned on the flexible support structure 2 at
predetermined mutual distances. The wire 1 may further comprise a plurality of spacer elements 9 in thermoplastic polymeric material, for example polyurethane, injection-molded between the diamond beads 5 to mutually block them.
As shown in FIG. 5, a machine 14 for cutting blocks of stone material B may comprise a frame 15, preferably of the portal-like type, at least one wire 1 for the cutting of the blocks B and at least one pair of devices 16 mounted on the frame 15 for supporting and moving the wire 1, for example drums and/or pulleys.
The wire 1 may be obtained by the above described method and/or apparatus. The machine 14 may have a plurality of wires 1 mounted on respective supporting and moving devices 16 so as to be substantially parallel to each other, thus allowing the cut into slabs of the blocks B of stone material.
From the above description, it is apparent that the invention fulfils the intended objects. The invention is susceptible to many changes and variants. All particulars may be replaced by other technically equivalent elements, and the materials may be different according to the needs, without exceeding the scope of the invention defined by the appended claims.
Claims
1. A method for manufacturing tubular supports (4) susceptible to support respective diamond cutting members (3) to manufacture diamond beads (5) to be coupled to a flexible support structure (2) for manufacturing a cutting wire (1) for cutting slabs from blocks of stone material, the wire (1) being further susceptible to include spacer elements (9) of polymeric material susceptible to be interposed between the flexible support structure (2) and the diamond beads (5) for reciprocally blocking thereof, the method comprising in sequence the following steps:
i) providing at least one metal foil (13) defining a longitudinal axis (X), said at least one metal foil (13) including a couple of edges (7, 7') at opposite sides with respect to said axis (X); ii) bending said at least one metal foil (13) around said axis (X) up to the reciprocal matching of said edges (7, 7');
iii) permanently joining said edges (7, 7') to obtain a semifinished metal tube (4');
iv) cutting said semifinished metal tube (4') to obtain the tubular supports (4);
wherein said at least one metal foil (13) includes at least one operative face (10) having a plurality of grooves and/or recesses (11) spaced apart each other upon said bending step ii), said bending step ii) being accomplished in such a manner that said operative face (10) provided with said grooves and/or recesses (11) defines the inner wall (12) of the tubular support (4);
wherein said grooves and/or recesses (11) are made in such a manner to define a plurality of receptacles (11') susceptible to house the polymeric material of the spacer elements (9) upon the manufacturing of the cutting wire (1).
2. Method according to the preceding claim, wherein said step i) of providing said at least one metal foil (13) comprises a step i') of manufacturing on said operative face (10) said grooves and/or recesses (11).
3. Method according to the preceding claim, wherein said step i') of manufacturing of said grooves and/or recesses (11) is accomplished by knurling to obtain a knurl on said operative face
(10).
4. Method according to any one of the preceding claims, wherein said step i) of providing said metal foil (13) includes a step of unwinding thereof from a reel (60) on which it is wound.
5. Method according to any one of the preceding claims, wherein the length of said at least one metal foil (13) is gratly higher than that of said tubular support (4) made upon the cut step iv) of said semifinished metal tube (4').
6. Method according to any one of the preceding claims, wherein said edges (7, 7') of said at least one metal foil (13) have a complementary shape upon said permanently joining step iii).
7. Method according to the preceding claim, wherein said step i) of providing said metal
foil (13) includes a step i") of grinding the edges (7, 7') thereof to obtain the complementary shape of the same edges (7, 7').
8. Method according to any one of the preceding claims, wherein said joining step iii) is accomplished by welding or bonding said edges (7, 7').
9. Method according to any one of the preceding claims, further comprising a step iii') of calibrating the diameter of said semifinished metal tube (4') before the cutting step iv) thereof.
10. Method according to any one of the preceding claims, further comprising a step iv') of finishing said tubular supports (4).
11. Method according to any one of the preceding claims, wherein said receptacles (11') have an annular shape.
12. Method according to the preceding claim, wherein said receptacles (11') are not parallel to said axis (X) and are mutually separate and disconnected so as not to define a helical pattern, in such a manner to prevent the diamond beads (5) advancing along the flexible support structure (2) upon the interaction thereof with the block to be cut.
13. Method according to claim 11 or 12, wherein said grooves (11) define respective directions inclined with respect to said axis (X).
14. Method according to the preceding claim, wherein said inclined directions are substantially orthogonal to said axis (X), so that said annular receptacles (11') have a substantially circumferential shape.
15. Method according to any one of the preceding claims, wherein said step i) of providing said metal foil (13), said step ii) of bending thereof and said step iii) of permanently joining the edges (7, 7') of the at least one metal foil (13) to obtain said semifinished metal tube (4') occur sequentially in continuous.
16. Method according to the preceding claim, wherein said step iv) of cutting of said semifinished metal tube (4') to obtain the tubular supports (4) is performed continuously after said step iii) of permanently joining the edges (7, 7') of the at least one metal foil (13).
17. An apparatus for manufacturing tubular supports (4) susceptible to support respective outer diamond cutting members (3) to manufacture diamond beads (5) to be coupled to a flexible support structure (2) for manufacturing a cutting wire (1) for cutting slabs from blocks of stone material, the wire (1) being further susceptible to include spacer elements (9) of polymeric material susceptible to be interposed between the flexible support structure (2) and the diamond beads (5) for reciprocally blocking thereof, the apparatus comprising in sequence:
- an inlet (51) for at least one metal foil (13) defining a longitudinal axis (X), said at least one metal foil (13) including a couple of edges (7) at opposite sides with respect to said axis
(X);
- means (54) for bending said at least one metal foil (13) around said axis (X) up to the reciprocal matching of said edges (7);
- means (55) for permanently joining said edges (7), in such a manner to obtain a semifinished metal tube (4');
- means (61) for cutting said semifinished metal tube (4') so as to obtain the tubular supports (4);
- an outlet (56) for the metallic supports (4);
wherein said at least one metal foil (13) includes at least one operative face (10) having a plurality of grooves and/or recesses (11) spaced apart each other upon entering said bending means (54), said bending means (54) being configured in such a manner that said operative face (10) provided with said grooves and/or recesses (11) defines the inner wall (12) of the tubular support (4);
18. Apparatus according to the preceding claim, further comprising means (53) for manufacturing said grooves and/or recesses (11) on said operative face (10) of said at least one metal foil (13).
19. Apparatus according to the preceding claim, wherein said means (53) for manufacturing said grooves and/or recesses (11) include a knurling device to obtain a knurl on said operative face (10).
20. Apparatus according to claim 17, 18 or 19, further comprising means for continuous feeding said metallic foil (13) from said inlet (51) to said permanent joining means (55).
21. Apparatus according to any one of claims 17 to 20, wherein the length of said metal foil (13) is gratly higher than that of said tubular support (4).
22. Apparatus according to any one of claims 17 to 21, wherein said edges (7) of said at least one metal foil (13) have a complementary shape upon entering said permanent joining means (55).
23. Apparatus according to the preceding claim, further comprising means (57) for grinding of the edges (7) of said at least one metal foil (13) to obtain the complementary shape thereof.
24. Apparatus according to any one of claims 17 to 23, wherein said permanent joining means (55) include a welding device or a bonding device of said edges (7).
25. Apparatus according to any one of claims 17 to 24, further comprising means (59) for calibrating the diameter of said semifinished metal tube (4') upwards said cutting means (61).
26. Apparatus according to any one of claims 17 to 25, further comprising means (62) for finishing said tubular elements (4).
27. Apparatus according to any one of claims 17 to 26, wherein said receptacles (11') have an annular shape.
28. Apparatus according to the preceding claim, wherein said receptacles (11') are not parallel to said axis (X) and are mutually separate and disconnected so as not to define a helical pattern, in such a manner to prevent the diamond beads (5) advancing along the flexible support structure (2) upon the interaction thereof with the block to be cut.
29. Apparatus according to claim 27 or 28, wherein said grooves (11) define respective directions inclined with respect to said axis (X).
30. Apparatus according to the preceding claim, wherein said inclined directions are substantially orthogonal to said axis (X), so that said annular receptacles (11') have a substantially circumferential shape.
31. A tubular support (4) obtainable by the method according to one or more of claims 1 to
16 or by the apparatus according to one or more of claims 17 to 30, the tubular support (4) being susceptible to support respective diamond cutting members (3) to manufacture diamond beads (5) to be coupled to a flexible support structure (2) for manufacturing a cutting wire (1) for cutting slabs from blocks of stone material, the wire (1) being further susceptible to include spacer elements (9) of polymeric material susceptible to be interposed between the flexible support structure (2) and the diamond beads (5) for reciprocally blocking thereof, the tubular support (4) including a pair of edges (7) permanently joined each other, the tubular support (4) including on its inner wall (12) a plurality of receptacles (11') susceptible to house the polymeric material of the spacer elements (9), wherein the tubular support (4) comprises a welding or gluing bead in correspondence of the joining of said edges (7).
32. Tubular support according to the preceding claim, wherein said annular receptacles (11') are not parallel to said axis (X) and are mutually separate and mutually disconnected so as not to define a helical pattern, in such a manner to prevent the diamond beads (5) to advance along the flexible support structure (2) upon the interaction thereof with the block to be cut.
33. Tubular support according to claim 31 or 32, wherein said annular receptacles (11') have a substantially circumferential shape.
34. A cutting wire for cutting blocks (B) of stone materials, comprising:
a) a flexible supporting structure (2);
b) a plurality of diamond beads (5) mounted on said flexible supporting structure (2), each of said diamond beads (5) including a tubular support (4) and a outer diamond cutting member (3) peripherally coupled to said tubular support (4) and susceptible to interact with the stone material to be cut;
c) a plurality of spacer elements (9) of polymeric material interposed between the flexible support structure (2) and the diamond beads (5) for reciprocally blocking thereof;
wherein each of said tubular supports (4) is the tubular support according to any one of the claims 31 to 33.
35. A machine for cutting slabs from blocks of stone material, comprising a frame (15), at least one cutting wire (1) and at least one pair of devices (16) mounted on said frame (15) for supporting and moving said at least one cutting wire (1), wherein said at least one cutting wire (1) is a cutting wire according to the preceding claim.
36. A method for manufacturing a cutting wire for cutting slabs from blocks of stone material according to claim 34, the method comprising the following steps:
1) providing a flexible support structure (2);
2) providing a plurality of diamond beads (5) each comprising a tubular support (4) and a diamond cutting member (3) coupled externally to said tubular support (4) and susceptible to interact with the stone material for cutting thereof;
3) insertion of said diamond beads (5) on said flexible support structure (2);
4) making a plurality of spacing elements (9) made of polymeric material interposed between the flexible support structure (2) and said diamond beads (5) for blocking each other; wherein each of said tubular supports (4) is the tubular support according to any one of claims 31 to 33.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
IT000174A ITVI20120174A1 (en) | 2012-07-17 | 2012-07-17 | REALIZATION OF TUBULAR SUPPORTS FOR DIAMOND PEARLS OF A CUTTING WIRE FOR STONE MATERIAL |
PCT/IB2013/055878 WO2014013450A1 (en) | 2012-07-17 | 2013-07-17 | Apparatus and method for manufacturing tubular supports of diamond beads of a cutting wire usable for cutting stone material, and cutting wire obtained by said apparatus and method |
Publications (1)
Publication Number | Publication Date |
---|---|
EP2768644A1 true EP2768644A1 (en) | 2014-08-27 |
Family
ID=46800317
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP13767097.2A Withdrawn EP2768644A1 (en) | 2012-07-17 | 2013-07-17 | Apparatus and method for manufacturing tubular supports of diamond beads of a cutting wire usable for cutting stone material, and cutting wire obtained by said apparatus and method |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP2768644A1 (en) |
IT (1) | ITVI20120174A1 (en) |
WO (1) | WO2014013450A1 (en) |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
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ITVI20130192A1 (en) | 2013-07-29 | 2015-01-30 | Ilario Bidese | METHOD FOR THE REALIZATION OF TUBULAR SUPPORTS FOR DIAMOND PEARLS OF A CUTTING WIRE FOR STONE MATERIAL |
DE102015109432B3 (en) | 2015-06-12 | 2016-12-08 | Universität Kassel | Cutting bead for a sawing wire, sawing wire and method for producing a sawing wire |
ITUB20156805A1 (en) * | 2015-12-10 | 2017-06-10 | Michele Bidese | TUBULAR SUPPORT FOR DIAMOND PEARLS OF A CUTTING WIRE FOR STONE MATERIAL |
WO2022112999A1 (en) * | 2020-11-25 | 2022-06-02 | Carlo Ruaro Investment Srl | Wire saw for cutting stone-like materials and corresponding production method |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011061166A1 (en) * | 2009-11-17 | 2011-05-26 | Nv Bekaert Sa | Sawing rope |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE3805405A1 (en) * | 1987-03-24 | 1988-10-20 | Falkenstein J Masch Verzahnung | Sawing tool |
JPH03281118A (en) * | 1990-03-30 | 1991-12-11 | Mitsubishi Materials Corp | Wire saw |
JP3281118B2 (en) | 1993-05-24 | 2002-05-13 | 堀江金属工業株式会社 | Fluid volume measuring method and fluid volume measuring device |
EP0718414A1 (en) * | 1994-12-19 | 1996-06-26 | Ist Innovations Technologiques De Frittage S.A. | Process for making cutting inserts containing diamond particles, and cutting insert made by said process for cutting or grinding tools |
JPH09239721A (en) * | 1996-03-08 | 1997-09-16 | Disco Abrasive Syst Ltd | Wire saw |
IT1320229B1 (en) | 2000-07-06 | 2003-11-26 | Diasint Italy S R L | DIAMOND WIRE EQUIPPED WITH CUTTING BUSHES PERFECTED FOR THE STONE MATERIAL CUTTING. |
ITVI20100286A1 (en) * | 2010-10-21 | 2012-04-22 | Boart & Wire S R L | CUTTING WIRE FOR STONE MATERIAL, AS WELL AS METHOD OF REALIZATION OF THE SAME AND MULTIPLE MACHINE INCLUDING SUCH WIRE |
-
2012
- 2012-07-17 IT IT000174A patent/ITVI20120174A1/en unknown
-
2013
- 2013-07-17 EP EP13767097.2A patent/EP2768644A1/en not_active Withdrawn
- 2013-07-17 WO PCT/IB2013/055878 patent/WO2014013450A1/en active Application Filing
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011061166A1 (en) * | 2009-11-17 | 2011-05-26 | Nv Bekaert Sa | Sawing rope |
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See also references of WO2014013450A1 * |
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WO2014013450A1 (en) | 2014-01-23 |
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