Method and apparatus for straightening one or more wires
A method for straightening at least one original wire (F0), by means of a travel path (AM), comprises a first bending-curving segment (AC) intended to bend and curve the original wire (F0) in order to obtain downstream (C) of said first bending-curving segment (AC) a flow of bent and curved intermediate wire (F1) having a given radius of curvature, and a second straightening segment (CM) arranged consecutively after said first bending/curving segment (AC) and intended to straighten the said flow of intermediate wire (F1). —An apparatus for implementing said method, comprising a first series of bending/curving rollers (10, 20, 30, 40) and a second series of straightening rollers (50, 60, 70, 80, 90, 100, 110).
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The present invention concerns a method and an apparatus for straightening at least one or more wires which are not straight and, more particularly, for straightening at least one metal wire having a circular cross-section and/or other shape, such as for example a metal wire unwound from a storage reel, said wire being substantially curved and/or contorted (twisted) relative to its longitudinal axis, with a consequent curved and/or helical and/or non-rectilinear progression when arranged in the free state.
The present invention also concerns a method and an apparatus for straightening simultaneously a plurality of wires.
BACKGROUND ARTAt present, the methods for straightening a wire which is not straight comprise unwinding of the wire and therefore substantial longitudinal travel thereof along a travel path in order to apply forces intended to straighten the curvature possessed by the original wire and, more particularly, apply forces intended to act on the extrados of the original arc of curvature so as to straighten it.
At present also, the apparatus for implementing the aforementioned known methods envisage, essentially, a first series of rollers arranged staggered in two parallel rows, i.e. arranged for example with vertical rotation axes, intended to form between said two rows a first path segment for straightening the travelling unwound wire by means of forces acting in a horizontal plane on the extrados of the curves of the wire and, after said first series of rollers, a second series of rollers, arranged staggered in two parallel rows, with horizontal axes of rotation, intended to form between said two rows a second path segment for straightening the travelling wire by means of forces acting in a vertical plane on the extrados of the curves of the wire, said wire being made to travel along said two rectilinear straightening paths by means of driving devices arranged downstream of the said apparatus.
This method and this apparatus have a series of drawbacks.
A first drawback is due to the fact that said method and said apparatus do not manage to straighten metal wire having particular metallurgical/mechanical properties such as, for example, hard drawn wire with a high carbon content, which, owing to the particular form-drawing operation and/or owing to the reeling operation and/or for other reasons, has twists and/or internal curvatures with a consequent configuration having a helical progression when arranged in the free state.
A second drawback is due to the fact that said apparatus, owing to the double series of straightening rollers, is complex and costly to manufacture.
A third drawback is due to the fact that said method and said apparatus require the adjustment and/or the replacement of so-called “made-to-measure” parts, depending on the curvature characteristics of the original wire to be straightened, as well as depending on the size of its cross-section.
A fourth drawback is due to the fact that said method and said apparatus do not allow simultaneous straightening of a plurality of wires.
A fifth drawback is due to the fact that said method and said apparatus do not allow correct and simultaneous straightening of a plurality of wires having original radii of curvature which differ from each other.
OBJECT OF THE INVENTIONThe object of the present invention is to solve the abovementioned drawbacks.
The invention, which is characterized by the claims, solves the problem of creating a method for straightening at least one original wire, by means of a travel path along which said original wire is made to travel longitudinally from upstream to downstream, said method being characterized in that said travel path comprises: —a first bending-curving segment intended to bend and curve the original wire, in order to obtain downstream of said first bending-curving segment a flow of bent and curved intermediate wire having a given radius of curvature; —a second straightening segment arranged consecutively after said first bending/curving segment and intended to straighten the said flow of intermediate wire on the basis of the bending/curving previously performed by means of the first bending/curving segment.
The invention, which is characterized by the claims, also solves the problem of creating an apparatus for implementing the abovementioned method, said apparatus being characterized in that it comprises: —bending-curving means intended to configure a first bending-curving segment for the travel path of the wire along which the original wire is bent and curved until, downstream of said first bending-curving segment, a flow of bent and curved intermediate wire having a given radius of curvature is obtained; straightening means arranged downstream of said bending-curving means and intended to configure a second straightening segment for the travel path of the wire along which the said flow of intermediate wire is straightened on the basis of the bending and curving previously performed by means of the first bending-curving segment.
BRIEF DESCRIPTION OF THE DRAWINGSFurther characteristic features and advantages of the present invention will emerge more clearly from the description which follows of some preferred practical embodiments thereof provided here purely by way of a non-limiting example, with reference to the figures of the accompanying drawings in which:
With reference to
With reference also to
In this context, it is obvious that the form of the circumferential grooves 10a, 10b, 10c, etc., and 20a, 20b, 20c, etc., may assume different dimensions and/or configurations which are selected depending on the size and/or the form of the cross-section of the wires to be straightened.
With reference to the first four rollers 10, 20, 30 and 40, they are arranged close, tangential or not tangential with each other, with respective axes of rotation, 10x, 20x, 30x, 40x, arranged lying in succession in a same plane, defined here as bottom level Y0.
With reference to the following rollers, 50, 60, 70, 80, 90, 100, 110, 120, they are preferably arranged as follows: >—the roller 50 is supported alongside and close (tangential or not tangential) to the roller 40 and on a first level Y1 situated higher than the bottom level Y0; >—the roller 60 is supported spaced from and alongside the roller 40 and on the bottom level Y0; >—the roller 70 is supported spaced from and alongside the roller 50 and on a second level Y2 situated higher than the first level Y1; >—the roller 80 is supported spaced from and alongside the roller 60 and on the bottom level Y0; >—the roller 90 is supported spaced from and alongside the roller 70 and on a third level Y3 situated higher than the second level Y2; >—the roller 100 is supported spaced from and alongside the roller 80 and on the bottom level Y0; >—the roller 110 is supported spaced from and alongside the roller 70 and on the level Y3; >the roller 120 is supported spaced from and alongside the roller 100 and on the bottom level Y0.
With this arrangement (see
Still with reference to
This first bending-curving segment, AC, is therefore intended to obtain in the vicinity of its outgoing end, C, a flow of bent and curved intermediate wire, F1, having a constant and uniform radius of curvature irrespective of the curvature of the original wire F0 entering at A and, moreover, again exiting from the point C, a flow of bent and curved intermediate wire F1 which has a given projection-orientation.
In this context, therefore, by varying the angular amplitudes by means of vertical displacement of the rollers 10 and 30 with respect to the fixed rollers 20 and 40, or by varying the radii of curvature r20 and r30 for the bending-curving arcs AB and BC or varying the operating travel speeds of the wire F0, it is possible to set a desired and optimum bending-curving process for the original wire F0 during its travel along the first bending-curving segment AC, in order to obtain, in the vicinity of the outgoing point C, a flow of bent and curved intermediate wire, F1, with desired mechanical properties, such as for example a desired yield point based on the bending performed and a given curvature, so as to set, optimize and standardize and select the subsequent straightening operations.
With reference to the rollers 10, 20, 30 and 40, and in particular the two bending-curving arcs AB and BC, it is preferable to set a radius of curvature r20 and/or r20 preferably equal to or less than the minimum radius of curvature of the original wire F0 when arranged in the free state.
In this context, moreover, if desirable, it is also possible to envisage a first bending-curving segment AC comprising three or more sub-segments AB or BC intended to bend and curve several times the original wire F0.
With reference to the second segment for straightening the intermediate wire F1 exiting at the point C, comprising the sub-segments CD, DE, EF, FG, GH, IL, LM, said second segment CM may assume different embodiments chosen in relation to the type of original wire F0 to be straightened, the mechanical properties of the intermediate wire F1, the operative linear speed of travel of the wire, the quality of straightening required for the straightened final wire, and the mechanical properties which the same straightened final wire must have.
With reference to the first embodiment, shown in
Again according to said first embodiment (
With reference to the second embodiment, shown in
With reference to the apparatus described above, this particular second embodiment may be easily obtained by axially displacing the roller 50, in order to keep the circumferential grooves, 10a, 20a, 30a, 40a in a plane X1a, arrange the groove 50a in a second plane X2a, and keep the grooves 60a, 70a, 80a, etc. in the plane X1a.
Plurality of Wires
The method and the apparatus according to the present invention are also particularly suitable for straightening simultaneously, a plurality of original wires, which may also have original radii of curvature different from each other, such as, for example, original wires unwound from reels having different winding diameters and/or original wires supplied from different drawing operations, using a common apparatus which is reliable and small in size.
With reference to
Said plurality of identical travel paths, AM, from upstream to downstream, comprise a plurality of first bending-curving segments, AC, identical to each other and intended to bend and curve uniformly the plurality of original wires F0a, F0b, etc., until, downstream of said first bending/curving segments AC, a plurality of intermediate wires F1a, F1b, etc., having a mutually uniform radius of curvature, is obtained; and a plurality of second straightening segments, CM, arranged consecutively after said first bending/curving segments, AC, and intended to straighten the said intermediate wires F1a, F1b, etc., on the basis of the uniform radius of curvature existing between them and obtained by means of the first bending/curving segments AC.
In this context, if the original wires F0a, F0b, F0c, etc., have original radii of curvature different from each other, it is preferable to adopt for the arcs of curvature AB and BC of the first bending-curving segments AC, a radius of curvature r20 and r30 for the rollers 20 and 30 which is equal to, or less than, the smaller of the radii of curvature of the original wires, in order to obtain a plurality of intermediate wires, F1a, F1b, F1c, etc., all having the same uniform and unidirectional curvature, irrespective of the original curvature, in order to then proceed with straightening of said plurality of intermediate wires, F1a, F1b, F1c, etc., rendered uniform with respect to each other, in the optimum manner as described above.
With reference to the circumferential grooves, 10a, 10b, 10c, etc., 20a, 20b, 20c, etc., etc., and the adjustable position for the rollers 10, 30, 50, 70, 90, 110, which can be obtained by means of the respective adjusting screws, 13a, 33a, 53a, 73a, 93a, 113a, it is obvious that, with the apparatus described above, it is possible to change rapidly the vertical position of the movable rollers 10, 30, 50, 70, 60, 100 with respect to the fixed rollers 20, 40, 60 in order to change the amplitude of the bending-curving arcs of the wire travel path and, therefore, optimize the operating method(s) described above in relation to the types of original wires used.
Moreover, by modifying the adjustable position of the rollers 10, 30, 50, 70, 90, 110, it is also possible to increase or reduce the distance between the circumferences of the rollers arranged in succession in the vicinity of their point of possible tangency, such as, for example, between the rollers 10 and 20 shown in
Also, in this context, moreover, by modifying the adjustable position of the rollers 10, 30, 50, with respect to the fixed rollers 2Q, 40, 60, in order to move the associated circumferences further away and/or closer together, and/or by modifying the size of the circumferential grooves 10a, 10b, 10c, etc., 20a, 20b, 20c, etc., etc., it is possible to implement the abovementioned operating methods with the original wire F0 and/or the original wires F0a, F0b, etc., see
With reference to the description relating to the method and the apparatus for straightening a plurality of wires mentioned above with reference to
The description of the method and the apparatus mentioned above are provided purely by way of a non-limiting example and, therefore, it is obvious that said method and said apparatus may be subject to all those modifications and/or variations suggested by practice and their use or employment, and in any case within the scope of the following claims, which form an integral part of the description provided above.
Claims
1)- Method for straightening at least one original wire by means of a travel path along which said original wire is made to travel longitudinally from upstream to downstream, characterized in that the travel path (AM; A′L′) comprises:
- a first bending-curving segment (AC; A′C′) intended to bend and curve the original wire (F0), in order to obtain downstream (C; C′) of said first bending-curving segment (AC; A′C′) a flow of bent and curved intermediate wire (F1), having a given radius of curvature;
- a second straightening segment (CM; C′L′) arranged consecutively after said first bending-curving segment (AC; A′C′) and intended to straighten the said flow of intermediate wire (F1) on the basis of the bending-curving previously performed by means of the first bending-curving segment (AC; A′C′).
2)- Method according to claim 1, characterized in that said first bending-curving segment (AC; A′C′) comprises at least:
- a first sub-segment (AB; A′B′) along which the original wire (F0) is bent and curved by causing it to travel along a first bending-curving arc (AB; A′B′) having a first bending-curving direction, and
- a second sub-segment (BC; B′C′) along which the original wire is bent and curved by causing it to travel along a second bending-curving arc (BC; B′C′) having a second bending-curving direction contrary to the first bending-curving direction of the first arc (AB; A′B′).
03)- Method according to claim 2, characterized in that said first bending-curving arc (AB; A′B′) has a radius of curvature (r20) which is preferably equal to or less than the minimum radius of curvature of the original wire (F0).
04)- Method according to claim 2, characterized in that said first bending-curving arc (AB; A′B′) has an amplitude preferably equal to about 1800.
05)- Method according to one of claim 2, characterized in that said second bending-curving arc (BC; B′C′) has a radius of curvature (r30) preferably equal to or less than the minimum radius of curvature of the original wire (F0).
06)- Method according to one of claim 2, characterized in that said second bending-curving arc (BC; B′C′) has an amplitude preferably equal to about 180°.
07)- Method according to claim 1, characterized in that said second straightening segment (CM; C′L′) comprises a third bending-curving sub-segment (CD; C′D′) which is arranged upstream and along which the intermediate wire (F1) is bent and curved along a third bending-curving arc (CD; C′D′) having a bending-curving direction contrary to the bending-curving direction of the second arc (BC) and in that said third bending/curving arc (CD; C′D′) has an amplitude equal to about 135°.
8)- Method according to claim 7, characterized in that said second straightening segment (CM; C′L′) envisages a plurality of sub-segments (CD, DE, EF, FG, GH, HI, IL, LM; C′D′, E′F′, F′G′, G′H′, H′I′, I′L′) arranged in succession and intended to define a path for the intermediate wire (F1) in the manner of a dampened sinusoid terminating in a rectilinear manner.
09)- Method according to claim 1 (FIGS. 3A-3B), characterized in that said second straightening segment comprises at least one lateral bending sub-segment (D′E′) intended to bend the intermediate wire (F1) in a direction inclined transversely with respect to the direction of bending-curving occurring along the first bending-curving segment (A′C′).
10)- Method according to claim 1 for straightening a plurality of wires, characterized in that it envisages a plurality of identical travel paths (AM; A′L′) arranged alongside and parallel, each intended to contain a respective original wire (F0a, F0b, etc.) and comprising:
- a plurality of first bending-curving segments (AC; A′C′) identical to each other and intended to bend and curve each wire of the plurality of original wires (F0a, F0b, etc.) until, downstream (C) of said first bending-curving segments (AC), a flow of a plurality of corresponding bent and curved intermediate wires (F1a, F1b, etc.) having a same given radius of curvature is obtained;
- a plurality of second straightening segments (CM; C′L′) arranged consecutively after said plurality of first bending-curving segments (AC) and intended to straighten the said plurality of intermediate wires (F1a, F1b, etc.,) on the basis of the bending and curving performed by means of the plurality of first bending-curving segments (AC).
11)- Method according to claim 1, characterized in that axial rotation (FIG. 2C) of the original wire (F0) during its travel along the first bending-curving segment (AC) is prevented.
12)- Method according to claim 1, characterized in that the axial rotation (FIG. 2B) of the original wire (F0) during its travel along the first bending-curving segment (AC) is allowed.
13)- Apparatus for straightening at least one original wire (F0) by means of a travel path along which said wire is made to travel longitudinally from upstream to downstream, characterized in that it comprises:
- bending-curving means (10, 20, 30, 40) intended to configure a first bending-curving segment (AC; A′C′) for the travel path of the wire, along which the original wire (F0) is bent and curved until, downstream (C) of said first bending-curving segment (AC), a flow of bent and curved intermediate wire (F1) having a given radius of curvature is obtained;
- straightening means (50, 60, 70, 80, 80, 100, 110) arranged downstream of said bending-curving means (10, 20, 30, 40) and intended to configure a second straightening segment (CM; C′L′) for the travel path of the wire along which the said intermediate wire (F1) is straightened on the basis of the bending and curving previously performed by means of the first bending-curving segment (AC; A′C′).
14)- Apparatus for straightening a plurality of original wires (F0a, F0b, F0c, etc.) according to claim 13, characterized in that said bending-curving means (10, 20, 30, 40) are intended to configure a plurality of first bending-curving segments (AC; A′C′) identical to each other and intended to bend and curve each wire of the plurality of original wires (F0a, F0b, etc.) until, downstream (C) of said first bending-curving segments (AC), a flow of a plurality of corresponding bent and curved intermediate wires (F1a, F1b, etc.) having a given radius of curvature is obtained and in that said straightening means (50, 60, 70, 80, 80, 100, 110) are intended to configure a plurality of second straightening segments (CM; C′L′) arranged consecutively after said plurality of first bending/curving segments (AC) and intended to straighten the said plurality of intermediate wires (F1a, F1b, etc.) on the basis of the bending and curving performed by means of the plurality of first bending/curving segments (AC).
15)- Apparatus according to claim 13, characterized in that said first bending-curving means (10, 20, 30, 40) comprise a first series of bending-curving rollers (10, 20, 30, 40) arranged in succession and intended to configure one or more first bending-curving segments (AC; A′C′).
16)- Apparatus according to one of claim 13, characterized in that said second straightening means (50, 60, 70, 80, 80, 100, 110) comprise a second series of straightening rollers (50, 60, 70, 80, 80, 100, 110) arranged in succession and intended to configure one or more second straightening segments (CM; C′L′) arranged consecutively after said one or more first bending/curving segments (AC; A′C′).
17)- Apparatus according to claim 15, characterized in that said rollers (10, 20, 30, 40, etc.) have on their casing one or more circumferential grooves (10a, 10b, etc.; 20a, 20b, etc.; etc.) which are axially spaced and each intended to seat a respective wire (F0a, F0b, etc.).
18)- Apparatus according to claim 15, characterized in that at least some of said rollers (10, 30, 50, 70, 90, 110) are movable and able to be adjustably positioned with respect to the other rollers (20, 40, 60, 80, 100, 120).
19)- Apparatus according to claim 15, characterized in that said first series of bending-curving rollers comprises four rollers (10, 20, 30, 40) arranged in succession and alongside close to each other and in that the circumferential grooves (10a, 10b, etc.; 20a, 20b, etc.,; etc.) of each roller (10, 20, 30, 40) are situated facing each other and aligned with respect to the grooves of the rollers alongside (10a, 20a, 30a, 40a; 10b, 20b, 30b, 40b, etc.).
20)- Apparatus according to claim 15, characterized in that said first series of rollers (10, 20, 30, 40) have their circumferences arranged close so that the respective circumferential grooves (10a, 10b; 20a, 20b, etc.) in the vicinity of the point of possible tangency between adjacent rollers define one or more channels (10a, 20a; 10b, 20b; etc.) intended to contain the original wires (F0a, F0b, etc.).
21)- Apparatus according to claim 20, characterized in that said one or more channels (10a, 20a; 10b, 20b, etc.) each have a width such as to clamp-grip the respective original wire (F0a, F0b, etc.).
22)- Apparatus according to claim 20, characterized in that said one or more channels (10a, 20a; 10b, 20b, etc.) each have a width such as not to clamp-grip the respective original wire (F0a, F0b).
23)- Apparatus according to claim 15, characterized in that said first series of bending-curving rollers (10, 20, 30, 40) comprises:
- a frame comprising two side walls (Ta and Tb) extending longitudinally and vertically and intended to support, from upstream to downstream, in succession:
- two first slides (11a, 11b) movable vertically and guided (12a, 12b) on a respective wall (Ta, Tb) and able to be adjusted vertically by means of respective adjusting members (13a, 13b), said first slides (11a, 11b) being intended to support the opposite ends of a first roller (10) having a first axis of rotation (10×);
- the opposite ends of a second roller (20) having an axis of rotation (20×) arranged parallel with respect to the first axis (10×);
- two second slides (31a, 31b) movable vertically and guided (32a, 32b) on a respective wall (Ta, Tb) and able to be adjusted vertically by means of adjusting members (33a, 33b), said second slides (31a, 31b) being intended to support the opposite ends of a third roller (30) having an axis of rotation (30×);
- the opposite ends of a fourth roller (40) having an axis of rotation (40×) arranged parallel with respect to the first axis (10×).
24)- Apparatus according to claim 23, characterized in that said second series of straightening rollers (50, 60, 70, 80, 80, 100, 110) comprises:
- two third slides (51a, 51b) movable vertically and guided (52a, 52b) on a respective wall (Ta, Tb) and able to be adjusted vertically by means of respective adjusting members (53a, 53b), said third slides (51a, 51b) being intended to support the opposite ends of a fifth roller (50) having a fifth axis of rotation (50×) arranged parallel with respect to the first axis (10×);
- the opposite ends of a sixth roller (60) having an axis of rotation (60×) arranged parallel with respect to the first axis (10×);
- two fourth slides (71a, 71b) movable vertically and guided (72a, 72b) on a respective wall (Ta, Tb) and able to be adjusted vertically by means of adjusting members (73a, 73b), said fourth slides (71a, 71b) being intended to support the opposite ends of a seventh roller (70) having an axis of rotation (70×) arranged parallel with respect to the first axis (10×);
- the opposite ends of an eighth roller (80) having an axis of rotation (80×) arranged parallel with respect to the first axis (10×).
25)- Apparatus according to claim 15, characterized in that said first series of bending/curving rollers (10, 20, 30, 40) comprises a second roller (20) and/or a third bending-curving roller (30) having a radius preferably equal to or less than the minimum radius of curvature of the original wire (Fa).
26)- Apparatus according to claim 15 (FIGS. 3A and 3B), characterized in that a roller (40) has the circumferential grooves (40a, etc.) arranged in one plane (X1a, etc.) and the following roller (50) has the circumferential grooves (50a, etc.) arranged in a second plane (X2a, etc.) arranged spaced transversely with respect to the first plane (X1a, etc.) in order to configure between said two rollers (40, 50) a travel path for the wires comprising a fourth sub-segment (D′E′) for lateral bending and oriented skew alongside the first plane (X1a).
Type: Application
Filed: Jan 21, 2005
Publication Date: Aug 4, 2005
Applicant:
Inventors: Marino Romagnoli (Bologna), Raffaele Nadalini (Bologna)
Application Number: 11/041,578