CN103687681B - Guiding device - Google Patents

Abstract

Disclosing a kind of guiding device (100), for receiving the elongated metallic object promoted by the first propulsive mechanism, and guiding this elongated metallic object towards the second propulsive mechanism.First propulsive mechanism and the second propulsive mechanism are configured to axis (101) along the longitudinal and promote this elongated metallic object, wherein guiding device (100) comprises guide, and this guide is for receiving this elongated metallic object and guiding described elongated metallic object towards the second propulsive mechanism.Guide (100) has the shape being configured to elongated metallic object is directed to precalculated position along the first axle (103) perpendicular to longitudinal axis (102), wherein determines described precalculated position by the shape of guide.

Description

Guiding device

Technical field

The present invention relates to for the elongated metallic object of such as nail guiding piece and use the system of such as nail production machine of this guiding piece.

Background technology

Modern nail production machine can produce a large amount of nails from metal wire.Metal wire is cut into the multiple elongated metallic object forming final nail.Adaptability, speed of production and reliability are three key properties of nail production machine.The adaptive machine that has can producing various dissimilar nail (such as, the nail of different length) enjoys expectation, because it more can be used in the speed changing nail production machine; Because the value of machine depends on the production capacity of the expection of machine, so expect high production speed; Because the machine broken down not only can produce direct production cost but also can cause production loss, reliability is important.

Unfortunately, adaptability, speed of production and reliability are interrelated, make the increase of adaptability and/or speed of production that reliability will be caused to reduce.

Thus, still there are the following problems: when the cost of not obvious increase nail production machine self, provides strong adaptability, speed and reliable nail production machine.

Summary of the invention

According to first aspect, a kind of guiding device is provided, it is for receiving the elongated metallic object promoted by the first propulsive mechanism, and guide this elongated metallic object towards the second propulsive mechanism, first propulsive mechanism and the second propulsive mechanism are configured to axis along the longitudinal and promote this elongated metallic object, wherein guiding device comprises guide, and guide is for receiving elongated metallic object and guiding this elongated metallic object towards the second propulsive mechanism

Wherein guide has the shape being configured to elongated metallic object is directed to precalculated position along first axle, and wherein first axle is perpendicular to longitudinal axis, determines described precalculated position by the shape of guide.

As a result, can the position of elongate metal object, reduce the risk of elongated metallic object other composition mechanism congested.Thus, when guiding device is used in nail production machine, by the risk that reduction nail production machine breaks down, guarantee the speed of increase nail production machine thus and/or guarantee that nail production function produces shorter nail.

Elongated metallic object can be the intermediate maturity in nail production technology.Elongated metallic object can be produced by metal wire being cut into multiple elongated metallic object.In certain embodiments, elongated metallic object can have the length of the pole of 10mm and 300mm, the length between 20mm and 150mm, or the length between 32mm and 130mm.In certain embodiments, the width/diameter of elongated metallic object can between 0.5mm and 2mm, between 1mm and 6mm, or between 1.8mm and 4.5mm.

First propulsive mechanism directly can promote elongated metallic object, or alternatively, the first propulsive mechanism such as can directly promote this elongated metallic object by another object promoting elongated metallic object.First propulsive mechanism can be an one group of swiveling wheel rotated on another.In certain embodiments, the first propulsive mechanism also comprises the mechanism for metal wire being cut into multiple elongated metallic object.In certain embodiments, the first propulsive mechanism does not comprise the mechanism for metal wire being cut into multiple elongated metallic object.

Second propulsive mechanism can comprise at least one rotating roller for promoting elongated metallic object.This at least one rotating roller can rotate in the plane defined by longitudinal axis and the second axis, and wherein the second axes normal is in longitudinal axis and first axle.Second propulsive mechanism can comprise rotate in the same plane multiple rollers.Second propulsive mechanism can comprise first group of rotating roller of the first side being positioned at longitudinal axis and be positioned at second group of rotating roller of the second side of longitudinal axis, wherein first group of rotating roller rotates in a first direction, second group of rotating roller rotates in a second direction, second direction is contrary with first direction, makes to draw elongated metallic object by first group of rotating roller and second group of rotating roller.First group of rotating roller and second group of rotating roller can comprise the rotating roller of any amount, such as 1 to 10 rotating roller, such as, and 2,3,4,5,6,7 or 10 rotating rollers.

Nail production machine can be revolving.

In certain embodiments, guide comprises bottom stage, and wherein the precalculated position of elongated metallic object along first axle is determined in the position of the bottom stage of guide.

In certain embodiments, guide is drawn together from the first outstanding inclined wall of the bottom stage of guide and the second inclined wall.

In certain embodiments, in the cross section of guide, the angle between the tangent line of the first inclined wall and the tangent line of the second inclined wall is between 5 degree and 170 degree, between 10 degree and 145 degree, between 25 degree and 120 degree, or between 45 degree 100 degree, wherein this angle is defined as the angle towards guide.

Cross section can be the cross section of guide in the plane defined by first axle and the second axis.If the first inclined wall and/or the second inclined wall are bending, the tangent line of the first inclined wall and the second inclined wall can be chosen as the tangent line producing minimum angle.

Result, because the second propulsive mechanism can towards the elongated metallic object by being positioned in precalculated position along the second axis (axis perpendicular to both longitudinal axis and first axle), the inclination of two inclined walls can guarantee that elongated metallic object is positioned in precalculated position along first axle in a reliable fashion.Thus, can correct by other of the first propulsive mechanism or nail production machine form in the transport path of the elongated metallic object that mechanism produces with the departing from of longitudinal axis.

In certain embodiments, guide can comprise bottom stage, wherein by the shape determination elongated metallic object of groove along the precalculated position of first axle.

First inclined wall and the second inclined wall can together with form groove, make the precalculated position that the bottom stage of groove is determined along first axle.Guide can comprise lip-like section alternatively.

In certain embodiments, the width of groove between 0.25mm and 50mm, between 0.5mm and 25mm, or between 1mm and 15mm.

In certain embodiments, the degree of depth of groove between 0.25mm and 50mm, between 0.5mm and 25mm, or between 1mm and 15mm.

In certain embodiments, angle between the line at the bottom stage place of guide and longitudinal axis is positioned between 1 degree and 80 degree, between 0 degree and 50 degree, between 2 degree and 25 degree, between 2 degree and 15 degree, or between 2 degree 10 degree, wherein this angle is from minimum possibility angular measurement.

As a result, can correct and to form in the transport path of the elongated metallic object that mechanism produces departing from of axis along the longitudinal by other of the first propulsive mechanism or nail production machine.

In certain embodiments, guiding device is made up of rigid material.

In certain embodiments, guiding device is made of metal.

In certain embodiments, guiding device is without any movable agency.

In certain embodiments, the wedge-type shape had at least partially in the plane defined by longitudinal axis and first axle of guiding device, allows guiding device to be positioned near one group of swiveling wheel.

As a result, because guiding device can be positioned near one group of swiveling wheel, elongated metallic object only can need mobile short distance before directed.

The part of the wedge-type shape of guiding device can comprise guide, and also comprises slender arm alternatively.

In certain embodiments, wedge-type shape is formed by two faces of two planes being arranged in guiding device, angle wherein between two planes is between 1 degree and 85 degree, between 1 degree and 60 degree, between 1 degree and 35 degree, between 1 degree and 20 degree, or between 1 degree 15 degree, wherein this angle is from the less angular measurement two possible angles.

In certain embodiments, guide is connected to the first end of slender arm, and slender arm is connected to fastening structure at the second end, and this fastening structure is secured to machine for allowing guiding device.

In certain embodiments, slender arm is given prominence to along the second axis, and wherein the second axes normal is in longitudinal axis and first axle.

In certain embodiments, fastening structure comprises the face be positioned in the plane substantial parallel with the plane defined by longitudinal axis and first axle.

According to second aspect, be provided for the system of carrying elongated metallic object, wherein system comprises:

-for guiding the guiding device of elongated metallic object; And

-the second propulsive mechanism;

Wherein guiding device is configured to receive the elongated metallic object promoted by the first propulsive mechanism, and guide this elongated metallic object towards the second propulsive mechanism, first propulsive mechanism and the second propulsive mechanism are configured to axis along the longitudinal and promote this elongated metallic object, wherein guiding device comprises guide, guide for receiving elongated metallic object and guiding this elongated metallic object towards the second propulsive mechanism, wherein

Guide has the shape being configured to elongated metallic object is directed to precalculated position along first axle, and first axle, perpendicular to longitudinal axis, wherein determines described precalculated position by the shape of guide.

In certain embodiments, the second propulsive mechanism comprises at least one rotating roller for promoting elongated metallic object.

In certain embodiments, this at least one rotating roller rotates in the plane defined by longitudinal axis and the second axis, and wherein the second axes normal is in longitudinal axis and first axle.

In certain embodiments, system also comprises cutting mechanism, and this cutting mechanism is used for metal wire to cut into multiple elongated metallic object, and wherein cutting mechanism is positioned at the front of guiding device.

In certain embodiments, cutting mechanism comprises the first round, the first round rotates in the plane defined by longitudinal axis and first axle, wherein the first round comprises at least one cutting part at the wheel rim place being positioned at the first round, and cutting part is configured to metal wire be cut into multiple slender bodies with predetermined length.

In certain embodiments, cutting mechanism also comprises second takes turns, wherein the first round is positioned at the second top of taking turns, the first round and second takes turns and rotates in the plane defined by longitudinal axis and first axle, wherein second take turns at least one cutting part comprising and be positioned at the wheel rim place that second takes turns, the first round and second takes turns synchronously, at least one cutting part that at least one cutting part of the first round and second is taken turns simultaneously contacting metal line substantially, and together metal wire is cut into multiple elongated metallic object of predetermined length.

Different aspect of the present invention can realize by different way, comprise above-mentioned for carrying the guiding device of elongated metallic object and system and as under type, all produce the one or more benefit in the benefit and advantage described with reference at least one mode in above-mentioned aspect and advantage, all have with describe with reference at least one aspect in above-mentioned aspect and/or dependent claims disclosed in one or more preferred embodiments corresponding to preferred embodiment.In addition, should be appreciated that the embodiment described with reference to the aspect of in aspect described herein can be applied to other side comparably.

Accompanying drawing explanation

With reference to accompanying drawing, by the detailed description of the nonrestrictive embodiment exemplified of the present invention, above-mentioned and/or other objects, features and advantages of the present invention will be illustrated further below.

Fig. 1 a-d illustrates guiding device according to an embodiment of the invention;

Fig. 2 illustrates guiding device according to an embodiment of the invention, and wherein the bottom of guide tilts;

Fig. 3 a-c illustrates a part for nail production machine;

Fig. 4 a-c illustrates a part for nail production machine, and nail production machine comprises system according to an embodiment of the invention;

Fig. 5 a-d illustrates the guide according to some embodiments of the present invention; And Fig. 6 a-b illustrates a part for nail production machine, nail production machine comprises system according to an embodiment of the invention.

Detailed description of the invention

Reference accompanying drawing carries out description below, and how accompanying drawing can implement the present invention if schematically showing.

Fig. 1 a-d illustrates guiding device 100 according to an embodiment of the invention.Guiding device 100 is configured to receive the elongated metallic object promoted by the first propulsive mechanism, and guide this elongated metallic object towards the second propulsive mechanism, the first propulsive mechanism and the second propulsive mechanism are configured to axis 101 along the longitudinal and promote this elongated metallic object.Guiding device 100 comprises the guide of groove 102 shape, and this guide is formed at first end 104 and receives elongated metallic object, and guides this elongated metallic object towards the second propulsive mechanism at the second end 108.Groove 102 comprises from the first outstanding inclined wall 117 and the second inclined wall 118 of bottom stage.The shape of groove 102 guides elongated metallic object along the first axle 103 perpendicular to longitudinal axis 101 towards precalculated position.This allow guiding device correct on the transport path of elongated metallic object with the departing from (divergence) of longitudinal axis.

Guiding device 100 comprises further along outstanding slender arm 106, second axes normal of the second axis 105 in longitudinal axis 101 and first axle 103.Slender arm 106 is connected to groove 102 at first end 115 place, and is connected to fastening structure 107 at the second end 116 place.Fastening structure 107 can be included in the face of locating in the plane defined by longitudinal axis 101 and first axle 103.Fastening structure can comprise one or more fastener hole 109,110,111 extraly, for allowing to use suitable retention mechanism such as such as screw thread, bolt etc., fastening structure 107 is fastened to the machines such as such as nail production machine.

The part 102,106 of guiding device has wedge-type shape in the plane defined by longitudinal axis 101 and first axle 103, allows guiding device to be positioned near one group of moving runner.This part with wedge-type shape of guiding device comprises groove 102 and slender arm 106.This wedge-type shape is produced by two faces 122,123 shape being arranged in two planes 112,113.In certain embodiments, the angle 114 between two planes is between 0 degree and 85 degree, and between 0 degree and 60 degree, between 0 degree and 35 degree, between 0 degree and 20 degree, or between 0 degree and 15 degree, wherein this angle is with the less angular measurement in two possible angles.

In certain embodiments, in the cross section of groove 112, angle 119 between the tangent line 120 of the first inclined wall 117 and the tangent line 121 of the second inclined wall 118 is between 5 degree and 170 degree, between 10 degree and 145 degree, between 25 degree and 120 degree, or between 45 degree and 100 degree, wherein this angle is restricted to the angle 119 towards groove 102, described cross section is the cross section of groove 102 in the plane defined by first axle 103 and the second axis 105, and the tangent line 120,121 of the first inclined wall 117 and the second inclined wall 118 is the tangent lines at selected generation minimum possibility angle.

Fig. 2 illustrates the top view of guiding device 200 according to an embodiment of the invention.Guiding device 200 comprises guide 202, and guide 202 comprises from the first outstanding inclined wall 217 and the second inclined wall 218 of bottom stage.Also show and be positioned at the line 222 crossing with longitudinal axis 201 of bottom stage and the angle 223 between line 222 and longitudinal axis.

In certain embodiments, angle 223 between the line 222 of bottom stage and longitudinal axis 201 is positioned between 1 degree and 80 degree, between 1 degree and 50 degree, between 2 degree and 25 degree, between 2 degree and 15 degree, or between 2 degree and 10 degree, wherein this angle is restricted to minimum possible angle.

Therefore, the departing from along the second axis produced in the transport path of elongated metallic object by other mechanism of the first mechanism advanced or nail production machine can be corrected.

Fig. 3 a-c illustrates three different time points of the system for carrying elongated metallic object.Fig. 3 a illustrates the very first time point of system, and Fig. 3 b illustrates the second time point of system, and the second time point is after very first time point, and Fig. 3 c illustrates the 3rd time point of system, and the 3rd time point is after the second time point.

System comprises the second propulsive mechanism 303 and cutting mechanism 301,302.Cutting mechanism is included in the first round 301 and second rotated in the plane defined by longitudinal axis 309 and first axle 310 and takes turns 302.The first round 301 is positioned at the top that second takes turns 302.The first round and second takes turns to include and is positioned at the first round 301 and second respectively and takes turns at least one cutting part 305,306 on the wheel rim of 302.Cutting part is configured to metal wire 304 to cut into multiple elongated metallic object 307.The first round 301 and second takes turns 302 synchronous, makes the cutting part 306 of the first round 301 and the second cutting part of taking turns 305 contacting metal line 304 and together metal wire 304 is cut into multiple elongated metallic object 307, illustrated in Fig. 3 a-c simultaneously substantially.

Cutting mechanism can directly promote elongated metallic object 307 extraly, and thus cutting mechanism can be used as axis 309 along the longitudinal extraly and promote the first propulsive mechanism of the elongated metallic object newly cut out towards the second propulsive mechanism 303.The cutting part 305,306 that the first round and second takes turns 301,302 can promote towards the second propulsive mechanism 303 elongated metallic object 307 that newly cuts out, extraly or alternatively, the first round 301 and second takes turns 302 and can comprise the holding part (not shown) being configured to promote elongated metallic object.Holding part can be positioned the wheel rim that the first round 301 and second takes turns 302.Holding part can have the height lower than the height of cutting part 305,306.Holding part can be positioned at the front that the first round 301 and second takes turns the cutting part on the wheel rim of 302, makes holding part contacting metal line 304 before cutting part contacting metal line.

The power being applied to elongated metallic object 307 from the cutting part 305,306 of cutting mechanism 301,302 may produce and the departing from of longitudinal axis 309 the transport path of elongated metallic object.Depart from relevant to applied force, therefore, be subject to the impact of the speed of service of system.Go beyond the limit if departed from, it is congested that elongated metallic object 307 can not be promoted by the second propulsive mechanism 303 and/or make other mechanism of the second propulsive mechanism 303 or system to produce.Thus, exceed restriction in order to avoid departing from, the speed of service of system must keep low.

Fig. 4 a-c illustrates according to an embodiment of the invention for carrying three different time points of the system of elongated metallic object.

Fig. 4 a illustrates the very first time point of system, and Fig. 4 b illustrates the second time point of system, and the second time point is after very first time point, and Fig. 4 c illustrates the 3rd time point of system, and the 3rd time point is after the second time point.

System comprises the second propulsive mechanism 403 and cutting mechanism 401,402.Cutting mechanism is included in the first round 401 and second rotated in the plane defined by longitudinal axis 409 and first axle 410 and takes turns 402.The first round 401 is positioned at the top that second takes turns 402.The first round and second takes turns to include and is positioned at the first round 401 and second respectively and takes turns at least one cutting part 405,406 on the wheel rim of 402.Cutting part is configured to metal wire 404 to cut into multiple elongated metallic object 407.The first round 401 and second takes turns 402 synchronous, makes the cutting part 406 of the first round 401 and the second cutting part of taking turns 405 contacting metal line 404 and together metal wire 404 is cut into multiple elongated metallic object 407, illustrated in Fig. 4 a-c simultaneously substantially.

Cutting mechanism can directly promote elongated metallic object 407 extraly, and thus cutting mechanism can be used as axis 409 along the longitudinal extraly and promote the first propulsive mechanism of the elongated metallic object newly cut out towards the second propulsive mechanism 403.The cutting part 405,406 that the first round and second takes turns 401,402 can promote towards the second propulsive mechanism 403 elongated metallic object 407 that newly cuts out, extraly or alternatively, the first round 401 and second takes turns 402 and can comprise the holding part (not shown) being configured to promote elongated metallic object.Holding part can be positioned the wheel rim that the first round 401 and second takes turns 402.Holding part can have the height lower than the height of cutting part 405,406.Holding part can be positioned at the front that the first round 401 and second takes turns the cutting part on the wheel rim of 402, makes holding part contacting metal line 404 before cutting part contacting metal line.

Extraly or alternatively, system also can comprise the first propulsive mechanism (not shown) in the front (right side of figure) being positioned at cutting mechanism 401,402.First propulsive mechanism can be included in the third round and fourth round that rotate in the plane defined by longitudinal axis 409 and first axle 410.Third round can be positioned at the top of fourth round.

System shown in system shown in Fig. 4 a-c with Fig. 3 a-c is corresponding, difference is that the system shown in Fig. 4 a comprises guiding device 408 extraly, guiding device 408 for receiving the elongated metallic object promoted by the first propulsive mechanism, and guides this elongated metallic object towards the second propulsive mechanism 403.Guiding device 408 comprises guide, and guide has the shape being configured to elongated metallic object is directed to precalculated position along first axle 410.Thus, can correct in the transport path of elongated metallic object with the departing from of longitudinal axis 409.Owing to departing from increase when producing short nail, the system comprising guiding device can produce short nail, extraly, can increase the speed of service of system.

Fig. 5 a illustrates the cross section with triangular shaped guide 502 according to an embodiment of the invention.Cross section is along the planar interception that defined by first axle 503 and the second axis 505.Guide comprises from the first outstanding inclined wall 506 and the second inclined wall 507 of bottom stage 508.Bottom stage determines described precalculated position along the position of first axle.

Fig. 5 b illustrates the cross section with the guide 502 of rounded triangle shape according to an embodiment of the invention.Cross section is along the planar interception that defined by first axle 503 and the second axis 505.Guide comprises from the first outstanding inclined wall 506 and the second inclined wall 507 of bottom stage 508.Described precalculated position is determined in the position along first axle of bottom stage.

Fig. 5 c illustrates the cross section with asymmetric triangular shaped guide 502 according to an embodiment of the invention.Cross section is along the planar interception that defined by first axle 503 and the second axis 505.Guide comprises from the first outstanding inclined wall 506 and the second inclined wall 507 of bottom stage 508.Described precalculated position is determined in the position along first axle of bottom stage.In the present embodiment, the first inclined wall 506 to the second inclined wall 507 is short.

Fig. 5 d illustrates the cross section with the guide 502 of toroidal according to an embodiment of the invention.Cross section is along the planar interception that defined by first axle 503 and the second axis 505.Guide comprises from the first outstanding inclined wall 506 and the second inclined wall 507 of bottom stage 508.Described precalculated position is determined in the position along first axle of bottom stage.First inclined wall 506 and the second inclined wall 507 are bending.Guide can extraly/comprise lip-like section 509 alternatively.

Fig. 6 a-b illustrates according to an embodiment of the invention for carrying the system of elongated metallic object.This system is corresponding with the system described with reference to Fig. 4 a-c.Fig. 6 a illustrates the side view in the plane defined by longitudinal axis 609 and first axle 610, and Fig. 6 b illustrates the top view in the plane defined by longitudinal axis 609 and the second axis 612.Second propulsive mechanism 603,611 comprises the first group of rotating roller 603 rotated along first direction and the second group of rotating roller 611 rotated along second direction, and second direction is contrary with first direction.As the result of position rotating roller, the second propulsive mechanism 603,611 promotes elongated metallic object in the precalculated position along the second axis 612.When by the second propulsive mechanism 603,611 promotion elongated metallic object, thus elongated metallic object is locked precalculated position along the second axis in beginning, the guide of guiding device 608 is used at this, so that elongated metallic object is directed to precalculated position along first axle 610, such as, elongated metallic object can be directed to precalculated position along first axle 610 by the inclined wall of groove.

Although described in detail and shown some embodiments, the present invention has been not restricted to these embodiments, but can with multiple embodied in other in the scope of the theme be limited by the accompanying claims.Especially, should be appreciated that without departing from the scope of the invention, other embodiment can be utilized, and 26S Proteasome Structure and Function modification can be made.

In the device claim listing several mechanism, the several mechanisms in these mechanisms can by a hardware implementing with identical number.The fact addressing or describe in different embodiments certain measures in mutually different dependent claims does not represent that the combination of these measures can not be used for realizing advantage.

Should emphasize, the term used in this description " comprises/comprises " existence being used to specify addressed feature, entirety, step or composition mechanism, but does not get rid of the existence or additional of one or more further feature, entirety, composition mechanism or their combination.

Claims (14)

1. a nail production machine, comprising:

For guiding the guiding device of elongated metallic object, wherein said guiding device is configured to receive the elongated metallic object promoted by the first propulsive mechanism, and described first propulsive mechanism comprises the cutting mechanism for metal wire being cut into multiple elongated metallic object; And

Second propulsive mechanism (603,611);

Wherein said guiding device is configured to guide from the described elongated metallic object of described first propulsive mechanism towards described second propulsive mechanism (603,611), and described first propulsive mechanism and described second propulsive mechanism (603,611) are configured to axis along the longitudinal and promote described elongated metallic object;

Wherein said guiding device comprises guide, described guide is for receiving described elongated metallic object and guiding described elongated metallic object towards described second propulsive mechanism (603,611), wherein said guide has the shape being configured to described elongated metallic object is directed to precalculated position along first axle, wherein determines described precalculated position by the shape of described guide;

Wherein said second propulsive mechanism (603,611) comprises at least one rotating roller (603) for promoting described elongated metallic object, wherein said at least one rotating roller (603) rotates in the plane defined by described longitudinal axis and the second axis, and wherein said second axis is vertical with described first axle with described longitudinal axis;

Wherein said guiding device in the plane defined by described longitudinal axis and described first axle, there is wedge-type shape at least partially, allow described guiding device to be positioned near one group of moving runner;

Wherein form wedge-type shape by two faces of two planes being arranged in described guiding device, the angle between wherein said two planes is between 1 degree and 85 degree, and wherein said angle is with the less angular measurement in two possible angles.

2. nail production machine according to claim 1, the described angle between wherein said two planes between 1 degree and 60 degree, between 1 degree and 35 degree, between 1 degree and 20 degree, or between 1 degree and 15 degree.

3. nail production machine according to claim 1 and 2, described cutting mechanism wherein for metal wire being cut into multiple elongated metallic object comprises the first round, the described first round rotates in the plane defined by described longitudinal axis and described first axle, the wherein said first round comprises at least one cutting element at the wheel rim place being positioned at the described first round, and described cutting element is configured to described metal wire be cut into multiple slender bodies with predetermined flexibility.

4. nail production machine according to claim 3, wherein said cutting mechanism also comprises second takes turns, the wherein said first round is positioned at described second top of taking turns, the described first round and described second takes turns and rotates in the plane defined by described longitudinal axis and described first axle, wherein said second takes turns at least one cutting element comprising and be positioned at the wheel rim place that described second takes turns, the described first round and described second takes turns synchronously, at least one cutting element described of the described first round is made to contact described metal wire with described second at least one cutting element of taking turns simultaneously and together described metal wire be cut into multiple elongated metallic object of predetermined flexibility.

5. nail production machine according to claim 1, wherein said guide comprises groove (102), wherein determines the described precalculated position of described elongated metallic object along described first axle by the shape of described groove (102).

6. nail production machine according to claim 1, wherein said guide comprises bottom stage (508), and the described precalculated position of described elongated metallic object along described first axle is determined in the position of the bottom stage (508) of wherein said guide.

7. nail production machine according to claim 6, wherein said guide comprises from the first outstanding inclined wall of the bottom stage (508) of described guide and the second inclined wall.

8. nail production machine according to claim 7, wherein on the cross section of described guide, angle between the tangent line (120) of described first inclined wall and the tangent line (121) of described second inclined wall is between 5 degree and 170 degree, between 10 degree and 145 degree, between 25 degree and 120 degree, or between 45 degree and 100 degree.

9. nail production machine according to claim 5, the width of wherein said groove (102) between 0.25mm and 50mm, between 0.5mm and 25mm, or between 1mm and 15mm.

10. nail production machine according to claim 5, the degree of depth of wherein said groove (102) between 0.25mm and 50mm, between 0.5mm and 25mm, or between 1mm and 15mm.

11. nail production machine according to claim 1, wherein be positioned at angle between the line of the bottom stage of described guide and described longitudinal axis between 1 degree and 80 degree, between 1 degree and 50 degree, between 2 degree and 25 degree, between 2 degree and 15 degree, or between 2 degree and 10 degree.

12. nail production machine according to claim 1, wherein said guiding device is made of metal.

13. nail production machine according to claim 1, wherein said guide is connected to the first end of slender arm (106), described slender arm (106) is connected to fastening structure at the second end place, described fastening structure is fastened to machine for allowing described guiding device, wherein said slender arm (106) is given prominence to along the second axis, and wherein said second axes normal is in described longitudinal axis and described first axle.

14. nail production machine according to claim 13, wherein said fastening structure comprises the face be positioned at the described parallel plane plane defined by described longitudinal axis and described first axle.