The present invention relates to a band saw blade, or more specifically to a band saw blade provided with straight teeth as well as right and left set teeth, in which a ridge line at a tip of each saw tooth is formed into a curve with a shape in which the saw tooth protrudes most at a central portion in a thickness direction thereof.
Band saw machines have heretofore been used as devices for cutting large workpieces made of metal, for example. In terms of the material, so-called bi-metal band saw blades are frequently used as materials for band saw blades employed in the band saw machines. The bi-metal band saw blade uses high-speed tool steel or cemented carbide for the tooth points and uses heavy-duty alloy steel for the body portion.
The bi-metal band saw blade, however, has the following problem due to such high hardness of the tooth points. Specifically, when there is a problem in machinability of a material, a mistake in selection of cutting conditions or an insufficient application of a wire brush for removing chips to the band saw blade, for example, the bi-metal band saw blade may fail to perform normal cutting because of occurrence of chipping at the tooth points during cutting.
Various methods have been put into practice as the method of preventing occurrence of such chipping, including, a method of increasing a tooth angle at each tooth point, a method of chamfering a corner portion of each tooth so as to increase an angle of the corner portion as disclosed in Patent Document 1 (Japanese Patent Application Laid-Open No. Hei 6-155158), a method of chamfering a saw blade including dovetail-shaped set teeth which are set to both right and left, such that an angle of an outer corner portion of each of the teeth at the widest positions can have an angle of 90° or larger as disclosed in Patent Document 2 (Japanese Patent Application Laid-Open No. Hei 6-39631), and a method of subjecting a tooth point to fine chamfering as disclosed in Patent Document 3 (Japanese Patent Application Laid-Open No. 2000-263327).
As for the problem of occurrence of chipping in cutting a work with use of a brand-new band saw, chipping may occur if the brand-new band saw blade, as it is, is used under general cutting conditions. For this reason, trial cutting is generally carried out. That is, no matter how precisely the band saw blade is finished, the band saw blade always has some errors. Accordingly, if the band saw blade in a brand new state is used to perform a cutting operation is performed under the general cutting conditions, problems such as vibration, blade chipping off, and uneven wearing are apt to occur. Therefore, the work is cut with the brand-new band saw blade by applying even a light load in order to make the saw teeth on the band saw blade uniform.
Patent Document 1: Japanese Patent Application Laid-Open No. Hei 6-155158
Patent Document 2: Japanese Patent Application Laid-Open No. Hei 6-39631
Patent Document 3: Japanese Patent Application Laid-Open No. 2000-263327
Patent Document 1 discloses a saw blade having a configuration as shown in
However, in this configuration, when abrasion L1 occurs in a lateral surface direction at the outer corner portion of the left set tooth 101L, for example, abrasion M1 in a vertical direction will be caused as shown in
Moreover, the above-described configuration meets cutting resistance in two different directions as indicated with arrows F1 and F2 in
For reference, hatched portions in
Patent Document 2 discloses a saw blade having a configuration as shown in
Patent Document 3 discloses a saw tooth having a configuration as shown in
This invention has been made to solve the aforementioned problems. Accordingly, an object thereof is to provide a band saw blade which can suppress occurrence of chipping while achieving improvement in strength of corner portions of saw teeth on the band saw blade.
Another object of the present invention is to provide a band saw blade capable of preventing each saw tooth from being partially worn away to a large extent, and thus achieving improved straight line stability by suppressing cutting deviation.
In order to achieve the aforementioned objects, a first aspect of the present invention provides a band saw blade comprising: left and right set teeth which are set in right and left directions with respect to a running direction of the band saw blade; and a straight tooth which is not set, wherein a ridge line at a tip of each saw tooth of the set teeth and the straight tooth is formed into a convex curved line protruding most at a central portion in a thickness direction of the saw tooth.
A second aspect of the present invention provides the band saw blade according to the first aspect, wherein the ridge lines of the left and right set teeth and of the straight tooth are continuous with one another when viewed from the running direction of the band saw blade.
A third aspect of the present invention provides the band saw blade according to one of the first and second aspects, wherein a height difference between the ridge lines of the saw teeth is in a range of 0.02 mm to 0.1 mm.
A fourth aspect of the present invention provides the band saw blade according to any one of the first to third aspects, wherein a height difference between an inner corner portion of each of the left and right set teeth and the central portion in the thickness direction of the ridge line of the straight tooth is in a range of 0.00 mm to 0.03 mm.
According to the band saw blade of any of the first aspect to the fourth aspect of the present invention, it is possible to suppress occurrence of chipping while achieving improvement in strength of a corner portion of each saw tooth on the band saw blade. Moreover, each saw tooth is evenly worn away according to the band saw blade of any of the first aspect to the fourth aspect of the present invention. In other words, it is possible to avoid substantial abrasion of part of each saw tooth, to suppress cutting deviation, and thereby to improve the straight line stability.
Embodiments of the present invention will be described below with reference to the accompanying drawings. Referring to
A ridge line 9 at the tip of each saw tooth among the straight teeth 7 and the left and right set teeth 3 and 5 on the band saw blade 1 is formed into a convex curved surface such that each of the saw teeth 3, 5, and 7 protrudes most at a central portion in a thickness direction thereof. Specifically, as exaggeratingly shown in
Moreover, as exaggeratingly shown in
Therefore, an angle at an intersecting portion of any of the side surfaces 11A and 11B with the ridge line 9 on each of the saw teeth 3, 5, and 7 (hereinafter referred to as an angled portion or a corner portion), or namely, an angle between a tangent to the ridge line 9 and any of the side surfaces 11A and 11B at the intersecting portion (the corner portion) (hereinafter referred to as an angle of the angled portion or the corner portion) is greater than 90°. Here, the angles of the corner portions of the respective saw teeth 3, 5, and 7 are measured by use of photographs obtained by shooting enlarged views of the corner portions of the respective saw teeth 3, 5, and 7. Here, an outcome is subject to change depending on the thickness of the band saw blade 1 and on angles of a rake surface and a clearance surface thereof. However, when the angle of the corner portion is set to 94° which is greater than 90°, a difference in height in a band width direction of the ridge line 9 (a difference in height when viewed from the running direction of the band saw blade 1) H1 between the most protruding portion of the ridge line 9 and the corner portion as shown in
As understood from this configuration, if the ridge line 9 of each of the saw teeth 3, 5, and 7 is formed into the curved line so as to protrude most at the central portion in the thickness direction thereof; the angle of the corner portion of each of the saw teeth 3, 5, and 7 becomes equal to or greater than 90°. Therefore, strength (rigidity) of the corner portion of each of the saw teeth 3, 5, and 7 is improved more than the case of setting the angle of the corner portion equal to 90°, and it is possible to suppress occurrence of chipping. Moreover, the corner portion is set to the angle equal to or greater than 90° by forming the ridge line 9 of each of the saw teeth 3, 5, and 7 into the above-described curved line. In other words, the corner portion of each of the saw teeth 3, 5, and 7 is set to the angle equal to or greater than 90° without chamfering each of the saw teeth as disclosed in Patent Documents 1 and 2 described previously. Accordingly, it is possible to increase the angle of the corner portion without drastically changing the shape of the corner portion on each of the saw teeth 3, 5, and 7.
Therefore, when the corner portions on the respective saw teeth 3, 5, and 7 are worn away, it is possible to prevent an abrasion amount in a vertical direction from being extremely larger than an abrasion amount in a lateral direction as compared to the case of chamfering the corner portions as disclosed respectively in Patent Documents 1 and 2 described above, and thereby to achieve improvement in the straight line stability while suppressing an increase in cutting resistance and an increase in a component force in the lateral direction.
Regarding a relationship among the straight tooth 7 and the left and right saw teeth 3 and 5 on the band saw blade 1, left and right corner portions 7A and 7B of the straight tooth 7 have the same height in the band width direction as shown in
In the above-described configuration, dimensions of a difference in height (projections) H3 in the band width direction between the inner corner portions 3B and 5A of the left and right set teeth 3 and 5 are different from those between the corner portions 7A and 7B of the straight tooth 7 depending on the shape of the ridge lines 9 at the tip portions of the left and right set teeth 3 and 5 and the straight teeth 7, or in other words, depending on the angles of the corner portions of the respective saw teeth 3, 5, and 7. Here, even when the angles of the corner portions are the same, it is still possible to set the dimensions of the projections H3 into arbitrary dimensions by changing the tooth height dimensions of the straight teeth 7 and the left and right set teeth 3 and 5 before setting (dimensions from the reference position to the longest points of the respective saw teeth 3, 5, and 7).
Moreover, when the angle of the corner portion of each of the saw teeth 3, 5, and 7 reaches 101° and greater, as shown in
Here, a method of measuring the projection H3 is to obtain the value of the projection H3 by measuring the tooth height dimensions of the left and right set teeth 3 and 5 and the straight teeth 7 (the dimensions of the longest portions from the reference position to the saw teeth 3, 5, and 7) for 30 or more pieces of each type of the saw teeth (90 pieces or more in total), and then by obtaining differences among average values of the saw teeth 3, 5, and 7.
As shown in
In order to compare the above-described configuration with the ease of a typical conventional band saw blade,
In the relationship of overlap among the left and right set teeth 3 and 5 and the straight teeth 7, only the right set teeth 5 perform cutting at the single portions A1 and B1 while the right set teeth 5 and the straight teeth 7 perform cutting at the overlapping portions A2 and B2. In this case, since the ridge lines 9 overlap one another according to the configuration shown in
However, regarding the overlapping portion B2 according to the configuration shown in
As understood from the above description, according to the conventional band saw blade in which the angles of the corner portions of the left and right set teeth 3 and 5 and the straight teeth 7 are set to 90°, the corner portions (the angled portions) of the respective saw teeth 3, 5, and 7 protrude relatively largely from the straight ridge lines of the respective saw teeth 3, 5, and 7. Hence the amounts of the abrasion among the saw teeth 3, 5, and 7 at the overlapping portions of the saw teeth 3, 5, and 7 become uneven. Accordingly, along the progress of abrasion of the respective saw teeth 3, 5, and 7, the saw teeth are unevenly worn away, whereby balance in the right and left direction is deteriorated and cutting deviation will occur more often as a consequence.
On the other hand, according to the configuration shown in
In order to confirm performances of the band saw blades, four band saw blades having the conventional configuration shown in
Experimental Conditions
Here, in the band saw blade according to the first embodiment, both of the height difference H1 in the band width direction and the height difference H2 in the band length direction are set to 0.2 mm, and both of the values H1 and H2 in the band saw blade according to the second embodiment are set to 0.06 mm.
The cutting time using the same band saw machine and the same material to be cut as those cited in the experimental condition, and using the band saw blade (the conventional band saw blade shown in
As apparent from
In the case of the band saw blade shown in the first embodiment, all samples 1 to 4 cause chipping but incidence rates are equal to or below 8%. Accordingly, it is apparent that the incidence rates of chipping are lower than the case of the conventional band saw blade. Moreover, according to the band saw blade of the first embodiment, the incidence rates of chipping tend to become lower as the projection (H3=0.06 to 0.04 mm) becomes smaller.
Specifically, in the band saw blade according to the first embodiment, the ridge line 9 at each tooth tip of the left and right set teeth 3 and 5 and the straight teeth 7 is formed into the convex curved line so as to protrude most at the central portion in the thickness direction of each saw tooth, and the angle of the corner portion of each of the saw teeth 3, 5, and 7 is thereby set to 94°. Therefore, rigidity is increased as compared to the case of setting the corner portion of each of the saw teeth 3, 5, and 7 equal to 90° and the band saw blade of the first embodiment causes less chipping. Moreover, reduction in the size of the projection H3 is equivalent to reduction in the amount of projection of the inner corner portions 3B and 5A of the left and right set teeth 3 and 5 from the ridge line 9 at the tip end of the straight tooth 7. It is thus possible to reduce an amount of incision with the corner portions 3B and 5A to a small level at a start of cutting a work, and thereby to suppress occurrence of chipping.
The band saw blade of the second embodiment achieves the incident rate of chipping equal to 0%. Hence this band saw blade is apparently better than the conventional band saw blades and the band saw blade according to the first embodiment. In the band saw blade according to the second embodiment, the angle of the corner portion of each of the left and right set teeth 3 and 5 and the straight teeth 7 is equal to 101°. Therefore, rigidity of the corner portion is further increased because the angle of the corner portion is further increased. In addition, the projection (H3=0.03 to 0.02 mm) is also reduced. As a consequence, this band saw blade achieves the incidence rate of chipping equal to 0%.
As apparent from the above-described experiments, in order to reduce the incidence rate of chipping on the saw teeth on the band saw blade, it is desirable to set the angle of the corner portion on each of the saw teeth equal to or above 90°, and to set the projection H3 equal to or below 0.03 mm (including 0.00 mm).
As understood from the experimental results, it is confirmed that the band saw blade according to the second embodiment is excellent in suppressing occurrence of chipping. Therefore, experiments on abrasion of the tooth tips are subsequently carried out by use of the conventional band saw blade and the band saw blade according to the second embodiment. Experimental conditions are as follows.
Experimental Conditions
Here, in the band saw blade according to the second embodiment, both of the height difference H1 in the band width direction and the height difference H2 in the band length direction are set to 0.6 mm.
Experimental results of abrasion of the saw teeth are shown in photographs in
As apparent from
In addition, the conventional band saw blade shows a gradual increase in the size of cutting deviation after 10 cuts whereas the band saw blade according to the second embodiment show constant cutting deviation without any increase.
The experiments are conducted as the experiments in the case where both of the height difference H1 in the band width direction and the height difference H2 in the band length direction of the saw teeth 3, 5, and 7 on the band saw blade according to the second embodiment are set equal to 0.06 mm. Here, if both of the height differences H1 and H2 become equal to or below 0.02 mm, the ridge lines 9 of the respective saw teeth 3, 5, and 7 come close to a straight line. In the meantime, the angle of the corner portion of each of the saw teeth 3, 5, and 7 also comes close to 90°. Therefore, it is preferable to set each of the height differences H1 and H2 equal to or above 0.02 mm. Moreover, an upper limit of both of the height differences H1 and H2 is preferably set equal to or below 0.1 mm.
Specifically, when a brand-new band saw blade is used, trial cutting is previously performed under mild cutting conditions in order to suppress chipping. When the amounts of abrasion at the corner portions of each of the saw teeth are measured after performing this trial cutting, the maximum amounts of abrasion corresponding to the height difference in the band width direction and to the height difference in the band length direction are equal to 0.1 mm. Therefore, the height difference H1 in the band width direction and the height difference H2 in the band length direction are allowed to be 0.1 mm at the maximum.
Besides the band saw blades, the saw blades also include circular saw blades. The circular saw blades are different from the band saw blades in shape and thickness (the thickness of a band saw blade is generally in a range of 0.9 mm to 1.6 mm whereas the thickness of a circular saw blade depends on the diameter thereof but is usually in a range of 2.0 mm to 12.0 mm), and accordingly the circular saw blade has higher rigidity than the band saw blade. Therefore, even if the abrasion of the tooth tips on the saw teeth makes progress, the circular saw blades are more unlikely to cause cutting deviation than the band saw blades. Even if the above-described structure of the saw teeth of the band saw blade can be easily applied to the circular saw blade without any change, it is difficult to apply the structure of the saw teeth on the circular saw blade to the structure of the band saw blade without any change.
It is to be noted that the entire contents of Japanese Patent Application No. 2009-115473 (filed on May 12, 2009) are incorporated in this specification by reference.
The present invention is not limited only to the description in conjunction with the aforementioned embodiments of the invention and various other aspects are possible by applying appropriate modifications.
Number | Date | Country | Kind |
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2009-115473 | May 2009 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2010/057881 | 5/10/2010 | WO | 00 | 11/10/2011 |