JP4529032B2 - Band saw blade and cutting method - Google Patents

Description

  The present invention relates to a band saw blade having a large number of teeth.

  In general, a band saw machine is often used when cutting a metal or wooden workpiece, and includes a band saw blade as a cutting tool. The band saw blade includes a large number of teeth. Among the large number of teeth, there are a large number of straight blades, a large number of right set teeth that are swung rightward, and a large number of left teeth that are swung leftward. Includes clams teeth. Furthermore, in order to increase the workability (cutting ease) of the workpiece and reduce the noise (cutting noise) when cutting the workpiece, the height difference of the teeth, the swing amount of the right and left set teeth Various ideas have been made such as changing the pitch of the tip of the tooth.

In addition, there exists a thing shown to patent document 1 as a prior art relevant to this invention.
Japanese Patent No. 2953767

  By the way, when the work to be cut becomes large, the cutting length of the band saw blade becomes long, and the cutting resistance of the work becomes large. Therefore, there is a problem that the band saw blade is bent, the life of the band saw blade is shortened, the cutting noise is increased, and the working environment is deteriorated.

  The present invention has been made in view of the above-described problems, and is a band saw blade that has a large number of teeth that perform a cutting action and is supported so as to be able to run on a saw blade guide device of a band saw machine. A large number of concave and convex portions are continuously formed on the back side, and each concave and convex portion includes a concave portion that can be engaged with and detached from the backup guide in the saw blade guide device, and a convex portion adjacent to the concave portion. The concave and convex portions provided on the back side of the band saw blade are arranged regardless of the positions of the numerous teeth performing the cutting action, and the concave portions of the concave and convex portions have a length dimension larger than the depth dimension. The corner on the bottom surface side of the concave portion is formed in an R shape, and the length of the concave and convex portion is not less than the minimum pitch of the tooth tip of the tooth and not more than four times the maximum pitch. And the recess engages with the backup guide Amplitude is forcibly vibrated in the band width direction of the band saw blade by withdrawal is characterized in that it is 0.1 mm to 0.5 mm.

  The band saw blade is provided with a large number of teeth that perform cutting action and is supported so as to be able to run on the saw blade guide device of the band saw machine, and a large number of notches are continuously formed on the back side of the band saw blade. The notch portions provided on the back side of the band saw blade are arranged regardless of the positions of the many teeth that perform the cutting action, and the notch portions have a length dimension larger than the depth dimension. The notch portion is formed so that the length of the notch portion is not less than the minimum pitch of the tooth tip of the tooth and not more than four times the maximum pitch, and the notch portion engages with the backup guide. The amplitude forcibly oscillating in the band width direction of the band saw blade when separated is 0.1 mm to 0.5 mm.

  First, a general configuration of the horizontal band saw machine according to the embodiment will be described with reference to FIG.

  Here, FIG. 19 is a front view of the horizontal band saw machine according to the embodiment. Note that “left and right” means left and right, and “up and down” means up and down, based on the orientation of the drawing at the time of publication of the patent publication.

  As shown in FIG. 19, the horizontal band saw 1 according to the embodiment includes a box-shaped support frame 3, and the support frame 3 is provided with a table 5 that supports a workpiece W. The support frame 3 is provided with a fixed vise 7 and a movable vice 9 that sandwich the workpiece W, and the movable vise 9 moves to and away from the fixed vice 7 by the operation of the vise cylinder 11. It can move in the direction.

  Further, a guide post 13 (a part of the guide post 13 is omitted in FIG. 19) is erected on the support frame 3, and a saw blade housing 15 moves in the vertical direction on the guide post 13. It is provided as possible. In order to move the saw blade housing 15 in the vertical direction, the support frame 3 includes a housing cylinder 19 provided with a piston rod 17 movable in the vertical direction (a part of the housing cylinder 19 is omitted in FIG. 19). The tip of the piston rod 17 is connected to an appropriate position of the saw blade housing 15.

  A driving wheel 19 and a driven wheel 21 are rotatably provided in the saw blade housing 15, and the driving wheel 19 is linked to a running motor (not shown). An endless band saw blade 23 is provided around the main driving wheel 19 and the driven wheel 21 so as to hang around. In other words, an endless band saw blade 23 is provided in the saw blade housing 15 via the main driving wheel 19 and the driven wheel 21.

  In addition, the saw blade housing 15 is provided with a pair of saw blade guide devices 25, and the pair of saw blade guide devices 25 is such that the tooth tip of the portion entering the cutting region A faces the workpiece W side. The band saw blade 23 is supported so as to be able to run. Each saw blade guide device 25 includes a pair of guide rollers 27 that support the body portion of the band saw blade 23 and a backup roller 29 that is one of the backup guides that support the back side of the band saw blade 23. (See FIG. 1).

  The band saw blade 23 and the saw blade guide device 25 have various embodiments as will be described later.

  Accordingly, the movable vice 9 is moved in the left direction approaching the fixed vice 7 by the operation of the vise cylinder 11, and the work W supported by the table 5 is held between the movable vice 9 and the fixed vice 7. Next, the main driving wheel 19 and the driven wheel 21 are rotated by driving the traveling motor, and the band saw blade 23 is circulated. Then, the saw blade housing 15 is moved downward (cutting direction) approaching the workpiece W by the operation of the housing cylinder 19. Thereby, it is possible to cut the workpiece W in the cutting area A.

<< First Example >>
Next, the band saw blade according to the first example of the embodiment will be described with reference to FIGS. 1 (a) and 1 (b), FIGS. 2 (a) to 2 (d), FIG. 20, FIG. 21 and FIG.

  FIGS. 1A and 1B are diagrams showing a band saw blade according to the first example of the embodiment, and FIGS. 2A to 2D illustrate the operation of the first example of the embodiment. FIG. 20 (a) is a diagram showing the relationship between the length of the concavo-convex portion and the cutting resistance ratio when an experiment was performed by changing the length of the concavo-convex portion of the band saw blade under a predetermined condition. FIG. 20B is a diagram showing the relationship between the length of the uneven portion and the noise value when the length of the uneven portion of the band saw blade is changed under a predetermined condition. ) Is a diagram showing the relationship between the amplitude and the cutting resistance ratio when an experiment was performed by changing the amplitude of the vibration of the band saw blade under a predetermined condition, and FIG. 21B is a diagram showing the band saw under the predetermined condition. FIG. 22 is a diagram showing the relationship between the amplitude and the noise value when an experiment was performed while changing the amplitude of blade vibration. FIG. 22 shows the vibration of the band saw blade under a predetermined condition. He is a graph showing the relationship between the frequency and the cutting resistance ratio in case of experiments with different frequencies.

  As shown in FIG. 1A, the band saw blade 23i according to the first embodiment is supported by the pair of saw blade guide devices 25 so as to be able to run as described above, and includes a large number of teeth 31. ing. Here, the large number of teeth 31 includes a large number of straight teeth, a large number of left set teeth, and a large number of right set teeth.

  On the back side of the band saw blade 23i, a large number of concave and convex portions 33 are formed continuously. Each concave and convex portion 33 is a rectangular concave portion (depth B, long length) that can be engaged with and detached from the backup roller 29, respectively. L) 35 and a convex portion 37 adjacent to the concave portion 35.

  The band saw blade 23i is configured such that the length P of the concavo-convex portion 33 is not less than the minimum pitch Tmin of the teeth 31 and not more than four times the maximum pitch Tmax. Here, the reason why the length of the concavo-convex portion 33 is set to be equal to or less than four times the maximum tip pitch Tmax of the tooth is supported by the results of Experiment 1 shown in FIGS. 20 (a) and 20 (b). This is because if the length of the concavo-convex portion 33 exceeds the length (52 mm) that is four times the maximum tip pitch Tmax of the tooth 31, the noise value (particularly the noise value measured by the C characteristic) increases.

Experiment 1 was conducted under predetermined conditions (the workpiece W diameter was 400 mm, the band saw blade 23i had a saw width of 41 mm, a band thickness of 1.3 mm, a band length of 4959 mm, a tooth tip minimum pitch Tmin of 9.4 mm, teeth The maximum pitch Tmax is 13.0 mm, the diameter of the backup roller 29 is 34 mm, the band saw blade 23i traveling speed is 55 m / min, and the cutting rate is 50 cm ² / min).

  The band saw blade 23 i is configured such that a gap is formed between the backup roller 29 and the bottom surface of the recess 35 when the backup roller 29 is engaged with the recess 35. Furthermore, as shown in FIG. 1B, it is desirable that the corner on the bottom surface side of the recess 35 is formed in an R shape in order to suppress stress concentration occurring in the corner on the bottom surface side of the recess 35.

  Next, the cutting method according to the first embodiment will be described including its operation.

  While the band saw blade 23i is supported by the pair of saw blade guide devices 25, the saw blade housing 15 is moved downward while approaching the workpiece W while circulating the band saw blade 23i. Thereby, it can cut with respect to the workpiece | work W in the cutting area | region A (refer FIG. 19).

  A large number of concavo-convex portions 33 are continuously formed on the back side of the band saw blade 23i, and the length P of the concavo-convex portions 33 is configured to be not more than four times the maximum tip pitch Tmax of the teeth 31. Therefore, during cutting of the workpiece W, the concave portions 35 in the large number of concave and convex portions 33 are continuously engaged and disengaged from the backup roller 29, thereby forcing the band saw blade 23i in the band width direction in the cutting region A. Can be vibrated. Thereby, in the cutting area A, the tooth 31 as shown in FIGS. 2A and 2B bites into the workpiece W, and the tooth 31 as shown in FIGS. 2C and 2D removes the chips Wa. The scraping operation can be alternately repeated at short intervals.

  Here, the amount of immersion of the backup roller 29 into the recess 35 when the backup roller 29 is engaged with the recess 35 is the amplitude S of the vibration of the band saw blade 23i. 5 mm or less. As supported by the results of Experiment 2 shown in FIGS. 21 (a) and 21 (b), if the amplitude of vibration of the band saw blade 23i is less than 0.1 mm, the cutting resistance of the workpiece W is made sufficiently small. On the other hand, if the amplitude of the vibration of the band saw blade 23i exceeds 0.5 mm, the noise value (particularly the noise value measured by the C characteristic) increases.

  Note that Experiment 2 is also performed under the same predetermined conditions as Experiment 1.

  Further, the frequency Z (Z = (1000 V / 60) / P) of the vibration of the band saw blade 23i specified by the length P (mm) of the uneven portion 33 and the traveling speed V (m / min) of the band saw blade 23i is 5 Hz or more. This is because the cutting resistance of the workpiece W cannot be sufficiently reduced when the frequency of the vibration of the band saw blade 23i is less than 5 Hz, as supported by the result of Experiment 3 shown in FIG.

  Note that Experiment 3 is also performed under the same predetermined conditions as Experiment 1.

  As described above, according to the first embodiment, in the cutting region A, the operation in which the tooth 31 bites into the workpiece W and the operation in which the tooth 31 scrapes off the chips Wa can be alternately repeated at short intervals. Regardless of the size of the workpiece W, the cutting length of the band saw blade 23i can be shortened to reduce the cutting resistance of the workpiece W. Therefore, the bending of the band saw blade 23i is suppressed, the life of the band saw blade 23i is lengthened, the cutting noise is reduced, and the working environment is improved.

<< Second Embodiment >>
Next, a second example of the embodiment will be described with reference to FIG.

  Drawing 3 is a figure showing the band saw blade concerning the 2nd example of an embodiment.

  As shown in FIG. 3, the band saw blade 23ii according to the second embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and only differences from the configuration of the band saw blade 23i will be described. .

  That is, in the band saw blade 23i according to the first embodiment, the many uneven portions 33 have the same length, whereas in the band saw blade 23ii according to the second embodiment, a large number of uneven portions. 33 is configured to be classified into two types according to the length of the uneven portion 33. In other words, the uneven portions 33 having different lengths P1 and P2 exist in the large number of uneven portions 33.

  Even if the band saw blade 23ii according to the second embodiment is used, the same cutting method as that of the first embodiment can be used. In the second embodiment, the same operations and effects as those of the first embodiment can be achieved. Play. In particular, since the uneven portions 33 having different lengths P1 and P2 exist in the large number of uneven portions 33, the cutting performance (easiness of cutting) of the workpiece W can be further improved and the cutting noise can be further reduced. .

  The large number of uneven portions 33 may be configured to be classified into three or more types according to the length of the uneven portion 33.

<< Third embodiment >>
Next, a third example of the embodiment will be described with reference to FIG.

  Drawing 4 is a figure showing the band saw blade concerning the 3rd example of an embodiment.

  As shown in FIG. 4, the band saw blade 23iii according to the third embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and only differences from the configuration of the band saw blade 23i will be described. .

  That is, in the band saw blade 23i according to the first embodiment, the lengths of the concave portions 35 in the large number of concave and convex portions 33 are the same, whereas in the band saw blade 23iv according to the third embodiment, there are many The concave portion 35 in the concave and convex portion 33 is configured to be classified into two types according to the length of the concave portion 35. In other words, the concave portions 35 having different lengths L1 and L2 exist in the concave portions 35 of the large number of concave and convex portions 33.

  Even if the band saw blade 23iii according to the third embodiment is used, the same cutting method as that in the first embodiment can be used. In the third embodiment, the same operations and effects as those in the first embodiment can be achieved. Play. In particular, since the recesses 35 having different lengths L1 and L2 exist in the recesses 35 in the large number of recesses and projections 33, it is possible to further improve the machinability of the workpiece W and reduce the cutting noise. Here, the vibration of the band saw blade 23iv has different amplitudes S1 and S2 corresponding to the different lengths of the recesses 35.

  In addition, the recessed part 35 in many uneven | corrugated | grooved parts 33 may be comprised so that it may be classified into 3 or more types according to the length of the recessed part 35.

<< 4th Example >>
Next, a fourth example of the embodiment will be described with reference to FIGS.

  Fig.5 (a) (b) is a figure which shows the band saw blade concerning the 4th Example of embodiment.

  As shown in FIGS. 5A and 5B, the band saw blade 23vi according to the fourth embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment. Only the differences will be described.

  That is, in the band saw blade 23i according to the first embodiment, the large number of uneven portions 33 have the same length, whereas in the band saw blade 23iv according to the fourth embodiment, a large number of uneven portions. 33 is configured to be classified into two types according to the length of the uneven portion 33. In other words, uneven portions having different lengths P1 and P2 exist in the large number of uneven portions. As shown in FIG. 5A, the lengths of the convex portions 35 may be the same (P1-L1 = P2-L2). As shown in FIG. The distances may be different (P1-L1 ≠ P2-L2).

  Further, in the band saw blade 23i according to the first embodiment, the concave portions 35 in the large number of uneven portions 33 have the same length, whereas in the band saw blade 23iv according to the fourth embodiment, a large number The concave portion 35 in the concave and convex portion 33 is configured to be classified into two types according to the length of the concave portion 35. In other words, the concave portions 35 having different lengths L1 and L2 exist in the concave portions 35 of the large number of concave and convex portions 33.

  Even if the band saw blade 23iv according to the fourth embodiment is used, the same cutting method as that of the first embodiment can be used. In the fourth embodiment, the same operations and effects as those of the first embodiment can be achieved. Play. In particular, there are concave and convex portions having different lengths P1 and P2 in a large number of concave and convex portions, and there are concave portions 35 having different lengths L1 and L2 in the concave portions 35 in the multiple concave and convex portions 33. It is possible to further improve the machinability of the workpiece W and further reduce the cutting noise. Here, the vibration of the band saw blade 23iv has different amplitudes S1 and S2 corresponding to the different lengths of the recesses 35.

  In addition, the many uneven | corrugated | grooved parts 33 may be comprised so that it may be classified into 3 or more types according to the length of the uneven | corrugated | grooved part 33, and the recessed part 35 in many concavo-convex parts 33 respond | corresponds to the length of the recessed part 35. It may be configured to be classified into three or more types.

<< 5th Example >>
Next, a fifth example of the embodiment will be described with reference to FIG.

  Drawing 6 is a figure showing the band saw blade concerning the 5th example of an embodiment.

  As shown in FIG. 6, the band saw blade 23v according to the fifth embodiment has substantially the same configuration as that of the band saw blade 23i according to the first embodiment, and only differences from the configuration of the band saw blade 23i will be described. .

  That is, in the band saw blade 23i according to the first embodiment, the shape of the concave portion 35 is rectangular, whereas in the band saw blade 23v according to the fifth embodiment, the shape of the concave portion 35 is trapezoidal. is there.

  Even if the band saw blade 23v according to the fifth embodiment is used, the same cutting method as that in the first embodiment can be used. In the fifth embodiment, the same operation and effect as in the first embodiment can be achieved. Play.

  In addition, the many uneven | corrugated | grooved parts 33 may be comprised so that it may be classified into 2 or more types according to the length of the uneven | corrugated | grooved part 33, and the recessed part 35 in many concavo-convex parts 33 respond | corresponds to the length of the recessed part 35. It may be configured to be classified into two or more types.

<< Sixth embodiment >>
Next, a sixth example of the embodiment will be described with reference to FIG.

  FIG. 7 is a diagram showing a band saw blade according to a sixth example of the embodiment.

  As shown in FIG. 7, the band saw blade 23vi according to the sixth embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and only differences from the configuration of the band saw blade 23i will be described. .

  That is, in the band saw blade 23i according to the first embodiment, the shape of the recess 35 is rectangular, whereas in the band saw blade 23vi according to the sixth embodiment, the shape of the recess 35 has a groove. Shape.

  Even if the band saw blade 23vi according to the sixth embodiment is used, the same cutting method as in the first embodiment can be used. In the sixth embodiment, the same operation and effect as in the first embodiment can be achieved. Play.

  In addition, the many uneven | corrugated | grooved parts 33 may be comprised so that it may be classified into 2 or more types according to the length of the uneven | corrugated | grooved part 33, and the recessed part 35 in many concavo-convex parts 33 respond | corresponds to the length of the recessed part 35. It may be configured to be classified into two or more types.

<< Seventh embodiment >>
Next, a seventh example of the embodiment will be described with reference to FIG.

  FIG. 8 is a diagram showing a band saw blade according to a seventh example of the embodiment.

  As shown in FIG. 8, the band saw blade 23vii according to the seventh embodiment has substantially the same configuration as the band saw blade 23iv according to the fourth embodiment, and only differences from the configuration of the band saw blade 23iv will be described. .

  That is, the band saw blade 23iv according to the fourth embodiment is configured such that a gap is formed between the backup roller 29 and the bottom surface of the recess 35 when the backup roller 29 is engaged with the recess 35. The band saw blade 23vii according to the seventh embodiment is configured such that when the backup roller 29 is engaged with the recess 35, the backup roller 29 and the bottom surface of the recess 35 are in contact with each other. Thereby, in the band saw blade 23vii, the number of contact points with the backup roller 29 increases, and the cutting back force can be distributed and received by the backup roller 29.

  Even if the band saw blade 23vii according to the seventh embodiment is used, the same cutting method as that of the fourth embodiment (first embodiment) can be used. In the seventh embodiment, the first embodiment ( The same operations and effects as in the first embodiment) are achieved. Here, when the backup roller 29 is engaged with the recess 35, the amount of immersion of the backup roller 29 into the recess 35 is the same as the depth B of the recess 35, and the depth B of the recess 35 is the vibration of the band saw blade 23vii. The amplitude becomes S.

<< Eighth embodiment >>
Next, an eighth example of the embodiment will be described with reference to FIG.

  FIG. 9 is a diagram illustrating a band saw blade according to an eighth example of the embodiment.

  As shown in FIG. 9, the band saw blade 23viii according to the eighth embodiment has substantially the same configuration as the band saw blade 23vii according to the seventh embodiment, and only differences from the configuration of the band saw blade 23viii will be described. .

  That is, in the band saw blade 23vii according to the seventh embodiment, the concave portions 35 in the large number of concave and convex portions 33 are one type, whereas in the band saw blade 23viii according to the eighth embodiment, there are a large number of concave portions 35. The concave portion 35 in the concave and convex portion 33 is configured to be classified into two types according to the depth of the concave portion 35. In other words, the recesses 35 having different depths B1 and B2 exist in the recesses 35 of the large number of recesses and projections 33.

  Even if the band saw blade 23viii according to the eighth embodiment is used, the same cutting method as the seventh embodiment (the cutting method of the first embodiment) can be used. The same operations and effects as the embodiment (first embodiment) are exhibited. In particular, since the concave portions 35 having different depths B1 and B2 exist in the concave portions 35 in the large number of concave and convex portions 33, the cutting performance of the workpiece W can be further improved and the cutting noise can be further reduced. Here, the vibration of the band saw blade 23xi has different amplitudes S1 (= B1) and S2 (= B2) corresponding to the different depths of the recesses 35.

  In addition, the recessed part 35 in many uneven | corrugated | grooved parts may be comprised so that it may be classified into 3 or more types according to the depth of the recessed part 35, and the many uneven | corrugated | grooved parts 33 depend on the length of the uneven | corrugated part 33. It may be configured to be classified into two or more types.

<< Ninth embodiment >>
Next, a ninth example of the embodiment will be described with reference to FIG.

  FIG. 10 is a diagram illustrating a band saw blade according to a ninth example of the embodiment.

  As shown in FIG. 10, the band saw blade 23ix according to the ninth embodiment has substantially the same configuration as the band saw blade 23vii according to the seventh embodiment, and only differences from the configuration of the band saw blade 23vii will be described. .

  That is, in the band saw blade 23vii according to the seventh embodiment, the shape of the recess 35 is rectangular, whereas in the band saw blade 23ix according to the ninth embodiment, the shape of the recess 35 is a backup roller. It has an arc shape having the same curvature as 29 curvatures. Thereby, in the band saw blade 23ix according to the ninth embodiment, the backup roller 29 and the concave portion 35 are in surface contact, and the cutting back force can be distributed and received by the backup roller 29.

  Even if the band saw blade 23ix according to the ninth embodiment is used, the same cutting method as that of the seventh embodiment (the cutting method of the first embodiment) can be used. The same operations and effects as the embodiment (first embodiment) are exhibited.

  In addition, the recessed part 35 in many uneven | corrugated | grooved parts may be comprised so that it may be classified into 2 or more types according to the depth of the recessed part 35, and the many uneven | corrugated | grooved parts 33 depend on the length of the uneven | corrugated part 33. It may be configured to be classified into two or more types.

<< Tenth embodiment >>
Next, a tenth embodiment will be described with reference to FIG.

  FIG. 11 is a diagram illustrating a band saw blade according to a tenth example of the embodiment.

  As shown in FIG. 11, the band saw blade 23x according to the tenth embodiment has substantially the same configuration as the band saw blade 23vii according to the seventh embodiment, and only differences from the configuration of the band saw blade 23vii will be described. .

  That is, in the band saw blade 23vii according to the seventh embodiment, the bottom surface of the concave portion 35 is configured to be flat, whereas in the band saw blade 23x according to the tenth embodiment, the concave portion It is comprised so that the bottom face of 35 may incline.

  Even if the band saw blade 23x according to the tenth embodiment is used, the same cutting method as the seventh embodiment (the cutting method of the first embodiment) can be used. The same operations and effects as the embodiment (first embodiment) are exhibited. Here, since the bottom surface of the recess 35 is configured to be inclined, the vibration of the band saw blade 23x becomes a smooth movement, and chipping of the tooth tip of the tooth 31 can be reduced.

<< Eleventh embodiment >>
Next, an eleventh embodiment will be described with reference to FIGS.

  FIGS. 12A and 12B are diagrams showing a band saw blade according to an eleventh example of the embodiment.

  As shown in FIGS. 12A and 12B, the band saw blade 23xi according to the eleventh embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and in the eleventh embodiment. Only a difference from the first embodiment will be briefly described.

  That is, the saw blade guide device 25 according to the first embodiment includes one backup roller 29, whereas the saw blade guide device 25 according to the eleventh embodiment includes two or three backup rollers 29. I have. Here, the distance between the centers of the two or three backup rollers 29 is divided by the length P of the concavo-convex portion 33 to be 2 (or an integer of 3 or more). Thereby, a large cutting back force can be distributed and received by the two backup rollers 29.

  Even if the band saw blade 23xi according to the eleventh embodiment is used, the same cutting method as that in the first embodiment can be used. In the eleventh embodiment, the same operations and effects as those in the first embodiment can be achieved. Play.

<< Twelfth embodiment >>
Next, a band saw blade according to a twelfth example of the embodiment will be briefly described with reference to FIGS.

  FIGS. 13A and 13B are diagrams showing a band saw blade according to a twelfth example of the embodiment.

  As shown in FIGS. 13 (a) and 13 (b), the band saw blade 23xii according to the twelfth embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and in the twelfth embodiment. Only a difference from the first embodiment will be briefly described.

  That is, the saw blade guide device 25 according to the first embodiment includes the backup roller 29, whereas the saw blade guide device 25 according to the twelfth embodiment includes a backup tip 39 which is another backup guide. ing.

  Even if the band saw blade 23xii according to the twelfth embodiment is used, the same cutting method as that of the first embodiment can be used. In the twelfth embodiment, the same operations and effects as those of the first embodiment can be achieved. Play.

<< Thirteenth embodiment >>
Next, a thirteenth example of the embodiment will be described with reference to FIGS.

  Fig.14 (a) is a figure which shows the band saw blade concerning 13th Example of embodiment, FIG.14 (b) is a figure along the (alpha)-(alpha) line in Fig.14 (a).

  As shown in FIGS. 14A and 14B, the band saw blade 23xiii according to the thirteenth embodiment has substantially the same configuration as the band saw blade 23i according to the first embodiment, and is different from the configuration of the band saw blade 23i. Only the point will be described.

  That is, in the band saw blade 23i according to the first embodiment, the recess 35 is formed by cutting or grinding, whereas in the band saw blade 23xiii according to the thirteenth embodiment, the recess 35 is formed by rolling. Is formed.

  Even if the band saw blade 23xiii according to the thirteenth embodiment is used, the same cutting method as that of the first embodiment can be used. In the thirteenth embodiment, the same operations and effects as those of the first embodiment can be achieved. Play.

<< 14th embodiment >>
Next, a band saw blade according to a fourteenth example of the embodiment will be described with reference to FIGS. 15 and 16A to 16D.

  FIG. 15 is a diagram showing a band saw blade according to the fourteenth example of the embodiment, and FIGS. 16A to 16D are schematic diagrams for explaining the operation of the fifteenth example of the embodiment.

  As shown in FIG. 15, the band saw blade 23xiv according to the fourteenth embodiment, like the band saw blade 23i according to the first embodiment, is supported by a pair of saw blade guide devices 25 so as to be capable of running, A large number of teeth 31 are provided.

  On the back side of the band saw blade 23xiv, a large number of triangular notches (depth B) 41 that can be engaged with and detached from the backup roller 29 are formed continuously.

  The band saw blade 23xiv is configured such that the length P of the notch portion 41 is not less than the minimum pitch Tmin of the tooth tip of the tooth 31 and not more than four times the maximum pitch Tmax. Here, the length of the notch portion 41 is set to be not more than four times the maximum pitch Tmax of the tooth tip in the tooth because the length of the notch portion 41 is four times the maximum pitch Tmax of the tooth tip in the tooth 31. This is because the noise value (especially, the noise value measured by the C characteristic) becomes large when the length of (1) is exceeded (confirmed by performing the same experiment as the above-mentioned experiment 1).

  Further, the band saw blade 23xiv is configured such that a gap is formed between the backup roller 29 and the bottom surface of the notch portion 41 when the backup roller 29 is engaged with the notch portion 41.

  Next, the cutting method according to the fourteenth embodiment will be described including its operation.

  Under the state where the band saw blade 23xiv is supported by the pair of saw blade guide devices 25, the saw blade housing 15 is moved downward toward the work W while the band saw blade 23xiv is circulated. Thereby, it can cut with respect to the workpiece | work W in the cutting area | region A (refer FIG. 19).

  A large number of notches 41 are continuously formed on the back side of the band saw blade 23xiv, and the length P of the notches 41 is configured to be less than or equal to four times the maximum pitch Tmax of the teeth 31. Therefore, during cutting of the workpiece W, the numerous notch portions 41 are continuously engaged and disengaged from the backup roller 29, so that the band saw blade 23xiv is forcibly vibrated in the band width direction in the cutting region A. Can do. Thereby, in the cutting area A, the operation of the good teeth 31 shown in FIGS. 16 (a) and 16 (b) biting into the workpiece W, and the teeth 31 as shown in FIGS. 16 (c) and 16 (d) remove the chips Wa. The scraping operation can be alternately repeated at short intervals.

  Here, when the backup roller 29 is engaged with the notch portion 41, the amount of immersion of the backup roller 29 with respect to the notch portion 41 becomes the amplitude S of the vibration of the band saw blade 23xiv, and this amplitude S is 0.1 mm or more. 0.5 mm or less. This is because if the vibration amplitude of the band saw blade 23xiv is less than 0.1 mm, the cutting resistance of the workpiece W cannot be made sufficiently small, while if the vibration amplitude of the band saw blade 23xiv exceeds 0.5 mm, noise is generated. This is because the value (in particular, the noise value measured by the C characteristic) becomes large (confirmed by performing the same experiment as the above-described experiment 2).

  The frequency Z (Z = (1000 V / 60) / P) of the vibration of the band saw blade 23xiv specified by the length P (mm) of the notch portion 41 and the traveling speed V (m / min) of the band saw blade 23xiv is 5 Hz or more. This is because if the frequency of the vibration of the band saw blade 23xiv is less than 5 Hz, the cutting resistance of the workpiece W cannot be made sufficiently small (confirmed by conducting the same experiment in the above-mentioned experiment 3).

  As described above, according to the fourteenth embodiment, in the cutting region A, the operation in which the tooth 31 bites into the workpiece W and the operation in which the tooth 31 scrapes off the chips Wa can be alternately repeated at short intervals. Regardless of the size of the workpiece W, the cutting length of the band saw blade 23xiv can be shortened to reduce the cutting resistance of the workpiece W. Therefore, the bending of the band saw blade 23xiv is suppressed, the life of the band saw blade 23xiv is lengthened, the cutting noise is reduced, and the working environment is improved.

<< 15th embodiment >>
Next, a band saw blade according to the fifteenth example of the embodiment will be briefly described with reference to FIGS.

  FIGS. 17A and 17B are diagrams showing a band saw blade according to the fifteenth example of the embodiment.

  As shown in FIGS. 17A and 17B, the band saw blade 23xv according to the fifteenth embodiment has substantially the same configuration as the band saw blade 23xiv according to the fourteenth embodiment, and is different from the configuration of the band saw blade 23xiv. Only the point will be described.

  That is, in the band saw blade 23xiv according to the fourteenth embodiment, the shape of the notch portion 41 is a triangle and the shoulder side of the notch portion 41 is formed in a square shape, whereas the fifteenth embodiment. In the band saw blade 23xv related to the above, the shape of the notch portion 41 is corrugated, or the shoulder side of the notch portion 41 is configured in an R shape.

  Even if the band saw blade 23xv according to the fifteenth embodiment is used, the same cutting method as that of the fourteenth embodiment can be used, and the fifteenth embodiment also has the same operations and effects as the fourteenth embodiment. Play.

<< Sixteenth embodiment >>
Next, a sixteenth example of the embodiment will be described with reference to FIGS.

  FIG. 18A is a diagram showing a band saw blade according to the thirteenth example of the embodiment, and FIG. 18B is a diagram along the β-β line in FIG.

  As shown in FIGS. 18A and 18B, the band saw blade 23xvi according to the sixteenth embodiment has substantially the same configuration as the band saw blade 23xiv according to the fourteenth embodiment, and is different from the configuration of the band saw blade 23xiv. Only the point will be described.

  That is, the band saw blade 23xiv according to the fourteenth embodiment is configured such that a gap is formed between the backup roller 29 and the bottom surface of the notch portion 41 when the backup roller 29 is engaged with the notch portion 41. On the other hand, the band saw blade 23xvi according to the sixteenth embodiment is configured such that when the backup roller 29 is engaged with the notch portion 41, the backup roller 29 and the bottom surface of the notch portion 41 are in contact with each other. Thereby, in the band saw blade 23xvi, the number of contact points with the backup roller 29 increases, and the cutting back force can be distributed and received by the backup roller 29.

  Further, in the band saw blade 23xiv according to the fourteenth embodiment, the notch portion 41 is formed by cutting or grinding, whereas in the band saw blade 23xvi according to the sixteenth embodiment, the notch portion 41 is formed. It is formed by rolling.

  Even if the band saw blade 23xvi according to the sixteenth embodiment is used, the same cutting method as that of the fourteenth embodiment can be used. In the sixteenth embodiment, the same operations and effects as those of the fourteenth embodiment can be achieved. Play. Here, when the backup roller 29 is engaged with the notch portion 41, the amount of immersion of the backup roller 29 into the notch portion 41 is the same as the depth B of the notch portion 41, and the depth B of the notch portion 41 is the band saw blade. The vibration amplitude is 23xvi.

  In addition, this invention is not restricted to description of the above-mentioned embodiment, It can implement in a various other aspect by making an appropriate change.

Fig.1 (a) (b) is a figure which shows the band saw blade concerning the 1st Example of embodiment. FIGS. 2A to 2D are schematic views for explaining the operation of the first example of the embodiment. It is a figure which shows the band saw blade concerning the 2nd Example of embodiment. It is a figure which shows the band saw blade concerning 3rd Example of embodiment. It is a figure which shows the band saw blade concerning 4th Example of embodiment. It is a figure which shows the band saw blade concerning the 5th Example of embodiment. It is a figure which shows the band saw blade concerning the 6th Example of embodiment. It is a figure which shows the band saw blade concerning the 7th Example of embodiment. It is a figure which shows the band saw blade concerning the 8th Example of embodiment. It is a figure which shows the band saw blade concerning the 9th Example of embodiment. It is a figure which shows the band saw blade concerning the 10th Example of embodiment. FIGS. 12A and 12B are diagrams showing a band saw blade according to an eleventh example of the embodiment. FIGS. 13A and 13B are diagrams showing a band saw blade according to a twelfth example of the embodiment. Fig.14 (a) is a figure which shows the band saw blade concerning 13th Example of embodiment, FIG.14 (b) is a figure along the (alpha)-(alpha) line in Fig.14 (a). It is a figure which shows the band saw blade concerning 14th Example of embodiment. FIGS. 16A to 16D are schematic views for explaining the operation of the fourteenth example of the embodiment. FIGS. 17A and 17B are diagrams showing a band saw blade according to the fifteenth example of the embodiment. FIG. 18A is a diagram showing a band saw blade according to the sixteenth example of the embodiment, and FIG. 18B is a diagram along the β-β line in FIG. It is a front view of the horizontal type band saw machine concerning an embodiment. FIG. 20A is a diagram showing the relationship between the length of the concavo-convex portion and the cutting resistance ratio when the experiment was performed by changing the length of the concavo-convex portion of the band saw blade under a predetermined condition, and FIG. These are figures which show the relationship between the length of an uneven | corrugated | grooved part and a noise value at the time of experimenting by changing the length of the uneven | corrugated | grooved part of a band saw blade on predetermined conditions. FIG. 21A is a diagram showing the relationship between the amplitude and the cutting resistance ratio when an experiment is performed by changing the amplitude of the vibration of the band saw blade under a predetermined condition, and FIG. It is a figure which shows the relationship between an amplitude and a noise value in the case of experimenting by changing the amplitude of the vibration of a band saw blade. It is a figure which shows the relationship between the frequency and cutting resistance ratio in the case of experimenting by changing the frequency of vibration of the band saw blade under a predetermined condition.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Horizontal type band saw machine 15 Saw blade housing 23 (23i-23xvi) Band saw blade 25 Saw blade guide apparatus 29 Backup roller 31 Tooth 33 Uneven part 35 Concave part 37 Convex part 39 Backup chip 41 Notch part

Claims (2)

A band saw blade that has a large number of teeth that perform cutting action and is supported so as to be able to run on the saw blade guide device of the band saw machine. The concavo-convex part is composed of a concave part that can be engaged with and detached from the backup guide in the saw blade guide device, and a convex part adjacent to the concave part,
A large number of irregularities provided on the back side of the band saw blade are arranged regardless of the positions of a large number of teeth that perform cutting action,
The concave portion of the concave-convex portion is formed with a length dimension larger than a depth dimension,
The corner on the bottom side of the recess is formed in an R shape,
The concave and convex portions are configured to have a length that is not less than the minimum pitch of the tooth tip of the tooth and not more than four times the maximum pitch. A band saw blade characterized in that the amplitude forcibly oscillated in the band width direction of the blade is 0.1 mm to 0.5 mm. A band saw blade that has a large number of teeth that perform cutting action and is supported so as to be able to run on the saw blade guide device of the band saw machine. In addition, a large number of notch portions provided on the back side of the band saw blade are arranged regardless of the positions of a large number of teeth that perform cutting action,
The notch portion has a length dimension larger than a depth dimension,
The length of the notch is configured to be not less than the minimum pitch of the tooth tip of the tooth and not more than four times the maximum pitch, and the notch is engaged with and detached from the backup guide. A band saw blade characterized in that an amplitude forcibly vibrated in a band width direction of the band saw blade is 0.1 mm to 0.5 mm.