JPH0775915A - Saw setting machine - Google Patents

Abstract

PURPOSE:To machine the cutting edge of any saw plate material and greatly improve the working efficiency by inputting the outline, setting number and pitch of the cutting edge of the saw plate material to a specification setting means. CONSTITUTION:When the outline, setting number and pitch of the cutting edge of a saw plate material is input to a specification setting means 12, a computing means 13 sends control signals to controllers in mechanisms in accordance with setting signals from the specification setting means 12. A transfer mechanism 1 intermittently transfers the saw plate material in accordance with the control signals, so that the saw plate material is separately supplied to the transfer mechanism 1 by a supply mechanism 5 and the lower edge is machined by a lower edge machining mechanism 6. The saw plate material has the upper edge machined by an upper edge machining mechanism 7 and the upper settings machined by an upper setting machining mechanism 8. Then, the saw plate material is burred by a burring mechanism 9 and removed from the transfer mechanism 1 by a removing mechanism 11.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an arbitrary blade edge contour such as a straight blade edge, a curved blade edge, an arbitrary number of stitches, a blade pitch, a double-edged blade,
The present invention relates to a saw stitching machine used for manufacturing various saws such as a single-edged saw.

[0002]

2. Description of the Related Art Conventionally, most of the saw plates of this type have been artificially manufactured, and in recent years, automatic manufacturing machines have been proposed.

[0003]

However, since these machines are special-purpose machines, they cannot cope with saws having various specifications, resulting in low flexibility and economical efficiency. Have

[0004]

SUMMARY OF THE INVENTION An object of the present invention is to solve such an inconvenience, and its gist is a transfer mechanism capable of intermittently transferring a saw plate material and a transfer mechanism for the saw plate material. Separate feeding mechanism, a lower blade processing mechanism capable of processing a lower blade on the saw plate material, an upper blade processing mechanism capable of processing an upper blade on the saw plate material, and an upper eye on the saw plate material. And a deburring mechanism capable of deburring the saw plate material, and a take-out mechanism capable of taking out the saw plate material from the transfer mechanism. It is provided with specification setting means capable of setting the edge contour, the number of stitches and the blade pitch, and an arithmetic processing means for sending a control signal to a control target of each mechanism based on a setting signal from the specification setting means. It is in a saw-tooth machine that is characterized.

Further, since a saw blade material may be provided with a vertical blade processing mechanism capable of processing a vertical blade, it is desirable that the specification setting means be provided with a single-edged saw or a double-edged saw that can be selectively set.

[0006]

When the blade edge contour of the sawtooth plate material, the number of stitches and the blade pitch are input and set in the specification setting means, the arithmetic processing means sends a control signal to the control target of each mechanism based on the setting signal from the specification setting means. Based on this control signal, the transfer mechanism intermittently transfers the saw plate material, the saw plate material is separated and supplied to the transfer mechanism by the supply mechanism, and the lower blade is formed on the saw plate material by the lower blade processing mechanism. It is processed, the upper blade is processed on the saw plate material by the upper blade processing mechanism, the upper eye is processed on the saw plate material by the upper eye processing mechanism, the saw plate material is deburred by the deburring mechanism, the saw plate material is It will be taken out from the transfer mechanism by the take-out mechanism.

Further, a vertical blade is machined on the saw plate material by a vertical blade processing mechanism, and single-edged or double-edged processing is performed depending on selection setting of a single-edged saw or a double-edged saw.

[0008]

1 to 11 show an embodiment of the present invention.
Is a transfer mechanism, and in this case, an index table 2 having five index numbers, an index table 3 having four index numbers,
It is composed of a delivery reversing unit 4, and each index table 2
Clamping mechanisms M are arranged on the number 3 in accordance with the number of indexes.

From the front to the rear of the index table 2 in the transport direction, each saw plate material W is first transferred to the clamping mechanism M on the index table 2 which is the transport mechanism 1 in the transport direction. The supply mechanism 5 capable of separate supply is arranged, and then the saw plate material W
The lower blade processing mechanism 6 capable of processing the lower blade W ₁ is arranged on the saw blade material W, the upper blade processing mechanism 7 capable of processing the upper blade W ₂ is disposed on the saw plate material W, and then the saw plate material W is disposed on the saw blade material W. An upper eye processing mechanism 8 capable of processing the eye W ₃ is arranged, and a deburring mechanism for removing burrs generated in the sawtooth plate material W by processing the lower blade processing mechanism 6, the upper blade processing mechanism 7 and the upper eye processing mechanism 8. 9 is arranged, and further, at each stop position of the indexing table ₃ , a vertical pulling blade processing mechanism 10 capable of processing the vertical pulling blades W ₄ on the saw plate material W is arranged from the front to the rear in the transfer direction. Then, a deburring mechanism 9 for removing burrs generated by the processing of the vertical blade processing mechanism 10 is arranged, and then an extracting mechanism for taking out the saw plate material W from the indexing table 3 which is the transfer mechanism 1. 11 are arranged and configured.

In this case, the feeding mechanism 5 is composed of a feeding portion 5b composed of a suction pad for separating and feeding the sawtooth plate materials W stored in the storage portion 5a in a stacked state.

The lower blade processing mechanism 6 has a servo motor 6a.
As a result, as shown by the arrow in FIG. 4, the lower blade processing grindstone 6b capable of advancing, pitch feeding and retreating is rotatably arranged in an inclined state. , The upper blade processing grindstone 7b capable of advancing, pitch feeding and retreating operations is rotatably arranged in an inclined state,
Further, the upper eye processing mechanism 8 is provided with an upper eye processing wheel 8b which can be moved forward, pitch feed and backward by a servo motor 8a as shown by a broken line arrow in FIG. The reversing servo motor 8c is provided so as to be able to incline to the opposite side, and in this opposite inclining state, as shown by the arrow in FIG. 6, forward, pitch feed, and retreat operations are performed. As indicated by the arrow 7, a vertical cutting blade processing grindstone 10b capable of advancing, pitch feeding and retreating operations is rotatably arranged in an inclined state.

The deburring mechanism 9 is composed of a cylinder and a servo motor for moving the deburring blade 9a up, moving, descending and retracting. The deburring blade 9a contacts the surface of the sawtooth plate material W as shown by the arrow in FIG. It is configured to move in the left state and remove the burr.

In this case, the take-out mechanism 11 is a take-out section 1 which is a suction pad for taking out the sawtooth material W from the transfer mechanism 1.
It is composed of 1a.

Reference numeral 12 is a specification setting means, which is a sawtooth plate material W.
The blade edge contour B is selectively set, the number of stitches N and the blade pitch P can be numerically set.

Reference numeral 13 denotes an arithmetic processing means, which is provided with a microprocessor, and is configured to send a control signal to the controlled object of each mechanism based on the setting signal from the specification setting means 12.

Further, the specification setting means 12 is constructed so that a single-edged saw or a double-edged saw can be selectively set.

Since this embodiment has the above-mentioned structure, the specification setting means 12 uses the blade edge contour B of the saw plate material W, the number of stitches N, the blade pitch P, the distance D from the base end to the position of the first blade, Further, when the input is set to be double-edged processing, the arithmetic processing means 13 operates on the basis of a setting signal from the specification setting means 12, that is, the servomotors such as the transfer mechanism 1, the supply mechanism 5, the lower blade processing mechanism 6 and the like. A control signal is sent to a controlled object such as, and based on this control signal, the transfer mechanism 1 intermittently transfers the saw plate material W while stopping at the stop position, and first, as shown in FIG. Are separated and supplied to the clamp mechanism M on the transfer mechanism 1 by the supply mechanism 5, and the clamp mechanism M
Staying in opposition to the lower blade machining mechanism 6 are transported rotating fixed saw plate material W by, lower blade W ₁ while moving the blade pitch P × 2 minutes as shown in FIG. 4 by the operation of the lower blade machining mechanism 6 After the lower blade W ₁ is processed, the deburring mechanism 9 performs deburring as shown in FIG. 9, and then the upper blade W ₂ is processed by the upper blade processing mechanism 7 on the saw plate material W as shown in FIG. The deburring mechanism 9 performs deburring processing, and then the upper eye processing mechanism 8 processes the upper eye W _{3 on} the saw plate material W as shown in FIG.
As described above, the deburring mechanism 9 is deburred.

Next, the sawtooth material W is transferred from the indexing table 2 to the clamping mechanism M on the indexing table 3 by the delivery / reversing section 4 and clamped in the opposite direction. Since it is selected and set, the vertical blade processing mechanism 10
As shown in Fig. 7, the saw blade material W is machined with the vertical pulling blade W ₄ ,
This saw plate material W is deburred by the deburring mechanism 9, and after processing, the saw plate material W is taken out by the take-out mechanism 11, and a predetermined saw-toothing process is performed as shown in FIG.

Then, according to the specification setting means 12, for example, FIG. 10 or FIG.
By inputting and setting the blade edge contour B, the number of processing N, and the blade pitch P, the blade of the arbitrary sawtooth material W can be processed, work efficiency can be remarkably improved, and the quality is constant. Can be processed, mass production is possible, and manufacturing cost can be reduced.

Further, the specification setting means 12 can be selectively set to be a single-edged saw or a double-edged saw. At this time, when the single-edged machining is set, the vertical-drawing blade processing mechanism 10 stops its operation, and when the double-edged processing is set, the vertical-edging is set. The blade processing mechanism 10 operates, so that the single-edged processing and the double-edged processing can be set, and the work efficiency can be further improved.

The present invention is not limited to the above embodiment, and the structure of each mechanism and the programs and circuit configurations of the specification setting means 12 and the arithmetic processing means 13 are appropriately changed and designed.

[0022]

As described above, according to the present invention, by inputting and setting the edge contour of the saw plate material, the number of stitches and the blade pitch in the specification setting means, the blade of any saw plate material can be machined. Therefore, the working efficiency can be remarkably improved, mass production is possible, the manufacturing cost can be reduced, and the processing of the saw plate material with stable quality can be performed.

Further, by providing the saw blade material with a vertical blade processing mechanism capable of processing a vertical blade, only the vertical blade or double-edged can be processed, and the specification setting means can be a single-edged saw or a double-edged saw. Can be selected and set, single-edged processing and double-edged processing can be set, and work efficiency can be further improved.

As described above, the intended purpose can be sufficiently achieved.

[Brief description of drawings]

FIG. 1 is an overall plan view of an embodiment of the present invention.

FIG. 2 is a configuration system diagram of the embodiment shown in FIG.

3 is a perspective view of the saw plate material of the embodiment shown in FIG. 1. FIG.

4 is a front view for explaining the working of the embodiment shown in FIG. 1. FIG.

5 is a front view for explaining the working of the embodiment shown in FIG. 1. FIG.

FIG. 6 is a front view for explaining the working of the embodiment shown in FIG.

FIG. 7 is a front view for explaining the working of the embodiment shown in FIG.

8 is a front view for explaining the working of the embodiment shown in FIG. 1. FIG.

FIG. 9 is a front view for explaining the working of the embodiment shown in FIG.

FIG. 10 is a front view for explaining the working of the embodiment shown in FIG.

11 is a front view for explaining the working of the embodiment shown in FIG. 1. FIG.

[Explanation of symbols]

W Saw plate material W ₁ Lower blade W ₂ Upper blade W ₃ Upper eye W ₄ Vertical pulling blade B Blade edge contour N N number P Blade pitch 1 Transfer mechanism 5 Supply mechanism 6 Lower blade processing mechanism 7 Upper blade processing mechanism 8 Upper blade Processing mechanism 9 Deburring mechanism 11 Extraction mechanism 12 Specification setting means 13 Arithmetic processing means

Claims (3)

[Claims] 1. A transfer mechanism capable of intermittently transferring a saw plate material,
A supply mechanism capable of separately supplying the saw plate material to a transfer mechanism, a lower blade processing mechanism capable of processing a lower blade on the saw plate material, and an upper blade processing mechanism capable of processing an upper blade on the saw plate material, An upper eye processing mechanism capable of processing upper eyes on the saw plate material, a deburring mechanism capable of deburring the saw plate material, and an ejection mechanism capable of ejecting the saw plate material from the transfer mechanism. A specification setting means capable of setting the blade edge contour, the number of stitches and the blade pitch of the sawtooth material, and a calculation for sending a control signal to a control target of each mechanism based on a setting signal from the specification setting means. A saw-toothed machine comprising a processing means. 2. A vertical pulling blade processing mechanism capable of processing a vertical pulling blade on the sawtooth plate material.
The saw saw machine described. 3. The saw stitching machine according to claim 1, wherein the specification setting means is provided with a single-edged saw or a double-edged saw that can be selectively set.