KR20020025551A - Apparatus for cutting and bending a cutting blade - Google Patents

Abstract

PURPOSE: A bending and cutting apparatus of a cutting blade is provided to enhance a work efficiency by providing a cutting and bending apparatus for performing continuously a cutting work and a bending work at same position without moving a material to be worked. CONSTITUTION: A bending and cutting apparatus of a cutting blade comprises a cutting blade(4) and a work die(2). The cutting blade(4) is transferred to a work position through a guide slit(3) formed at the work die(2). The work die(2) is fixed to a fixing plate(1) and is provided with a distal end portion(19) for accomplishing a cutting work and a bending work of the cutting blade(4). The work die(2) can be fixed to the fixing plate(1) by a bolt and a nut or by an insertion. An installing hole(18) for providing a space in which a bending member(5) and a cutting member(6) can be up and downed, is formed to the fixing plate(1). A flange pipe(12) of a co-axis with a center axis of the installing hole(18) is installed to a lower portion of the fixing plate(1). A rotator(7) is inserted to the flange(12) intervening a bearing. The rotator(7) is composed of a lower cylindrical portion(7A) having a large diameter and an upper cylindrical portion(7B) having a small diameter. A guide holes(10,11) served as a penetrating recess admitting an up and down movement of the bending member(5) and the cutting member(6) are installed to pass through the cylindrical portion(7A,7B).

Description

Bending and cutting device for cutting blades {Apparatus for cutting and bending a cutting blade}

The present invention relates to a bending and cutting device for cutting blades used for forming bent lines or cut lines (cut lines) on sheet materials such as paper, leather, textiles, and synthetic resin films.

In the accompanying drawings, Fig. 11 shows a bending and cutting device (Domestic Patent Publication No. 1998-65878) of a cutting blade of a conventional example.

The bending and cutting device of the cutting blade, the bridge mold 42 for forming a bridge groove in the lower side of the cutting blade released from the feed feeder (41); A bending part 43 for bending the cutting blade discharged toward the guide pipe through the bridge mold at an arbitrary angle; It consists of; cutting section 44 for cutting the cutting blade bent from the bent to the required dimensions.

By the way, the bending and cutting device of the cutting blade, after cutting the cutting blade bent in the required shape to the required dimensions, the portion remaining in the previous cutting process to perform the bending operation for the cutting blade again, that is, There was a disadvantage in that the flat portion of the cutting blade lying between the cutout and the bent portion must be folded back to the bending work position.

Therefore, there is a limitation that a motor capable of forward / reverse rotation is used as a driving source for rotationally driving the feeder, and there is a disadvantage in that the length of the apparatus or the length of the production line is increased by the distance between the bent portion and the cut portion.

For this reason, conventionally, the manufacturing efficiency of the cutting blade was low and the production cost was high.

In addition, the bending and cutting device of the cutting blade is a free end of the guide rod (bending member) which is raised and lowered between the bending work position and the bending work release position according to the operation direction of the cylinder mechanism during the bending work for the cutting blade Since the bending work can be performed without any problem only when it is always inserted correctly in the hole of the gear part installed on the lower side of the device, during the assembly work, the holes of the upper and lower gear parts into which the both ends of the bending member are fitted are aligned in a straight line. There was a disadvantage to be made.

The present invention has been made to solve the above-mentioned disadvantages, the bending member for bending the cutting blade at any angle, and the cutting member for cutting the bent cutting blade to the required dimensions is rotated by the same drive source (rotator). An object of the present invention is to provide a bending and cutting device for driving cutting blades.

In addition, the present invention by bending and cutting the cutting blade to be carried out continuously at the same position (work die), by bending and cutting of the cutting blade to perform the bending operation immediately after cutting the cutting blade It is another object to provide a device.

In addition, the present invention is the bending groove or the free end of the cutting member to be moved to the corresponding work position by the first or second lifting drive unit for the bending or cutting operation for the cutting blade is always the support groove of the support member or another rotating body Another object of the present invention is to provide a bending and cutting device for a cutting blade, which allows rotation of the through grooves to be freely rotated so that accurate vertical bending and cutting operations can be performed.

1 is an exploded perspective view showing a bending and cutting device of a cutting blade of a first embodiment according to the present invention.

FIG. 2 is a view schematically illustrating a state in which the cutting blade is bent by the bending and cutting device of the cutting blade shown in FIG. 1.

3 is a view schematically illustrating a state of cutting a cutting blade by the bending and cutting device of the cutting blade shown in FIG. 1.

Figure 4 is a perspective view showing a bending and cutting device of the cutting blade of the second embodiment according to the present invention.

FIG. 5A is an exploded perspective view showing the "A" part of FIG. 4 separately.

FIG. 5B is an exploded perspective view of another embodiment showing the "A" portion of FIG.

Fig. 6 is a side view of the main portion of the cutting blade of the cutting blade of the second embodiment in the direction of arrow " B "

FIG. 7 is a view schematically illustrating a state in which the cutting blade is bent by the bending and cutting device of the cutting blade illustrated in FIG. 4, and is a cross-sectional view taken along the line I-I of FIG. 4.

FIG. 8 is a view schematically illustrating a state in which the cutting blade is cut by the bending and cutting device of the cutting blade illustrated in FIG. 4, and is a cross-sectional view taken along the line I-I of FIG. 4.

FIG. 9 is a cross-sectional view taken along the line II-II of FIG. 8.

10 is a view showing a cutting member of the present invention.

11 is a view showing a bending and cutting device of a conventional cutting blade.

[Description of Drawing Reference]

1,301 ... fixed plate, 2,310 ... work die,

3,311 ... guiding slit, 4,500 ... cutting blade,

5,330 ... bending members, 6,330A ... cutting members,

7,430 ... rotating body, 8,9,420,420A ... elevating member,

10, 11, 323, 323 A ... the guide, 12 ... the flange tube,

13 supporting member, 16 locking jaw,

17 bearings, 18 installers,

19 ... leading end, 20 ... supporting groove.

In the present invention, in order to solve the above technical problem, the work die for supporting the cutting blade during bending or cutting work; A bending member for bending the cutting blade; A cutting member for cutting the cutting blade; A first elevating drive unit for elevating the bending member; A second lift driver for lifting and lowering the cutting member; At least one through groove is installed to allow the bending member or the cutting member to pass therethrough, and a pair of rotating bodies for rotating the bending member or the cutting member; It proposes a bending and cutting device of a cutting blade comprising a; rotary drive unit for rotating the rotating body.

When the cutting blade reaches the bending working position through the working die, the first lifting and driving unit drives the bending member to position the bending member in the through groove formed in the pair of rotating bodies. In this state, when the rotating body is rotated by driving the rotary driving unit, the bending member positioned in the through groove of the rotating body bends the cutting blade supported by the working die. On the other hand, when the bending direction for the cutting blade is different, when the two bending members are employed as in this embodiment, the other bending member is driven by the first lift drive to perform the above procedure, only one bending member In the case of employing, the bending member is placed on the other side (opposite side) to perform the above procedure.

When the cutting blade needs to be cut after the bending work is completed, the first lifting drive unit is driven to return the bending member to its original position (bending work release position), and then the second lifting drive unit is driven to drive the second lifting drive unit. Place the cutting member in the through groove of the rotating body. In this state, when the rotary body is rotated by driving the rotary driving unit, the cutting member cuts the cutting blade supported on the working die. That is, the bending member and the cutting member are driven by the rotating body which is the same driving source.

In addition, it is preferable to propose a bending and cutting device of the cutting blade is smaller than the rotation radius of the inner end of the cutting member of the cutting member.

Since the center of rotation of the bending member and the cutting member is the same as the center of rotation of the rotating body, when the rotation radius of the inner end of the cutting member is smaller than the rotation radius of the inner end of the bending member, the inner end of the cutting member is operated. It will rotate closer to the tip of the die. Preferably, the radius of rotation of the inner end of the cutting member from the center of rotation of the rotating body to the tip of the working die so that the cutting blade of the cutting member may cut the cutting blade while passing through the tip of the working die. It is better to be equal to or greater than the distance. In this way, the power required during the cutting operation for the cutting blade can be reduced, and the cutting operation can be performed smoothly.

In addition, the present invention proposes a cutting blade bending and cutting device in which the inner surface of the cutting member is formed concave with a predetermined radius of curvature-the radius of curvature from the rotation center of the rotating body to the inner surface.

Since the rotating body and the cutting member have the same rotation center and rotate, the cutting blade is formed by concave the inner surface of the cutting member with the same radius of curvature as the distance from the rotation center of the rotating body to the inner surface of the cutting member. In the cutting operation for the cutting member and the end of the working die does not cause interference.

In addition, in the present invention, it is preferable to propose a bending and cutting device of the cutting blade in which the cutting blade of the cutting member is inclined in the longitudinal direction of the cutting member along the concave inner surface (hereinafter referred to as the concave surface) of the cutting member. do.

When the cutting blade of the cutting member is inclined along the concave surface of the cutting member, the cutting member that rotates is cut while sequentially contacting from one end of the cutting blade. Therefore, the cutting resistance during the cutting operation is reduced, less power is consumed to rotate the rotating body, the cutting blade is not only cut cleanly, but also the cutting blade is cut at right angles to the longitudinal direction.

In addition, the present invention and the work die for supporting the cutting blade when bending or cutting work; A bending member for bending the cutting blade; A cutting member for cutting the cutting blade; A first elevating drive unit for elevating the bending member; A second lift driver for lifting and lowering the cutting member; At least one through groove is installed to allow the bending member or the cutting member to pass therethrough, and a rotating body for rotating the bending member or the cutting member; A support member fixed to the working die to support the locking step formed at the free end of the bending member or the cutting member with a support groove; It proposes a bending and cutting device of a cutting blade comprising a; rotary drive unit for rotating the rotating body.

When the cutting blade reaches the bending working position through the working die, the first lifting and driving unit drives the bending member until the bending member passes through the through groove formed in the rotating body to reach the supporting groove of the supporting member. In this state, when the rotary body is driven to rotate the rotating body, the bending member supported by the support groove and the through groove of the rotating body rotates to bend the cutting blade supported by the working die. If the bending direction is different, when the two bending members are employed, the other bending member is driven by the first elevating drive unit to perform the above procedure, and if only one bending member is employed, the other side of the bending member (Opposite) to perform the above procedure.

On the other hand, when it is necessary to cut the cutting blade after the bending operation is completed, the bending member is returned to its original position by the first lifting drive unit, the cutting member is driven into the through groove of the rotating body by the second lifting drive unit. Will be located. The second elevating driving part is driven until the engaging jaw formed at the free end of the cutting member is supported by the supporting groove of the supporting member. In this state, when the rotating body is rotated by driving the rotary driving unit, the cutting member supported by the through groove and the supporting groove of the rotating body rotates to cut the cutting blade supported on the working die. That is, the bending member and the cutting member are rotationally driven by the same rotating source as the driving source to perform a predetermined work.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the bending and cutting device of the cutting blade according to the present invention.

1 is an exploded perspective view showing a bending and cutting device of a cutting blade of a first embodiment according to the present invention.

The cutting blade 4 shown before the bending or cutting operation is performed, the cutting blade 4 is transferred to the bending or cutting operation position through the guide slit 3 formed on the working die (2). .

The work die 2 is fixed to the fixed plate 1, and the work die is provided with a front end portion 19 for bending or cutting the cutting blade 4.

Here, the working die 2 may be fixed to the fixing plate 1 by bolts and nuts, or may be fixed by pressing.

The fixing plate 1 is provided with a mounting hole 18 for providing a space for the bending member 5 or the cutting member 6 can be elevated.

A flange tube 12 coaxial with the central axis of the installation hole 18 is mounted to the lower portion of the fixing plate. The rotor 7 is inserted into the inner groove of the flange tube 12 via a bearing (not shown). The flange tube 12 serves to fix the rotor 7, and instead of the flange tube 12, the rotor 7 is installed in the mounting hole 18 of the fixing plate 1 via a bearing. You can also install it by inserting

The rotating body 7 is composed of a large diameter lower cylindrical portion 7A and a small diameter upper cylindrical portion 7B, and acts as a through groove allowing the elevating movement of the bending member 5 and the cutting member 6. Guide holes 10 and 11 are provided through the cylindrical portions 7A and 7B. In addition, the height of the upper cylindrical portion 7B of the rotating body 7 inserted into the hollow inside of the flange tube 12 is set such that the upper cylindrical portion 7B does not protrude from the upper surface of the fixing plate 1. It is desirable to.

The rotating body is subjected to forward / reverse rotation by the rotation driving unit. In this embodiment, the rotation driving unit is composed of a motor (M) and a gear (G). Of course, as the transmission method between the rotating body and the motor M, not only the aforementioned gear transmission but also belt transmission may be used.

At one end of the bending member 5, a lifting member 8 serving as a first lifting drive portion for lifting and lowering the bending member 5 is provided. By the driving of the elevating member 8, the bent member 5 moves up and down through the guide hole 10 of the rotating body 7.

In addition, an elevating member 9 serving as a second elevating driver for elevating the cutting member 6 is also provided at one end of the cutting member 6. By the driving of the elevating member 9, the cutting member 6 is moved up and down through the guide hole 11 of the rotating body (7).

The support member 13 fixed to the work die 3 is provided with a bearing 17 on the inner circumferential surface of the groove formed on one side. The support groove 20 of the support member 13 in which the bearing 17 is installed is brought into contact with the engaging jaw 16 formed at the free end of the bending member 5 and the cutting member 6 and bent or cut. During the operation, while supporting the free ends of the bending member 5 and the cutting member 6 serves to allow a rotational movement.

On the other hand, in the above embodiment has been described as the case of the two bending members 5, only one bending member may be enough to perform the bending operation.

Hereinafter, a process of bending and cutting the cutting blade by using the bending and cutting device of the cutting blade according to the first embodiment of the present invention will be described.

2 is a view schematically illustrating a state in which the cutting blade is bent by the bending and cutting device of the cutting blade according to the first embodiment of the present invention.

First, by driving the feed unit (T) consisting of two feed rollers, the cutting blade is conveyed toward the bending and cutting device of the cutting blade according to this embodiment. The transfer unit may be implemented in a different configuration than that shown in this embodiment.

The cutting blade 4 passing through the conveying part is conveyed to the bending work position through the tip 19 of the working die 2 while being inserted into the guide slit 3 of the working die 2. . In this way, when the cutting blade 4 reaches the bending work position, the transfer operation of the cutting blade 4 is stopped.

In this state, in order to bend the cutting blade 4 supported by the work die 2 in a stationary state, the elevating member 8 serving as the first elevating drive part is driven to drive the bending member 5. Lift up and down. At this time, it is preferable to drive only one of the bending members of the pair of bending members so that the other cutting member and the cutting blade do not interfere with the bending operation.

The bending member 5 driven by the elevating member 8 passes through the guide hole 10 of the rotating body 7 serving as the through groove, and is formed at the free end of the bending member 5. The jaw 16 is rotatably supported by the support groove 20 of the support member 13.

Here, as the elevating member 8 serving as the first elevating drive unit, a cylinder mechanism using hydraulic pressure or pneumatic pressure is preferable, but a mechanism for converting a rotary motion generated from a drive source such as a motor into linear motion may be used.

In addition to the gear G, the bending direction with respect to the cutting blade 4 is changed by the forward / reverse rotation of the motor M acting as the rotation driving unit of the present embodiment.

Since the bending member 5 is inserted into the guide hole 10 of the rotating body 7 acting as a through groove, the bending member 5 has the same rotation center as the rotating body 7 and performs rotational motion. Done.

The bending member 5 located in the guide hole 10 of the rotating body 7 pivots in the rotational direction of the rotating body 7 and is supported by the working die 2 in a cutting blade. Begin bending (4). The bending operation for the cutting blade is performed while the cutting blade 4 deforms between the inner end of the bending member 5 (the end closest to the rotation center of the rotating body) and the front end portion 19 of the working die 2. Is performed. At this time, the distance between the inner end of the bending member 5 and the tip portion 19 of the working die 2 is preferably greater than the thickness of the cutting blade 4 to be bent. In addition, the shape of the tip portion 19 of the working die 2, it is preferable that the inclined surface is provided so that the bending operation can be performed in a wide angle range.

When the preset bending work amount is reached, the motor M serving as the rotation driving unit stops, and the motor M is rotationally driven in a direction opposite to the rotation direction during the bending work so as to return to the state before the bending work.

When the bending operation is additionally performed, the cutting blade 4 may be advanced to the predetermined bending work position by driving the transfer unit T, and then the bending operation as described above may be performed.

As described above, when the bending operation for the cutting blade 4 is completed and the cutting operation is to be performed, the elevating member 8 is driven to return the bending member to its original position.

3 is a view schematically illustrating a state of cutting a cutting blade by the bending and cutting device of the cutting blade according to the first embodiment of the present invention.

The bending member 5 exits from the working position through the guide hole 10 of the rotating body 7, and then elevates the cutting member 6 by driving the elevating member 9 serving as the second elevating driver. Exercise The elevating member 6 is preferably a cylinder mechanism using hydraulic pressure or pneumatic pressure similar to the bending member elevating member 8 for acting as the first elevating drive portion. A mechanism for converting can also be used.

By the driving of the elevating member 9, the engaging member 16 formed at the free end of the cutting member 6 through the guide hole 11 of the rotating body 7 is supported by the supporting member ( It is rotatably supported by the support groove 20 of the 13).

In order to perform the cutting operation for the cutting blade, in this embodiment by driving the motor (M) acting as the rotary drive unit, to rotate the rotating body (7). The cutting member 6 inserted into the guide hole 11 of the rotating body 7 has a rotational center identical to that of the rotating body 7 to perform a rotary motion. The cutting operation for the cutting blade 4 is performed between the cutting member 6 and the tip portion 19 of the working die, wherein the working die 2 serves as a fixed die for supporting the cutting blade. .

The work die is installed at a position that always passes through the rotational center of the rotating body when the cutting blade is moved through the guide slit, the front end of the working die is eccentric from the rotational center of the rotating body in the direction of the cutting blade. .

Since the rotation center of the cutting member 6 is the same as the rotation center of the rotating body 7, when the rotation radius of the inner end of the cutting member 6 is smaller than the rotation radius of the inner end of the bending member 5. The inner end of the cutting member 6 is rotated closer to the working die 2. Preferably, the radius of rotation of the inner end of the cutting member 6 so that the cutting blade (C) of the cutting member 6 can cut the cutting blade while passing through the front end portion 19 of the working die. It is preferably equal to or greater than the distance from the center of rotation of the rotor 7 to the tip 19 of the working die 2. On the other hand, the radius of rotation of the inner end of the cutting member 6 is set in accordance with the position of the inner end of the guide hole 11 formed in the rotary body 7, the rotation of the inner end of the cutting member 6 By bringing a radius close to the tip end portion 19 of the work die 2, the required power during the cutting operation can be reduced, and the cutting operation is smoothly performed.

When the cutting member 6 rotates and starts to contact the cutting blade supported in the stationary state, the cutting operation for the cutting blade 4 is started. The cutting member 6 is formed concave with a radius of curvature R equal to the distance from the center of rotation of the rotating body 7 to the inner surface of the cutting member 6 (the surface closest to the rotation center of the rotating body). Therefore, the cutting member 6 does not collide with the front end portion 19 of the working die, and the cutting member 6 and the cutting blade 4 do not come into contact with each other except the cutting surface so that the cutting surface is clean and power required for cutting. Will also save.

In addition, preferably, the cutting blade of the cutting member 6 is inclined along the concave surface in the longitudinal direction of the cutting member. When the cutting blade (C) is inclined along the concave surface of the cutting member (6), as shown in Figure 10, the cutting member (6) which rotates in conjunction with the rotational drive of the rotating body (7) is a cutting blade ( The cutting operation is performed while sequentially contacting from one side of 4). Therefore, the cutting resistance at the time of cutting operation is small, it takes only little power to rotate the rotating body 7, the cutting blade is not only cut cleanly, but also cut at right angles to the longitudinal direction of the cutting blade.

When the cutting operation is completed through the above process, the motor M is stopped, and the motor M is rotated and driven in a direction opposite to the rotational direction during the cutting operation so as to return to the state before the cutting operation.

When the cutting member 6 returns to its original position, the elevating member 9 serving as the second elevating drive unit is driven to return the cutting member 6 to the work release position through the guide hole of the rotating body.

In this way, when both the bending work and the cutting work for the cutting blade are completed, a predetermined finished product is obtained.

Subsequently, in the case of newly performing a bending and cutting operation for the cutting blade, the transfer blade T may be driven again to transfer the cutting blade to the working position, and the same process as described above may be performed.

On the other hand, in the bending and cutting device of the cutting blade of the first embodiment according to the present invention, a groove processing portion for forming a bridge groove may be provided between the transfer portion and the working die.

4 to 6 of the accompanying drawings, shown in order to explain in more detail the bending and cutting device of the cutting blade of the second embodiment applying the technical idea of the present invention to the applicant Patent No. 182069, FIG. 4 is a perspective view schematically showing the bending and cutting device of the cutting blade according to the second embodiment, Figures 5a and 5b is an exploded perspective view of two embodiments showing the "A" portion of Figure 4 separated and shown, 6 is a side view of the main portion of the cutting blade of the second embodiment shown in FIG. 4, viewed from the direction of arrow "B".

The bending and cutting device of the cutting blade of the second embodiment according to the present invention, as can be seen through the drawings, the working die for supporting the cutting blade during bending or cutting operation; A bending member for bending the cutting blade; A cutting member for cutting the cutting blade; A first elevating drive unit for elevating the bending member; A second lift driver for lifting and lowering the cutting member; At least one through groove is installed to allow the bending member or the cutting member to pass therethrough, and a pair of rotating bodies for rotating the bending member or the cutting member; Consists of a rotary drive unit for rotating the rotating body.

The work die 310 is firmly fixed to the fixing plate 301 facing up and down, respectively, and the receiving portion 318 and the circular guide groove 316 in which the small cylindrical portion of the rotating body 430 is freely rotated are provided. A support cylinder portion 315 formed together; In order to effectively perform the bending work for the cutting blade 500, the inclined surface is formed at the front end portion and is composed of a guide outlet portion 313 having a guide slit 311 formed in the center (FIGS. 4 and 5A and FIG. 5b).

The rotating body 430 is accommodated in the receiving portion 318 of the support cylindrical portion 315 of the support cylinder 315 provided on both upper and lower sides of the working die 310, respectively, freely rotatable, the rotating body 430 In order to rotate smoothly, it is preferable to install bearings 340A and 340B on the inner circumferential surface of the receiving portion 318, respectively (see Fig. 9). In addition, the rotating body 430 is provided with guide holes (323, 323A) acting as a through groove to allow the lifting member and the lifting member of the cutting member. Meanwhile, the guide hole 323A into which the cutting member is inserted among the guide holes formed on the rotating body 430 is formed in a direction from the rotation center of the rotating body toward the tip end of the working die, as shown in FIG. 5A. It may be formed on the opposite side as shown in Figure 5b.

As shown in FIG. 9, the bending member 330 has a length capable of connecting the pair of rotating bodies 430 installed to the outside of the fixed plate 301 to each other. When the bending member 330 is lowered or raised through any one of the guide holes 323 of the whole 430, the side of the work die 310-more precisely, the guide outlet in which the guide slit 311 is formed. The free end is inserted into and supported by the guide hole 323 of the other side rotating body 430 facing the front end of the part 313.

Here, in the case where the locking step is formed at the free end of the bending member 330 as in the first embodiment, since it is easier to insert into the guide hole 323 formed on the other rotating body 430, desirable.

The elevating operation of the bending member 330 is controlled by the elevating member 420 acting as a first elevating drive part in which one end of the bent member is fixed, and as the elevating member 420, a cylinder mechanism or a solenoid mechanism. And the like can be used.

One end of the cutting member 330A is also provided with a lifting member 420A which serves as a second lifting drive for lifting and lowering the cutting member. The cutting member 330A is moved by the lifting movement of the lifting member 420A. The lifting and lowering is performed through the guide hole 323A of the rotating body 430.

Here, the guide holes 323 and 323A of the other rotating body supporting the free end of the bending member 330 or the cutting member 330A may be formed as grooves penetrating the rotating body as described above. It can also be formed with uneven grooves.

In addition, instead of inserting and supporting the free ends of the bending member 330 and the cutting member 330A into the through groove or the non-penetrating groove, a protrusion is formed in the free end and is received in the free end. It can also be provided in the other rotating body.

On the other hand, the rotary drive unit of the present embodiment is composed of a drive gear 411, which is freely installed on the fixed plate 301, and a motor (M) for rotationally driving the drive gear. In this embodiment, the rotary drive unit is a pair of drive gears are connected to the shaft, thereby rotating the pair of rotary bodies driven by the drive gear at the same speed. In such a case, the pair of rotating bodies having the same rotation center as each other rotates both ends of the bending member and the cutting member inserted through the guide hole at the same speed, so that the external force applied to the bending member and the cutting member It is preferable to be able to share and to avoid the torsion caused by the speed difference.

Of course, the rotary drive unit may employ only one drive gear, in which case the other (lower side) rotating body supporting the free end of the bending member or the cutting member plays the same role as the supporting member of the first embodiment. Will be performed.

Referring to the drawings the operation and function of the bending and cutting device of the second embodiment according to the present invention configured as described above are as follows.

First, the bending process of the cutting blades will be described with reference to FIG.

The cutting blade 500 released from the feed feeder (not shown) is sent to the bending work position through the guide slit 311 of the working die 310 by a transfer part composed of a feed roller or the like.

The cutting blade 500 guided to the bending work position through the guide slit 311 is a guide slit 311 formed in the guide outlet 313 of the work die 310, as shown in FIG. The cutting blade 500 is in contact with the steel wire spring 350 installed in the guide outlet 313, but the steel wire spring has an elastic force so that the cutting blade 500 passes through the cutting blade 500. It does not interfere. Here, the details of the action of the steel wire spring is described in detail in Patent Application No. 182069, the description thereof will be omitted.

In this state, the bending member lifting elevating member 420 is operated at the same time as the transfer operation for the cutting blade 500 is stopped, so that the bending member 330 of the present invention is a guide hole 323 of the rotating body 430. It is lowered to the bending work position through), and then the free end of the bending member 330 is fitted into the guide hole of the other rotating body is fixed.

As such, when both ends of the bending member 330 are fitted into the guide hole 323 of the rotating body 430, by operating the motor (M) of the rotary drive unit which is electrically coupled with the rotating body 430 A bending operation for the cutting blade 500 is performed.

That is, when the driving gear 411 meshed with the gear tooth 413 processed on the outer circumferential surface of the rotating body 430 is rotated by the motor, the driving gear 411 moves up and down through the guide hole 323 of the rotating body 430. The bending member 330 is rotated in a form surrounding the guide outlet 313 of the working die 310, and in this process, the cutting blade 500 that comes out through the guide slit 311 and The cutting blade 500 is bent along the inclined surface of the guide outlet 313 by contacting the bending member 330.

Here, the bending member 330 used in the present embodiment has a cross-sectional shape that is approximately triangular in shape so that the cutting blade 500 can be easily bent without applying excessive force. You may employ | adopt what was written in.

On the other hand, when it is necessary to bend the cutting blade 500 in the opposite direction to stop the transfer operation and at the same time to the opposite bending member 330 is lowered to repeat the same process as the above embodiment. By this repetitive work, the bending work for the cutting blade 500 may be continuously performed.

In this way, when the bending operation for the cutting blade 500 is completed, in the state in which the operation of the motor (M) is stopped, driving the elevating member 420 acting as the first elevating drive unit bending member 330 ) To the working release position and at the same time lowering the cutting member (330A) to the cutting working position.

FIG. 8 illustrates a process of cutting a cutting blade with a bending and cutting device of a cutting blade according to a second embodiment. When the bending operation for the cutting blade is completed through the bending process, first, the bending member 330 ) And the free end of the bending member 330 is returned to its original position (work release position) by driving the elevating member 420 coupled thereto. That is, even if the bending member 330 rotates, the position movement is performed through the guide hole 323 on the rotating body so as not to interfere with the cutting blade 500.

Subsequently, a free end of the cutting member is formed on the other side of the rotating body through guide holes 323A for inserting the cutting member, which are drilled on the rotating body 430 to the cutting member 330A shown in FIG. Lower until it is inserted into the guide hole.

In this case, the lowering operation of the cutting member 330A is performed at a position where the cutting blade 500 does not prevent the lowering of the cutting member, that is, a position deviating from the front end of the work die 310 (the front end of the guide outlet). .

In this way, when driving the motor (M) of the rotary drive unit in the state that both ends of the cutting member 330A is fitted to the rotary body 430, respectively, the drive gear 411 that is operated by the motor (M) is The cutting member 330A, which is rotated while being engaged with the gear teeth of the rotating body 430, is inserted into the guide hole 323A of the rotating body, respectively. As the cutting blade is cut.

On the other hand, the bending and cutting apparatus of each embodiment comprised as mentioned above can be comprised so that a supply and cutting operation of a cutting blade, a bending operation, etc. may be controlled by a computer.

In addition, the bending and cutting device of the cutting blade according to the present embodiment, as described in the first embodiment, may be a configuration in which the feed unit (T) consisting of two feed rollers, etc. are installed on the rear of the working die, The groove processing portion forming the bridge groove in the cutting blade may be provided between the transfer portion and the working die or behind the transfer portion. In addition, the bending and cutting device of the cutting blade according to the present invention does not exclude easy modification to those skilled in the art.

According to the bending and cutting device of the cutting blade according to the present invention configured as described above, if you want to bend or cut the cutting blade, selectively insert the cutting member or the bending member in the guide hole of the rotating body and then the rotating body Since only a single drive source can be used to manufacture the cutting blade, the drive configuration can be completed, and the configuration of the device can be simplified since only one rotating body may be employed.

In addition, since the cutting operation and the bending operation for the cutting blade are continuously performed in one working die, the bending operation is not required to retract the flat portion of the cutting blade in order to perform the bending operation after cutting the cutting blade as in the prior art. Since the cutting operation is performed directly at the position, the manufacturing time of the cutting blade is shortened, and thus the length of the bending device and the length of the cutting device or the production line of the cutting blade are shortened.

In addition, the bending and cutting device of the cutting blade according to the present invention, since the free end of the bending member or the cutting member is rotatably supported by the support member or the rotating body, the frictional resistance or cutting resistance during the work is reduced, wear is prevented and thus durability This is improved, the deformation of the bending member and the cutting member is regulated, there is an advantage that can be accurately bent or cut the cutting blade. In particular, in the support member used in the first embodiment of the present invention, the support groove portion provided to support the free end of the bending member or the cutting member has a circular groove shape, so as to assemble the rotating body when assembling the respective components as in the prior art. There is no need to pay attention to the guide holes are arranged in a straight line with each other, there is an advantage that the assembly operation is easy, and can freely support the free end of the bending member or the cutting member that is lowered or raised through the guide hole of the rotating body Therefore, accurate bending work and cutting work are possible, so that high precision can be obtained, and long-term use has good durability effect.

In addition, in the present invention, since the rotation radius of the inner end of the cutting member is smaller than the rotation radius of the inner end of the bending member, the cutting member is to cut the cutting blade while rotating around the front end of the working die in a state closer to the bending member. As a result, the power required for cutting is reduced and the work is smoothly performed.

In particular, the inner surface of the cutting member is a concave surface formed concave with a predetermined radius of curvature, there is an advantage that no interference occurs at the front end of the cutting member and the working die when cutting the cutting blade.

In addition, since the cutting member is inclined in the longitudinal direction along the concave surface, the cutting member rotating in conjunction with the rotational drive of the rotating body is gradually cut while sequentially contacting from one end of the cutting blade, so The cutting resistance during the cutting operation is reduced, less power is consumed, and the cutting blade is cut at right angles to the longitudinal direction.

Claims (8)

A work die for supporting the cutting blades during bending or cutting operations; A bending member for bending the cutting blade; A cutting member for cutting the cutting blade; A first elevating drive unit for elevating the bending member; A second lift driver for lifting and lowering the cutting member; At least one through groove is installed to allow the bending member or the cutting member to pass therethrough, and a pair of rotating bodies for rotating the bending member or the cutting member; Bending and cutting device for a cutting blade, characterized in that consisting of a rotary drive unit for rotating the rotating body The method of claim 1, Bending and cutting device of the cutting blade, characterized in that the rotation radius of the inner end of the cutting member is smaller than the rotation radius of the inner end of the bending member. The method according to claim 1 or 2, Bending and cutting device of the cutting blade, characterized in that the inner surface of the cutting member is formed concave with a radius of curvature from the center of rotation of the rotating body to the inner surface The method of claim 3, Cutting blade bending and cutting device, characterized in that the cutting blade is inclined in the longitudinal direction of the cutting member A work die for supporting the cutting blades during bending or cutting operations; A bending member for bending the cutting blade; A cutting member for cutting the cutting blade; A first elevating drive unit for elevating the bending member; A second lift driver for lifting and lowering the cutting member; At least one through groove is installed to allow the bending member or the cutting member to pass therethrough, and a rotating body to rotate the bending member or the cutting member; A support groove formed in a support member to which the working die is fixed to support the locking step provided at the free end of the bending member or the cutting member; Bending and cutting device for a cutting blade, characterized in that consisting of a rotary drive unit for rotating the rotating body The method of claim 5, Bending and cutting device of the cutting blade, characterized in that the rotation radius of the inner end of the cutting member is smaller than the rotation radius of the inner end of the bending member. The method according to claim 5 or 6, Bending and cutting device of the cutting blade, characterized in that the inner surface of the cutting member is formed concave with a radius of curvature from the center of rotation of the rotating body to the inner surface The method of claim 7, wherein Cutting blade bending and cutting device, characterized in that the cutting blade is inclined in the longitudinal direction of the cutting member