KR20100109997A - A cutting apparatus - Google Patents

Abstract

PURPOSE: A cutting apparatus is provided to enable a user to simply remove foreign materials between blades, since an upper blade unit is simply eliminated. CONSTITUTION: A cutting apparatus comprises a body portion(10), a lower blade unit(20), and an upper blade unit(30). The lower blade unit receives power from a motor(12) of the body portion to be rotated. The upper blade unit is installed on the upper part of the lower blade unit. The upper blade unit engages with the lower blade unit and rotates. The upper blade unit comprises a gap adjusting screw(60).

Description

Cutting device {A Cutting Apparatus}

The present invention relates to a cutting device, and more particularly to a cutting device for cutting a thin plate-like material to a desired size.

In general, a device for cutting a thin plate-like material, such as a card mount, is cut in such a manner as to insert the material of the judge between two adjacent rotary blades, as shown in FIG.

However, the above-described prior art has the following problems.

In order to remove the material when the material is caught between the rotary blades during operation and the operation is stopped, there is an uncomfortable problem of disassembling the entire cutting device.

In addition, when changing the size of the material to be cut, there is a problem that the cost is increased to replace the separate rotary blade.

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, and to provide a cutting device that can easily separate the rotary blade from the device.

Another object of the present invention is to provide a cutting device capable of cutting a material into various sizes desired by a user with a single rotary blade without having to replace the rotary blade.

According to a feature of the present invention for achieving the object as described above, the present invention cutting device, the lower blade portion is rotated by receiving power from the motor by the motor of the body portion, and is provided above the lower blade portion Upper blade portion is rotated in engagement with the lower blade portion; In addition, the upper blade portion may be configured to include a spacing adjusting screw to adjust the distance to the lower blade portion.

The upper blade portion and the lower blade portion, the frame forming the body of the blade portion, the blade rotatably supported by the frame; And, coupled to the frame, it may be configured to include a support for supporting both ends of the blade.

The blade may include a shaft forming a rotating shaft and a plurality of blades fastened to the shaft to form a circular ring shape; And, coupled to the shaft, it may be configured to include a spacer for supporting the interval between the respective blades.

The support part may include a lower support having a groove provided upward to support the shaft, and a latch rotatable about one end of the lower support and rotatably fixing the shaft.

The upper blade portion and the lower blade portion, it may be characterized in that the guide roller which is rotated in contact with the upper and lower pairs so that the material is guided to the pair of blades.

The cutting device according to the present invention has the following effects.

By simply separating the support portion supporting the shaft of the upper blade portion of the double blade to easily remove the upper blade portion, it is possible to simply remove the foreign matter when the foreign matter is caught between the blades has the effect of increasing the work convenience.

In addition, by providing a spacer between the blades in the blade portion, and replacing only the spacer, it is possible to cut to various sizes, there is an effect that can be applied to various environments.

In addition, the upper blade portion can be easily separated, so that the material can be easily inserted and installed in the cutting device, thereby increasing work convenience.

And, it is possible to adjust the spacing between the blades in accordance with the thickness of the material introduced into the cutting device has the effect of increasing the ease of work.

Hereinafter, a preferred embodiment of a cutting device according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the cutting device of the present invention includes a body portion 10, a lower blade portion 20 rotating by receiving power by a motor 12 provided in the body portion 10, and The upper blade portion 30 provided above the lower blade portion 20 and engaged with the lower blade portion 20 to rotate, and the upper blade portion 30 with respect to the lower blade portion 20 It can be configured to include an adjustable spacing screw 60.

First, as shown in Figure 2, the body portion 10 constituting the cutting device of the present invention is provided. The body portion 10 may be formed in various shapes, and as shown in FIG. 2, may be configured in a box shape.

The body portion 10 is provided with various devices for driving the present invention, in particular, the motor 12 is provided. The motor 12 is a device that generates rotational power by receiving power, and transmits power to drive the upper and lower blade parts 20 and 30 and the guide rollers 29 and 39 to be described below.

A drive gear 14 is provided on the rotation shaft 12a of the motor 12, and the drive gear 14 rotates the driven gear 18 by a chain or belt 16, and the driven gear 18. The lower guide roller 22 of the lower blade portion 20 to be described below, and is configured to rotate in engagement with the gear of the lower blade 24.

In addition, the body 10 is guided to the material for cutting in the direction of the upper blade portion 30 and the lower blade portion 20 to be described below, the upper blade portion 30 and the lower blade portion 20 An inlet guide 40 and an outlet guide 42 for guiding the cutting of the finished material are again provided.

The inflow guide 40 and the outflow guide 42 are provided with a pair of guide bars 40a and 42a at both ends, as shown in FIGS. This is regulated.

The link portion 50 may be further provided such that the width of the inflow guide 40 and the outflow guide 42 are equally adjusted by the width adjusting screw 44. The link unit 50 may be applied to any configuration as long as the configuration functions as described above, and may be configured, for example, as shown in FIG. 2.

That is, as shown in Figure 2, the link unit 50 is composed of a first link 52 and the second link 54, when rotating the width adjustment screw 44, the inflow guide ( The guide bar 40a of the 40 moves, and this rotational force is transmitted to the outflow guide 42 along the first link 52 and the second link 54.

The outflow guide 42 is transmitted along the first link 52 and the second link 54 by the rotation of the width adjustment screw 44 is rotated so that the guide bar (42a) of the outflow guide 42 is The width is adjusted by moving.

And the lower blade part 20 is provided in the cutting device of this invention. The lower blade portion 20, while engaging with the upper blade portion 30 to be described below to rotate, serves to cut the material to a predetermined size.

The lower blade portion 20 may be configured in various ways, for example, may be configured as shown in FIG. The lower blade portion 20, a frame 22 forming a body, a blade 24 rotatably supported by the frame 22, and coupled to the frame 22 of the blade 24 It may be configured to include a support 26 for supporting both ends.

The frame 22 is composed of two bar shapes parallel to each other at both ends, as shown in FIG. The frame 22 is attached to the upper surface of the body portion 10 to form a skeleton of the lower blade portion 20.

In addition, the support part 26 is provided in the frame 22. As shown in FIG. 4, the support part 26 rotatably supports both ends of the blade 24 to be described below.

The support portion 26 is provided in pairs at positions corresponding to the two bar-shaped bodies, respectively, and is configured to support both ends of the shaft 24a of the blade 24. As shown in FIG. 4, the support part 26 includes a lower support 27 having a groove 27a provided upward to support the shaft 24a of the blade 24, and one end of the lower support 27. It can be configured to include a latch 28 which is rotatable about and can rotatably fix the shaft (24a).

After mounting the shaft 24a of the blade 24 in the groove 27a of the lower support 27 constituting the support 26, the latch 28 in the direction A, as shown in FIG. After rotation and fixation, the blade 24 is not detached from the support part 26. Then, after the latch 28 is released and rotated in the B direction, the blade 24 can be removed from the support part 26.

Then, a blade 24 is rotatably fixed to the support 26. The blade 24 is rotated, so that the material is cut by the blade spaced at regular intervals, it can be configured as follows.

As shown in FIG. 5, the blade 24 includes a shaft 24a forming a rotating shaft, a plurality of blades 24b fastened to the shaft 24a to form a circular ring shape, and the shaft. It may be configured to include a spacer (24c) coupled to the (24a) for supporting each of the blades (24b) to be positioned at regular intervals.

First, the shaft 24a is formed in a long cylindrical bar shape, and both ends thereof are seated on the support 26 to be rotatable. The shaft 24a is configured to insert the blade 24b, as shown in FIG.

That is, the blade 24b is provided with a through hole 24b 'corresponding to the cross section of the shaft 24a, and is configured to be coupled to the shaft 24a. Of course, the shaft 24a and the blade 24b may be configured such that protrusions (not shown) and grooves (not shown) are engaged with each other so that they do not turn against each other.

Spacers 24c are provided to maintain the plurality of blades 24b at regular intervals. As shown in FIG. 5, the spacer 24c has a cylindrical structure that can be fitted to the shaft 24a. However, the diameter of the spacer 24c is smaller than the diameter of the blade 24b.

In addition, a pad 24d may be further provided on the spacer 24c. As shown in FIG. 5, the pad 24d covers an outer surface of the spacer 24c to prevent static electricity and material damage caused by contact between the material and the spacer 24c. . The spacer 24c may be formed of a silicon material or a rubber material for shock absorption and antistatic. That is, the pad 24d also serves to absorb and protect a part when a component or the like is mounted on the material to be cut.

In addition, the interlocking gear 25 is provided in the blade 24 of the lower blade portion 20. The interlocking gear 25 meshes with a driven gear 18 driven by the motor 12 to transmit power to rotate the blade 24.

In addition, the lower blade portion 20 may be further provided with a guide roller 29. As shown in FIG. 4, the lower blade portion 20 is positioned before the material is guided to the lower blade portion 20, and the guide roller 39 provided in the upper blade portion 30 to be described below. ) In pairs to guide the material to be cut. An elastic pad (not shown) may be further provided on the outer surface of the guide roller 29.

As shown in FIG. 4, the guide roller 29 is provided with an interlocking gear 29a. The interlocking gear 29a meshes with the driven gear 18 driven by the motor 12 to transmit power to rotate the guide roller 29.

And, the upper blade portion 30 is provided on the upper portion of the lower blade portion 20. The upper blade portion 30, as shown in Figure 7, the basic configuration is the same as the lower blade portion 20 described above.

However, the difference between the lower blade portion 20, the guide roller 39 and the blade 34 of the upper blade portion 30 is not provided with a driven gear. That is, the interlocking gears 25 and 29a provided in the guide roller 29 and the blade 24 of the lower blade portion 20 are engaged with the driven gear 18 which rotates according to the driving of the motor 12. Is transmitted and rotated, but the guide roller 39 and the blade 34 of the upper blade portion 30 is configured to rotate in contact with the guide roller 39 and the blade 34 of the lower blade portion 30. do.

On the other hand, the upper blade portion 30 may be configured to be separated into the guide roller portion 30a and the blade portion 30b, as shown in FIG. This is because the upper blade portion 30 and the lower blade portion 20 is the material is introduced into the cutting process of the foreign material in the process of cutting and the portion that the failure occurs in the blades (24, 34) because the upper blade portion This is to make it possible to separate only the blade portion 30b of (30).

That is, the input roller portion 30a of the upper blade portion 30 is to be separated from the blade portion 30b of the upper blade portion 30 in a state that is coupled to the upper surface of the lower blade portion 20.

In addition, the upper blade portion 30 is provided with a space adjusting screw 60 to fix the upper blade portion 30 to the lower blade portion 20. The gap adjusting screw 60 is fixed to the frame 22 of the lower blade portion 20 through the frame 32 of the upper blade portion 30, as shown in Figure 2, the upper blade It also serves to adjust the gap between the portion 30 and the lower blade portion 20.

The discharge guide 42 is provided with a curl prevention part 62. The curling prevention part 62 prevents the material passing through the blades 24 and 34 from being attached to the blades 24 and 34 due to static electricity or the like so as not to be moved to the discharge guide 42.

As shown in FIG. 2, the curl prevention part 62 is provided in a plate shape between the blades 24 and 34 and the discharge guide 42 so that one end thereof is adjacent to the blades 24 and 34. The other end is installed to contact the discharge guide 42 to prevent the material from being rolled along the blades 24 and 34 and to guide the discharge guide 42 to the discharge guide 42 again.

As shown in FIG. 2, the curl prevention part 62 is prevented from being caught in both the blade 24 of the lower blade part 20 and the blade 34 of the upper blade part 30. Formed in pairs, the anti-rolling portion 62a of the blade 24 of the lower blade portion 20 is one end is positioned adjacent to the lower blade portion 20, the blade of the upper blade portion (30) The anti-rolling portion 62b of 34 may have one end thereof adjacent to the upper blade portion 30.

Hereinafter, the operation of the cutting device according to the present invention having the configuration as described above in detail.

First, when the blades 24 and 34 of the cutting device are installed, the spacers 24c and 34c are selected according to the size of the material to be cut. 5 and 7, the shaft 24b is coupled to the shaft 24a in the order of the blades 24b, the spacers 24c, the blades 24b, the spacers 24c, and the like.

When the blade 24 is completed by the method described above, the blade 24 is installed on the frame 22 of the lower blade portion 20. In particular, both ends of the shaft 24a of the blade 24 are inserted into the grooves 27a of the support part 26 of the frame 22, and the latch 28 is rotated and fixed in the A direction.

Then, the lower blade portion 20 is installed in the body portion 10. Of course, after fixing the frame 22 of the lower blade portion 20 to the body portion 10, the blade 24 may be provided on the support portion 26. In addition, when installing the lower blade portion 20, the interlocking gears (29a, 25) of the guide roller 29 and the blade 24 provided on the lower blade portion 20 is provided in the body portion 10 Install to engage driven gear (18).

When the installation of the lower blade portion 20 is completed, the upper blade portion 30 is installed. The blade 34 is installed on the frame 32 of the upper blade part 30. After the shaft 34a of the blade 34 is inserted into the groove 37a of the support part 36 provided in the frame 32, the latch 38 is rotated in the A direction to fix the latch 38.

As described above, when the upper blade portion 30 is completed, the upper blade portion 30 is seated above the lower blade portion 20. At this time, the space adjusting screw 60 is accurately positioned so as to penetrate the upper blade portion 30 and inserted into the lower blade portion 20. Of course, after fixing the frame 32 of the upper blade portion 30 above the lower blade portion 20, the blade 34 of the upper blade portion 30 may be provided.

As described above, when the cutting device of the present invention is completed, the cutting device is operated to cut the material. Hereinafter, the operation of the cutting device of the present invention will be described in detail.

One end of the material on the plate is seated in the inlet guide 40, and then pushed so that the one end contacts the guide rollers 39 and 29 of the upper blade part 30 and the lower blade part 20. .

At this time, in consideration of the size of the material, it is possible to adjust the interval of the guide bar (40a) of the inlet guide 40 so as to stably guide to the inlet guide (40). Rotating the width adjustment screw 44, the spacing of the guide bar (40a) of the inlet guide 40. At this time, the width adjustment screw 44 is connected to the link portion 50 is also adjusted the interval of the guide bar (42a) of the outflow guide 42.

When the material contacts the guide rollers 29 and 39 of the upper blade portion 30 and the lower blade portion 20, power is applied to the cutting device of the present invention to drive the motor 12. When the motor 12 is driven, the drive gear 14 of the motor 12 rotates, and the driven gear 18 interlocked therewith, the guide roller 29 and the blade of the lower blade portion 20 rotates. Rotate (24).

At this time, the guide roller 39 and the blade 34 of the upper blade portion 30 in contact with the guide roller 29 and the blade 24 of the lower blade portion 20 are also rotated. Then, the material is guided between the pair of guide rollers 29 and 39 and guided to the pair of blades 24 and 34.

As the material flows between the pair of blades 24, 34, the material is cut by the blades 24b, 34b spaced by the spacers 24c, 34c. The cut material is guided to the discharge guide 42.

At this time, the material which is not discharged to the discharge guide 42, but is attached to the blades (24, 34) and flows is separated from the blades (24, 34) by the curl prevention portion 62 to the discharge guide 42 You are guided.

On the other hand, if the thickness of the plate-like material to be cut is different, by rotating the interval adjusting screw 60 provided in the upper blade portion 30, the gap between the upper blade portion 30 and the lower blade portion 20 Can be adjusted That is, the interval between the blade 34 of the upper blade portion 30 and the blade 24 of the lower blade portion 20 is adjusted by the spacing adjusting screw 60.

Then, in the process of cutting the material, when the foreign material and the like caught between the upper blade portion 30 and the lower blade portion 20 to stop the operation, first cut off the power applied to the device, Loosen the gap adjusting screw 60, so that the upper blade portion 30 is completely spaced from the lower blade portion (20).

Then, the foreign matters caught on the blade 24 of the lower blade portion 20 can be easily removed. Of course, only the blade portion 30b from the upper blade portion 30 can be easily removed by removing the foreign matter.

More simply, the latch 38 is released from the support 36 supporting the shaft 34a of the blade 34 of the upper blade portion 30, and the latch 38 is rotated in the B direction. In addition, the blade 34 may be removed to remove foreign substances caught between the blade 34 of the upper blade part 30 and the blade 24 of the lower blade part 20.

On the other hand, if the cutting size of the material must be changed during the operation, the gap adjusting screw 60 is released to remove from the cutting device. Then, the latch 38 is released from the upper blade portion 30 and rotated in the B direction to remove the blade 34.

Then, the latch 28 is released from the lower blade portion 20 and rotated in the B direction to remove the blade 24. After removing the blades 24b and 34b and the spacers 24c and 34c from the blades 24 and 34 removed from the upper blade portion 30 and the lower blade portion 20, the blades are cut to fit the cutting size. Replace with spacers 24c and 34c in which 24b and 34b are located and refit.

When the blades 24 and 34 are completed, the blades are installed on the upper blade portion 20 and the lower blade portion 30 to cut the material while repeating the above-described process.

Then, when the material to be cut is wound on the roll 70 and continuously introduced, the process is performed in the same manner as the above-described process to cut the material and to wind the cut material on another roll again. It can be done continuously.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self-evident.

1 is a perspective view showing a cutting device according to the prior art.

Figure 2 is a side cross-sectional view showing the configuration of a cutting device according to the present invention.

3 is a plan view showing the configuration of a cutting device according to the present invention.

Figure 4 is a block diagram showing the configuration of the lower blade portion constituting the cutting device of FIG.

5 is an exploded view showing the configuration of the blade constituting the lower blade portion constituting FIG.

Figure 6 is a block diagram showing the configuration of the upper blade portion constituting the cutting device of FIG.

Figure 7 is an exploded view showing the configuration of the blade constituting the upper blade portion constituting FIG.

Explanation of symbols on the main parts of the drawings

10: body 12: motor

14: Drive Gear 16: Chain

18: driven gear 20: lower blade portion

22: frame 24: blade

25: interlocking gear 26: support part

28: Latch 29: Guide Roller

30: upper blade portion 32: frame

34: blade 36: support

38: latch 39: guide roller

40: inflow guide 42: discharge guide

44: Width adjusting screw 50: Link part

52: first link 54: second link

60: spacing adjustment screw 62: curl prevention part

Claims (5)

Body portion; A lower blade portion rotating by receiving power from the motor of the body portion; An upper blade portion provided above the lower blade portion to rotate in engagement with the lower blade portion; And, The upper blade portion is a cutting device configured to include; spacing adjusting screw to adjust the distance to the lower blade portion. The method of claim 1, The upper blade portion and the lower blade portion, A frame forming the body of the blade portion; A blade rotatably supported by the frame; And, Is coupled to the frame, the support device for supporting both ends of the blade; cutting device comprising a. 3. The method of claim 2, The blade is, A shaft forming a rotating shaft; A plurality of blades fastened to the shaft and formed in a circular ring shape; And, And a spacer coupled to the shaft, the spacer supporting the gap between the respective blades. The method of claim 3, wherein The support portion, A lower support provided with a groove upwards to support the shaft; And a latch rotatable about one end of the lower support, the latch being rotatably fixed to the shaft. 3. The method of claim 2, The upper blade portion and the lower blade portion Cutting device characterized in that it is further provided with a guide roller for rotating in contact with the pair up and down so that the material is guided to the pair of blades.

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