KR100894847B1 - Machine for processing lower side of metal plate and apparatus adopting the same - Google Patents

Abstract

The present invention relates to a metal sheet double-sided processing apparatus, the input unit for supplying a metal sheet; An upper surface processing machine for plane-cutting the upper surface of the metal sheet material to be injected; A lower surface processing machine for performing a plane cutting process on the lower surface of the metal sheet material; A transfer part for moving the metal plate between the upper surface machine and the lower surface machine; And a discharge part through which the processed metal plate material is discharged. A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; And a conveyor height adjusting means for elevating the upper conveyor up and down, so that two surfaces of the metal sheets facing each other can be continuously processed without inverting the metal sheets.

Metal, cutting, milling, cutter, duplex

Description

Machine for processing lower side of metal plate and apparatus adopting the same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal sheet processing apparatus, and more particularly, to a metal sheet double-side processing apparatus capable of continuously cutting the upper and lower surfaces of a metal sheet without inverting or separately moving the metal sheet.

In general, the metal sheet is cut in a fixed state by a fixing means including a vise. The present applicant has disclosed a milling machine in which a plane processing is carried out while transferring a metal sheet using a magnetic belt conveyor in Utility Model Registration No. 296088.

Such a conventional milling machine is to process only one surface of the metal plate, that is, the upper surface, so if you want to process both sides of the metal plate, that is, the upper and lower surfaces, first put the metal plate into the milling machine to process the upper surface first Next, the metal sheet was turned over and put again in the same apparatus, and the other side (lower surface) was processed. Accordingly, since the metal plate has to be turned upside down, not only is it very inconvenient, but also the work time is long and the manpower administered is increased, resulting in a drop in productivity. Moreover, due to the load of the metal sheet, not only is it not easy to turn over, but also there is a risk of causing a safety accident.

Accordingly, an object of the present invention is to provide a metal sheet lower surface processing machine that can be produced to improve the problems described above, and can process the lower surface of the metal sheet which is put in a normal state.

Still another object of the present invention is to provide a metal sheet double-sided processing apparatus capable of continuously processing both the upper and lower sides without inverting the metal plate by employing such a metal plate lower surface processing machine.

In order to achieve the above object, the metal sheet lower surface processing machine according to the present invention, the base for supporting the lower surface of the metal sheet material is injected; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; An upper conveyor driver for driving the upper conveyor; And a conveyor height adjusting means for elevating the upper conveyor up and down.

Preferably, the conveyor height adjusting means, the screw nut coupled to the conveyor support to which the upper conveyor is coupled, the screw nut is formed in the vertical direction; A ball screw having a screw portion coupled to the screw portion of the screw nut portion; And a ball screw driver for axially rotating the ball screw.

According to another embodiment of the present invention, the base for supporting the lower surface of the metal plate is injected; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; An upper conveyor driver for driving the upper conveyor; And a lower surface cutter height adjusting means for elevating the lower surface cutter up and down.

Preferably, further comprises a tension control means for adjusting the tension of the upper conveyor.

In addition, the upper conveyor includes a driving pulley and a driven pulley, wherein the driven pulley is installed to be movable, the tension control means, the end is a cylinder including a cylinder rod coupled to the driven pulley, the cylinder By controlling the width of the drive pulley and the driven pulley by the drive of the upper conveyor can be configured to adjust the tension.

More preferably, it may further include a magnetic body for supporting the metal sheet by magnetic force.

According to another aspect of the invention, the input unit for supplying a metal sheet; An upper surface processing machine for plane-cutting the upper surface of the metal sheet material to be injected; A lower surface processing machine for performing a plane cutting process on the lower surface of the metal sheet material; A transfer part for moving the metal plate between the upper surface machine and the lower surface machine; And a discharge part through which the processed metal plate material is discharged. A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the cutter to contact the upper surface of the metal plate to transfer the metal plate; And a conveyor height adjusting means for elevating the upper conveyor up and down.

According to another aspect of the invention, the input unit for supplying a metal sheet; An upper surface processing machine for plane-cutting the upper surface of the metal sheet material to be injected; A lower surface processing machine for performing a plane cutting process on the lower surface of the metal sheet material; A transfer part for moving the metal plate between the upper surface machine and the lower surface machine; And a discharge part through which the processed metal plate material is discharged. A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; And a lower surface cutter height adjusting means for elevating the lower surface cutter up and down.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the metal sheet double-side processing apparatus according to the present invention. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

As described above, according to the metal sheet double-sided processing apparatus according to the present invention, the upper and lower surfaces can be processed without inverting the metal sheet, thereby reducing the manpower and increasing productivity by a continuous process, in particular, the metal sheet. In the case of the lower surface processing, the processed chips fall by their own weight to prevent defects caused by the chips, and there is an effect of quickly finishing the processing process without removing the chips.

Figure 1 schematically shows the overall configuration of the metal sheet double-side processing apparatus according to a preferred embodiment of the present invention.

Referring to the drawings, the metal sheet double-sided processing apparatus according to a preferred embodiment of the present invention, the input portion 400 for supplying the metal plate material 1 as the workpiece, the upper and lower surfaces of the metal plate material 1 is introduced The upper surface processing machine 200 and the lower surface processing machine 100, the transfer unit 300 for moving the metal sheet material 1 between the upper surface processing machine 200 and the lower surface processing machine 100, and the processed metal plate material, respectively, are processed by plane cutting. And a discharge part 500 through which (1) is discharged.

The metal plate 1 to be processed is introduced into the upper surface processing machine 200 from the input unit 400, and the metal plate 1 processed by the upper surface processing machine 200 passes through the transfer unit 300, and then the lower surface processing machine 100. The metal plate 1 processed in the lower surface processing machine 100 is finally discharged to the discharge part 500.

The input unit 400 may be configured to include a conventional configuration such as a feed roller (not shown) for transferring the metal sheet 1 as the metal sheet 1 is introduced.

The upper surface processing machine 200 is to cut the upper surface of the metal sheet material 1 is put into the plane, the upper surface cutter 210 for abutting the upper surface of the metal plate material 1 and the surface of the metal plate material 1, the lower surface of the metal plate material 1 In contact with the lower conveyor 220 for transporting while supporting the metal plate 1, the lower conveyor drive unit 230 for driving the lower conveyor 220, and the lower conveyor 220 to move in an infinitely orbital manner. And a supporting lower conveyor support 240.

The upper surface cutter 210 is provided in the state coupled to be lifted by the lifting means at a predetermined interval on the upper portion of the lower conveyor 220. The upper surface cutter 210 is a plane cutting the upper surface of the metal plate 1 while being rotated by the drive motor, the configuration is the same as the contents disclosed in the Utility Model Registration No. 0296088 of the present applicant is to be referred to herein .

Preferably, the elevating means includes a sensing unit (not shown) for sensing the vertical height of the upper surface cutter, and a driving unit (not shown) for moving the upper surface cutter up and down to operate the upper surface cutter according to a user's operation. It moves up and down to adjust the cutting thickness of the metal sheet.

In addition, it is preferable to remove the chips or foreign substances generated during the cutting of the metal plate 1 by providing the brush 250 in contact with the outer surface of the lower conveyor 220.

The upper surface processing machine as described above may be easily implemented by employing a technique used in a conventional milling machine, and a detailed description thereof will be omitted.

The transfer part 300 guides to the processing machine 100 when the metal plate 1 processed and discharged from the upper surface processing machine 200 is discharged. The transfer unit 300 may be variously configured by a conventional configuration employing a transfer roller. In addition, the transfer part 300 itself may be actively driven by employing a drive motor, or alternatively, the metal plate 1 may be configured to slide and be transported by simply providing a roller. In the latter case, the driving force for conveying the metal sheet 1 will be obtained from the conveyor.

The discharge part 500 supports and transports the metal plate 1 processed and discharged from the lower surface processing machine 100, which may be variously configured by a known technology, and thus a detailed description thereof will be omitted.

According to the present embodiment, the upper surface processing machine is illustrated as being disposed in preference to the lower surface processing machine in the process, but is not limited thereto, and the lower surface processing machine may be disposed in preference to the upper surface processing machine.

The lower surface processing machine 100 is a planar cutting of the lower surface of the metal plate 1, the configuration of the preferred embodiment is shown in detail in FIGS.

Referring to the drawings, the lower surface processing machine 100 according to a preferred embodiment of the present invention, the base 110 constituting the main body, the lower surface cutter 120 for plane cutting the lower surface of the metal plate 1, and the metal And an upper conveyor 131 for transferring the metal sheet 1 while being in contact with the upper surface of the sheet 1.

The upper surface of the base 110 is supplied with a metal plate material 1 to be processed, and a plurality of support rollers (111 in FIG. 2) are provided to support the lower surface of the metal plate material 1 to be supplied.

The lower surface cutter 120 includes a plurality of cutting blades and cuts the lower surface of the metal plate 1 while rotating by receiving rotational force from the driving motor 121.

The upper conveyor 131 is provided to be spaced apart from the upper portion of the lower cutter 120 by a predetermined interval and is coupled to the upper conveyor driver 132 and configured to travel in a caterpillar manner.

The upper conveyor driver 132 is rotatably coupled to the upper conveyor support 133 and includes a drive pulley and a driven pulley for supporting the upper conveyor 131 to be driven, and a drive motor for rotating the drive pulley.

According to the present invention, the upper conveyor 131 can be lifted up and down by the conveyor height adjusting means according to the thickness of the metal plate 1 is injected. The conveyor height adjusting means is shown in more detail in FIG.

As shown, the conveyor height adjusting means, the screw nut portion 141 is coupled to the upper conveyor support 133, the screw portion is formed in the vertical direction, the screw portion coupled to the screw portion of the screw nut portion 141 And a ball screw drive unit including a formed ball screw 142 and a motor for axially rotating the ball screw 142.

The screw nut part 141 is provided to be slidable up and down on the base 110 by a guide not shown, and is screwed to the ball screw 142. Therefore, when the ball screw 142 is driven by the ball screw drive unit, the screw nut unit 141 is elevated by screwing.

As shown in FIG. 6, the ball screw driving unit includes a driving motor 143a for transmitting rotational force to the ball screw 142 through the driving belt 143b and a driven pulley provided on the shaft of the ball screw 142 ( 143c), and an idle pulley 143d for supporting the drive belt 143b.

Preferably, the screw nut 141 and the ball screw 142 is provided with a pair at predetermined intervals to stably lift the upper conveyor support 133. A driven pulley 143c is provided on the axis of each ball screw 142, and a pair of driven pulleys 143c are driven simultaneously by one driving motor 143a and a driving belt 143b.

Although the conveyor height adjusting means has been described and illustrated in detail with reference to the present embodiment and the drawings, the present invention is not limited thereto, and various conventional configurations may be used to raise and lower the upper conveyor to adjust the height of the upper conveyor. It should be understood as possible.

As described above, as the upper conveyor support 133 moves up and down by the height adjusting means, the upper conveyor 131 is raised and lowered to suit the thickness of the metal sheet 1 so that the upper surface of the metal sheet 1 is properly contacted. Can be.

Although not shown in detail in the drawings, according to another embodiment of the present invention, instead of the upper conveyor height adjusting means, the lower surface cutter height adjusting means for elevating the lower surface cutter itself to adjust the height of the lower surface cutter 120 May be employed. In this case, not only the lower surface cutter 120 but also the driving motor 121 for driving the lower surface cutter and the supporting roller 111 for supporting the metal sheet 1 by the lower cutter height adjusting means must be elevated together. The lower surface of the cutter height adjusting means may be configured to be substantially the same as the above-described conveyor height adjusting means, and those skilled in the art may easily derive from the conveyor height adjusting means.

More preferably, the upper conveyor support 133 may be provided with a magnetic material (not shown) so as to support the metal plate 1 by magnetic force, and the configuration of the magnetic material is the applicant's utility model registration 0296088. Disclosed in the specification, and incorporated herein by reference. Specifically, the magnetic material is composed of an electromagnet to generate a magnetic force in accordance with the application of power to draw the metal plate 1 toward the upper conveyor 131 to be in close contact. Accordingly, the metal plate 1 can be more stably transported by the upper conveyor 131.

According to a preferred embodiment of the present invention, the metal plate lower surface processing machine 100 may further include balancing means for assisting the driving force required when the upper conveyor support 133 is raised by the conveyor height adjusting means. The balancing means may include various configurations for biasing the upper conveyor support 133 upwards. For example, one end of the chain 151 connected to the upper conveyor support 133 may support the chain 151. A pulley sprocket 152, and a load body 153 coupled to the other end of the chain 151 while being suspended.

The balancing means supports the upper conveyor support 133 in the principle of the pulley and pulls upwards so that the conveyor support 133 can be lifted with only a small force when the conveyor support 133 is raised by the conveyor height adjusting means as described above.

By employing such a balancing means it is possible to move the upper conveyor support 133 even with a small force to facilitate the operation of the ball screw 142 and to prevent excessive load is applied to the ball screw drive unit. In particular, it is possible to operate the device at low power since excessive power of the ball screw drive unit is unnecessary.

It is to be understood that the balancing means is not limited by the specific configuration of this embodiment, and any configuration that can be biased to assist the lifting force of the upper conveyor support 133 can be employed.

The lower surface of the metal sheet processing machine according to a preferred embodiment of the present invention further includes tension adjusting means for adjusting the tension of the upper conveyor 131, the configuration of the tension adjusting means is shown in Figures 8 to 10.

Referring to the drawings, the tension control means is provided on one side of the upper conveyor support 133 is a cylinder 161 for moving the driven pulley 132a of the conveyor drive unit 132, the cylinder 161 is the end portion And a cylinder rod 162 coupled to the driven pulley 132a of the upper conveyor driver 132.

According to this embodiment, the drive pulley 132b of the upper conveyor drive unit 132 is fixed in position, while the driven pulley 132a is installed to be coupled to the cylinder rod 162 to move.

Accordingly, as shown in FIG. 10, when the cylinder rod 162 is moved forward by driving the cylinder, the width between the driving pulley 132b and the driven pulley 132a increases while the driven pulley 132a moves. As the upper conveyor 131 is taut, the tension can be adjusted. As such, when the tension of the upper conveyor 131 is adjusted, the replacement operation of the upper conveyor 131 may be easily performed.

On the other hand, as shown in Figure 1 and 2, it is preferable to remove the chips or foreign substances generated during the cutting of the metal plate 1 by providing a brush 170 in contact with the outer surface of the upper conveyor 131. .

Then, a process of processing both sides of the metal plate by the metal plate double-sided processing apparatus employing a bottom surface processing machine having the above-described configuration will be described.

Referring to FIG. 1, the metal plate 1, which is a workpiece, is first introduced into the upper surface processing machine 200 through the input unit 400. Then, the upper surface of the metal plate 1 is transported while the lower surface thereof is supported on the lower conveyor 220 of the upper surface processing machine 200, and the upper surface is plane cut by the upper surface cutter 210. At this time, by raising and lowering the upper surface cutter by the elevating means, the distance between the upper surface cutter and the lower conveyor can be appropriately adjusted to correspond to the thickness of the metal plate 1.

Subsequently, the metal plate 1 having the upper surface processed is guided and transported to the lower surface processing machine 100 through the transfer unit 300.

In the lower surface processing machine 100, the upper surface of the metal sheet material 1 introduced is in contact with the upper conveyor 131, and the lower surface is transported while being supported by the support roller (111 in FIG. 2), and is lowered by the lower surface cutter 120. The lower surface is cut flat. At this time, the distance between the lower surface cutter and the upper conveyor can be appropriately adjusted by the conveyor height adjusting means as described above. When cutting the metal plate 1 by the lower surface processing machine 100, the chip generated by the cutting automatically falls downward due to its own weight, and thus it is not necessary to separately provide an air spray means for removing the chip as in the prior art. .

Finally, the metal plate 1 having the bottom surface processed by the bottom surface processing machine 100 is discharged through the discharge part 500.

1 is a side view showing a metal sheet double-sided processing apparatus according to a preferred embodiment of the present invention.

Figure 2 is a front view showing the configuration of a metal sheet lower surface processing machine according to a preferred embodiment of the present invention.

3 is a plan view of the metal sheet lower surface processing machine of FIG.

4 is a side cross-sectional view taken along the line A-A of FIG.

Figure 5 is a side view schematically showing the configuration of the conveyor height adjusting means of the metal plate lower surface processing machine according to an embodiment of the present invention.

FIG. 6 is a schematic plan view of a driving unit of the conveyor height adjusting unit illustrated in FIG. 5.

7 is a view showing an operating state of the conveyor height adjusting means in FIG.

Figure 8 is a schematic plan view showing the configuration of the conveyor tension adjusting means of the metal sheet lower surface processing machine according to an embodiment of the present invention.

9 is a front view showing a schematic configuration of the tension adjusting means shown in FIG.

10 is a side view showing an operating state of the height adjustment means shown in FIG.

※ Explanation of code about main part of drawing ※

100: lower surface processing machine 110: base

120: lower surface cutter 131: upper conveyor

132: upper conveyor drive unit 133: upper conveyor support

141: screw nut 142: ball screw

143a: drive motor 143b: drive belt

143c: driven pulley 143d: idle pulley

151: chain 152: pulley sprocket

153: load body 161: cylinder body

162: cylinder rod 170: brush

200: upper surface processing machine 210: upper surface cutter

220: lower conveyor 230: lower conveyor

240: lower conveyor support 250: brush

300: transfer unit 400: input unit

500: discharge part

Claims (8)

A base on which the metal sheet to be processed is supplied; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; An upper conveyor driver for driving the upper conveyor; And And a conveyor height adjusting means for elevating the upper conveyor up and down. The method of claim 1, The conveyor height adjusting means, A screw nut portion coupled to a conveyor support to which the upper conveyor is coupled and having a screw portion in a vertical direction; A ball screw having a screw portion coupled to the screw portion of the screw nut portion; And And a ball screw driving part configured to axially rotate the ball screw. A base on which the metal sheet to be processed is supplied; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; An upper conveyor driver for driving the upper conveyor; And And a lower cutter height adjusting means for elevating the lower cutter up and down. The method according to any one of claims 1 to 3, And a tension adjusting means for adjusting the tension of the upper conveyor. The method of claim 4, wherein A drive pulley and a driven pulley to which the upper conveyor is coupled, wherein the driven pulley is installed to be movable; The tension control means is a cylinder including a cylinder rod end portion coupled to the driven pulley, The lower surface of the metal sheet processing machine, characterized in that the tension of the upper conveyor is adjusted by adjusting the width between the drive pulley and the driven pulley by the drive of the cylinder. The method according to any one of claims 1 to 3, The metal sheet lower surface processing machine further comprises an electromagnet which pulls the metal sheet toward the upper conveyor in close contact with power. An input unit for supplying a metal sheet; An upper surface processing machine for plane-cutting the upper surface of the metal sheet material to be injected; A lower surface processing machine for performing a plane cutting process on the lower surface of the metal sheet material; A transfer part for moving the metal plate between the upper surface machine and the lower surface machine; And And a discharge part through which the processed metal sheet is discharged. The lower surface processing machine, A base on which the metal sheet to be processed is supplied; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; And Metal plate double-sided processing apparatus comprising a; height adjusting means for lifting the upper conveyor up and down. An input unit for supplying a metal sheet; An upper surface processing machine for plane-cutting the upper surface of the metal sheet material to be injected; A lower surface processing machine for performing a plane cutting process on the lower surface of the metal sheet material; A transfer part for moving the metal plate between the upper surface machine and the lower surface machine; And And a discharge part through which the processed metal sheet is discharged. The lower surface processing machine, A base on which the metal sheet to be processed is supplied; A lower surface cutter installed at the base and performing a plane cutting process on the lower surface of the metal plate; An upper conveyor installed at an upper portion of the lower cutter to contact the upper surface of the metal plate to transfer the metal plate; And And a lower surface cutter height adjusting means for elevating the lower surface cutter up and down.

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